La Paz Transportation Planning Study Final Report June 2010 ACKNOWLEDGMENTS The La Paz Transportation Planning Study was funded by the Planning Assistance for Rural Areas Program sponsored by the Arizona Department of Transportation Multimodal Planning Division and was jointly conducted by ADOT, La Paz County, Town of Quartzsite, Town of Parker, and the Colorado River Indian Tribes. Lima & Associates wishes to thank the following for their assistance in the conduct of this Study: The Honorable Walt Akin, Former Mayor, Town of Quartzsite Brian Babiars, Acting Director, Western AZ Council of Governments Donna Baker, NPG Cable Michele E. Beggs, Public Information Officer, Kingman District, ADOT Scott Bernhart, Community Development Manager, La Paz County Emmett Brinkerhoff, Public Works Director, Town of Quartzsite Ellen Carr, Logan Simpson Design Tanya L. Cecil, General Manager, Arizona & California Railroad Aaron Curtis, Yuma Field Office, US Bureau of Land Management James D. Downing, P.E., President, Harcuvar Company Rich Ench, Tribal Planner, Colorado River Indian Tribes Lee Eseman, Western Regional Manager, Arizona State Parks Justin Feek, Project Manager, ADOT Charlene FitzGerald, Former Project Manager, ADOT Robert Flanders, Quartzsite Maintenance, ADOT Gregory Fisher, Planner I - Interim TERO Director, CRIT Guy Gorman, Community Economic Director, Town of Parker Melanie Headstream, Planner III, Arizona State Land Department Sergeant Chad Hinderliter, Arizona Department of Public Safety Mark Hoffman, Transit Planner, ADOT Robert K. Holt, P.E., The Holt Group Tish Hunter, Environmental Planning Specialist, ADOT The Honorable Wes Huntley, Mayor, Town of Quartzsite Michael Jones, Assistant Yuma District Engineer, ADOT Joan-Marie King, Planner, La Paz County Bill Knowles, Arizona Game & Fish Department Barbara Martin, The Holt Group Paul Patane, Yuma District Engineer, ADOT Deanna Pfleger, Arizona Game & Fish Department Jerry Rather, Park Manager, Buckskin Mountain State Park Dennis Shrewsbury, Administrative Sergeant, Town of Parker Police Department Tom Simmons, Public Works Director, La Paz County Ted Swendra, Avi Suquilla Airport Manager, CRIT Ms. Alex Taft, Manager, Town of Quartzsite Gina Trafton, Lake Havasu Field Office, US Bureau of Land Management James Zumpf, Sr. Transportation Planner, ADOT TABLE OF CONTENTS Page 1. INTRODUCTION ..................................................................................... 1 PURPOSE ................................................................................................ 1 BACKGROUND ........................................................................................ 1 STUDY PROCESS ..................................................................................... 3 AGENCY COORDINATION AND PUBLIC INVOLVEMENT .............................. 4 ORGANIZATION OF REPORT ..................................................................... 6 2. PREVIOUS STUDIES AND PLANS .............................................................. 7 REVIEW OF PREVIOUS STUDIES AND PLANS .............................................. 7 STATEWIDE, REGIONAL, LOCAL TRANSPORTATION PROGRAMS ................ 14 3. CURRENT CONDITIONS ......................................................................... 19 SOCIOECONOMIC ENVIRONMENT ............................................................ 19 POPULATION ......................................................................................... 22 EMPLOYMENT ....................................................................................... 24 LAND USE ............................................................................................. 25 PHYSICAL, NATURAL, AND CULTURAL RESOURCES ................................. 29 CURRENT ROAD CONDITIONS ................................................................. 35 CURRENT INFRASTRUCTURE CONDITIONS ............................................... 42 CURRENT TRAFFIC AND SAFETY CONDITIONS ......................................... 48 CURRENT MULTIMODAL CONDITIONS ..................................................... 63 TRANSIT AND INTERCITY BUS SERVICES ................................................. 64 AVIATION ............................................................................................. 66 TRUCK FREIGHT .................................................................................... 66 BICYCLE FACILITIES .............................................................................. 66 4. FUTURE CONDITIONS............................................................................ 72 FUTURE SOCIOEONOMIC CONDIITIONS .................................................... 72 FUTURE ROAD AND TRAFFIC CONDITIONS............................................... 86 HIGHWAY-RAIL CROSSINGS .................................................................... 97 SUMMARY OF ROAD DEFICIENCIES AND POTENTIAL NEEDS ..................... 99 FUTURE MULTIMODAL CONDITIONS ..................................................... 104 FUTURE FREIGHT CONDITIONS ............................................................. 112 5. MULTIMODAL TRANSPORTATION PLAN .............................................. 115 TRANSPORTATION VISION .................................................................... 115 ALTERNATIVE ROAD NETWORK ANALYSIS ............................................ 115 RECOMMENDED ROAD PLAN ................................................................ 133 ROAD DESIGN AND ACCESS CRITERIA ................................................... 139 RECOMMENDED MULTIMODAL ELEMENT ............................................. 146 RECOMMENDED FREIGHT ELEMENT ..................................................... 161 i TABLE OF CONTENTS (Continued) Page 6. IMPLEMENTATION.............................................................................. 166 CHALLENGES TO IMPLEMENTATION ..................................................... 166 IMPLEMENTATION STRATEGIES ............................................................ 166 FUNDING SOURCES .............................................................................. 172 ENVIRONMENTAL JUSTICE CONSIDERATIONS ........................................ 179 ENVIRONMENTAL IMPACTS .................................................................. 179 REFERENCES .......................................................................................... 181 ii LIST OF TABLES Page 1-1. COORDINATION, COOPERATION & COMMUNICATION ACTIVITIES ............ 4 1-2. TECHNICAL ADVISORY COMMITTEE ...................................................... 5 1-3. STAKEHOLDER INTERVIEWEES ............................................................. 5 2-1. SUMMARY OF STUDIES AND PLANS ....................................................... 7 2-2. LA PAZ COUNTY TRANSPORTATION INVESTMENT STRATEGY ................ 15 2-3. ADOT FIVE-YEAR TRANSPORTATION FACILITIES CONSTRUCTION PROGRAM, LA PAZ COUNTY FY 2010 – FY 2014....................................... 16 2-4. AMERICAN RECOVERY AND REINVESTMENT ACT PRIORITIZED LIST OF PROJECTS, LA PAZ COUNTY ................................. 16 2-5. WESTERN ARIZONA ASSOCIATION OF GOVERNMENTS TRANSPORTATION PROGRAM, LA PAZ COUNTY ................................................................ 16 2-6. ADOT YUMA DISTRICT PROJECTS AND STUDIES .................................... 17 2-7. ADOT AVI SUQUILLA AIRPORT PROGRAMMED PROJECTS ....................... 18 3-1. YEAR 2000 POPULATION AND DWELLING UNITS .................................... 22 3-2. CHANGES IN POPULATION ................................................................... 23 3-3. DEMOGRAPHIC SUMMARY................................................................... 23 3-4. 2008 EMPLOYEES BY AREA, LA PAZ COUNTY......................................... 24 3-5. STUDY AREA ACREAGE OF WILDLIFE REFUGES AND WILDERNESS AREAS .................................................................... 32 3-6. BLM MANAGED CULTURAL RESOURCE SITES IN AND AROUND QUARTZSITE ............................................................. 36 3-7. NATIONAL REGISTER OF HISTORIC PLACES ........................................... 37 3-8. SUMMARY OF PAVEMENT CONDITIONS ON STATE HIGHWAYS, LA PAZ COUNTY ................................................................................. 45 3-9. PAVEMENT REMAINING SERVICE LIFE, LA PAZ COUNTY ROADS............. 45 3-10. FUNCTIONALLY AND STRUCTURALLY OBSOLETE BRIDGES, LA PAZ COUNTY ................................................................................. 47 iii LIST OF TABLES (Continued) Page 3-11. 2009-2018 NEEDED EXPENDITURES FOR LA PAZ COUNTY ........................ 47 3-12. COMPARISON OF 2007 AND 2008 TRAFFIC VOLUMES............................... 50 3-13. TRAFFIC VOLUME AT CALIFORNIA AVE AND RIVERSIDE BLVD INTERSECTION................................................... 52 3-14. VEHICLE CLASSIFICATION AVERAGE PERCENT OF DAILY TRAFFIC (JANUARY 2008 – DECEMBER 2008) ........................................................ 53 3-15. ROAD SEGMENT LEVEL OF SERVICE THRESHOLDS AND DESCRIPTIONS............................................................................. 55 3-16. UNSIGNALIZED INTERSECTION LEVEL OF SERVICE CRITERIA................. 56 3-17. UNSIGNALIZED INTERSECTION LEVEL OF SERVICE C OR LOWER ............ 56 3-18. SIGNALIZED INTERSECTION LEVEL OF SERVICE CRITERIA ..................... 57 3-19. SIGNALIZED INTERSECTION LEVEL OF SERVICE .................................... 57 3-20. QUARTZSITE TRANSIT VAN SCHEDULE AND SUGGESTED DONATIONS FOR SERVICE (ROUND TRIP)............................................... 64 3-21. LA PAZ COUNTY TRANSIT SERVICE ...................................................... 65 4-1. LA PAZ COUNTY PROPOSED DEVELOPMENTS ........................................ 75 4-2. ARIZONA DEPARTMENT OF COMMERCE, LA PAZ COUNTY POPULATION PROJECTIONS.................................................................. 78 4-3. POTENTIAL GROWTH SCENARIO, LA PAZ COUNTY................................. 79 4-4. LA PAZ COUNTY LAND USE CATEGORIES.............................................. 80 4-5. CURRENT LOCATIONS OF PASSING LANES............................................. 90 4-6. SUGGESTED MINIMUM AVERAGE ANNUAL DAILY TRAFFIC (AADT) FOR RURAL TWO-LANE HIGHWAYS FOR LOS C THAT WOULD WARRANT PASSING LANE(S) ................................................................................ 90 4-7. 2020 CAPACITY DEFICIENCIES FOR ROADS - AT, NEAR, OR OVER CAPACITY ............................................................................ 91 iv LIST OF TABLES (Continued) Page 4-8. 2020 CANDIDATE LOCATIONS FOR PASSING LANES ................................ 91 4-9. 2030 CAPACITY DEFICIENCIES FOR ROADS - AT, NEAR, OR OVER CAPACITY ........................................................................... 92 4-10. 2030 CANDIDATE LOCATIONS FOR PASSING LANES ................................ 92 4-11. HIGHWAY-RAIL CROSSINGS WITHIN LA PAZ PLANNING AREA ................ 97 4-12. LA PAZ COUNTY ROAD NEEDS AND DEFICIENCIES .............................. 100 4-13 SUMMARY OF MULTIMODAL NEEDS AND DEFICIENCIES ...................... 104 4-14. FUTURE POPULATION OF SERVICE GROUPS IN SERVICE AREA .............. 106 4-15. TRUCK AND RAIL FREIGHT NEEDS AND DEFICIENCIES......................... 113 5-1. MOHAVE ROAD EXTENSION TRAFFIC VOLUMES .................................. 122 5-2. PERFORMANCE MEASURES ................................................................ 122 5-3. FEASIBILITY MEASURES .................................................................... 127 5-4. COMPARISON OF 2030 NETWORKS....................................................... 131 5-5. MINIMUM ROAD ACCESS AND DESIGN CRITERIA ................................. 140 5-6. DRAFT REGIONAL TRANSIT SCHEDULES ............................................. 148 5-7. SUMMARY OF TRANSIT MARKETING DATA GATHERING TECHNIQUES... 155 5-8 SUGGESTED PUBLIC TRANSPORTATION IMPLEMENTATION SCHEDULE . 160 5-9. SUMMARY OF PROPOSED ADOT FREIGHT PLANNING AGENDA.............. 163 6-1. LA PAZ ROADWAY IMPLEMENTATION STRATEGIES ............................. 167 6-2. LA PAZ MULTIMODAL IMPLEMENTATION STRATEGIES ........................ 169 6-3. LA PAZ RAIL AND TRUCK FREIGHT IMPLEMENTATION STRATEGIES ..... 171 6-4. MATRIX OF KEY FUNDING SOURCES................................................... 172 6-5. FY 2008 FEDERAL FUNDING SOURCES FOR ARIZONA............................ 175 6-6. ARRA FUND PROJECTS IN LA PAZ PLANNING AREA ............................. 176 6-7. LTAF II DISTRIBUTION, COUNTIES AND CITIES/TOWNS FY 2010 ............. 177 v LIST OF FIGURES Page 1-1. STUDY AREA ....................................................................................... 2 1-2. STUDY PROCESS................................................................................... 3 3-1. COMPARISON OF PERCENTAGES OF TITLE VI POPULATIONS ................... 24 3-2. PERCENT OF TOTAL LAND BY OWNER .................................................. 25 3-3. LAND OWNERSHIP............................................................................... 26 3-4. LAND USE .......................................................................................... 27 3-5. ACTIVITY CENTERS............................................................................. 28 3-6. ENVIRONMENTAL OVERVIEW .............................................................. 31 3-7. FUNCTIONAL CLASSIFICATION--MOBILITY VERSUS ACCESS ................... 37 3-8. ROAD NETWORK AND FUNCTIONAL CLASSIFICATION............................ 39 3-9. NUMBER OF LANES ............................................................................. 40 3-10. SPEED LIMITS ..................................................................................... 41 3-11. PAVEMENT TYPE ................................................................................ 43 3-12. PAVEMENT CONDITONS – STATE HIGHWAYS......................................... 44 3-13. BRIDGE CONDITIONS ........................................................................... 46 3-14. 2009 TRAFFIC COUNT LOCATIONS......................................................... 49 3-15. ANNUAL AVERAGE DAILY TRAFFIC (AADT) .......................................... 51 3-16. SEASONAL TRAFFIC VARIATIONS ON STATE HIGHWAYS, LA PAZ COUNTY ................................................................................. 52 3-17. VEHICLE CLASSIFICATION BY SEASON, QUARTZSITE/SR 95 ATR.............. 54 3-18. PHOTOGRAPHIC ILLUSTRATIONS OF LEVELS OF SERVICE....................... 55 3-19. NUMBER OF CRASHES AT SITE ............................................................. 59 3-20. COLLISIONS WITH PEDESTRIANS AND PEDALCYCLISTS.......................... 60 3-21. FATAL CRASH LOCATIONS................................................................... 61 vi LIST OF FIGURES (Continued) Page 3-22. CRASH RATES ..................................................................................... 62 3-23. STATE HIGHWAY TRUCK VOLUMES ...................................................... 67 3-24. TOWN OF QUARTZSITE PROPOSED PEDESTRIAN AND BICYCLE FACILITIES ........................................................................... 69 3-25. TRAILS ............................................................................................... 70 4-1. LA PAZ COUNTY PROPOSED DEVELOPMENTS ........................................ 74 4-2. 2030 TRAFFIC ANALYSIS ZONES............................................................ 81 4-3. PROJECTED POPULATION DENSITY PER SQUARE MILE - 2020 .................. 82 4-4. PROJECTED EMPLOYMENT DENSITY PER SQUARE MILE – 2020................ 83 4-5. PROJECTED POPULATION DENSITY PER SQUARE MILE - 2030 .................. 84 4-6. PROJECTED EMPLOYMENT DENSITY PER SQUARE MILE – 2030................ 85 4-7. BASE ROAD NETWORK- FUNCTIONAL CLASSIFICATION .......................... 88 4-8. BASE ROAD NETWORK- NUMBER OF LANES .......................................... 89 4-9. 2020 BASE AVERAGE DAILY TRAFFIC VOLUMES AND LEVEL OF SERVICE - OFF-PEAK SEASON................................................ 93 4-10. 2020 BASE AVERAGE DAILY TRAFFIC VOLUMES AND LEVEL OF SERVICE - PEAK SEASON ...................................................... 94 4-11. 2030 BASE AVERAGE DAILY TRAFFIC VOLUMES AND LEVEL OF SERVICE - OFF-PEAK SEASON................................................ 95 4-12 2030 BASE AVERAGE DAILY TRAFFIC VOLUMES AND LEVEL OF SERVICE - PEAK SEASON ...................................................... 96 4-13. HYPOTHETICAL TRANSIT ROUTES ...................................................... 107 4-14. BICYCLE USER MAP – STUDY AREA DETAIL ........................................ 110 5-1. ROAD WIDENING ALTERNATIVE NETWORK FUNCTIONAL CLASSIFICATION ............................................................................... 117 5-2. ROAD WIDENING ALTERNATIVE NETWORK NUMBER OF LANES............ 118 vii LIST OF FIGURES (Continued) Page 5-3. NEW ALIGNMENTS ALTERNATIVE NETWORK FUNCTIONAL CLASSIFICATION........................................................... 119 5-4. NEW ALIGNMENTS ALTERNATIVE NETWORK NUMBER OF LANES ......... 120 5-5. 2030 DAILY TRAFFIC VOLUMES ROADWAY WIDENING ALTERNATIVE - OFF-PEAK SEASON..................................................... 123 5-6. 2030 DAILY TRAFFIC VOLUMES ROADWAY WIDENING ALTERNATIVE - PEAK SEASON ........................................................... 124 5-7. 2030 DAILY TRAFFIC VOLUMES NEW ALIGNMENT ALTERNATIVE - OFF-PEAK SEASON..................................................... 125 5-8. 2030 DAILY TRAFFIC VOLUMES NEW ALIGNMENT ALTERNATIVE - PEAK SEASON ........................................................... 126 5-9. RECOMMENDED FUTURE FUNCTIONAL CLASSIFICATION ..................... 136 5-10. 2020 ROAD PLAN ............................................................................... 137 5-11 2030 ROAD PLAN ............................................................................... 138 5-12. ARTERIAL CROSS-SECTION ................................................................ 141 5-13. MAJOR COLLECTOR STREET .............................................................. 141 5-14. MAJOR COLLECTOR STREET ALTERNATIVE......................................... 142 5-15. RESIDENTIAL COLLECTOR STREET ..................................................... 142 5-16. RURAL HIGHWAY.............................................................................. 143 5-17. POTENTIAL IMPROVEMENTS AT T-INTERSECTION................................ 143 5-18. TRANSIT PLAN .................................................................................. 147 5-19. TYPES OF TRANSIT VEHICLES ............................................................ 150 5-20. FREIGHT PLAN.................................................................................. 162 viii 1. INTRODUCTION PURPOSE The La Paz Transportation Planning Study was conducted as part of the Planning Assistance for Rural Areas (PARA) program sponsored by the Arizona Department of Transportation (ADOT) Multimodal Planning Division. The PARA program provides federal funds to nonmetropolitan communities for the purpose of conducting transportation planning studies. The La Paz Transportation Planning Study has been a joint effort of ADOT, La Paz County, Town of Parker, Town of Quartzsite, and the Colorado River Indian Tribes (CRIT). This Study developed 5, 10, and 20-year transportation plans, as well as an implementation program, to guide the County, Towns, and the CRIT in meeting transportation needs for the Study Area into the future. Figure 1-1 presents the Study area. The Study identified roadway and multimodal improvements to meet the growing population and changing land uses to improve mobility and safety, and to encourage sensible and sustainable development. The feasibility of funding and implementing the needed improvements was assessed, and a long-range multimodal transportation plan is provided as well as practical tools for day-to-day programming and funding of transportation improvements. While this Study includes roadway facilities owned and operated by ADOT within the planning area, it is important to recognize that improvements to the State Highway System can be made only after in-depth planning and engineering studies are conducted by ADOT, and upon approval of the State Transportation Board. All traffic interchange improvements must be approved by the Federal Highway Administration (FHWA). Any recommendations made by this Study for improvements on State facilities can serve only as suggestions for further study. BACKGROUND The La Paz Transportation Planning Study Area is contiguous with La Paz County, which is located in Western Arizona and is bounded by the Colorado River (California State Line) on the west, Mohave County on the north, Maricopa County on the east, and Yuma County on the south. La Paz County was created from the Northern half of Yuma County in 1983. For many years, the Study Area’s developed land has been concentrated along the Colorado River and along SR 95, SR 72, and SR 60. The rugged terrain and dominance of Federal land (Bureau of Land Management (BLM) and military) has channeled recent growth to private lands adjacent to previous settlement. Development is in several communities, located on or north of I-10, and each with a population of fewer than 5,000 persons. I-10 carries considerable traffic—particularly freight trucks—through the County and the economies of Quartzsite and Ehrenberg, in particular, are linked to I-10 traffic. With respect to year-round population, recent growth within the Study Area has been modest compared to that in the remainder of Arizona. Seasonal residents and tourists, however, have Lima & Associates La Paz Transportation Planning Study – Page 1 FIGURE 1-1. STUDY AREA Lima & Associates La Paz Transportation Planning Study – Page 2 flocked to the area. The many recreational activities and specific events that attract visitors are dispersed throughout the County. The few roadways have been strained to handle the traffic and are sometimes filled to capacity by seasonal flows and special events. Even when total traffic volume is less, many roadways have a mix of ordinary commuting, agricultural vehicles, recreational traffic, and freight-truck traffic sharing the road. Most of the roadway network has only two lanes, while I-10 has four lanes, and a few miles of SR 95 in Parker/Parker Strip areas has a mix of three and four lanes. The mix of traffic on a largely two-lane network leads to safety problems, pavement deterioration, stopped traffic when incidents occur, and many other concerns. While the existing roadway network—with improvements—will likely carry most of the future traffic, the participating agencies joined together to explore innovative solutions for freight, transit, and non-motorized travel. STUDY PROCESS The planning process conducted for the La Paz PARA Study is illustrated in Figure 1-2. FIGURE 1-2. STUDY PROCESS Inventory Inventory Current Current Conditions Conditions •Existing •Existing Conditions Conditions •Street •Street Network Network •Socioeconomic •Socioeconomic Data Data •Travel •Travel Demand Demand Model Model Define Define Future Future Conditions Conditions Stakeholder Stakeholder Interviews Interviews And And First First Open Open House House •Future •Future Socioeconomic Socioeconomic Data Data •Future •Future Base Base Roadway Roadway Network Network •Transit •Transit Demand Demand and and Transit Transit Deficiencies Deficiencies •Non-Motorized •Non-Motorized Alternative Alternative Develop Develop Plan Plan for for Improvements Improvements •Roadway •Roadway System System •Truck •Truck and and Rail Rail Freight Freight •Multimodal •Multimodal Transportation Transportation •Identification •Identification of of Funding Funding Sources Sources Second Second Open Open House House Final Final Report Report •Draft •Draft Final Final Report Report •Final •Final Report Report This study produced a transportation plan with short-, mid- and long-range elements, as well as a Transportation Improvement Program (TIP) to guide La Paz County, the Towns of Parker and Quartzsite, and the CRIT in implementing improvements to ensure a safe and efficient transportation system. The consultant team worked closely with the Technical Advisory Committee (TAC), other stakeholders, and the public to develop a transportation plan that meets transportation needs within the community vision. Working papers were prepared documenting the existing and future socioeconomic and multimodal transportation conditions as well as previous and ongoing studies. In addition, a TransCAD travel demand model was developed and calibrated against available traffic counts as a tool to estimate future travel demand. Public Involvement activities were coordinated with the public involvement firm, Logan Simpson Design under the guidance of the ADOT Communication and Community Partnerships Division. One-on-one meetings were held with individual stakeholders to obtain data, issues, and potential solutions. Lima & Associates La Paz Transportation Planning Study – Page 3 Based on the future conditions, draft short-, mid-, and long-range transportation plans including roadway, freight and multimodal elements were developed in consultation with the TAC and evaluated against an agreed upon set of performance and feasibility measures. The draft plans were documented in a third working paper. A TIP was prepared identifying recommended projects, project priorities, responsibilities, schedule, and costs. The implementation plan outlines actions to implement multimodal projects, and strategies for transportation system management, access management, and travel demand management. A draft final report was prepared and reviewed by the TAC and revised where necessary. This final report was then prepared and submitted to ADOT and La Paz County. AGENCY COORDINATION AND PUBLIC INVOLVEMENT The La Paz Transportation Planning Study has been prepared through an extensive open process of coordination, cooperation, and communication among La Paz County, Town of Parker, Town of Quartzsite, CRIT, and ADOT. Table 1-1 lists the various coordination and advisory meetings and presentations conducted during the planning process. TABLE 1-1. COORDINATION, COOPERATION & COMMUNICATION ACTIVITIES TAC Meetings/Teleconferences: January 27, 2009, Parker June 23, 2009, Quartzsite March 4, 2010, ADOT Yuma District Conf Rm March 23, 2010, Quartzsite May 20, 2010, ADOT Yuma District Conf Rm Public Open Houses First Round June 23, 2009 Town of Quartzsite Council Chambers June 24, 2009 Town of Parker Council Chambers Stakeholder Interviews April 7, 8, and 9, 2009 Public Open Houses Second Round March 23, 2010 Town of Quartzsite Council Chambers March 24, 2010 Town of Parker Council Chambers Technical Advisory Committee and Stakeholder Interviews A Technical Advisory Committee, as listed in Table 1-2, guided the conduct of the La Paz Transportation Planning Study, reviewed and commented on study documents, and participated in stakeholder interviews and Public Open Houses. In addition to the guidance of the TAC, individual stakeholder interviews were conducted in April 2009. The purpose of the interviews was to identify major transportation related issues and to obtain ideas on possible ways to address potential deficiencies and needs. Table 1-3 lists the 20 interviewees and the dates of the interviews. Lima & Associates La Paz Transportation Planning Study – Page 4 TABLE 1-2. TECHNICAL ADVISORY COMMITTEE Representation/Agency Arizona Department of Transportation Paul Patane, Yuma District Michel Jones, Yuma District Justin Feek, Multimodal Transportation Div Michele Beggs, Communications and Community Partnerships Mark Hoffman, Multimodal Transportation Div Tish Hunter, Environmental Planning Specialist La Paz County Tom Simmons, Public Works Director Scott Bernhardt, Community Development Dir Bureau of Land Management Gina Trafton, Lake Havasu Field Office Colorado River Indian Tribes Gregory Fisher, Planner I - Interim TERO Dir Richard Ench, Planning Consultant Town of Quartzsite Emmett Brinkerhoff, Public Works Director Town of Parker Guy Gorman, Community Development Dir Arizona Game & Fish Department Bill Knowles, Habitat Specialist Western Arizona Council of Governments Brian Babiars, Acting Director Lima & Associates Consultant Team Peter Lima, Ph.D., P.E., President Robert Bohannan, Sr Transportation Planner TABLE 1-3. STAKEHOLDER INTERVIEWEES Stakeholder Organization April 7, 2009 Donna Baker NPG Cable Guy Gorman, Community Economic Director* Town of Parker Sergeant Chad Hinderliter Department of Public Safety April 8, 2009 Tanya L. Cecil, General Manager Arizona & California Railroad Dennis Shrewsbury, Administrative Sergeant Town of Parker Police Department Rich Ench, Tribal Planner* Colorado River Indian Tribes Scott Bernhart, Community Development Mgr* La Paz County Joan-Marie King, Planner La Paz County Jerry Rather, Park Manager Buckskin Mountain State Park Lee Eseman, Western Regional Manager Arizona State Parks Ted Swendra, Airport Manager Colorado River Indian Tribes April 9, 2009 Aaron Curtis, Yuma Field Office Bureau of Land Management Robert K. Holt, P.E. The Holt Group Barbara Martin The Holt Group Robert Flanders, Quartzsite Maintenance Arizona Dept. of Transportation Melanie Headstream, Planner III Arizona State Land Department The Hon. Walt Akin, Mayor Town of Quartzsite The Hon. Wes Huntley, Councilman Town of Quartzsite Ms. Alex Taft, Manager Town of Quartzsite James D. Downing, P.E., President Harcuvar Company *Members of La Paz Transportation Planning Study TAC Lima & Associates La Paz Transportation Planning Study – Page 5 Public Involvement Two rounds of Public Open Houses were held for the study. The format of the Open Houses consisted of a short PowerPoint presentation, followed by questions and answers from the attendees. In addition, display boards were available for review by the public and representatives of the study team were available to answer question. For the first round, public meetings were held in Quartzsite on June 23 and in Parker on June 24, 2009. The purpose of the first round of open houses was to introduce the study and schedule to the public, review existing socioeconomic and transportation conditions, and obtain feedback on conditions and transportation related issues. For the second round, public meetings were held in Quartzsite on March 23 and in Parker on March 24, 2010. The purpose of the second round of open houses was to present the draft transportation plan including 2020 and 2030 road plans, a multimodal element, and a freight element. The Summary Public Involvement Report, under separate cover, presents additional details on the public involvement process including information material distributed and comments from the public. ORGANIZATION OF REPORT Chapter 2 of this report presents a review of previous studies and current transportation programs. The next chapter describes the current socioeconomic and transportation conditions in La Paz County. Future socioeconomic and transportation conditions are then described in Chapter 4. Chapter 5 presents the analysis of alternative future roadway networks. The Multimodal Transportation Plan is presented in Chapter 6 including the Multimodal Element and Freight Element. The final chapter describes an implementation program including implementation strategies and funding sources. The Summary of Public Involvement Report, under separate cover, describes the public involvement process and activities. Comments received from the public are included in the report. A series of Working Papers was prepared during the study. Each working paper is posted on the project Website: http://www.azdot.gov/mpd/systems_planning/lapaz.asp. The first working paper Working Paper 1: Current Conditions presents an inventory and analysis of current socioeconomic transportation conditions and deficiencies in the Study Area. The second paper, Working Paper 2: Future Conditions describes the projection and analysis of future socioeconomic and transportation conditions within La Paz County. Working Paper 3: Draft Transportation Plan presents an analysis of alternative road networks and Draft 2020 and 2030 Road Plans as well as recommended Multimodal and Freight Elements. Lima & Associates La Paz Transportation Planning Study – Page 6 2. PREVIOUS STUDIES AND PLANS This chapter reviews studies, plans, and programs related to transportation in La Paz Study Area. The purpose of the review was to gain knowledge of the County and an understanding of the transportation conditions, issues, and transportation related studies within the Study Area. REVIEW OF PREVIOUS STUDIES AND PLANS Table 2-1 briefly summarizes these studies and plans with findings and recommendations that may affect the future transportation characteristics of the Study Area. The documents are referenced throughout the report in regard to transportation conditions issues and proposed transportation projects in order to help shape the La Paz County Transportation Plan. A detailed review is provided on Transportation Improvement Programs for ADOT and Western Arizona Association of Governments (WACOG) directly after Table 2-1, as they have a direct influence on the development of the transportation plan: A more detailed summary of the following studies may be found in the La Paz Transportation Planning Study Working Paper 1, which is available online at: http://mpd.azdot.gov/mpd/systems_planning/lapaz.asp: • • • • La Paz County Comprehensive Plan Town of Quartzsite General Plan Town of Parker General Plan Western Regional Framework Study TABLE 2-1. SUMMARY OF STUDIES AND PLANS Study Description Federal Studies and Plans Bureau of Land Management, Lake Havasu Field Office, Approved Resource Management Plan and Final Environmental Impact Statement, 2007. Presents the analyses of five alternatives for management of 1.3 million acres of public land. The proposed plan provides for a balance between authorized resource use and the protection and long-term sustainability of sensitive resources. Major issues include the identification of lands to be made available for disposal, management of recreation and public access, designation, and management of Special Designations, management of wilderness characteristics, management of wild burros around Alamo Lake, and BLM’s role in the management of Lake Havasu. http://www.blm.gov/az/st/en/info/nepa/environmental_library/arizona_resource_ management/LHFO_ROD_07.html Design Concept Report: US 95 MP 42- Cibola Lake Rd, ADOT Tracs #H7022 01L, 2009. ADOT and the FHWA are conducting an engineering study and environmental analysis for improvements on US 95 between milepost 42 and milepost 82. Proposed improvements include constructing two new travel lanes, new bridges, and replacing existing bridges. Lima & Associates La Paz Transportation Planning Study – Page 7 TABLE 2-1. SUMMARY OF STUDIES AND PLANS (Continued) Study Description Yuma Field Office, Proposed Resource Management Plan and Final Environmental Impact Statement, April 2008. The document analyzes alternatives to resolve management issues, determines management objectives and actions, and establishes monitoring methods to facilitate multiple use and sustained yield management for the entire planning area. http://www.blm.gov/az/st/en/prog/planning/yuma_plan/reports/prmp.html Community Wildfire Protection Plan La Paz County Bureau of Land Management Yuma and Lake Havasu Field Office, no date. Provides analysis of the wildfire threat in La Paz County and a mitigation plan to lower the threat from wildfire to the identified communities. http://www.azsf.az.gov/UserFiles/PDF/LaPazDesertCWPP.pdf State Studies and Plans Arizona Framework Studies, ADOT, Ongoing. A consortium of State, regional, and local stakeholders is working on the planning process Building a Quality Arizona for State transportation infrastructure needs. As part of this process, Regional Framework Studies will feed into the Statewide Transportation Planning Framework. The Framework studies are long-range visionary plans focusing on transportation needs in the 2030-2050 timeframe. http://www.bqaz.gov/weaz.asp Western Regional Framework Study. Working Paper: Existing and Future Conditions, ADOT, April 2008. A consortium of State, regional, and local stakeholders is working on the planning process Building a Quality Arizona for State transportation infrastructure needs. As part of this process, Regional Framework Studies will feed into the Statewide Transportation Planning Framework. The Framework studies are long-range visionary plans focusing on transportation needs in the 2030-2050 timeframe. The Western Arizona Framework Study is summarized in detail in the La Paz PARA Working Paper 1. The Western Arizona Region includes Mohave, La Paz, and Yuma Counties. Products completed to data include: Working Paper 2: Existing Conditions, Community Workshops, Round 1, March/April 2008. Working Paper 2 compiles an inventory and analysis of the Existing and Future Conditions gathered from previous and current studies. Work has also been accomplished on population and employment forecasts and the development of a Statewide travel demand model. 2003 Arizona Climbing Lanes and Passing Lane Prioritization, ADOT, May 2004. This study identifies and prioritizes climbing lane and passing lane projects to be considered on State highways for the ADOT Five-Year Transportation Facilities Construction Program. I-10 National Freight Study, May 2003. A joint effort by eight state Departments of Transportation including Arizona with the purpose to analyze current and projected freight movements and develop a strategy for improving freight flow along the Interstate 10 (I-10) Corridor. Arizona Access Management Study, ADOT, On-going. ADOT is conducting a Statewide Access Management study to develop an access management classification system for the State Highways, and to develop a comprehensive access management manual to guide access management on State highways. Access levels will be assigned to State highways throughout the State. http://mpd.azdot.gov/planning/accessmgt.php Arizona Statewide Bicycle and Pedestrian Plan, ADOT, August 2003. The Arizona Statewide Bicycle and Pedestrian Plan provides a long-term plan for a Statewide system of interconnected bicycle facilities that will guide ADOT transportation decisions relating to bicycle and pedestrian travel, planning, and facility development. Lima & Associates La Paz Transportation Planning Study – Page 8 TABLE 2-1. SUMMARY OF STUDIES AND PLANS (Continued) Study Description Arizona Transit Needs Study, ADOT, May 2008. ADOT worked with State, regional, and local stakeholders to identify rural transit needs and to develop regionally-based solutions to rural public transportation in Arizona. The Study establishes Arizona’s long-term strategic direction of rural transit service provision. http://mpd.azdot.gov/transit/ArizonaRuralTransitNeedsStudy.asp Arizona Rail Framework Study, ADOT, April 2008. The Statewide Rail Framework Study will describe a rail development program and investment strategy for the State of Arizona to promote the development of an efficient, multimodal transportation system for people and goods. The Study will address rail transportation needs across Arizona considering existing conditions and estimated future needs for both freight rail and passenger rail. http://www.bqaz.gov/PDF/Rail_Framework_Summary.pdf Multimodal Freight Analysis Study, ADOT, November 2007. Describes and evaluates Arizona’s existing freight infrastructure, including the highways and rail lines that traverse the La Paz area. The Study identifies unmet needs and recommends projects for improving the efficiency of the movement, collection, and distribution of freight. http://mpd.azdot.gov/planning/freightstudy.php Arizona Statewide Railroad Inventory and Assessment, ADOT, March 2007. A comprehensive review of existing railroad fixed plant, facilities, and operations. State Transportation Board Policies, ADOT, Rev. 2003. Presents policies pertaining to the following areas; priority programs; establishing, altering or vacating highways; construction contracts, accelerated funding mechanisms; local government airport grants; and designating scenic or historic highways. State of Arizona Rail Safety & Security Resource Guide, ADOT, November 2007. This plan focuses on targeted areas of railroad safety with emphasis on specific needs identified by the “USDOT Highway-Rail Crossing Safety and Trespass Prevention Action Plan” developed by the United States Department of Transportation. The purpose of the plan is to establish and provide actions that continue to allow rail transportation, within and through Arizona, to be efficient, safe and secure. http://mpd.azdot.gov/transit/PDF/AzRailSafetySecurity_1107.pdf Hazardous Materials Commodity Flow Study Report: I-10 Corridor from SR 85 to California, Arterial Highways and Railroads, Maricopa and La Paz Counties, Arizona, Arizona State Emergency Response Commission Arizona Division of Emergency Management, December 2008. This study focused on the transportation of hazardous materials along Interstate 10 (I-10) from State Route (SR) 85 to the Arizona/California border, arterial highways, and two railroads. Arterials highways within the Study Area include SR 85, US Highway (US) 60, SR 72, and SR 95. The railroads along the corridor include the Arizona & California Railroad (ARZC) and the Union Pacific Railroad (UPRR). Lima & Associates La Paz Transportation Planning Study – Page 9 TABLE 2-1. SUMMARY OF STUDIES AND PLANS (Continued) Study Local Studies and Plans La Paz County Comprehensive Plan, May 2005. The La Paz County Comprehensive Plan is summarized in detail in the La Paz Transportation Planning Study Working Paper 1. Description The La Paz County Comprehensive Plan, May 2005 is the overall countywide plan for development in La Paz County. The plan includes three elements: land use, environment, and multimodal transportation. The Land Use Element provides the proposed general distribution, location, and extent of land for housing, business, industry, public facilities, and open space. The Environmental Element identifies environmental issues and provides strategies to preserve and enhance the natural environment. The Multimodal Transportation Element identifies the general location and extent of existing and proposed roadways as well as other forms of transportation including transit. Transportation Goals Goal 1: Develop a system of County roads and State highways to safely and conveniently serve residents, businesses, and visitors. Goal 2: Develop a multimodal transportation system Goal 3: Develop La Paz County rail, trucking, and aviation facilities Multimodal Transportation Plan The Multimodal Transportation Element provides an efficient transportation system that moves people and goods throughout La Paz County and supports the current and projected land use in the General Plan. The Element outlines goals and policies guiding development of a comprehensive circulation system supporting findings of the Land Use Element. Town of Quartzsite General Plan, 2003. The Town of Quartzsite General Plan is summarized in detail in the La Paz Transportation Planning Study Working Paper 1. The Quartzsite General Plan is the long-range and visionary plan providing guidance to where Quartzsite wants to be in the future. The plan is comprised of the following elements: • Land Use • Open Space • Conservation and Environment Element • Circulation • Growth areas • Cost of Development Element Transportation Goals Goal: Achieve a coordinated transportation program to provide a safe and efficient roadway system for transportation of personal and commercial vehicles in cooperation with the County and other governmental agencies. Goal: Improve internal circulation through design and construction of a collector street and local street feeder system into the Town’s major arterials. Goal: Coordinate Main Street corridor facility improvements into the Town’s land use pattern and, thereby, into the local economic development strategy. Goal: Augment the vehicular network of roadways with facilities for visitor and resident convenience as well as for alternative modes of transportation for persons of all ages. Lima & Associates La Paz Transportation Planning Study – Page 10 TABLE 2-1. SUMMARY OF STUDIES AND PLANS (Continued) Study Description Traffic Impact Study, Truck Stop and Motel NWC I-10 and Vicksburg Road, March 2005. Traffic impacts analysis of the proposed development of a truck stop and motel on an 11-acrea site adjacent to the northwest corner of I-10 and Vicksburg Road. Major Findings: The 2005 level of service for both the I-10 and Vicksburg Road intersection and for the site driveways indicated that the operation would be within acceptable ranges of level of service. Major Recommendations: No major recommendations to improve the intersection or roadway. Traffic Impact Analysis of a proposed gasoline service station located at the corner of Riverside Drive/California Avenue intersection. Major Findings: The analysis determined that the site and intersection are anticipated to operate at an adequate level of service during the 2007 weekday peak hours with the project. Major Recommendations: No roadway or intersection improvements were recommended. Initial Traffic Impact Analysis, Terrible Herbst, SR 95/California Avenue, July 20, 2006. The Arizona Travel Plaza Traffic Impact Study, La Paz County, July 2006. Analyzes the traffic impacts of the proposed commercial development located on the northwest corner of Ehrenberg Poston Highway and North Frontage Road in Ehrenberg, Arizona. The proposed site will take access from the North Frontage Road south of the site, and Ehrenberg Parker Highway (Old Highway) west of the site. The main route to distribute traffic to the surround area is through Interstate 10. Major Recommendations: Year 2010, without construction of the Arizona Travel Plaza: - The westbound and eastbound off ramps are widened to provide separate right- and left-turn lanes. Year 2010, with full construction of the Arizona Travel Plaza: - The westbound and eastbound off ramps are widened to provide separate right and left turn lanes. - Widen North Frontage Road to four (4) lanes adjacent to the site. - Realign the North Frontage Road/Ehrenberg Poston Highway intersection so that the North Frontage Road is the through road and the Ehrenberg Poston Highway is the north leg of the “T” intersection. Northbound traffic from the interchange can continue through to northbound Ehrenberg Poston Highway by a channelized right turn movement. The second eastbound lane on North Frontage Road becomes an exclusive right-turn lane onto the westbound I-10 on-ramp. Year 2015 with or without the site development: - Widen the overpass over I-10 to include one through lane and one left turn lane in each direction (four lanes total). - Traffic signals at I-10 eastbound ramp junction. Year2015, without the full development of the Arizona Travel Plaza: - Traffic signal at the I-10 westbound ramp junction. This is due to a different traffic pattern in the no-build case, requiring signalizing both ramp junctions. Year 2020 with full development of the Arizona Travel Plaza: - A right turn deceleration lane on North Frontage Road westbound at the first driveway (Access A). Lima & Associates La Paz Transportation Planning Study – Page 11 TABLE 2-1. SUMMARY OF STUDIES AND PLANS (Continued) Study Petro Shopping Centers, LP Development, Quartzsite, Arizona, December 2007. Description Traffic Impact Analysis Report to the proposed auto/truck travel center located southeast of the I-10/Quartzsite Blvd Interchange. Major Findings: The study area will require mitigation to maintain level of service D or better at several study intersections. Major Recommendations: Signalize the interchange intersections at the east and westbound ramps. Add a southbound right-turn lane at the Quartzsite Blvd/WB ramp. Add a right-turn lane on the westbound exist ramp at Quartzsite Blvd. Extend the right-turn-storage on the eastbound exit ramp. Widen Quartzsite Blvd between the eastbound ramps and frontage road (Dome Rock Road/Kuehn Street) to provide left-turn lane and a northbound right-turn lane. Add a westbound right-turn lane at the Quartzsite Blvd frontage road intersection. Widen Quartzsite Blvd south of the frontage road to provide a left-turn bay and two-way left-turn lane and a right-run lane. A center-turn lane should be provided the length of the site. Town of Parker General Plan, January 2008. The Town of Parker General Plan is summarized in detail in the La Paz Transportation Planning Study Working Paper 1. Traffic Impact Statement, Bella La Paz Residential Development, March 2008. The Town of Parker General Plan serves as a policy guide for future development in the Town of Parker. The Plan states that it is intended to be both long range and visionary and aims to provide guidance for desired future growth through the year 2025. The Plan is comprised of vision and themes, existing conditions, a land use element, a transportation element, and an implementation plan. Transportation Goals Goal 1: Provide a safe and efficient transportation system within the Town of Parker. Goal 2: Provide for and encourage the use of non-vehicular modes of circulation. Analysis of traffic impacts of a proposed 500 unit single family residential development located adjacent to the southwest side of SR 72 south of 69th Street. Major Findings: Traffic operating conditions in 2008 through 2016 with the project critical traffic movements will be within the acceptable ranges of level of service. No additional through traffic lanes are needed on SR 72 and no auxiliary right-turn lanes are needed at the intersection of SR 72 and 69th Street. Major Recommendations: A left-turn lane on northwest bound SR 72 and 69th Street is warranted and should be constructed. Wal-Mart Supercenter Parker, Arizona, Traffic Impact Analysis, February 2006. Addendum #1, April 17, 2006. Addendum #2, June 21, 2006. Lima & Associates Analyzes the traffic impacts of the proposed Wal-Mart Supercenter located at the southwest corner of Airport Road and SR 95 in Parker, Arizona. Major Findings: All study intersections were projected to operate at level of service C or better for the 2007 and 2012 plus site conditions with minor mitigations. Major Recommendations: All project driveways along SR 95 were recommended to be restricted for right-in/right-out traffic movements only. Dual left-turn lanes on the south leg and dual left-run lanes and an exclusive right turn lane on the north leg of SR 95 and Airport Road were recommended. An exclusive left-turn lane, one through travel and an exclusive right-turn lane were recommended on the west leg of SR 95/Airport Road intersection. La Paz Transportation Planning Study – Page 12 TABLE 2-1. SUMMARY OF STUDIES AND PLANS (Continued) Study Description Quartzsite Park Place Travel Center Traffic Impact Analysis Report, November 2006. Traffic Impact Analysis of a proposed gasoline service station and travel center located at the corner of Riggles Avenue/Mockingbird Street intersection. Major Findings: The study determined that Riggles Avenue and Mockingbird Street intersection will operate at acceptable level of service under year 2008 project conditions. Major Recommendations: The construction of a two-way center left-turn lane and stop signs at project driveways would enhance traffic safety and traffic flow. The project should build curb, gutter, and sidewalks along the project’s frontage area. Bill’s Ghost Travel Center, Traffic Impact Analysis Report, May 2009. Traffic Impact Analysis of a proposed gasoline service station located at the corner of West Main Street/Main Event Way intersection. Major Findings: The study determined that the West Main Street and Main Event Way intersection will operate at acceptable level of service under year 2009 project conditions. Major Recommendations: The construction of a two-way center left-turn lane and stop signs at project driveways would enhance traffic safety and traffic flow. The northbound lane at Quartzsite Boulevard and Main Street should be reconstructed to an exclusive left-turn and a shared right/through lane. The eastbound approach at Quartzsite Boulevard and Main Street should be reconstructed to an exclusive right-turn and a shared through/left left. Analysis of traffic impacts of the proposed Arizona travel Plaza and several other proposed residential and commercial developments located near the I10/Ehrenberg Poston Highway traffic interchange. New developments include: Arizona Travel Plaza, located on the North Frontage Road; Emerald Springs, located north of Comber Road and west of Sourdough Road; River Bend Estates, located south of Comber Rd, and west of Sourdough Rd.; and Rio Laguna, located north and south of Ehrenberg Road, at Ehrenberg Poston Highway. Major Recommendations: Year 2010 with Arizona Travel Plaza - Reconstruct I-10 Poston Road traffic interchange to include a roundabout at the north ramp junction. Construct a WB right-turn lane on the North Frontage Road at Access B, the auto entry. Year 2010 with Development – Reconstruct Parker Ehrenberg Highway/Poston Road intersection to be a roundabout. Year 2015 with Development – Widen North Frontage Road to four lanes from Poston Road to Old Highway. Widen Poston Road to four lanes from I-10 North roundabout to the roundabout at Parker Ehrenberg Highway. Construct a roundabout on the south side of I-10 at the I-10 Ramp Junction and South Frontage Road. Widen Parker Ehrenberg Highway to four lanes with center median or turn lane from the roundabout at Poston Road to Sourdough Road. Widen Sourdough Road to four lanes from Parker Ehrenberg Highway to Comber Blvd. Construct a connection from Rio Laguna to Poston Road located about 500 feet south of the roundabout entrance at Parker Ehrenberg Highway. Install all way stop sign control at Sourdough Road/Comber Road. Interstate 10 Ehrenberg Area Traffic Impact Study, Revised August 14, 2007. Lima & Associates La Paz Transportation Planning Study – Page 13 STATEWIDE, REGIONAL, LOCAL TRANSPORTATION PROGRAMS Transportation improvement programs were reviewed for State, regional, and local jurisdictions to identify programmed projects, project description and type, and project cost. Tables 2-2 through 2-7 present the following transportation improvement program committed projects: • La Paz County Transportation Investment Strategy. A Statewide investment strategy was prepared by ADOT, COGS, local governments, and counties to identify preliminary 2030 State, regional, and local multimodal needs (Table 2-2). • ADOT Five-Year Transportation Facilities Construction Program (Table 2-3). • American Recovery and Reinvestment Act - The Arizona Transportation State Board approved highway projects in La Paz County as part of the American Recovery and Reinvestment (Table 2-4). • Western Arizona Association of Governments (Table 2-5). • ADOT YUMA District Projects and Studies (Table 2-6). • ADOT Avi Suquilla Airport Projects (Table 2-7). Lima & Associates La Paz Transportation Planning Study – Page 14 TABLE 2-2. LA PAZ COUNTY TRANSPORTATION INVESTMENT STRATEGY Project/ Program Project/Program Description Estimated Cost Strategic Highway Projects US 95 Improvements US 95: Widen to 4-lane from the County Line to the County 35 Line Transportation benefits accrue to Yuma County Strategic Highway Project Total 0 Strategic Rail and Transit Projects and Programs Public Transit Projects and Programs 66 Connecting communities bus transit program 67 Enhancing public transportation programs Transit serving elderly, person with disabilities and tribal 68 populations in rural areas 69 Statewide vanpool and rideshare programs 70 Transit/rail planning, marketing and other related programs Strategic Rail and Transit Projects and Program Total $10,000,000 $3,264,772 $924,711 $1,313,977 $105,118 $15,608,578 Local Mobility Projects and Programs La Paz County Parker Quartzsite Colorado River Indian Tribes $48,267,129 $13,731,386 $15,071,034 $7,541,727 Local Mobility Projects and Program Totals $84,611,276 Transportation Enhancement and Walkable/Bikeable Communities La Paz County Parker Quartzsite Colorado River Indian Tribes Transportation Enhancement and Walkable/Bikable Communities Total La Paz County Total $1,909,940 $915,343 $1,004,644 $2,083,476 $5,913,403 $106,133,257 Source: www.AZDOt.GOV/Statewide_Transportation_Investment_Strategy/pdf/LaPaz-61908.pdf Lima & Associates La Paz Transportation Planning Study – Page 15 TABLE 2-3. ADOT FIVE-YEAR TRANSPORTATION FACILITIES CONSTRUCTION PROGRAM, LA PAZ COUNTY FY 2010 – FY 2014 (Dollars in Thousands) Route 60 BMP 0 10 3 Type of Work State Parks Roads Construct Parking FY 2010 $0 FY 2011 $800 Reconstruct Ehrenberg Port of Entry $11,000 Statewide Pavement Preservation $1,000 $12,000 Total Source: Arizona Five-Year Transportation Facilities Construction Program, FY 2009-FY 2013 FY 2012 0 0 $800 0 FY 2013 0 Summary $800 0 0 0 0 0 0 $11,000 1,000 $12,800 TABLE 2-4. AMERICAN RECOVERY AND REINVESTMENT ACT PRIORITIZED LIST OF PROJECTS, LA PAZ COUNTY Priority 6 Route 95 BMP 63.0 EMP 80.0 27 95 128.93 131.3 Project Name Peligro-Clarks Passing Lanes South of Bouse Wash Source: Arizona State Transportation Board, March 13, 2009 Note: Includes re-lining along US 95 from Quartzsite south Type of Work Pavement Preservation Estimated Construction completion by 5/2010 Programmed No Cost $8,600,000 Yes $1,600,000 Construct Passing Lanes Construction complete as of 11/6/09 TABLE 2-5. WESTERN ARIZONA ASSOCIATION OF GOVERNMENTS TRANSPORTATION PROGRAM, LA PAZ COUNTY Year Sponsor 2013 La Paz 2009 La Paz Project Location Alamo Road Length Miles Functional Lanes Lanes Type of Work Class Before After 5-Yr Local Construction Program Guard Rail Major Collector 2 2 Repl. WACOG Bridge Replacement Program Reconstruction 2 2 Cibola Bridge 0.1 B#10221 Source: Arizona Statewide Transportation Improvement Program, FY 2010 - 2013 Lima & Associates Fed Aid Type Federal Funds Local Match STP/HURF $162,500 $16,250 Bridge $1,000,000 Total Cost $178,750 $1,600,000 La Paz Transportation Planning Study – Page 16 TABLE 2-6. ADOT YUMA DISTRICT PROJECTS AND STUDIES Route SR 95 SR 95 US 95 US 95 SR 95 SR 95 Project/Study Construction Re-surfacing from I-10 to Vicksburg Road Spot Repair from MP 30 to MP 44 Under Design SR 95 replace Colorado River bridge at Parker Add center turn lane and drainage improvements on SR 95 at Holiday Harbour Re-surfacing US 95 from MP 96 to MP 104 Intersection improvements (turning lanes) on US 95 at MP 82 and MP 89 Shoulder widening along SR 95 between MP 131.7 and MP 142. Intersection improvements on SR 95 at MP 160.9 I-10 I-10 US 60 SR 72 Replace Oxbow bridge; new port of entry at Ehrenberg on I-10 Gateway signage in Quartzsite on I-10, US 95 and SR 95 Intersection improvement with roundabout on US 60 at Vicksburg Road Shoulder widening on SR 72 between MP 13 and MP 14 US 95 Studies US 95 from MP 42 to MP 80 to improve road to all-weather 4-lane road from MP 42 to MP 63 and pavement preservation (re-surfacing) MP 63 to MP 80 US 60 I-10 Anticipated Schedule Under Construction Waiting Award During FY 10 During FY 10 During FY 11 During FY 11 No later than FY 11 When funded by US Fish and Wildlife Service During FY 10 During FY 11 During FY 10 No later than FY 11 To be built next 20 years Source: ADOT Yuma District Lima & Associates La Paz Transportation Planning Study – Page 17 TABLE 2-7. AVI SUQUILLA AIRPORT PROGRAMMED PROJECTS Federal Share $570,000 Project Total $600,000 $52,500 $1,995,000 $2,100,000 $51,250 $51,250 $1,947,500 $2,050,000 Reconstruction and new construction of about 28,000 sy of asphalt concrete paved GA apron area including storm drainage improvements. $45,000 $45,000 $1,710,000 $1,800,000 Ground Transportation construct/Expand/Improve/Modify/ Rehabilitate>Service Road - Other Pave perimeter road with aggregate base and asphalt concrete pavement 16' wide, approximately 42,000 sy of pavement, extend culverts. $37,500 $37,500 $1,425,000 $1,500,000 Taxiways :Extend Taxiway - Capacity Extend three taxi lanes approximately 400' x 75' each for T-Hangar or corporate hangar development. $15,000 $15,000 $570,000 $600,000 $216,250 $216,250 $8,217,500 $8,650,000 FY 2011 Project Component Apron: Rehabilitate Apron Reconstruction Project Description Reconstruct 5,000 sy of apron west and south of Maintenance Hangar and pavement preservation (seal cracks and seal or thin overlay of 57,000 sy GA Apron and T-Hangar Taxi lanes constructed in 2002 and the mid 90's. 2011 Other: [MAP] - Other Construct 5,000 lf fire line to provide ramp area fire protection. Construct sewer, storm drainage and other utilities, reconstruct 8,000 sy access road and 11,000 sy GA public parking. $52,500 2012 Taxiways: Taxiway Standards Completion of Rwy 1-19 parallel twy approximately 4,800' x 50' including MITL and Guidance Signs required to meet FAA Standards and allows Exit twy A2 to be reconfigured or eliminated. 2013 Apron:Expand Apron - Capacity 2014 2015 Airport Total State Share $15,000 Local Share $15,000 County Total $216,250 $216,250 $8,217,500 $8,650,000 Source: Arizona Department of Transportation Aeronautics Division, www.azdot.gov/MPD/airport_development/PDF/ACIP_2011_2015_april.pdf Lima & Associates La Paz Transportation Planning Study – Page 18 3. CURRENT CONDITIONS This chapter presents an inventory and analysis of current socioeconomic and transportation conditions and deficiencies in the Study Area. First, the current socioeconomic conditions are summarized. A discussion of the physical and natural resources follows. Next, the current road conditions and current traffic and safety conditions are described. The final section describes the multimodal conditions including rail, transit, freight, and non-motorized modes. SOCIOECONOMIC ENVIRONMENT A description of the current socioeconomic conditions in La Paz County including the current population of incorporated and non-incorporated areas and demographic characteristics of the population follows. In addition, current employment conditions are discussed including major employers, estimated employees by area, and estimated employees by job classification. La Paz County La Paz County is located on the western boundary of Arizona along the Colorado River between the rapidly growing metropolitan areas of Phoenix, Las Vegas, and southern California with rail and interstate highway access. The County is bordered by Maricopa County on the east, Yuma County to the south, and Mohave County to the north separated by the Bill Williams River, San Bernardino, Riverside, and Imperial counties are across the Colorado River to the west in the State of California. The County is 4,518 square miles in area and is the third smallest County in Arizona with the lowest population density of slightly more than four persons per square mile. La Paz County has over 100 miles of frontage on the Colorado River with nearly half of that in the CRIT Reservation. As noted in the La Paz County Comprehensive Plan, the County’s land area is characterized by sandy beaches, rugged mountains, open desert, and vast agricultural lands. The Plan also notes that many of these areas are adjacent to each other with shear cliffs rising from the Colorado River channel and irrigated farmland abutting open desert. The County’s access to River recreation, wilderness areas, and wildlife refuges are an attraction to thousands of annual visitors placing tourism as the top industry. Agriculture is the next largest economic sector in the County. Mining and prospecting for gold and other minerals along with hunting for gems are significant activities drawing people to La Paz County. Prospecting and searching for gems range from serious business endeavors to recreational hobbies. Residents and visitors use the State Highway, County, and local road system as well as off-highway trails to access remote areas for these activities. Lima & Associates La Paz Transportation Planning Study – Page 19 The Town of Quartzsite and Town of Parker are the two primary communities in the County. Communities along the River include Ehrenberg, Cibola, and Parker Strip. Other communities in the County are Bouse, Brenda, Harcuvar, Hope, Poston, Quartzsite, Salome, Vicksburg, and Wenden. The La Paz County Comprehensive Plan identified several “Growth Areas” that are anticipated for future development. These areas include: • Quartzsite has the land base and a significant amount of privately-held land within its incorporated boundaries to support development. The Town has aggressively taken steps to develop its water and wastewater systems and other infrastructure to accommodate future development. • Parker South is located just over 10 miles south of the original townsite. This area is considered within the Town of Parker’s municipal limits though separated by the CRIT Reservation. The Town of Parker has invested significant infrastructure development resources in anticipation of and to encourage a full range of land uses. • The Salome-Wenden area, Cibola, Brenda, and the Parker Strip are also anticipated to grow as privately-held land is abundant in these areas. • Ehrenberg also has growth potential based on its strategic location on the California border and excellent transportation access. Lack of privately-held land in Ehrenberg could hinder growth, but there are significant holdings of State highway lands in the vicinity that could accommodate new development should the market warrant. • Bouse is also an area where growth can be expected. The community consists of mostly privately-held land with several miles of frontage along SR 72. The area is anticipated to continue to attract residential and neighborhood-type commercial development. Town of Parker The Town of Parker is located along the east bank of the Colorado River in the northern corner of the Colorado River Indian Community. Situated on a Mesa, the Town is at an elevation of approximately 450 feet above sea level and is within the Sonora Desert. East of the community are the Gibraltar Mountains and the Whipple and Riverside Mountains are north and southwest of the Town, respectively. The Town is a one square mile area and includes an annexed area of 13,000 acres of non-contiguous land ten miles south, known as Parker South. In total, the Parker “Area” includes the following: • • • • • Town of Parker Parker South Parker Valley Parker Strip Communities of Earp, Parker Dam, and Big River on the California side of the river Lima & Associates La Paz Transportation Planning Study – Page 20 The Town was laid out as a grid street system with a railroad through center of town to serve as a depot and watering station and shipping station. As the County Seat for La Paz County, the Town is the prime location of government employees and services. More recently, the Parker area economy has transitioned from one based on agriculture and mining industries to a more service-oriented economy catering to tourists and visitors seeking hunting, fishing, and water recreation opportunities. Parker Strip The 16-mile Parker Strip Area in the northwest portion of the La Paz County resembles a “beach town.” The popularity of the Parker Strip is due to its location along the Colorado River and the fact that the land is mostly privately-held between Federal, State, and local agencies. As a result of this popularity, the Parker Strip has developed at higher densities than communities in the County’s unincorporated areas. The Strip is a mix of full time residences, vacation homes, small commercial businesses, eating and drinking establishments, and boating and recreational related industrial operations. Currently, some redevelopment is occurring on various properties. Construction includes some large higher priced single family homes. Considerable tourism activities are frequent along the Parker Strip with the number of visitors and recreational users increasing significantly on summer weekends. Town of Quartzsite The Town of Quartzsite is located in the Sonoran Desert approximately 31 miles from the Colorado River along Interstate 10 and US 95. Approximately 3,354 persons were full time residents as measured by the 2000 Census.’ The major contributor to Quartzsite’s economy is tourism. Travelers stop in the area for food, lodging, fueling, and shopping. In the winter months, the Town provides retail and other services to visitors residing at the many mobile home parks in the vicinity. Over one million and a half people are attracted annually to the major gem, mineral, and general swap-meeting shows representing thousands of vendors. Colorado River Indian Tribes The CRIT is composed of about 3,500 members from four Tribes: Mohave, Chemehuevi, Hopi, and Navajo. The 270,000 acre CRIT Reservation traverses both the Arizona and California sides of the Colorado River. The Town of Parker is the primary community in the CRIT Reservation. The Town is located on a combination of Tribal land—leased land that is owned by CRIT, and land owned by non-Native Americans. Lima & Associates La Paz Transportation Planning Study – Page 21 The Reservation includes other communities such as Poston, located 10 miles south of Parker. Poston was the site in World War II of one of the United States' largest Japanese internment camps now home to the Poston Monument, a monument to the Japanese internees. The primary economic activity on the CRIT Reservation is agriculture including growing cotton, alfalfa, and sorghum. However, the Tribal economy has grown and diversified and includes the following: • • • Sand and gravel operations Real estate development and retail stores The Blue Water Resort and Casino in Parker attracting both cultural and recreational tourists to the area Attractions within the CRIT include the Ahakhav Preserve and CRIT Museum. POPULATION Table 3-1 presents demographic data from the US 2000 Census for incorporated towns, Civil Designated Places (CDPs), and other unincorporated areas. Table 3-2 shows the estimated changes in population from the year 2000 as reported by the US census to 2007 as reported by the Arizona Department of Economic Security (DES). Table 3-3 presents a demographic summary as reported by the US 2000 Census. TABLE 3-1. YEAR 2000 POPULATION AND DWELLING UNITS Area Arizona La Paz County Parker Strip CDP Bluewater CDP Parker Town Salome CDP Wenden CDP Bouse CDP Poston CDP Quartzsite Town Ehrenberg CDP Cibola CDP Municipality Totals Estimated La Paz Non Municipality Totals Population Dwelling Units Occupied Dwelling Units 5,130,632 19,715 2,189,189 15,133 1,901,327 8,362 3,302 730 3,140 1,690 556 615 389 3,354 1,357 172 15,305 4,925 537 1,157 1,176 309 562 110 3,186 824 161 12,947 1,589 337 1,064 780 207 320 101 1,850 545 65 6,858 4,410 2,186 1,504 Source: US Census 2000 CDP – Civil Designated Place Lima & Associates La Paz Transportation Planning Study – Page 22 TABLE 3-2. CHANGES IN POPULATION Area DES Estimate July 1, 2007 US Census 4/1/2000 Change Percent Change Arizona La Paz County Parker Town Quartzsite Town Unincorporated Areas 6,500,194 21,529 3,401 3,671 14,457 5,130,632 19,715 3,140 3,354 13,221 1,369,592 1,814 261 317 1,236 26.7% 9.20% 8.31% 9.45% 9.35% Source: Arizona Department of Economic Security, US Census 2000 TABLE 3-3. DEMOGRAPHIC SUMMARY Total Population Aged 65 and Over 5,130,632 653,778 La Paz County 19,715 Town of Parker Town of Quartzsite Area Arizona Below Poverty Mobility Limited 1,856,374 698,669 902,252 5,088 7,142 3,798 3,058 3,140 296 1,713 460 678 3,354 1,843 185 457 356 Minority Source: US Census 2000, Lima & Associates Environmental Justice (Title VI) Populations Environmental justice was established as a federal government priority in 1994 with the issuance of Executive Order 12898, Federal Actions to Address Environmental Justice in Minority Populations and Low Income Populations. In addition, to minority and low income populations, this Study addresses both elderly (Aged 65 and older), and mobility-limited populations. Environmental justice issues related to transportation in La Paz County have been addressed through this Study in the following manner. • This section presents US Census data that describes the population living within geographic areas that could be affected by proposed transportation improvements. • The draft transportation plan includes an analysis of whether the recommended projects may differentially affect Environmental Justice Populations. This Study examines potential effects, both positive and negative, that these projects may have on minority, low-income populations, mobility-limited, and elderly populations. If any of the potential projects place a disproportionate burden on minority or low-income populations, the Study explains the considerations that dictated this recommendation over alternative actions. • The public involvement activities made a concerted effort to reach minority and lowincome populations when conducting the Study’s public meetings. Lima & Associates La Paz Transportation Planning Study – Page 23 Figure 3-1 compares the percentages of Title VI populations in the Study Area with those Statewide. FIGURE 3-1. COMPARISON OF PERCENTAGES OF TITLE VI POPULATIONS 40.00% 35.00% 30.00% Arizona 25.00% La Paz County 20.00% 15.00% 10.00% 5.00% 0.00% Minorities Age 65 and Over Mobility Limits (Age 16-64) Below Poverty Line EMPLOYMENT Employment information was obtained from a comprehensive commercial database provided by InfoUSA that includes 14 Million U.S. Businesses. The number of employees by area within the County is presented in Table 3-4. TABLE 3-4. 2008 EMPLOYEES BY AREA, LA PAZ COUNTY Area Bouse CDP Cibola CDP Ehrenberg CDP Parker Area Poston CDP Quartzsite Town Salome CDP Wenden CDP Total Total Employees 123 26 534 6,270 70 2017 627 131 9,798 Source: InfoUSA Employment Database, February 2009 CDP – Census Designated Place Lima & Associates La Paz Transportation Planning Study – Page 24 Approximately 9,800 people are employed in La Paz County. Major employers in the Study Area include the Blue Water Resort and Casino, and Safeway and Bashas’ grocery stores in the Parker area, Quartzsite Senior Citizens and Tri-State Care Flight in Quartzsite, and the Flying J Travel Plaza in Ehrenberg. Area schools and government agencies are also significant employers. The Parker area has the highest number of employees, approximately 6,300 and includes the three largest employers. The service industry employs the highest percentage of employees. LAND USE The allocation of land ownership in the County is graphically summarized in Figure 3-2 and illustrated in Figure 3-3. Only about five percent of the land in the County is privately owned and approximately 86 percent is owned by federal, State agencies, and local agencies. The Bureau of Land Management is the largest land owner in the County, owning and managing approximately 58 percent of the land in the County. The CRIT owns approximately 9 percent of the land. General land use in the Study Area is shown in Figure 3-4 and major activity centers throughout the Area are shown in Figure 3-5. FIGURE 3-2. PERCENT OF TOTAL LAND BY OWNER 14.77% 57.81% 13.73% 8.58% 5.11% BLM State Trust, Wildlife, Local and State Parks, and Other Military Colorado River Indian Tribes Private Lima & Associates La Paz Transportation Planning Study – Page 25 FIGURE 3-3. LAND OWNERSHIP Lima & Associates La Paz Transportation Planning Study – Page 26 FIGURE 3-4. LAND USE Lima & Associates La Paz Transportation Planning Study – Page 27 FIGURE 3-5. ACTIVITY CENTERS Lima & Associates La Paz Transportation Planning Study – Page 28 La Paz County Parks La Paz County’s system of parks includes the following (La Paz County Comprehensive Plan): • La Paz County Park is located north of Parker on the west side of SR 95. The park has camping facilities, boat access to the Colorado River, one-mile of River Frontage. The park is adjacent to County-owned Emerald Canyon Golf Course, which is open to the public. • Bouse Community Park is located south of SR 72 in Bouse on Plomosa Road, sometimes referred to as Quartzsite Scenic Route. The park includes 25 dry camping sites and 15 with water available. Day use facilities are also available. • Ehrenberg Community Park is located in Ehrenberg on Parker/Poston Road. The park is a partnership between La Paz County and the Ehrenberg Improvement Association. The park offers day use facilities. • Cibola Historic Park is located on Baseline Road of Highway 78 south of Cibola and adjacent to the Cibola National Wildlife Refuge. The park offers day use facilities. • Patria Flats Park is located adjacent to the Parker Strip on the Colorado River. The park offers day use facilities including boating amenities. • Centennial Community Park is located just off US 60 between Salome and Wenden. The park contains 26 dry camp sites and day use and recreational facilities. Arizona State Parks Alamo Lake State Park is located in the northeast portion of the County along the northern border of the County. Alamo Lake is located on the Bill Williams River where the Big Sandy River and Santa Maria River come together. The Lake was created with the completion of Alamo Dam in 1968. The environment around the lake consists of desert and mountainous landscape. The Park is popular for outdoor fun and is known for premier bass fishing and a variety of wild flowers and wildlife including bald and golden eagles, waterfowl, foxes, coyotes, and mule deer. Wild burros also roam the area. Buckskin Mountain State Park is located between the Colorado River and SR 95 approximately 12 miles northeast of the Town of Parker. The Park offers scenic views of the River and Mountains along the Parker Strip. Park amenities include a campground, cabanas, boat ramp, picnic area, basketball and volleyball court, playground, restaurant, camp store, arcade, gas dock, and ranger station. The Park has 68 RV sites with water and electric. River Island State Park a few miles north on SR 95—has 37 sites. PHYSICAL, NATURAL, AND CULTURAL RESOURCES La Paz County is in the north-central portion of the Sonoran Desert with characteristics ranging from very arid to lush desert. This chapter discusses the County’s rich natural and Lima & Associates La Paz Transportation Planning Study – Page 29 cultural resources. Transportation planning for the County must recognize the importance of preserving these resources as well as provide access to them where needed. Figure 3-6 presents an environmental overview of the County showing rivers and streams, lakes, wilderness areas, and mountain ranges. Mountain ranges include the Gibraltar Mountains, Rawhide Mountains, Arrastra Mountains, Harcuvar Mountains, Harquahala Mountains, Eagletail Mountains, New Water Mountains, and Trigo Mountains. Elevations in the County range from 5,691 feet at Harquahala Peak on the far eastern edge of the County to just a few hundred feet above sea level at the Colorado River. The County includes fourteen designated Wilderness Areas and Wildlife Refuges. In addition, the southwestern part of the County includes the northern portion of the Yuma Proving Grounds owned and operated by the United States Military. Wildlife Wildlife is abundant in La Paz County. The warm climate, water resources, and topography provide a unique habitat for wildlife. Big game species include desert bighorn sheep, mule deer and javelina. Desert bighorn sheep are found in the mountainous areas. However, mining, habitat encroachment, disease, and road construction have depleted much of the bighorn sheep populations in the area. The most commonly sighted of the big game species are Mule deer that inhabit the densely vegetated desert washes, bajadas, and foothills. Bajadas are shallow slopes that accumulate material from the weathering of rocks, retaining water and supporting vegetation. A small population of javelina inhabits the Plomosa Mountains. Small game species found throughout the area include Gambel’s quail, white-winged dove, mourning dove, and desert cotton-tail rabbit. Furbearers include bobcat, ring-tailed cat, kit fox, and coyote. Other wildlife species found in the County include Merriam’s kangaroo rat, several species of pocket mouse, white-throated woodrat, black-tailed jackrabbit, and Harris’ antelope squirrel. Common bird species are black-throated sparrow, cactus wren, greater roadrunner, Gila woodpecker, verdin, loggerhead shrike, and black-tailed gnatcatcher. Reptiles and amphibians include the sidewinder, western diamondback rattlesnake, Sonoran gopher snake, western whiptail, desert iguana, zebra-tailed lizard, side-blotched lizard, redspotted toad, and Great Plains toad. Wild Burros roam in areas in the County having been first introduced into the Desert Southwest by Spaniards in the 1500s. Although Wild Burros are not technically classified as Wildlife, the BLM manages Wild Burros to assure the herd’s free-roaming character, health, and self-sustaining ability. Figure 3-6 also illustrates Wilderness Areas and Wildlife corridors. The following wildlife is listed as “Special Status” species in the Study Area: • • • • Bald eagle Bonytail chub California Brown Pelican Razorback sucker Lima & Associates • • • • Southwestern willow flycatcher Yuma clapper rail Yellow-billed cuckoo American peregrine falcon La Paz Transportation Planning Study – Page 30 FIGURE 3-6. ENVIRONMENTAL OVERVIEW Lima & Associates La Paz Transportation Planning Study – Page 31 The Bonytail Chub is an endangered freshwater fish native to parts of Arizona, California, Colorado, Nevada, and Utah. Critical habitat for this fish is along the Colorado River. The California Brown Pelican is proposed to be “delisted” and the Yellow-billed Cuckoo is listed as a “candidate”. Also, the BLM is attempting to have the Sonoran Desert Tortoise placed on the Endangered Species list. Such a designation could have a significant impact on area roadway planning and construction. Federally Designated Wildlife Refuges and Wilderness Areas La Paz County has fourteen designated refuges and wilderness areas preserved from development. These are listed in Table 3-5 below and depicted in Figure 3-6. TABLE 3-5. STUDY AREA ACREAGE OF WILDLIFE REFUGES AND WILDERNESS AREAS Refuge Imperial National Wildlife Refuge Trigo Mountains Wilderness Kofa National Wildlife Refuge Cibola National Wildlife Refuge Eagletail Mountains Wilderness Area East Cactus Plain Wilderness Area Swansea Wilderness Area Cactus Plain Wilderness Study Area Gibraltar Mountain Wilderness Area Rawhide Mountains Wilderness Area Bill Williams River Area Harquahala Mountains Wilderness Area Harcuvar Mountains Wilderness Area New Water Mountains Wilderness Area Acreage within Study Area 9,216 30,300 97,826 16,600 89,000 14,630 15,755 58,904 18,805 41,600 6,105 4,584 3,500 24,644 Source: La Paz County Comprehensive Plan, adopted may 2, 2005, Wildlife Corridors To promote wildlife movement, agencies that manage wildlife have identified wildlife corridors that connect areas of relatively undisturbed land (see Figure 3-6). Wildlife corridors are important for seasonal migration and to maintain genetic diversity. La Paz County has multiple wildlife corridors, with most located south of I-10 and in the eastern portion of the County. Recommended transportation improvements in the La Paz transportation plan must recognize these corridors. Lima & Associates La Paz Transportation Planning Study – Page 32 Biotic Communities Vegetation in La Paz County ranges from the Lower Colorado River Sonoran Desertscrub to Upland Sonoran Desertscrub and Interior Chaparral in the higher elevations. Desertscrub habitats typically are open, scattered assemblages of broadleaved evergreen or deciduous shrubs such as the Creosotebush. Interior Chaparral shrubs are dwarf evergreen oaks typically growing at elevations of 4,000 to 5,500 feet. The shrubs are deep-rooted, broad-leaved, and leathery leaved. Desert drainages with mixed riparian scrub are located throughout the County and support stands of desert ironwood, blue palo verde, honey mesquite, smoke tree, and various other shrubs and grasses. In addition, the sand dunes north of Quartzsite are stabilized and support endemic species of plants unique to the area. 'Ahakhav Tribal Preserve The 'Ahakhav Tribal Preserve in the CRIT Reservation is a 1,253 acres wilderness area and a 3.5 acre park. A reconstructed Colorado River backwater offers fishing, canoeing, birding, and swimming. A 4.6 mile fitness trail is maintained in the preserve. The park includes a playground and picnic facilities. The preserve offers recreational and learning opportunities to the surrounding community and visitors. In addition, the preserve is a revegetation area for endangered and threatened plants and animals native to the Lower Colorado River Basin. Bureau of Land Management Land owned by the BLM in La Paz County is managed by Yuma and Lake Havasu Field Offices. The Lake Havasu Field Office oversees the largest portion of the BLM lands in La Paz County, nearly 1.3 million acres of public land encompassing more than 140 miles of the lower Colorado River. The field office boundaries include portions of Arizona's La Paz and Mohave counties, and California's San Bernardino County. This area includes five wilderness areas and one wilderness study area. Additionally, the field office manages one Area of Critical Environmental Concern, one National Scenic Area, and one river segment suitable for Wild and Scenic River Designation. The Yuma Field Office manages 1.2 million acres of southwestern Arizona and southeastern California including 155 miles of the lower Colorado River. The field office oversees four wilderness areas, along with significant archeological and historic sites. It is home to Juan Bautista de Anza National Historic Trail, one Area of Critical Environmental Concern, five properties listed on the National Register of Historic Places, and Betty’s Kitchen National Recreation Trail. The lands managed by the Lake Havasu and Yuma Field Offices provide recreation for the area's 10 million annual visitors enjoying water sports, hiking, biking, camping, rockhounding, wildlife viewing, hunting, fishing, and off-highway vehicle adventures. During Lima & Associates La Paz Transportation Planning Study – Page 33 winter, the desert becomes a small city as long-term campers escape the northern winter. The river and desert provide habitat for desert bighorn sheep, and other wildlife, as well as wild burros and horses. Resource Management Plans The BLM has prepared an Approved Lake Havasu District Resource Management Plan and a Proposed Yuma District Resource Management Plan and Final Environmental Impact Statement for the Yuma District. The plans focus on the following areas: • Biological Resources Management - Soil, Water, Air (Watershed) - Vegetation - Riparian - Special Status Species - Wildlife and Fisheries • Recreation Management - Area of Critical Environmental Concern - Wilderness - Special Designations - Back County Byway - Wild and Scenic Rivers • Cultural Resource Management • Rangeland Management/Grazing • Fire Management • Travel Management • Lands and Realty Program • Visual Resource Management • Mineral Resources • Wild Burro Management • Paleontological Resource Management • Wilderness Characteristics Two BLM facilities have recently opened in the Parker Strip Recreation Area – located south of Parker Dam, on the California side of the Colorado River. The Rockhouse Visitor Center and Boat Ramp provides visitors with recreation and other information, scenic views overlooking the river, and restrooms. Boat launching is free to the public. Also in the Parker Strip area, the Empire Landing Campground is open. This beach front facility has expanded and improved the amenities to include 40 RV sites, 16 tent sites, shade ramadas, picnic tables, BBQ grills, drinking water, hot showers, restrooms, and RV dump station. The BLM also has prepared the Community Wildfire Protection Plan, La Paz County, January 2008. The plan provides an analysis of the wildfire threat in La Paz County and a mitigation plan to lower the threat from wildfire to the identified communities. Additionally, the BLM has developed the La Paz Travel Management Plan and Environmental Assessment that officially designated 1,700 miles of inventoried roads, trails, and drivable desert washes. Archaeological and Historical Resources Archaeological evidence of aboriginal inhabitants is found throughout the County. Sites include campsites, lithic quarries, lithic scatters, ceramic scatters, sleeping circles, rock alignments, and trails. Site types include geoglyphs ceremonial sites, roasting pits, hunting Lima & Associates La Paz Transportation Planning Study – Page 34 blinds, pictographs, cremation sites, and historic wagon roads. Lithic refers to stone or rock materials or tools. Geoglyphs are earth figures or intaglios—large figures, designs, and pathways drawn into the desert pavement. Table 3-6 lists cultural sites that are in and around the Town of Quartzsite managed by the BLM. Table 3-7 presents sites that are on the National Register of Historical Places. Other places of historic interest include: • • • • • Bradshaw Ferry Tyson's Well Stage Station Museum Poston Memorial, CRIT Parker Railroad Station Camp Bouse • • • • • Petermans Station Grave of Hi Jolly Parker Dam Bouse Assay Office 9th Tank Group Memorial Environmental Concerns Potential concerns within the Study Area include impacts of waste management and treatment facilities, leaking underground storage tanks, and mines. Mine locations also pose a safety concern. Abandoned mine shafts continue to be an area hazard, and there has been one recent fatality. No inventory of abandoned mines exists. According to information on the Arizona Department of Environmental Quality (ADEQ) web site, La Paz County and local communities are in attainment of air quality standards. CURRENT ROAD CONDITIONS This section presents the current road conditions in La Paz County. Road conditions discussed include current roadway characteristics, roadway infrastructure conditions, traffic volume counts, and level of service. Multimodal conditions are discussed in the next chapter including transit and rail characteristics and characteristics of non-motorized facilities. Current Roadway Characteristics This section presents characteristics of the roads in La Paz County including functional classification, number of lanes, and speed limits. Lima & Associates La Paz Transportation Planning Study – Page 35 TABLE 3-6. BLM MANAGED CULTURAL RESOURCE SITES IN AND AROUND QUARTZSITE Name Fisherman Intaglio Big Arrow Site Bouse geoglyph White Cross Circle and Arrow Tyson Wash Site Dripping Springs Tule Springs Lazarus Tanks North Kofa Site Black Mesa Southwest Kegley/Lynch #1 Bear Hills Site Rock Ring “Town” The Community Center The Quartzsite Rock Alignment Military Campsites Quartzsite Milling Site Granite Mountain Cabin Spanish Wall Erdman Mine Description Human-shape figure holding a large spear with a white quartz point Complex geoglyph with two human figures, a huge arrow, and several other features Large human-shaped earth figure Small cross and circle made of white quartz Small rock alignment in the form of an arrow emerging from a circle A complex with many petroglyphs, a water tank in the wash, and mortar holes in the rocks Complex petroglyph site and historic mining developments at an active seep Site includes petroglyphs and evidence of mining activity Group of red pictographs Large site with petroglyphs Small complex of petroglyphs Small complex of petroglyphs Small petroglyph site with several rock rigs Complex of very large rock rings “Big House” area with several huge cleared areas Military rock alignment of a large arrow pointing to Quartzsite Training or maneuver sites related to General Patton’s World War II or 1964 Desert Strike activities A huge milling site on the side of a hill A small stone mining cabin A stone wall built to create a drywash ramp for mining purposes A unique mining operation Significance Popular, Sociocultural Popular; Sociocultural Scientific Scientific Scientific Popular; Sociocultural Popular; Sociocultural Scientific; Popular Scientific Scientific; Popular Scientific Scientific Scientific; Popular Scientific; Popular Scientific Sociocultural Scientific; Popular Popular; Sociocultural Scientific; Popular Popular; Sociocultural Scientific; Popular Source: Town of Quartzsite General Plan Lima & Associates La Paz Transportation Planning Study – Page 36 TABLE 3-7. NATIONAL REGISTER OF HISTORIC PLACES Site Area of Significance Eagletail Petroglyph Site, Hyder Prehistoric Harquahala Mountain Smithsonian Solar Observatory Historic District, Harquahala Mountain Harquahala Peak Observatory, E of Wenden Old La Paz, Ehrenberg (Laguna de La Paz) Old Presbyterian Church, SW of Parker Parker Jail, N side of Agency Rd. Parker Ripley Intaglios Cultural Affiliation Period of Significance Owner Science 1500-1999 BC, 1000-1499 BC, 500-999 BC, 499-0 BC, 499-0 AD, 1000-500 AD, 1499-1000 AD 1900-1924, 1925-1949 Federal Science 1900-1924 Federal 1850-1874 Private 1900-1924 Private 1900-1924 Private 1500-1599, 1600-1649, 16501699, 1700-1749, 1750-1799, 1800-1824, 1825-1849, 18501874 Federal Transportation, Education, Historic - Aboriginal Religion, HistoricAboriginal Politics /Government Prehistoric, Historic-Aboriginal Late Archaic, Patayan, Hohokam American, rural, Mojave, Chemehuevi Mojave Yuman Federal Source: National Register of Historic Places http://www.nationalregisterofhistoricplaces.com/az/La+Paz/state.html Functional Classification Lima & Associates FIGURE 3-7. FUNCTIONAL CLASSIFICATION MOBILITY VERSUS ACCESS Freeways Arterials Increasing Mobility A functional classification groups roads by mobility and access. Mobility represents the movement of people and freight from place to place and access represents the connection between roadways and properties along the roadways. Roads are generally classified into freeways, arterials, collectors, and local roads. Figure 3-7 illustrates the relationship of mobility and access to the road classification. A freeway, for example, provides mobility over long distances with minimal access to adjoining properties. Arterials provide a high level of mobility Collectors Local Streets Increasing Access La Paz Transportation Planning Study – Page 37 serving longer distance trips and provide access to adjacent property. A collector road, on the other hand, provides both mobility between neighborhoods and commercial areas and access to these areas from arterials. Local streets provide access to individual homes and businesses within neighborhoods and commercial areas. Roadway functional classifications were developed to reflect both urban and rural areas in the Study Area. Figure 3-8 displays the functional class of each roadway in the Study Area. Freeways provide high mobility and limit access through traffic interchanges at selected locations. Adjacent properties do not have access to freeways. Interstate 10 (I-10) is an eastwest freeway through the Study Area which has limited access and carries a large volume of traffic at high speeds. The interstate facilitates interregional and interstate traffic movements through the region and facilitates access to the region. Arterials serve or bypass the primary centers of activity, carry relatively high traffic volumes, and carry the primary portion of trips entering and leaving the area. Some arterials have full or partially controlled access to improve mobility. Arterials in the Study Area include SR 95, SR 72, and US 60. The collector road system distributes trips from the arterials to the local streets. Collector streets also provide traffic circulation within residential neighborhoods and low density areas, and direct access to adjacent property. Collector streets that have been identified for this Study include: • • • • Ehrenberg Parker Highway McVay Road Salome Road Plamosa Road • • • Avenue 42 E Vicksburg Road Alamo Road Local streets provide the highest level of access by providing direct access to residential and commercial properties. Specific local streets are not included as part of the Study. Number of Lanes Figure 3-9 illustrates the number of lanes on roads within the County. Two lane roadways are the predominate roadways in La Paz County. Interstate 10 is a four-lane divided roadway and segments of SR 95 are four to five lanes. Speed Limits Figure 3-10 illustrates the posted speed limits on roads in La Paz County. Interstate 10 has the highest speed limits at 75 mph. Portions of State highways are posted as 65 mph. Lima & Associates La Paz Transportation Planning Study – Page 38 FIGURE 3-8. ROAD NETWORK AND FUNCTIONAL CLASSIFICATION Lima & Associates La Paz Transportation Planning Study – Page 39 FIGURE 3-9. NUMBER OF LANES Lima & Associates La Paz Transportation Planning Study – Page 40 FIGURE 3-10. SPEED LIMITS Lima & Associates La Paz Transportation Planning Study – Page 41 CURRENT INFRASTRUCTURE CONDITIONS Surface Type Paved and unpaved roads within the Study are shown in Figure 3-11. Of the 780 miles of road in the County, approximately 166 miles are unpaved. Pavement Conditions – State Highways Pavement conditions reported for State highways were obtained from ADOT. Pavement conditions for road sections in the Study Area appear on Figure 3-12. Pavement conditions are rated on a Present Serviceability Rating (PSR) scale ranging from superior (4.0 to 5.0) to very poor (0.0 to 1.0). The PSR is assigned based upon the collective judgment of selected road users who assess the smoothness of the ride and the visible signs of pavement distress. ADOT considers road segments for pavement rehabilitation if their PSR is below a threshold value, set at between 3.55 and 3.75 depending on the type and local climate of the roadway. Table 3-8 summarizes the miles of State highways that are within each PSR category. Pavement Conditions – La Paz County Routes La Paz County employs a rating system for pavement condition called the Remaining Service Life (RSL) based on pavement condition, as well as the number of years before it will require reconstruction or rehabilitation. Table 3-9 summarizes the mileage with RSL rating categories for pavements on La Paz County Roads. Working Paper 1 presents the detail on pavement segments for County Roads. Bridge Conditions Bridge conditions were obtained from ADOT. Bridges in the County were evaluated for sufficiency rating, functionally obsolete status, and structurally deficient status. Bridge Sufficiency Rating (BSR) is an indication of bridge sufficiency to remain in service. A 100 percent BSR indicates an entirely sufficient bridge and zero percent represents an entirely insufficient or deficient bridge. A low BSR may be due to structural defects, narrow lanes, low vertical clearance, or any of many possible issues. Functionally Obsolete describes a bridge that is no longer by design functionally adequate for its task. Such a bridge may be perfectly safe and structurally sound, but may cause traffic jams or may not have adequate clearance for an oversized vehicle. Lima & Associates La Paz Transportation Planning Study – Page 42 FIGURE 3-11. PAVEMENT TYPE Lima & Associates La Paz Transportation Planning Study – Page 43 FIGURE 3-12. PAVEMENT CONDITIONS – STATE HIGHWAYS Lima & Associates La Paz Transportation Planning Study – Page 44 TABLE 3-8. SUMMARY OF PAVEMENT CONDITIONS ON STATE HIGHWAYS, LA PAZ COUNTY Condition Fair Good Superior Total Mileage 37.00 124.00 154.00 315.00 Percent 12% 39% 49% 100% Source: ADOT Pavement Management System, 2009 TABLE 3-9. PAVEMENT REMAINING SERVICE LIFE, LA PAZ COUNTY ROADS RSL Category Remaining Service Life I II III IV V VI 0-2 years 3-7 years 8-12 years 13-17 years 18-22 years and 23- 25 years Total Total Road Mileage 17.53 161.26 40.63 0.00 1.52 0.00 220.94 Percent Mileage 7.93 72.99 18.39 0.00 0.69 0.00 100.00 Source: La Paz County Public Works. October 2008 through March 2009 Structurally Deficient describes a bridge with one or more structural defects that require attention. This status does not indicate the severity of the defect but rather that a defect is present. Bridge conditions are displayed on Figure 3-13. A BSR less than 80 indicates that the bridge is eligible for rehabilitation and a rating greater than 80 indicate that the bridge is in good condition. Twenty-three bridges have a BSR that render them eligible for rehabilitation. As shown in Table 3-10, eight bridges are categorized as either functionally obsolete or structurally obsolete. While not structurally obsolete, bridges on Mohave Road often have traffic that meet or exceed weight restrictions. Lima & Associates La Paz Transportation Planning Study – Page 45 FIGURE 3-13. BRIDGE CONDITIONS Lima & Associates La Paz Transportation Planning Study – Page 46 TABLE 3-10. FUNCTIONALLY AND STRUCTURALLY OBSOLETE BRIDGES, LA PAZ COUNTY Agency Route MP La Paz Co La Paz Co ADOT ADOT ADOT ADOT I-10 I-10 I-10 SR 95 S 17.50 5.84 26.65 144.83 ADOT ADOT SR 95 I-10 161.73 0.01 Name Sufficiency Rating Length Deficiency Oxbow Bridge 567 F 66.94 Farmer's Bridge West Quartzsite TI UP Tom Wells Rd TI UP Gold Nugget TI UP Colorado River Bridge Bill Williams River Bridge Ehrenberg Bridge 400 249 247 250 656 F F F F S 75.66 75.35 86.23 92.88 6.00 1126 1113 S S 47.86 67.72 Source: ADOT Bridge Management System, 2009 La Paz County Road Needs Arizona Association of County Engineers (AACE) 2008 Roadway Needs Study Update documents road needs for each County in Arizona. The total road needs in La Paz County for the period 2009 to 2018 was approximately $153.6 million excluding right-of-way cost of approximately $9.1 million. Table 3-11 summarizes the estimated road needs by maintenance and construction costs. Chapter 4 summarizes transportation needs and deficiencies identified by stakeholders. TABLE 3-11. 2009-2018 NEEDED EXPENDITURES FOR LA PAZ COUNTY (Amounts Shown in Thousands) Period 2009-2013 2014-2018 Total Maintenance & Operations $36,796 $36,796 $73,593 Existing Bridges $1,442 $1,442 $2,883 New Bridges on Existing Roads $0 $0 $0 Upgrade Existing Roads $63,083 $89 $63,172 New Road $0 $0 $0 Safety $10,132 $3,833 $13,965 Total $111,453 $42,160 $153,613 Source: AACE 2008 Roadway Needs Study Excludes right-of-way Lima & Associates La Paz Transportation Planning Study – Page 47 Ports-Of-Entry Two of Arizona’s 22 ports-of-entry are situated in La Paz County: one in Ehrenberg serving interstate traffic and one in Parker. These ports monitor and screen all commercial traffic entering the State for registration, tax, size, and weight restrictions, commercial driver’s license requirements, and insurance requirements. Vehicles are checked to ensure that they are properly maintained and operated safely. CURRENT TRAFFIC AND SAFETY CONDITIONS This section presents data on current traffic and safety conditions in the County. Traffic Volume Data Sources Data for traffic volumes were obtained from the following sources: 2009 Study Data - Traffic count data for this Study was collected on various roads during the weeks of February 3, 2009 through February 26, 2009, in order to count traffic volumes during the peak winter season. The data collected included 48-hour Average Daily Traffic (ADT), hourly turning movement counts, and vehicle classification counts. Figure 3-14 illustrates the locations of traffic count data and type of traffic counts taken. Detailed traffic count data is documented in Working Paper 1. ADOT Automated Traffic Recorder (ATR) - Automated Traffic Recorder sites maintained by ADOT continuously collects traffic data at selected locations on State highways. For this Study, the traffic count data was obtained from the following locations on State highways within or near La Paz County: La Paz County Ehrenberg: I-10 at MP 2.48 Utting: SR 72 at MP 35.00 Quartzite: SR 95 and MP 115.40 Parker: SR 95 at MP 147.10 Maricopa County Aquila: US 60 at MP 82.57 ATR data includes hourly traffic volumes and vehicle classification counts continuously taken throughout the year. The ATR traffic volume data is tabulated by day and month to represent the daily and seasonal traffic volume fluctuation at the ATR station. The Average Annual Daily Traffic (AADT) is then computed for each ATR station by dividing the total volume of vehicles by 365 days. Daily and seasonal adjustment factors are developed by ADOT to convert a traffic count taken at a location on any given day and month to an AADT. ADOT periodically conducts daily traffic counts at specified locations on State highways and converts the counts to AADTs and prepares an annual traffic count report. ADOT also maintains historical AADTs at these locations. Lima & Associates La Paz Transportation Planning Study – Page 48 FIGURE 3-14. 2009 TRAFFIC COUNT LOCATIONS Lima & Associates La Paz Transportation Planning Study – Page 49 Local Traffic Data - Available daily traffic data provided by La Paz County, Town of Parker, and Town of Quartzite. Daily Traffic Volume Average Annual Daily Traffic volumes are shown in Figure 3-15 for State highways, County roads, and local roads in the County. Working Paper 1 explains how this information was derived. The highest daily traffic volumes occur on I-10, ranging between 16,025 vehicles per day on the east end of the County to 22,104 vehicles per day on the west end. Traffic volumes on the State highways vary from 1,591 vehicles per day on US 60 to 2,091 on the rural portions of US 95. The daily traffic volumes on US 95 in the Town of Parker range between 10,270 vehicles per day and 16,048 vehicles per day. The intersection of California Avenue and Riverside Boulevard in Parker is the highest traffic volume intersection in the Study Area. Comparison of 2007 and 2008 Daily Traffic Volumes Table 3-12 compares 2007 and 2008 AADTs at each of the ATR sites. Traffic volumes on State highways in La Paz County have decreased from 2007 to 2008 between 6.4 and 9.1 percent. This type of reduction in traffic volumes has occurred throughout the State as well as the nation. The Federal Highway Administration Office of Highway Policy Information reported that the annual vehicle miles traveled decreased 3.7 percent from 2007 to 2008. Table 3-13 presents peak-hour volumes at the intersection of California Avenue and Riverside Boulevard in Parker—the Study Area’s busiest intersection. TABLE 3-12. COMPARISON OF 2007 AND 2008 TRAFFIC VOLUMES ATR Ehrenberg Aguila Utting Quartzsite Parker 2007 AADT 24,013 1,739 2,144 2,735 12,426 2008 AADT 22,121 1,627 1,997 2,485 11,390 Percent Change -7.90 -6.40 -6.80 -9.10 -8.30 Source: ADOT Traffic Count Database System, 2009 AADT – Average Annual Daily Traffic, two-way vehicles per day Lima & Associates La Paz Transportation Planning Study – Page 50 FIGURE 3-15. ANNUAL AVERAGE DAILY TRAFFIC (AADT) Lima & Associates La Paz Transportation Planning Study – Page 51 TABLE 3-13. TRAFFIC VOLUME AT CALIFORNIA AVE AND RIVERSIDE BLVD INTERSECTION Period AM Peak Hour Mid Day Peak Hour PM Peak Hour Time 7:30 a.m. - 8:30 a.m. 12:00 p.m. - 1:00 p.m. 4:15 p.m. – 5:15 p.m. Total Approach Volumes 1,540 vehicles per hour 2,318 vehicles per hour 1,888 vehicles per hour Seasonal and Daily Traffic Variations Figure 3-16 illustrates the monthly variation of the traffic recorded at each ATR site. The peak traffic season on State highways in La Paz County falls between October and May. The highest traffic volumes are expected in the January through March period. The ATR site on SR 95 in Quartzsite recorded the highest variation in peak-season traffic. ADOT has developed factors from the ATR data for converting an ADT taken at any day and month to an AADT. Working Paper 1 includes the conversion factors for the ATR locations in La Paz County. FIGURE 3-16. SEASONAL TRAFFIC VARIATIONS ON STATE HIGHWAYS, LA PAZ COUNTY 160% 150% Percentage of AADT 140% 130% Aguila 120% Utting 110% Parker 100% Quartzsite 90% Ehrenberg 80% 70% 60% JAN FEB MAR APR MAY JUNE JULY AUG SEPT OCT NOV DEC Source: ADOT Traffic Count Database System, 2009 Lima & Associates La Paz Transportation Planning Study – Page 52 Vehicle Classification Data Vehicle classification data is data collected for the type of vehicle such as automobiles, pick up trucks, light-weight trucks, medium trucks, and heavy trucks. Classification data was obtained from two sources; 1) the ADOT ATR sites; and 2) vehicle classification counts taken for this Study. Table 3-14 presents the vehicle classification data from the ADOT ATR sites grouped into three categories: 1) motorcycles, cars and light trucks; 2) Medium trucks and buses; and 3) large buses. Table 3-14 presents classification data for the average percent of daily traffic of the entire year of 2008. Working Paper 1 presents the classification data for February and June 2008, representing the peak and off-peak traffic season. TABLE 3-14. VEHICLE CLASSIFICATION AVERAGE PERCENT OF DAILY TRAFFIC (January 2008 – December 2008) ATR/Route Ehrenberg/I-10 Aguila/US 60 Utting/SR 72 Quartzsite/SR 95 Parker/SR 95 Average Daily Traffic Volume 22,133 1,637 2,004 2,488 11,400 Motorcycles, Cars and Light Trucks 60% 85% 63% 75% 91% Recreational Vehicles, Medium Trucks and Buses 7% 10% 3% 11% 6% Large Trucks 33% 5% 34% 14% 3% Source: ADOT Traffic Count Database System, 2009 ATR – Automated Traffic Recorder Vehicle classification in the Study Area varies by season. The Town of Quartzite experiences the highest changes in types of vehicles during the peak season than other locations in the County. Figure 3-17 compares the vehicle classes recorded at the Quartzsite ATR for the offpeak and peak seasons. The volume of cars, motorcycles, and light trucks in the peak season is double the volume in the off-peak season. Similarly, the volume of recreational vehicles, medium trucks and buses in the peak seasons is double the volume in the off-peak season. Vehicle Classification Data – 2009 La Paz Transportation Study Vehicle classification data was collected during February 2009 for this Study and is presented in Working Paper 1. State Route 72 has the highest percentage of trucks ranging from 36 percent to 40 percent. This may primarily be due to trucks diverting from SR 72 to I-10 via Vicksburg Rd. Lima & Associates La Paz Transportation Planning Study – Page 53 FIGURE 3-17. VEHICLE CLASSIFICATION BY SEASON, QUARTZSITE/SR 95 ATR 3,000 Average Daily Traffic 2,500 2,000 1,500 1,000 500 0 M otorcycle s, Cars and Light Trucks M e dium Trucks and Buse s Off-Peak Season (June) Large Trucks Peak Season (February) Source: ADOT Traffic Count Database System, 2009 Current Level of Service Level of Service (LOS) is a qualitative measure that characterizes how well traffic is flowing and the perception of traffic conditions by motorists and passengers. Levels of service range from LOS A to LOS F where LOS A represents the free flow of traffic with minimum interruptions and delay, and LOS F represents high congestion with significant delay and occasional blockage of intersections stopping traffic on particular road segments. Methods documented in the Highway Capacity Manual 2000 (HCM) were applied in evaluating existing road level of service conditions. Levels of service were estimated for road segments (between major intersections), unsignalized intersections, and signalized intersections. Road Segment Levels of Service Figure 3-18 presents photographs represents various levels of service and Table 3-15 gives the levels of service for ranges of volume-to-capacity (v/c) ratios on road segment. Based on the AADTs and estimated daily capacities, all of the roads in La Paz County are at a LOS A or B, expect for Riverside Drive from SR 95 to Buckskin Mountain Park, which is a LOS C, and Rio Vista Drive, which is a LOS D. Lima & Associates La Paz Transportation Planning Study – Page 54 FIGURE 3-18. PHOTOGRAPHIC ILLUSTRATIONS OF LEVELS OF SERVICE LOS A/B LOS C Good to Excellent Under Capacity Acceptable Under Capacity LOS E/F Congested Over Capacity TABLE 3-15. ROAD SEGMENT LEVEL OF SERVICE THRESHOLDS AND DESCRIPTIONS LOS V/C Ratio A 0.0 to 0.29 Capacity Level Under Capacity B 0.30 to 0.47 Under Capacity C 0.48 to 0.68 Under Capacity D 0.69 to 0.88 Near Capacity E 0.89 to 1.00 At Capacity F Greater than 1.00 Over Capacity Range Description Free flow, low volumes and densities, high speeds. Drivers can maintain their desired speeds with little or no delay and are unaffected by other vehicles. Reasonably free flow. Traffic is noticeable, but drivers have reasonable freedom to select their speeds and lanes. Speeds remain near free flow, but freedom to maneuver is restricted. Speed begins to decline with increasing volume and drivers have limited maneuverability. Unstable flow with volume at or near capacity. Freedom to maneuver is extremely limited. Gridlock conditions with speeds dropping to zero at times. Source: Highway Capacity Manual, 2000, Exhibit 21-2, p. 21-3. Unsignalized Intersection Levels of Service Both two-way and all-way unsignalized intersections were evaluated for AM, mid-day, and PM peak-hour periods in February 2009. Table 3-16 displays LOS criteria for stop sign controlled intersections. For two-way controlled unsignalized intersections, the performance criteria are the levels of service estimated on the minor street approaches and left-turn lanes on major street approaches. The levels of service at all-way intersections are estimated for all the traffic movements. Lima & Associates La Paz Transportation Planning Study – Page 55 TABLE 3-16. UNSIGNALIZED INTERSECTION LEVEL OF SERVICE CRITERIA Level of Service A B C D E F Average Control Delay (seconds/vehicle) 0-10 >10-15 >15-25 >25-35 >35-50 >50 Source: Highway Capacity Manual, 2000 Table 3-17 presents the turning movements with a LOS greater than C for unsignalized intersections. Working Paper 1 presents the level of service for all the turning movements for the intersections approaches where traffic counts were taken. TABLE 3-17. UNSIGNALIZED INTERSECTION LEVEL OF SERVICE C OR LOWER Intersection California Ave and 16th St California Ave and 16th St Time Period Direction 11-1 p.m. Eastbound 4-6 p.m. Eastbound California Ave and Mohave Rd 11-1 p.m. Eastbound California Ave and Mohave Rd 4-6 p.m. Eastbound I-10 and Ehrenberg Westbound I-10 and Quartzsite Ave Eastbound I-10 and Quartzsite Ave Eastbound I-10 and Quartzsite Ave Westbound Main St and Kofa Main St and Moon Mountain Ave Main St and Moon Mountain Ave Main St and Riggles Ave Main St and Riggles Ave Main St and Quartzsite Blvd Main St and Quartzsite Blvd Lima & Associates 11-1 p.m. Westbound 11-1 p.m. Eastbound 4-6 p.m. Eastbound 11-1 p.m. 11-1 p.m. 11-1 p.m. 4-6 p.m. 11-1 p.m. 4-6 p.m. 11-1 p.m. 11-1 p.m. Westbound Southbound Southbound Southbound Eastbound Eastbound Westbound Northbound Turning Movement Left-Right Left-Right Left-ThroughRight Left-ThroughRight Left-ThroughRight Left-Through Left-Through Left-ThroughRight Left-Right Left Left Left Left Left Right LOS C C C C C D C C C D C C C C C La Paz Transportation Planning Study – Page 56 Signalized Intersection Level of Service Signalized intersections in the Study Area were evaluated for AM, mid-day, and PM peakhour periods. Table 3-18 displays LOS criteria for signal controlled intersections as published in the HCM manual. TABLE 3-18. SIGNALIZED INTERSECTION LEVEL OF SERVICE CRITERIA Level of Service A B C D E F Control Delay (seconds/vehicle) 0-10 >10-20 >20-35 >35-55 >55-80 >80 Source: Highway Capacity Manual, 2000 Table 3-19 presents the levels of service for the traffic movements at signalized intersections. Working Paper 1 presents the level of service for all the turning movements for the intersections approaches where traffic counts were taken. Working Paper 1 includes the traffic count timing for the signalized intersections. TABLE 3-19. SIGNALIZED INTERSECTION LEVEL OF SERVICE California Ave and Arizona Ave 7-9 11-1 4-6 Eastbound LT TH RT Westbound LT TH RT Northbound LT TH RT Southbound LT TH RT California and Riverside Blvd 7-9 11-1 4-6 Melton St and Kuehn St 7-9 11-1 4-6 B B B B B B B B B B - D C - D D - B C - B C - B B - B - B - B - B B - D D - D D - B C - B C - B C - A A - A A - A A - C C C C C E C C C A B - B C - B B - A A - A A - A A - B C C D C C C C C A B - B C - B C - Note: Levels of service based on optimized condition using ADOT traffic signal timing. Lima & Associates La Paz Transportation Planning Study – Page 57 Crash Analysis Crashes were analyzed for all public roads within La Paz County for the five-year period of January 2003 through December 2007 using data provided by the ADOT Accident Location Identification Surveillance System (ALISS). Figure 3-19 illustrates the location of all the crashes in the five-year period, Figure 3-20 shows the location of vehicle/pedestrian crashes and vehicle/pedalcyclist crashes, Figure 3-21 illustrates the location of fatal crashes, and Figure 3-22 displays the accidents rates for State Highways, Salome Highway, and Vicksburg Road. The following findings summarize the crash analysis: • A total of 2,586 crashes occurred during the five-year period of January 2003 through December 2007, an annual average of 517 crashes per year. • US 95 in Parker experienced the highest crash rates over the five-year period with rates of 1.7 crashes per million vehicle miles and over. • US 95 in Quartzsite and Vicksburg Road between US 60 and I-10 experienced crash rates of 1.0 crashes per million vehicle miles and over. • Of the 2,586 crashes, 1,572 crashes or 60.8 percent were non-injury crashes. • Almost five percent of the total crashes or 126 crashes were fatal crashes. The roads with the highest number of fatal crashes include I-10 and SR 95. Twelve fatal crashes during the five-year period occurred on reservation roads. • Almost 17 percent, 432 crashes were intersection related crashes. The intersections with the highest number of crashes include: California Avenue/Riverside Drive, California Avenue/11th Street, and SR 72/SR 95. • Colliding with other motor vehicles accounted for 1,146 crashes or approximately 44 percent. Approximately 18 percent crashes resulted from vehicles colliding with fixed objects. • Vehicles colliding with pedestrians and pedalcyclist accounted for 28 crashes, approximately one percent of the total crashes. • Of the 2,586 crashes, a total of 844 crashes, almost one-third of the crashes were either rear-end, side-swipe, or angle crashes, typically associated with intersection and driveway crashes. Lima & Associates La Paz Transportation Planning Study – Page 58 FIGURE 3-19. NUMBER OF CRASHES AT SITE Lima & Associates La Paz Transportation Planning Study – Page 59 FIGURE 3-20. COLLISIONS WITH PEDESTRIANS AND PEDALCYCLISTS Lima & Associates La Paz Transportation Planning Study – Page 60 FIGURE 3-21. FATAL CRASH LOCATIONS Lima & Associates La Paz Transportation Planning Study – Page 61 FIGURE 3-22. CRASH RATES Lima & Associates La Paz Transportation Planning Study – Page 62 CURRENT MULTIMODAL CONDITIONS This section discusses the current multimodal transportation conditions in the County including rail passenger, truck freight service, transit, and pedestrian, bicycle, and trail facilities. Rail Service In 1908, the Santa Fe Railway completed an alternate main line in an east-west direction across what is now La Paz County under the auspices of its subsidiary, the Arizona & California Railroad. The railroad parallels US 60 from the eastern County line to Hope, where it turns northwest and follows SR 72 and SR 95 through Bouse to Parker. In 1991, the trackage was leased to the Arizona & California Railroad (ARZC) for operation as an independent short line headquartered in Parker. The lease includes 190 miles of mainline track between Cadiz, California, which is located between Barstow and Needles on the BNSF “Transcon” mainline; and Matthie, Arizona, 5 miles north of Wickenburg. Also included in the transaction, are a 50-mile branch from Rice, California to Blythe, and 57 miles of trackage rights between Matthie and Phoenix. The railroad does not typically operate trains all the way to Phoenix, but exchanges rail freight traffic with the Burlington Northern Santa Fe Railway (BNSF) at Castle Hot Springs, a rail siding in the community of Morristown adjacent to US 60 between Wickenburg and Phoenix. The railroad is now part of Rail America, a nationwide short line railroad conglomerate. The ARZC handles BNSF traffic from Los Angeles that is destined for Phoenix and currently operates the following rail freight services: • One round trip between Parker and Cadiz, California, 5 days per week • One round trip between Parker and Castle Hot Springs, 5 days per week • One cement train from Cadiz to Matthie through Parker each week. This train carries product from California to Phoenix for use in construction. • Three repositioning trains through Parker each week, which return empty cars to the West that carried automobiles, containerized freight, and other commodities to Phoenix. The railroad also services two intermodal facilities. Matlock Projects is a chemical distribution facility that receives about five rail tank car loads a week, and is located near the railroad depot in Parker. La Paz Products is a fuel distribution center located approximately one mile northeast of the Junction of SR 95 and SR 72. Other Parker-area freight customers are Superior Bulk Logistics, in Parker Central, and Titan Energy, in Parker South. The railroad handled 18,922 carloads of freight in 2007; however, traffic declined after the onset of the recession and the railroad handled approximately 12,000 carloads in 2008. Maximum operating speed on the non-signalized system is 49 mph. Lima & Associates La Paz Transportation Planning Study – Page 63 Stearlite plastic pellets are off-loaded at Parker and trucked to Lake Havasu City. Plastic pellet consignees in Phoenix and Las Vegas are served from sidings in Maricopa County and California, respectively. Two carloads of low-grade hazardous material are delivered in Parker each month and off-loaded to trucks for disposal. The railroad stores liquefied petroleum gas in rail tank cars in Parker for Exxon Petroleum. Exxon leases tracks from the railroad for this purpose. No regularly scheduled rail passenger service is operated. Approximately 9,000 crossties and between 1 and 2 track-miles of rail are replaced annually. Twenty-nine employees work for the railroad. Many live in Lake Havasu City and commute. TRANSIT AND INTERCITY BUS SERVICES Quartzsite Transit Services (QTS) provides priority service to town residents for medical, social, and recreational needs. Services are provided to Blythe, California and Parker, Arizona once a week and to Lake Havasu City once a month. The van schedule and suggested donations are shown in Table 3-20. TABLE 3-20. QUARTZSITE TRANSIT VAN SCHEDULE AND SUGGESTED DONATIONS FOR SERVICE (ROUND TRIP) Monday Tuesday Wednesday (1st & 3rd) Every Wednesday Thursday Friday Quartzsite Blythe Yuma/Algodones Quartzsite Parker Quartzsite $2.00 $5.00 $10.00 $2.00 $7.00 $2.00 Source: http://www.ci.quartzsite.az.us/about/transit/ The Quartzsite Transit Services Website list the following additional services area: • 1st & 3rd Wednesdays the van will make a trip to Yuma/Algodones for people needing medications and other shopping needs. A minimum of 5 passengers are needed in order for QTS to make the trip. A rider must make a reservation no more than 48 hours in advance of the day of the trip. Pick-up will begin at 8:00 am with an anticipated return of 5:00 pm. Remaining Wednesdays will be local runs. • Lake Havasu City trip will be the 2nd Wednesday of each month, for shopping and medical appointments. Suggested donation is $10.00 for round trip travel. Reservations must be made 48 hours in advance. The La Paz County Health Department provides free transit services to the entire County. The Department coordinates services with Quartzsite Transit Services. Table 3-21 shows the schedule for the service. Lima & Associates La Paz Transportation Planning Study – Page 64 TABLE 3-21. LA PAZ COUNTY TRANSIT SERVICE Parker (Town) Monday thru Friday - 8 AM to 3 PM Parker Dam Route M-F First Pick-up at 8:30AM upriver then leaves Town at 10:30AM, 1PM & 2:30PM Salome/Wenden Route Monday and Friday — to Parker Tuesday—to Wickenburg — Except one Tuesday a month to Surprise. Salome/Wenden runs must have at least 4 riders for a trip over 20 miles. Due to this rule, Schedules are subject to change at any time. Destinations and schedules will try to be flexible according to riders needs. Once a month to Surprise, Goodyear, and/or Blythe and local runs are possible if enough riders need the trip. Ehrenberg/Bouse Route Monday—Parker to Ehrenberg Makes various stops in Blythe. Tuesday and Friday—Parker to Bouse Local stops in Bouse then local stops in Parker. Wednesday– Parker to Ehrenberg Makes various stops in Blythe. Brings riders to Parker, makes various stops in Parker and returns to Ehrenberg. Thursday— Lake Havasu City Pickups in Bouse and Parker. Source: http://www.co.la-paz.az.us/Main_Pages/Dept_Health/schedule.htm The Department is supported with a grant from Western Arizona Council of Governments Area Agency on Aging/DES and the top priority is to serve people over 60, the second priority is to serve disabled people. However, the general public is also encouraged to ride with almost a third of riders under 60 and not disabled. Rides are usually scheduled to medical appointments, grocery stores, post office, bank, food bank, Library, Senior Center, and other businesses. Greyhound Corporation provides bus service between Quartzsite and major cities in Arizona and other states offering two trips daily in each direction along I-10. Lima & Associates La Paz Transportation Planning Study – Page 65 AVIATION The Avi Suquilla Airport, an enterprise of the Colorado River Indian Tribes, is located on a 240-acre site at the eastern edge of Parker, approximately one mile from the center of town. Avi Suquilla is a general aviation facility, and no scheduled commercial air service is provided. Scheduled commercial air service is available at both Yuma and Lake Havasu City. Fuel for piston engine aircraft is available for purchase at Avi Suquilla, and major repairs to both power plants and airframes can be performed at the facility. The airport has no control tower, but dusk-to-dawn medium intensity runway lighting is provided. The airport is staffed between 8:00 am and 10:00 pm. Runway 01/19 is 4,780 feet in length, 75 feet in width, and paved with asphalt. Tie-downs for transient aircraft are available. Arriving and departing aircraft are warned that the minimum altitude for crossing the Colorado River is 1,500 feet. Exposed concrete bases for the medium-intensity lighting exist along both sides of the runway. In addition, a drainage ditch traverses the safety area 130 feet from the end of the runway. A total of 27 piston engine aircraft are based at Avi Suquilla, including 20 single-engine planes and 7 multi-engine plans. In addition, two helicopters are based at Avi Suquilla. For the 12 months ended May 1, 2007, a total of 10,200 operations took place at the airport, including 9,000 local operations and 1,200 itinerant operations. The CRIT plans to improve the facility, with federal and State matching funds administered by the Aeronautics Division of ADOT. Two private airparks are in the Salome area. Indian Hills Airpark has a one-half mile paved runway that belongs to the 96 lot owners. Western Sky Airpark, northwest of Salome, has a fixed base operator and allows transient aircraft. TRUCK FREIGHT I-10 carries considerable traffic—particularly freight trucks—through the County. In addition, SR 72 carries significant truck traffic. Figure 3-23 illustrates the truck volume on the State Highways. BICYCLE FACILITIES The Arizona Statewide Bicycle/Pedestrian Plan, August 2003 provides a long-term plan for a system of shared roadways and bicycle and pedestrian facilities for the ADOT State Highway System. The Statewide Bicycle Network includes the ADOT State Highways that are described plus the regionally significant non-ADOT bicycle facilities from the existing plans. The following information was considered for inclusion on ADOT State Highways: Lima & Associates La Paz Transportation Planning Study – Page 66 FIGURE 3-23. STATE HIGHWAY TRUCK VOLUMES Lima & Associates La Paz Transportation Planning Study – Page 67 • • • Traffic volume Percent grade Right shoulder width • • • Roadway speed limit Rumble strip location Shoulder pavement condition Currently no continuous system of pedestrian or bicycle facilities exists within La Paz County or cities located in the County. La Paz County’s 2005 Comprehensive Plan expressed the goal of developing an equestrian trail system, developing bike paths and a bicycle trail system in the Parker Strip and Parker South areas, and creation of a regional bicycle network that ties the County’s towns together. Town of Quartzsite’s 2003 General Plan The Town of Quartzsite’s 2003 General Plan proposed a system of walking paths, equestrian trails, and bicycle routes to reduce vehicles on local roads and improve resident’s quality of life. At the time of Quartzsite’s 2003 General Plan the Town had no bicycle facilities and only offered bicycle racks at the Elementary School and Town Hall. Figure 3-24 illustrates the bicycle system, pedestrian pathways, and equestrian trails proposed by the General Plan. Existing Trails La Paz County’s diverse terrain and multitude of wilderness and mountains areas offers hundreds of miles of trails. Currently, no long-range planning related to parks, trails, and unincorporated areas is in effect; however, the 2005 La Paz County Comprehensive Plan acknowledged the need for a trail system and additional trail head marking. Major hiking trails in La Paz County include: • • • • • • • • • Buckskin Mountain State Park Trails Ben Avery Trail Palm Canyon Harquahala Mountain Trail Eagletail Mountain Trails Rawhide Mountain Hiking Trails Harcuvar Peak Summit Trail Kofa National Wildlife Refuge Trails Trigo Mountains Wilderness Trails Figure 3-25 displays the hiking and off-highway vehicle trails in La Paz County. Lima & Associates La Paz Transportation Planning Study – Page 68 FIGURE 3-24. TOWN OF QUARTZSITE PROPOSED PEDESTRIAN AND BICYCLE FACILITIES Proposed Bicycle Routes Proposed Pedestrian Trails Proposed Equestrian Trails TOWN OF QUARTZSITE 2003 GENERAL PLAN Parks, Recreation, & Open Space Source: Town of Quartzsite 2003 General Plan Lima & Associates La Paz Transportation Planning Study – Page 69 FIGURE 3-25. TRAILS Lima & Associates La Paz Transportation Planning Study – Page 70 Off-Highway Vehicle Recreation La Paz County’s landscape and low elevation mountain areas provide numerous Off-Highway Vehicle (OHV) opportunities on remote backcountry roads, trails, and drivable washes. Major OHV trails include: • • • • • • • Ehrenberg Sandbowl Parker 400 Desert Race Course Shea Spectator/Pit Areas and Osborn Wash Swansea Townsite Ehrenberg-Cibola OHV Routes La Posa OHV Routes (approximately 1,900 miles of “routes” exist within La Posa) Harquahala Mountain Summit Road The Parker 400 Off-Road Race occurs annually and can attract thousands of spectators and participants to the event held every winter. According to the 1994 East Cactus Plain Wilderness Management Plan the Parker 400 Off-Road Race has the following impact on the surrounding wilderness area: • • • • • • unauthorized vehicle entry during course reconnaissance up to 2 weeks prior to the event unauthorized vehicle entry during the event congested parking along Swansea road, occasionally parking within the wilderness litter left behind by participants low-level helicopter and fixed-wing overflights increase noise and dust Harquahala Mountain Back Country Byway has been designated as a scenic Back Country Byway by the Bureau of Land Management’s Back Country Byways program. The Harquahala Mountain Back Country Byway is one of only three trails in Arizona to be designated as such. Harquahala Mountain Back Country Byway offers visitors a 15-mile scenic drive to the summit of the Harquahala Mountains and an observatory built by the Smithsonian in the 1920s. BLM has taken measures to reduce trail loss by paving approximately 100 yards of this 4x4 trail. Lima & Associates La Paz Transportation Planning Study – Page 71 4. FUTURE CONDITOINS This Chapter presents the projections and analysis of future socioeconomic conditions within La Paz County. The methodology for developing the future socioeconomic data including dwelling units and employment is described. FUTURE SOCIOECONOMIC CONDITIONS This section presents the anticipated future socioeconomic conditions within the County for the years 2020 and 2030 including housing units, population, and employment. Future socioeconomic data were estimated for various residential and commercial categories using the following steps: • Reviewed population projections of the Arizona Department of Commerce. • Discussed potential growth and growth areas with the County and jurisdictions. • Divided the County into geographical spatial analysis areas referred to as Transportation Analysis Zones (TAZs). • Identified land use categories. • Identified proposed and approved developments. • Allocated land use to each TAZ. Growth Areas Growth within the County will occur on current private lands and lands that potentially could be converted from non-private ownership to private ownership. Figure 3-3 in Chapter 3 illustrates land ownership within La Paz County, currently approximately five percent of the land is privately owned. An example of land that may convert to private ownership includes BLM parcels in the vicinity of the Town of Quartzsite. The BLM identified potential lands for sale in its Approved Resource Management Plan, January 2010 (See Map 2-17. Lands and Realty/Minerals and Appendix I: Lands Identified for Disposal). The Town of Quartzsite requested that the BLM offer parcels in the vicinity of the Town for sale and the BLM is evaluating the potential sale. Lands identified for disposal must meet the criteria for public land sale or exchange under existing laws, regulations, and policies at time of disposal. Anticipated growth areas within the County include: • • • Salome area Town of Quartzsite Town of Parker Annex Lima & Associates • • Bouse area Ehrenberg area La Paz Transportation Planning Study – Page 72 In addition to the above growth areas, commercial growth is anticipated at the following I-10 interchanges: • • Ehrenberg (Exit 1) Exits 17 and 19, Quartzsite • • Vicksburg Road (Exit 45) 75E (Exit 69) Approved and proposed residential and commercial developments within the County are shown in Figure 4-1 and listed in Table 4-1. Future Population Projections Future population projections were developed based on a review of projections by the Arizona Department of Commerce and planned and proposed developments within the County. The Arizona Department of Commerce is responsible for developing Statewide population projections, recently assuming responsibility from the Arizona DES. Table 4-2 presents the Department’s population estimates from year 2009 and through year 2030. According to the Department of Commerce, La Paz County grew to an estimated population of 22,347 in 2009 from a population of 19,715 in the year 2000, a total of approximately 13.4 percent. The Department’s population projection for La Paz County is just over 28,000 residents by 2030, an overall growth rate of approximately 26 percent from 2009 to 2030. More Aggressive Growth Scenario A more aggressive growth scenario was formulated to represent potential development of portions of the approved and proposed residential and commercial properties. This scenario is based on conversations with the County, Town of Parker, Town of Quartzsite, and Colorado Indian Tribes (CRIT). Yet, it is recognized that the magnitude of planned development over the past several years has slowed due to the economic downturn and that the completion years for many of these proposed developments have been delayed. During the review and discussion of the projections by the TAC and stakeholders, individuals expressed that the “more aggressive” scenario was too optimistic given the economic downturn and near-term development prospects. However, other individuals expressed that the scenario was not aggressive enough and particularly in the Quartzsite area that growth would be higher. The use of more aggressive population projections recognizes the potential for development of the approved and planned developments as the economy rebounds. This will allow for planning future infrastructure conditions and preserving rights-of-way. The overall agreement of the TAC was to maintain the “more aggressive” growth scenario. The population projections for this Study can be revisited as updated population data becomes available. Sources of updated data will include: the 2010 US Census, updated population projections for the County from the Arizona Department of Commerce, and renewed activity with respect to the planning and approval of new developments. Lima & Associates La Paz Transportation Planning Study – Page 73 FIGURE 4-1. LA PAZ COUNTY PROPOSED DEVELOPMENTS Lima & Associates La Paz Transportation Planning Study – Page 74 TABLE 4-1. LA PAZ COUNTY PROPOSED DEVELOPMENTS Development Name BLM Lands for Potential Sale, Quartzsite Springs Del Sol Royal Palms/Pinnacle Sundance Thunderbird Guardalabene Lake Manor Condos Mountain View River Bend Estates Arizona Travel Plaza Rio Laguna Landfill Solar Tower Sites Light Industrial Site Quartzsite Site Quartzsite Park Place Travel Center Petro Stopping Center Rainbow Acres Arroyos Preserve Guido Sprawls Island Allen Sunnyside Haselbusch Jones Lima & Associates 2020 Map Units at Comm. Reference Buildout Emp. (1) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 18 19 20 21 22 23 24 25 2020 Other Emp./ Units 3465 34 32 15 11 10 5 800 326 200 Units at 2020 34 32 15 11 10 5 96 326 80 250 50 200 20 No specific data for this site at this date 100 12 40 6 fuel sta 36 fueling sta 129 58 200 2 20 158 5 2030 Comm. 2030 Other Emp. Emp./Units 16 58 200 2 20 158 5 Units at 2030 34 32 15 11 10 5 268 326 80 500 50 200 20 34 6 fuelling sta 36 fueling sta 43 58 200 2 20 158 5 La Paz Transportation Planning Study – Page 75 TABLE 4-1. LA PAZ COUNTY PROPOSED DEVELOPMENTS (CONTINUED) Development Name Ranegras Estates Bella La Paz Brar Portanova Intaglio Pittman Honeycutt Alta Vista Boyajian Solar energy Study Area Brar Hill View Estates Brar Milagro Acres Ag/Industrial Corridor Arizona Raceway XL Dairy ethanol Winterhaven Estates Brar Brar Amigos Del Valle Arthur 480 Mt View Arthur Salome North Western Sky Airpark Brown Arthur Salome South Sunland Estates Cox 80 Sunset Links Lima & Associates 2020 Map Units at Comm. Reference Buildout Emp. 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 2020 Other Emp./ 2030 Units Comm. 2030 Other at 2020 Emp. Emp./Units 84 84 500 500 No specific data for this site at this date 52 52 100 12 5 5 5 5 96 12 5 5 No specific data for this site at this date No specific data for this site at this date No specific data for this site at this date 64 6.4 100 100 100 160 acres ag 112 11 No specific data for this site at this date No specific data for this site at this date 153 153 192 23 105 105 960 115 300 36 960 115 720 86 240 29 240 29 480 58 Units at 2030 84 500 52 34 5 5 32 5 19 100 100 160 acres ag 34 153 64 105 322 101 322 241 80 80 161 La Paz Transportation Planning Study – Page 76 TABLE 4-1. LA PAZ COUNTY PROPOSED DEVELOPMENTS (CONTINUED) Development Name Sunset Indian Hills Indian Hills Palmer R&R Cox 160 Sunshine Acres Ten at Downing Street Cox Balance Sun West Pfursich Morales Sittu Centennial Truck Stop Centennial Complex Hotel Hotel Assisted Care Center Bill Ghost Travel Center Head Start Facility Juvenile Detention Facility Castle Lakes Emerald Springs Emerald Springs Solar Farm Bucksaw American Bonanza Mining 2020 Map Units at Comm. Reference Buildout Emp. 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 2020 Other Emp./ 2030 Units Comm. 2030 Other Units at 2020 Emp. Emp./Units at 2030 700 84 375 375 175 120 No specific data for this site at this date 480 58 120 120 84 84 480 58 8,000 50 960 5 5 5 5 5 5 No specific data for this site at this date 596 40 596 20 50 25 16 fuel sta. 45 20 1000 120 450 450 No specific data for this site at this date 54 54 100 235 375 175 161 120 84 161 2,680 5 5 5 200 50 596 20 50 25 16 fuel sta. 45 20 335 450 54 100 Source: La Paz County, Lima & Associates (1) BLM Lands for potential sale are shown in Quartzsite inset in Figure 4-1 Comm.- Commercial, Emp. – Employee Lima & Associates La Paz Transportation Planning Study – Page 77 TABLE 4-2. ARIZONA DEPARTMENT OF COMMERCE, LA PAZ COUNTY POPULATION PROJECTIONS Horizon Years Total Growth 200920092020 2030 Annual Growth 200920092020 2030 2009 2020 2030 La Paz County 22,347 25,487 28,074 14.05% 25.63% 1.28% 1.22% Parker CCD 22,347 25,487 28,074 14.05% 25.63% 1.28% 1.22% Bluewater CDP 831 951 1,050 14.48% 26.40% 1.32% 1.26% Bouse CDP 768 950 1,101 23.76% 43.33% 2.16% 2.06% Cibola CDP 201 237 266 17.45% 31.84% 1.59% 1.52% Ehrenberg CDP 1,416 1,486 1,543 4.95% 9.02% 0.45% 0.43% Parker town 3,390 3,688 3,933 8.79% 16.04% 0.80% 0.76% Parker Strip CDP 4,044 4,930 5,660 21.90% 39.95% 1.99% 1.90% 389 389 389 0.00% 0.00% 0.00% 0.00% Quartzsite town 3,793 4,317 4,748 13.81% 25.18% 1.26% 1.20% Salome CDP 2,352 3,141 3,791 33.57% 61.22% 3.05% 2.92% Wenden CDP Remainder of Parker CCD 661 787 890 18.99% 34.64% 1.73% 1.65% 4,502 4,611 4,702 2.43% 4.44% 0.22% 0.21% Reservations Colorado River (part) 7,769 8,130 8,428 4.65% 8.48% 0.42% 0.40% 7,769 8,130 8,428 4.65% 8.48% 0.42% 0.40% 14,578 17,357 19,646 19.06% 34.76% 1.73% 1.66% Poston CDP Total Reservation Total NonReservation Source Arizona Department of Commerce Website: http://www.azcommerce.com/doclib/econinfo/FILES/2006LaPazProjectionsSC.xls . CCD – Census County Division – a subdivision of a county; CDP - Census Designated Place Lima & Associates La Paz Transportation Planning Study – Page 78 The “more aggressive” growth scenario is based on the following assumptions (see Table 4-3): • The Town of Quartzsite is expected to grow to 9,000 residents by 2030. • The “Original Town of Parker” is assumed to grow in the future as estimated by the Arizona Department of Commerce based on historical growth and assumptions of future growth. • The Parker Annex will grow to approximately 790 residents by 2030. • The population of the Colorado River Indian Tribes is assumed to grow as projected by the Arizona Department of Commerce • Commercial and industrial uses in the Parker Annex will grow to approximately 1,600 employees by 2030. TABLE 4-3. POTENTIAL GROWTH SCENARIO, LA PAZ COUNTY Total Dwelling Units Population Employees Employees/Population 2009 2020 16,495 21,114 9,456 0.45 27,361 35,022 14,473 0.41 % Growth 2009-2030 66.0% 66.0% 1.54 N/A 2030 33,386 42,734 16,281 0.38 % Growth 2009-2030 102.0% 102.0% 73.0% N/A Estimated by Lima & Associates; N/A – Not applicable Socioeconomic Data Estimates Socioeconomic data were estimated including the number of dwelling units and employees for the purpose of projecting future population and for forecasting future traffic volumes. For this, socioeconomic estimates were made based on geographical spatial zones called Traffic Analysis Zones (TAZs). A TAZ is a building block of a geographic spatial framework used to depict and analyze socioeconomic conditions. Housing units, population, and employment were allocated among these zones for the years 2020 and 2030. The TAZ configuration of 144 internal TAZs used for the years 2020 and 2030 for the County is illustrated in Figure 42. Note that the TAZ configuration originally established for the year 2009 model calibration was refined to reflect new development within the County. Future traffic volumes were forecasted using thirty land use categories to generate vehicle trips (see Table 4-4). The total dwelling units estimated for each TAZ was computed for the three residential categories—Rural Residential (SF), Multifamily Residential (MF), and Mobile Home Park (MH)—along with the number of employees for non-residential categories were also calculated. Working Paper 2, Appendix A includes figures illustrating the dwelling units and total employees by TAZ. Figures 4-3 through 4.6 illustrate the 2020 and 2030 population and employment densities. Lima & Associates La Paz Transportation Planning Study – Page 79 TABLE 4-4. LA PAZ COUNTY LAND USE CATEGORIES Land Use Unit Land Use Unit Rural Residential (SF) Total Dwelling Units Service Station Fueling stations Multifamily Residential (MF) Total Dwelling Units Elementary School Employee Mobile Home Park (MH) Total Dwelling Units High School Students General Commercial Employee College Students Casino Employee Warehousing Employee Golf Course Employee Light Industrial Employee Campground/Recreational Vehicle Park Berths Railyard Employee Interchange Node/Truck Terminal Employee Utilities Employee Commercial Airport Employee Public Space Acre Hospital Employee City Parks Acre Medical Office Employee County Parks Acre Resort Hotel Employee Government Office Employee Hotel/Motel Employee Open Space Acre Marina Berths Wildlife Acre Restaurant Employee Agriculture Acre Lima & Associates La Paz Transportation Planning Study – Page 80 FIGURE 4-2. 2030 TRAFFIC ANALYSIS ZONES Lima & Associates La Paz Transportation Planning Study – Page 81 FIGURE 4-3. PROJECTED POPULATION DENSITY PER SQUARE MILE – 2020 Lima & Associates La Paz Transportation Planning Study – Page 82 FIGURE 4-4. PROJECTED EMPLOYMENT DENSITY PER SQUARE MILE – 2020 Lima & Associates La Paz Transportation Planning Study – Page 83 FIGURE 4-5. PROJECTED POPULATION DENSITY PER SQUARE MILE – 2030 Lima & Associates La Paz Transportation Planning Study – Page 84 FIGURE 4-6. PROJECTED EMPLOYMENT DENSITY PER SQUARE MILE – 2030 Lima & Associates La Paz Transportation Planning Study – Page 85 FUTURE ROAD AND TRAFFIC CONDITIONS This section presents the projection of future traffic volumes and the analysis of traffic capacity deficiencies. The projection of future traffic volumes is based on the 2020 and 2030 socioeconomic conditions. Traffic Forecasting Methodology The traffic forecasting modeling process included the development and calibration of a 2009 travel demand model based on 2009 road network and 2009 socioeconomic data including dwelling units and employees. The forecasting modeling process applied the TransCAD travel demand modeling software to forecast traffic volumes for the Study Area. The development and calibration of the travel demand model is documented in La Paz County Travel Demand Model Documentation. The document describes the structure of the travel demand model, model parameters, model input and output data, and model validation. The 2009 travel demand model was validated against the available traffic data to replicate 2008 daily traffic volumes on roads in the County. The steps in developing the traffic forecasting model were: • Create 2009 model street network. • Configure TAZs. Allocate values for land use categories to each TAZ and compute dwelling units and employees for each TAZ. • Generate 2009 vehicle trips based on current land use. • Distribute vehicle trips among all the TAZs. • Assign daily vehicle trips to the model 2009 street network. • Compare assigned daily vehicle trips to actual traffic counts and adjust model parameters until performance criteria are satisfied. The calibrated 2009 traffic forecasting model was applied to estimate future average daily traffic volumes for the years 2020 and 2030 given projected dwelling units and employees presented in the previous sections. The average daily traffic volumes were adjusted to peakseason daily traffic volumes based on seasonal traffic data reported on ADOT’s Automated Traffic Recorders (ATRs) as well as the ratio of total dwelling units to occupied dwelling units reported in the 2000 US Census. Projection of Future Traffic Volumes Base Road Network To identify potential future traffic capacity deficiencies, future average daily traffic volumes were estimated for a Base Future Road Network with both the projected 2020 and 2030 socioeconomic conditions. Lima & Associates La Paz Transportation Planning Study – Page 86 The Base Future Road Network is comprised of the following roads: • The future Quartzsite road functional classified roads identified in the Town of Quartzsite General Plan • The future road function classified roads for the Town of Parker plus the Parker annex identified in the Town of Parker General Plan • Existing County roads with existing number of lanes in the 2009 road network outside of the Town of Parker and the Town of Quartzsite • Additional County roads in selected areas in recognition of proposed future developments • Existing State routes SR 95, SR 72, and US 60 with existing number of lanes • Existing I-10 mainline and interchanges with existing number of lanes Figure 4-7 illustrates the functional classified roads in the Base Future Network and Figure 4-8 illustrates the number of lanes. Capacity Deficiency Analysis Methodology The La Paz County TransCAD travel demand model previously discussed was used to estimate 2020 and 2030 daily traffic volumes for the Base Road Network using the 2020 and 2030 socioeconomic data, respectively (See Appendix A, Working Paper 2). The 2020 and 2030 daily traffic volumes represent off-peak season traffic volumes and were adjusted to reflect peak-season traffic volumes. The peak traffic season in La Paz County occurs from November through March due to an influx of winter visitors enjoying the winter climate and recreational activities. Road Segment Capacity Deficiency Road capacity was analyzed using LOS that was previously described in Chapter 3. Levels of service range from LOS A to LOS F where LOS A represents the free flow of traffic with minimum interruptions and delay, and LOS F represents high congestion with significant delay and occasional blockage of intersections stopping traffic on particular road segments. Levels of service B-C are generally acceptable in rural areas and levels of service C-D are generally acceptable in urban areas. Passing Lane Analysis Although a road segment may have adequate total capacity in both directions, the directional traffic volume combined with high heavy vehicle volume may warrant passing lanes. Passing lanes are currently located at the following locations (Table 4-5): Lima & Associates La Paz Transportation Planning Study – Page 87 FIGURE 4-7. BASE ROAD NETWORK FUNCTIONAL CLASSIFICATION Lima & Associates La Paz Transportation Planning Study – Page 88 FIGURE 4-8. BASE ROAD NETWORK NUMBER OF LANES Lima & Associates La Paz Transportation Planning Study – Page 89 TABLE 4-5. CURRENT LOCATIONS OF PASSING LANES Route US 95 NB SR 95 NB SR 95 SB SR 95 NB* SR 95 SB* SR 95 SB SR 95 SB Passing Lane Begin End Mile Mile Post Post 73.12 75.12 116.00 117.34 119.46 118.10 129.00 130.00 130.00 131.00 153.29 149.52 154.88 154.30 Terrain Level Level Level Level Level Rolling Rolling *Approximate mileposts Research conducted by the Kansas Department of Transportation presents suggested minimum AADT values to prioritize the addition of passing lanes for rural two-lane highways at the network level (see Table 4-6). These values are based on the Highway Capacity Manual (HCM) level-of-service procedures for rural two-lane highways. The next step for implementing passing lanes would then be further evaluation of a potential passing lane at the project level. It is important to note that the tables do not include recreational vehicles and busses. This Study considered the next higher level of percent of trucks in the tables. For example, if the percentage of heavy vehicles is 20 percent, then the level for 30 percent trucks was used to account for additional recreational vehicles and buses. TABLE 4-6. SUGGESTED MINIMUM AVERAGE ANNUAL DAILY TRAFFIC (AADT) FOR RURAL TWO-LANE HIGHWAYS FOR LOS C THAT WOULD WARRANT PASSING LANE(S) Projected Design Year AADT Level Terrain 10 15 20 30 40 % “no passing zones” % Trucks Projected Design Year AADT Rolling Terrain 10 15 20 30 40 0% 6200 5890 5600 5110 4690 4850 4240 3770 3090 2610 20% 5630 5340 5080 4630 4260 4500 3940 3500 2870 2430 40% 5190 4930 4690 4280 3930 4040 3540 3140 2570 2180 60% 4900 4660 4430 4040 3710 3690 3230 2870 2350 1990 80% 4760 4520 4300 3920 3600 3460 3030 2690 2210 1670 100% 4620 4380 4180 3800 3490 3230 2830 2520 2060 1740 Source: Final Report. Review of the Effectiveness, Location, Design, and Safety of Passing Lanes in Kansas. Kansas State University, October 1999. Assumptions: K=0.15, Directional split = 60/40, PHF=0.92, Lane width=12ft, Shoulder width=6ft Shaded numbers were used for threshold AADTs for level and rolling terrain, respectively. Lima & Associates La Paz Transportation Planning Study – Page 90 Capacity Deficiency Analysis Results 2020 Capacity Deficiency Analysis Figure 4-9 illustrates the 2020 average daily traffic volumes and levels of service for the Base Future Network. The 2020 daily traffic volumes were adjusted to represent peak-seasonal traffic and were then estimated for the roads in the Base Road Network (see Figure 4-10). Table 4-7 summarizes the road segments that are at, near, or over capacity. These segments are candidates for widening. Table 4-8 lists candidate locations for passing lanes in 2020. TABLE 4-7. 2020 CAPACITY DEFICIENCIES FOR ROADS AT, NEAR, OR OVER CAPACITY Road Off-Peak Season Traffic SR 95 Peak Season Traffic Kuehn Street, Quartzsite SR 95, La Paz County Ehrenberg-Parker Hwy I-10 Exit 17 Location Beacon Rd./Riverside Dr. to Rio Vista Rd. Riggles Ave. to Quartzsite Blvd. Beacon Rd./Riverside Dr. to Cienega Springs Rd. Juneau Ave. to Sourdough Rd. EB off ramp and WB on ramp Note: Roads listed in table are candidates for widening. TABLE 4-8. 2020 CANDIDATE LOCATIONS FOR PASSING LANES Road Off-Peak Season Traffic US 60 SR 72 SR 95 SR 95 SR 95 SR 95 Peak Season Traffic US 60 SR 72 SR 95 SR 95 US 95 Location Alamo Road/Centennial Park Rd. to SR 72 Willamette Dr. to SR 95 Quartzsite Northern Boundary to SR 72 SR 72 to Mohave Rd. Beacon Rd./Riverside Dr. to northern County Boundary Kuehn St to US 95 MP 99 Alamo Road/Centennial Park Rd. to Vicksburg Rd. Avenue 42E to SR 95 Quartzsite northern boundary to SR 72 SR 72 to Mohave Road Kuehn St to US 95 MP 99 Candidate locations based on a threshold daily traffic volume of approximately 4,300 AADT for level terrain and 2,300 AADT for rolling terrain. Lima & Associates La Paz Transportation Planning Study – Page 91 2030 Capacity Deficiency Analysis Similar to the analysis of the 2020 projected traffic volumes, 2030 average daily traffic volumes were estimated for the Base Future Road Network with the projected 2030 socioeconomic conditions (see Figure 4-11). Figure 4-12 illustrates the 2030 levels of service adjusted for the peak-traffic season. Table 4-9 lists the road segments that are at, near, or over capacity. These segments are candidates for widening by 2030. Candidate locations for passing lanes by 2030 are listed in Table 4-10. TABLE 4-9. 2030 CAPACITY DEFICIENCIES/NEEDS FOR ROADS AT, NEAR, OR OVER CAPACITY Road Off- Peak Season Traffic Ehrenberg-Parker Hwy SR 95 Peak Season Traffic Kuehn St., Quartzsite SR 95, La Paz County Riverside Drive, Parker Strip Ehrenberg-Parker Hwy I-10 Exit 17 Location Juneau Ave. to Sourdough Rd. Beacon Rd./Riverside Dr. to Rio Vista Rd Riggles Ave. to Quartzsite Blvd Beacon Rd/Riverside Dr. to Cienega Springs Rd Golf Club Drive to SR 95 Exit 153 Crossing Juneau Ave. to Comber Blvd EB off ramp and WB on ramp Note: Roads listed in table are candidates for widening. TABLE 4-10. 2030 CANDIDATE LOCATIONS FOR PASSING LANES Road Off-Peak Season Traffic California Ave US 60 SR 72 SR 95 SR 95 SR 95 SR 95 Peak Season Traffic California Ave. US 60 US 60 SR 72 SR 95 SR 95 US 95 Location MP 144.4 to California border Alamo Road/Centennial Park Rd. to Vicksburg Rd. Avenue 42E to SR 95 Quartzsite Northern Boundary to SR 72 SR 72 to Mohave Rd Beacon Rd./Riverside Dr. to northern County Boundary. Kuehn St to SR 95 MP 99 MP 144.4 to California border Alamo Road/Centennial Park Rd. to Vicksburg Rd. I-10 to Ave. 42E Ave. 42E to SR 95 Quartzsite Northern Boundary to SR 72 Lakeside Blvd. to northern County Boundary Kuehn St to southern County Boundary Candidate locations based on a threshold daily traffic volume of approximately 4,300 AADT for level terrain and 2,300 for rolling terrain. Lima & Associates La Paz Transportation Planning Study – Page 92 FIGURE 4-9. 2020 BASE AVERAGE DAILY TRAFFIC VOLUMES AND LEVELS OF SERVICE – OFF-PEAK SEASON Lima & Associates La Paz Transportation Planning Study – Page 93 FIGURE 4-10. 2020 BASE AVERAGE DAILY TRAFFIC VOLUMES AND LEVELS OF SERVICE – PEAK SEASON Lima & Associates La Paz Transportation Planning Study – Page 94 FIGURE 4-11. 2030 BASE AVERAGE DAILY TRAFFIC VOLUMES AND LEVELS OF SERVICE – OFF-PEAK SEASON Lima & Associates La Paz Transportation Planning Study – Page 95 FIGURE 4-12. 2030 BASE AVERAGE DAILY TRAFFIC VOLUMES AND LEVELS OF SERVICE – PEAK SEASON Lima & Associates La Paz Transportation Planning Study – Page 96 HIGHWAY-RAIL CROSSINGS The significance of highway-rail crossings relates to the volume of train traffic and the volume of motor vehicle traffic on the roadway. The Arizona & California Railroad (ARZC) operates between two and four trains daily. Moreover, with the exception of Riverside Drive (SR 95) in downtown Parker, all of the rail crossings in the Study Area traverse comparatively lightly traveled roadways. Hence, the potential for train-motor vehicle crashes at crossings is less than in areas with higher train volumes and/or motor vehicle volumes on the roadways being crossed by the railroad. Table 4-11 is an inventory of the crossings in the La Paz planning area. TABLE 4-11. HIGHWAY-RAIL CROSSINGS WITHIN LA PAZ PLANNING AREA Crossing# 025909Y 025910T 025911A 025912G 025913N 025915C 025916J 025917R 025918X 025919E 025920Y 025921F 025922M 025923U 025924B 025925H 025926P 025927W 025928D 025929K 025930E 025931L 025932T 025933A 025934G 914397N 914398V 914399C Type Public Public Private Public Public Public Public Public Public Public Private Public Public Private Public Public Private Private Public Public Private Public Private Public Public Private Private Public Lima & Associates Position At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade At Grade Nearest Community Wenden Wenden Wenden Wenden Wenden Salome Salome Salome Salome Vicksburg Vicksburg Bouse Bouse Bouse Bouse Bouse Parker Parker Parker Parker Parker Parker Parker Parker Parker Parker Parker Parker Roadway Avenue 74E Avenue 69E El Paso Gas Co. Second St. Avenue 64E Avenue 62E Hall St. Center St. Avenue 59E Vicksburg Rd. Fewell Ranch Rd Avenue 46E Main St Willamette Dr Shea Rd Mohave Rd 21st St. California Ave 18th St. 11th St Riverside Drive Parker Rd Central Av Protection Crossbucks Gates Yes No Yes No No No Yes Yes Yes No Yes No Yes Yes Yes Yes Yes No Yes No No No Yes No Yes No No No Yes Yes Yes No No No No No Yes No Yes No No No Yes No No No Yes No Yes No Yes No Yes No Yes No La Paz Transportation Planning Study – Page 97 In addition to the safety concerns related to operation of trains across roadways, the noise of the locomotive horns at the crossings is becoming an increasing concern. In heavily populated areas with high train volumes, “quiet zones” are sometimes established where additional gates and other safety appliances are installed at crossings, making the horn signaling less necessary. Railroads and the Federal Railroad Administration both encourage the closing of at-grade highway rail crossings where feasible to reduce train-vehicle collisions, pedestrian deaths, and vehicle delay. Selecting one of the following options can eliminate grade crossings: • Constructing a connector road, or improving roadways along alternate routes to direct traffic to an adjacent crossing. • Dead-ending affected streets and rerouting traffic, creating cul-de-sacs. • Constructing grade separation. • Relocating or consolidating railroad operations. • Some crossings may have vehicle volumes too low to justify expenditures for the costs of automated warning devices or grade separation. Railroad crossing candidates identified for railroad closure or consolidation include: - Crossings within a quarter mile of one another that is part of the same highway or street network. - Crossings where vehicular traffic can be safely and efficiently redirected to an adjacent crossing. - Crossings where a high number of crashes have occurred. - Crossings with reduced sight distance because of the angle of the intersection, curve of the track, trees, undergrowth or man-made obstructions. - Adjacent crossings where one is replaced with a bridge or upgraded with new signaling devices. - Several adjacent crossings when a new one is being built. - Complex crossings where it is difficult to provide adequate warning devices or which have severe operating problems--such as multiple tracks, extensive railroadswitching operations, or long periods of blocked crossings. - Private crossings for which no responsible owner can be identified. - Private crossings where the owner is unable or unwilling to fund improvements and alternate access to the other side of the tracks is reasonably available. Grade Separated Railroad Crossings When railroad and vehicle traffic volumes reach a high level, the most effective solution may be to separate highway and rail traffic. Generally, there are two options for grade separation: a below-grade (underpass) crossing, and an above-grade (overpass) crossing. An overpass Lima & Associates La Paz Transportation Planning Study – Page 98 crossing is when a roadway bridge is built to span the railroad tracks. An underpass crossing is when the roadway grade is depressed under the railroad tracks. Due to both the high cost of grade separation and the low daily train volumes, grade-separate crossings are rare on short line railroads such as the ARZC, unless necessitated by area topography. SUMMARY OF ROAD DEFICIENCIES AND POTENTIAL NEEDS Table 4-12 summarizes both capacity and non-capacity deficiencies. Non-capacity deficiencies include safety and geometric deficiencies and capacity deficiencies include inadequate number of lanes to efficiently accommodate traffic volumes. Potential improvements to address the deficiencies and potential needs are also listed in Table 4-12. Capacity deficiencies were identified by both area stakeholders and through the analysis of capacity deficiencies for the Base Network discussed above. The non-capacity deficiencies and potential needs were identified through meetings with area stakeholders, review of previous plans and studies documented in Chapter 2, and by field observations made by the Study team. Note that the potential improvements listed in Table 4-12 are suggested for further analysis. These improvements are evaluated later in this report including an analysis of capacity improvements for road improvements such as road widening, passing lanes, potential road realignments, and new roads. Lima & Associates La Paz Transportation Planning Study – Page 99 TABLE 4-12. LA PAZ COUNTY ROAD NEEDS AND DEFICIENCIES Condition/Need Potential Improvements for Further Analysis Countywide Roads • Roads Countywide are narrow and many lack shoulders. • Odd-angle intersections in Salome and other County locations. • Need to accommodate flooding. • Need to upgrade County roads as development occurs • • • • • • Plans for 3 traffic circles in Ehrenberg—one on each side of I-10 TI, also one where ParkerEhrenberg (Mohave) Road meets access road. • Roundabout is planned at intersection of Vicksburg Road and US 60. • Cibola Bridge may be a candidate for Stimulus funds. • Consider crossing Alamo Road into Mohave County. Link up with road into Kingman. Alternate route between I-10 and I-40. • Construct roundabout at US 60/Vicksburg. • Rehabilitate/reconstruct Cibola Bridge. • Review potential location and assess general feasibility of alternate route between I-10 and I-40. Revise roadway standards if necessary. Reconstruct with standard lanes and shoulders. Reconstruct roads with right-angle intersections. Construct drainage facilities/bridges. Identify/construct County roads as development occurs. • Construct proposed 3 traffic circles in Ehrenberg. Parker Streets • Tractor-trailer rigs park on California Avenue and within striped median. Creates sight-distance issues for persons exiting driveways of commercial establishments. • Town has ordinance prohibiting parking on California Avenue within 100 feet of an intersection. Town has not discussed implementing a similar ordinance on Riverside. • Part of street system needs to be resurfaced. No current pavement improvement program. • “Parker Central”—the original one-square-mile town site—is built out. Need to add curb and gutter to Hopi and Geronimo Streets, also sidewalks. • Town has obtained a transportation enhancement grant that will be used to improve California Avenue from 7th Street to the Colorado River Bridge. • Town does not have a capital improvement program for roadways. A Streets and Traffic Committee handles roadway improvement issues. • No warrant studies have been conducted—two traffic signals currently exist within Parker Central— at California and Arizona, and at California and Riverside. • Projected higher traffic volumes on California and Riverside. Lima & Associates • Enforce parking restrictions. • Implement parking ordinance on Riverside. • Develop plan/schedule to resurface or reconstruct Parker streets. • Resurface/reconstruct streets, add curb and gutter and sidewalks. • Construct street enhancements on California Avenue. • Develop capital improvement program building on recommendations of this Study. • Identify locations to recommend traffic warrant studies. • Widen roads/intersections. • Realign SR 95. La Paz Transportation Planning Study – Page 100 TABLE 4-12. LA PAZ COUNTY ROAD NEEDS AND DEFICIENCIES (Continued) Condition/Need Potential Improvements for Further Analysis Quartzsite Streets • Drainage issues with washes. o Box culvert for Plymouth Wash stopped due to lack of matching funds. o Kuehn Road has a low-water crossing of Tyson Wash. Need bridge over Tyson Wash. Flowing water degrades shoulders. o Kuehn Road congested during peak season. Need to widen and straighten Kuehn Road to accommodate 18-wheelers and RVs. • Congestion, connectivity issues along SR 95 o Connect I-8, I-10, and I-40. SR 95 is logical connector. Environmental restrictions preclude developing or improving roadway in California. o Consider need for by-pass along Riggles Road alignment—or further east—connecting I-10 to Plomosa Road. o Consider the need for a by-pass from I-10 MP 11 up to Tyson Road. o Consider the need for a by-pass on SR 95 south of Town. o Long Range—new road connecting SR 95 with SR 72 and Ehrenberg-Parker Highway (Mohave Road). • Division of Town by I-10, SR 95 sometimes interferes with first responders. • General Motors is looking at Yuma Proving Grounds for testing facility. • Improve drainage at washes. • Construct box culvert at Plymouth Wash. • Construct bridge across Tyson Wash. • Redesign/widen Kuehn Road, improve intersections. • Realign SR 95 in the vicinity of Quartzsite, Parker, improve SR 95 to 4 lanes. • Review potential crossing and priority treatments for emergency vehicles. • Review location in regard to access. Colorado River Indian Tribes Roads • MVD office is opposite the T-intersection of Mohave Road with SR 95. Motorists from Mohave Road are crossing SR 95 to reach MVD. CRIT would like a traffic warrant study. • Engineering for a re-design of the intersection of Burns Road/SR 95 has been completed. The Tribes hope that it will qualify for stimulus funding. Requests have been made to the BIA. • Several bridges on Mohave Road are only rated for 22 tons, but routinely used by heavier trucks. Mohave Road, a de-facto part of the State system, is deteriorating, and the Tribal allocation is insufficient to maintain it. Heavy truck traffic is wearing out road. The road is the main arterial for the Reservation and is used by local farmers, etc. Southern end is in poor condition. • Tribal Complex located on the SE Corner of Mohave/Second Ave is a major traffic generator. • Agnes Wilson Road has heavy truck use. • Conduct traffic signal warrant study • Reconstruct SR 95/Burns Road intersection • Reconstruct Mohave Road and Bridge • Review traffic forecasts for potential deficiencies. • Identify potential alternative routes. I-10 • I-10 Exit 17 needs improvement to specifications of Exit 19 to accommodate 18-wheelers & RVs. • Need to look at traffic operations stop sign at Exit 17 exit. Lima & Associates • Reconstruct Exit 17 to better accommodate heavy vehicles. • Review traffic forecasts on Exit 17. La Paz Transportation Planning Study – Page 101 TABLE 4-12. LA PAZ COUNTY ROAD NEEDS AND DEFICIENCIES (Continued) Condition/Need • Ehrenberg Port-of-Entry (POE) needs to be upgraded--#1 POE in State in traffic volume. o POE reconstruction is on hold due to funding downturn. • I-10 Exit needs to be reconstructed and enhanced. • Rock cut area, I-10, MP 8 through MP 10, both directions. • The median crossings on I-10 from milepost 0-71 are in need of paving. • Rest Areas are expensive. Ehrenberg rest area costs $14,000 or more to maintain monthly. Potential Improvements for Further Analysis • Reconstruct Ehrenberg POE. • • • • Reconstruct Exit 1. Identify potential rockfall protection measures. Pave I-10 median crossings. Identify potential private/public rest area opportunities. SR 95 • • • • • • • • • Intersection of SR 95 and 95 Spur “Parker Dam Road” needs to be reconfigured. Pavement condition on Riverside is poor Need bike lanes, especially for winter visitors. Rumble strips on shoulders inhibit bicycle travel. Need to repave passing lanes. Need to correct passing zone on blind turn north of Resort Road on SR 95 at MP 155. Need additional passing lanes on SR 95 between Parker and Lake Havasu City. SR 95 at MP 152 appears to be subsiding—may be due to culvert installation. Motorists SB on SR 95 at Blue Water Casino entrance cannot see traffic signal at sunset. • Redesign/Reconstruct intersection. • Repave Riverside. • Improve shoulders for bicycle suitability. • • • • • • Putting in culverts on SR 95 at Holiday Harbor—MP 157—short passing lane needs reassessment • 12-Mile Junction (SR 95/SR 72) still perceived as dangerous. • SR 95 needs improvement from the Mexico Border to I-40. • • • • Rock cut area on SR 95 between MP 158 and MP 161.7. • Repave passing lane Conduct passing zone study. Identify candidate passing lanes/widen SR 95. Reconstruct SR 95 at MP 1 52. Review traffic signal location at entrance with ADOT. Discuss project at Holiday Harbor with ADOT. Assess the new signal, discuss potential roundabout. Widen SR 95, realign SR 95 in vicinity of Quartzsite, Parker. Identify potential rockfall protection measures. SR 95 Spur • A new Colorado River bridge is planned for Spur 95 (California Avenue) • Construct new Spur 95 Bridge. US 60 • US 60 traffic growing in Brenda area. • Widen US 60. SR 95 - Buckskin Park Entrance • Geometry of entrance from North has caused motorists to lose control and overturn. • A passing lane on SB 95 begins right at Park entrance. Motorists confused as to whether this is a passing lane, an acceleration lane for motorists exiting the Park SB, or both. Lima & Associates • Redesign/reconstruct park entrance/access road to eliminate parking and provide for safe walking. • Improve directional/warning signing. La Paz Transportation Planning Study – Page 102 TABLE 4-12. LA PAZ COUNTY ROAD NEEDS AND DEFICIENCIES (Continued) Condition/Need Potential Improvements for Further Analysis • When “old road” was closed and barricaded, an ad hoc parking site was created. Additional “ad hoc” parking exists in triangle median formed by access roadways at Park entrance. • Motorists park illegally at Park entrance, try to access trails while avoiding Park fees by climbing up roadway embankments to pedestrian bridge north of entrance, creating hazard. • Park visitors wishing to hike old road walk up access road, which has blind corners and no shoulders and is not safe for pedestrians. • Plans exist to convert old road to multi-use path and a TE grant for this has been applied for. • Implement signing for parking restrictions/enforce regulations. • Identify potential parking restrictions & enforcement strategy. • Identify potential restrictions. • Resubmit enhancement application if necessary • Construct multi-use path. SR 72 • Need to address low-water crossings on SR 72. Centennial Wash is the site of fatality on SR 72. • SR 72 has a high percentage of commercial traffic and high travel speeds. • Need for passing lanes and/or pull-outs. • Narrow lanes, and no shoulders. • Construct drainage improvements across SR 72. • Construct left-turn lanes and acceleration/ deceleration lanes. • Construct passing lanes/pullouts. • Widen shoulders & lanes to standard cross section. Harquahala Road/Salome Road • Harquahala Road/Salome Road intersection is poor—needs to be reconstructed as T-intersection. • County has not perfected right-of-way (ownership) along Salome Road and possibly other roads. • Reconstruct intersection to standards. • Identify strategy to clarify ROW ownership. Vicksburg Road: • Planning a 3” overlay on Vicksburg Road from I-10 to US 60. • Implement pavement overlay. Salome Road • Salome Road traverses open range—vehicle-animal crashes occur. Also need right-of-way fence updated on I-10. • Improve warning signs for animal crossings, provide right of way fence. • Update right of way fence on I-10. Other Roads • Shea Road (Osborn Well Road) has 2’ diameter potholes, creating severe hazard. Some, but not all, are spray-painted with red paint to make them more visible. • A new Colorado River bridge is planned for Spur 95 (California Avenue). • Reconstruct/Pave Shea Road. • Construct new Colorado River Bridge for Spur 95. Regional • Need 4-lane facility connecting Lake Havasu City, Parker, and Quartzsite. Lima & Associates • Conduct corridor study and Design Concept Study. • Construct 4-lane, realign SR 95. La Paz Transportation Planning Study – Page 103 FUTURE MULTIMODAL CONDITIONS This section presents future multimodal conditions for the Study Area including transit, pedestrian and bicycle conditions, and airport needs. Unmet multimodal needs are summarized in Table 4-13. Discussions are then presented on future transit demand. In addition, a discussion is included on future needs for bicycle and pedestrian facilities. Airport needs are discussed in the final section. Rail and truck freight service future conditions are discussed in the following section. TABLE 4-13. SUMMARY OF MULTIMODAL NEEDS AND DEFICIENCIES Multimodal Condition/Need Potential Improvement Transit Needs • High percentage of transit dependent populations. • Dispersed activities throughout low density County. • High seasonal visitors. Seasonal local area circulator service may be needed in Quartzsite to mitigate traffic congestion and facilitate access to local services by winter visitors and rock and gem show attendees. • No transit service between “old Town” Parker and Parker Annex. • Lack of local transit circulators • Limited regional rural transit service. • May need future transit between Parker Central and Parker South when Parker South becomes more built up. • Regional transit service connecting the Study Area with Yuma to the south and Lake Havasu City, Bullhead City, Kingman, and Needles to the north may be needed in the future. • Conduct feasibility study for construction of rail spur from Arizona and California main line east of Parker. • Implement local transit circulators. • Expand regional rural transit service. • May need future transit between Parker Central and Parker South when Parker South becomes more built up. Bicycle, Pedestrian, Trail Needs • Lack of local sidewalks, multiuse paths, and equestrian trails. • Inadequate sidewalk width. • Limited street crossing opportunities particularly across high-volume wide roads. • Lack of regional connectivity of both bicycle and pedestrian facilities. • Inadequate shoulder width on many segments of State Routes. • Limited availability of bicycle lanes and other bicycle facilities on Town and County roads and streets. • Rumble strips on shoulders inhibit bicycle travel. Lima & Associates • Construct sidewalks, implement multiuse and equestrian trail plans. • Widen shoulders of roadways with heavy bicycle use. • Provide safe, paved area outside of rumble strip for bicyclists. • Designate bike routes, bike lanes and multiuse paths locally and regionally. La Paz Transportation Planning Study – Page 104 TABLE 4-13. SUMMARY OF MULTIMODAL NEEDS AND DEFICIENCIES (Continued) Multimodal Condition/Need Potential Improvement Airport Needs Quartzsite Need airport—primarily air cargo facility to serve industrial park in NE quadrant of Town. • Develop plan for future airport and industrial park. CRIT Airport • Airside program is almost complete. The new runway • Reconstruct entry road and parking project is in the final phase, with electrical work (Medium Intensity Runway Lights) and striping remaining to complete. • Need to reconstruct entry road and parking lot. The parking lot is higher than the floor of the building containing a hangar and airport office. Consequently, this structure floods whenever it rains with run-off from the parking lot. Plan is to reconstruct and lower parking area, create drainage to wash running north of terminal area. • Need to enhance entrance visually—create “gateway” to airport. This improvement is planned in conjunction with the reconstruction of the SR 95/Airport Road/Wal-Mart intersection. lot. • Design and construct “gateway” for airport entrance. County Airports • Two private airparks exist in the Harquahala/Salome area. Indian Hills Airpark has a ½ mile paved runway that belongs to the 96 lot owners. Western Sky Airpark NW of Salome has a fixed base operator and allows transient aircraft. Western Sky has a 3,500-ft runway. Both runways are well maintained. • Encourage the expanded use of the airports to stimulate development in the area. • Incorporate the airport planning into County aviation planning. Funding • A guaranteed funding source—or sources—are needed for transit. Current funding available through the Western Arizona Council of Governments is insufficient for the future expansion of transit services. • Study implementation of a funding source, or sources, to matching funds for transit. provide Other • Need environmentally appropriate means accommodating off-highway vehicle recreation. of • Identify potential mitigate impact. strategies to Transit Needs Transit users are composed of choice and transit dependent riders. Choice riders use transit by making a specific decision to use transit for work, shopping, medical, or other personal business trips. Transit dependent riders are those individuals in population groups that statistically are the most likely to use transit if available. The groups include (as defined by Lima & Associates La Paz Transportation Planning Study – Page 105 the US Census); person aged 65 or over, persons aged 16 to 64 with mobility limitations, and persons aged 64 or under residing in households with incomes below the poverty level. Residents of La Paz County comprise relatively high percentages of residents in the three transit dependent groups. The County is considered to be one of the “oldest” counties in the nation and there are high percentages of people with mobility limitations and with incomes below the poverty level. Table-4.14 shows the total 2030 forecasted populations for each group in the hypothetical service area. TABLE 4-14. FUTURE POPULATION OF SERVICE GROUPS IN SERVICE AREA Service Group Persons aged 65 or over 2030 Population 10,915 Persons aged 16 to 64 with mobility limitations Persons aged 64 or under, residing in households with incomes below the poverty level Percent Total 2030 Population 26.0% 10,813 26.0% 8,145 19.0% Based on an estimated 2030 population of approximately 42,000 residents Source: Lima & Associates In addition to the high number of transit dependent residents, La Paz County attracts a high number of older visitors to enjoy the weather and available recreational activities along the Colorado River and other areas. Thus the number of individuals within the transit dependent groups grows substantially during the peak season. In addition, spatially dispersed activities within the County increase the need for transit service. Estimating Transit Demand for Regional System Estimating demand for rural regional transit in La Paz County provides a general idea of what type of services may be feasible and how many people may be expected to use a transit system. To estimate possible demand for transit service in the County, Transportation Cooperative Research Program (TCRP) Report 3, Workbook for Estimating Demand for Rural Passenger Transportation, was utilized. This workbook provides a methodology for estimating transit demand for rural systems, using population data for the year of proposed service start-up and assumptions of service area size and route lengths. • The demand methodology outlined in TCRP Report 3 required that a hypothetical system be developed for analysis purposes only (see Figure 4-13). Note that the routes depicted in Figure 4-13 are for demand-estimating purposes only and do not necessarily represent a recommended system. Even if the methodology did not require the identification of such a hypothetical system, the sparse population of large portions Lima & Associates La Paz Transportation Planning Study – Page 106 FIGURE 4-13. HYPOTHETICAL TRANSIT ROUTES Source: Lima & Associates of the County would necessitate this approach in order to obtain realistic results. To conduct the demand estimation procedure, the following assumptions were made: • The service area for the hypothetical system is the entire extent of La Paz County. • Every resident of the County is a potential user of the system. • The percentages of County residents aged 65 and over, having mobility limitations, or living below the poverty level will be the same in 2030 as they were in 2000. Demand estimates are based on route mileage, service area, and population within La Paz County only. The following assumptions were made regarding levels of transit service provided: • I-10 Route providing three round trips daily between Quartzsite and Blythe and two round trips daily between Quartzsite and Phoenix Lima & Associates La Paz Transportation Planning Study – Page 107 • North-South Route providing two round trips daily between Parker, Parker Strip, and Lake Havasu City and two round trips daily between Parker, Quartzsite, and Yuma • CRIT Route providing three round trips daily between Parker, Poston, and Ehrenberg with connections to/from Blythe • Wenden-Parker Route providing two round trips daily between Wenden, Salome, Vicksburg, Bouse, and Parker • All routes operate seven days per week Documentation of the transit demand estimating process and draft transit schedules are provided in Appendix B of Working Paper 2. Summary of Transit Demand Estimation The demand methodology in TCRP Report 3 includes both base and alternative methods of demand estimation. The consultant conducted both procedures to compare the results from each. The base and alternative methods of transit demand estimation resulted in daily estimates of 88 and 161 trips, respectively. Given the lack of alternative travel, the comparatively compact service area, and the assumed connections to/from Phoenix, an average of 124 trips per day would be a reasonable estimate. While 124 trips per day is not a large number, consider how such a ridership level might affect the hypothetical system shown in Figure 4-13. If the system were operated with vehicles having, for example, an average capacity of 7 passengers (e.g. seating for 5 and two wheelchair positions), the total “seats per day” that could be offered would be 196, or 7 times the 28 one-way trips represented by the hypothetical schedules. If the 124 daily riders were distributed evenly among these 28 vehicle trips, each vehicle would have four or five of its seven seats filled. Note that the demand procedure estimated the number of riders originating or terminating in La Paz County, Parker, Quartzsite, and the CRIT only. The I-10 trips could be part of an expanded corridor service carrying passengers between Phoenix and Southern California. The North-South schedules could be coordinated with—or part of—the transit services proposed for connecting Lake Havasu City, Bullhead City, Needles, and Kingman. The Parker-Wenden services could also be extended to Phoenix, or to connections with future commuter rail service in Wickenburg. Such services would be likely to use vehicles with capacities of more than seven persons. Bicycle and Pedestrian Needs This section summaries bicycle and pedestrian future conditions and needs in La Paz County. Table 4-13 summarizes the bicycle and pedestrian deficiencies and potential improvements to address these. Chapter 5 includes recommendations for Bicycle and Pedestrian projects. Lima & Associates La Paz Transportation Planning Study – Page 108 La Paz County and the communities within it are also popular destinations for recreational cross-country bicyclists. Such groups do travel between communities and need safe facilities. However, distances in the Study Area discourage bicycle and pedestrian travel between communities for travel to and from work, school, or shopping. Walking or bicycling to work or school within some of the communities is more practical. For example, the “Central” portion of the Town of Parker is one-square mile in size, and many trips within Parker Central can be made on foot or on a bicycle. As part of “Arizona’s West Coast” La Paz County hosts large numbers of tourists—in-State visitors from Metropolitan Phoenix and other areas, visitors from California and other states, and “snow bird” winter visitors to Quartzsite, the Parker Strip, and the McMillan Valley. Many of these visitors arrive in recreational vehicles or in pick-up trucks towing boats— neither of which is convenient for short trips around town such as trips to the grocery store, or trips for camping, fishing, or boating supplies. Bicycles—which can be carried in the pick-up or RV—would be handy for these visitors to make use of, provided safe and convenient places to ride bikes are provided. Bicycling on State Routes The Bicycle Cycle User Map of Arizona’s Highway System developed for ADOT identifies characteristics relating to biking on State routes throughout Arizona. A study area detail of this map is shown in Figure 4-14. Characteristics considered in developing the map included the traffic volume, effective shoulder width, and bridge width. As Figure 4-14 shows, the effective shoulder width is less than 4 feet on most of the miles on SR 95 and SR 72. A segment of US 60 between SR 72 and Alamo Road also has shoulder widths less than 4 feet. Although shoulder widths on I-10 are greater than 4 feet, traffic volumes and the number of trucks are higher. SR 72, a favorite route for cyclists, lacks shoulders and has numerous hills, dips, curves, and low-water crossings. At the same time, this facility is popular with commercial truckers. SR 95 between Parker and Lake Havasu City is a scenic drive—or bike ride—but also lacks shoulders in many places and has tight curves where sight distance restrictions adversely affect the ability of a motorist to see oncoming bicyclists. The width of the Bill Williams Bridge on SR 95 is also tight. US 60 through the McMillan Valley communities of Wenden and Salome has wider shoulders, as does SR 95 south of Parker. However, as motor vehicle traffic on these and other roadways increases, signalized crosswalks and other techniques may be needed to permit safe bicycle and pedestrian travel between the parts of a community divided by the highway. The Town of Quartzsite is much larger in area than Parker Central, and could likely benefit from a local circulator transit system, especially for the many senior visitors who might not be Lima & Associates La Paz Transportation Planning Study – Page 109 FIGURE 4-14. BICYCLE USER MAP – STUDY AREA DETAIL up to lengthy bike rides for shopping, dining, and other trips. Nevertheless the provision of a contiguous network of bike paths and lanes, together with a complementary network of pedestrian sidewalks and multiuse paths, is needed in Quartzsite. Local and Regional Bicycle and Pedestrian Facilities Current and future bicycle and pedestrian facility deficiencies in the Town of Parker, Town of Quartzsite, CRIT, and developments in the non-incorporated areas of the County include the following: • • Limited to no sidewalks in built areas. Inadequate sidewalk width. Lima & Associates La Paz Transportation Planning Study – Page 110 • • • Limited street crossing opportunities particularly across high-volume wide roads. Lack of regional connectivity of activities by both bicycle and pedestrian facilities. Lack of bicycle lanes, routes, and multiuse paths. The increase in traffic volumes and heavy vehicles and accompanying congestion in the future will aggravate the deficiencies. Alternative modes to the automobile are needed to mitigate these impacts. Chapter 5 recommends actions to implement bicycle and pedestrian facilities as part of the overall transportation plan. As documented in Working Paper 1: Current Conditions, the general or comprehensive plans of the participating agencies in the La Paz Transportation Planning Study include provisions for the enhancement and expansion of bicycle and pedestrian facilities. Goal 2, in the County’s Comprehensive Plan, “Develop a multimodal transportation system,” includes policies to: • Develop La Paz County standards for bike paths and trails. • Develop an integrated bicycle trail system in the Parker Strip area that will allow visitors and residents an alternate form of transportation. • Encourage the development of bike paths that provide inter-area travel and connection to the regional system. • Work with ADOT to develop bicycle paths. As a priority, the County would like to develop a regional bicycle network linking Quartzsite, Bouse, Parker South, Parker, and the Parker Strip. Plans adopted by the Colorado River Indian Tribes, the Town of Parker, and the Town of Quartzsite include similar provisions addressing the future needs of pedestrians and bicyclists. The CRIT’s Parker Strip Recreation Area Management Plan identifies locations for new equestrian trails, recreation trails, and trailheads. The Quartzsite General Plan recommends construction of separated sidewalks, pedestrian-scale lighting and other amenities designed to encourage walking for short trips. The Town’s General Plan also recommends the development of a Bicycle Plan to identify routes, lanes, and paths needed for a bicycle network. Aviation Deficiencies and Needs Aviation deficiencies are summarized by airport in Table 4-13. Summary of Multimodal Needs and Deficiencies. As discussed in Working Paper 1, three aviation facilities currently exist within the Study Area. The Avi Suquilla Airport, adjacent to the Town of Parker, is operated by the CRIT. The other two are private facilities in the Salome area, Indian Hills Airpark and Lima & Associates La Paz Transportation Planning Study – Page 111 Western Sky Airpark. No scheduled commercial air service is provided at any of these facilities. Scheduled commercial air service is available at both Yuma and Lake Havasu City. Avi Suquilla is a general aviation facility open to the public. The airport has no control tower, but dusk-to-dawn medium intensity runway lighting is provided. The airport is staffed between 8:00 am and 10:00 pm. Runway 01/19 is 4,780 feet in length, 75 feet in width, and paved with asphalt. Tie-downs for transient aircraft are available. The new runway project is in the final phase, with electrical work (Medium Intensity Runway Lights) and striping remaining to complete. A need exist to reconstruct the entry road and parking lot. The parking lot is higher than the floor of the building containing a hangar and airport office. Consequently, this structure floods whenever it rains with run-off from the parking lot. The plan is to reconstruct and lower the parking area, and create drainage to the wash running north of terminal area. A need also exist to enhance the entrance visually—create a “gateway” to the airport. This improvement is planned in conjunction with the reconstruction of the SR 95/Airport Road/Wal-Mart intersection. Both of the Salome area airparks are for private use only and permission is required prior to landing. Indian Hills Airpark has a 2,200-ft paved runway and Western Sky Airpark has a 3,500-ft paved runway (The Arizona Outback Online, www.azoutback.com/airpark). No airport currently exists in the vicinity of Quartzsite. FUTURE FREIGHT CONDITIONS Anticipated future conditions for rail and truck freight service are discussed in this section. Table 4-15 summarizes the unmet rail and truck freight service needs within La Paz County. Rail and Truck Freight Service The La Paz area serves as a gateway for truck and rail freight entering Arizona from California. According to the Multimodal Freight Analysis Study conducted for ADOT in 2008, economic and logistics trends have the following implications For Arizona: 1. Growing Arizona population centers will drive increasingly higher levels of freight activity and truck traffic, as consumer consumption drives the need for freight movements. 2. Southern California will continue to be a primary gateway for Trans-Pacific container traffic. While expansion of the Panama Canal currently underway (scheduled for completion in 2014) will draw more Asian containerships directly to east coast ports, Arizona will continue to see high volumes of “landbridge” rail and truck traffic from the San Pedro, CA Ports. Lima & Associates La Paz Transportation Planning Study – Page 112 TABLE 4-15. TRUCK AND RAIL FREIGHT NEEDS AND DEFICIENCIES Truck and Rail Freight Condition/Need Parker • A transload facility exists where low-grade Potential Improvement • Continue with periodic inspections to insure hazardous material brought in by rail is loaded on trucks and taken to Nevada for disposal. • Railroad also off-loads fertilizer for agriculture—stored in tanks. • Switching movements in the Arizona & California rail yard impacts crossing of Riverside Drive (SR 95). safe handling of hazardous materials. • Study feasibility of extending ARZC yard tracks east to facilitate the coupling and uncoupling of freight cars without obstructing crossing. Ehrenberg • Port of Entry facility is obsolete and in • Reconstruct Port of Entry. Provide adequate disrepair. storage for arriving trucks. Demolish and rebuild POE building and provide up-to-date communications and data collecting technology. CRIT • Commercial truck traffic on Ehrenberg-Parker (Mohave Road) Highway exceeds weight and volume capacity for which roadway and bridges were designed. • Reconstruct roadway and bridges to accommodate commercial truck traffic. • Track future ITS technological improvements that would make prevention of POE or scale avoidance feasible. • Improved POE with expedited handling of trucks entering State may limit POE avoidance detours over Ehrenberg-Parker Highway (Mohave Road). Quartzsite • I-10, Exit 17 used by commercial truckers • Reconstruct exit to provide wider bridge and to visiting truck stops or winter visitors in recreational vehicles arriving in Quartzsite. Large vehicles cannot negotiate area quickly due to one-lane bridge across freeway and other constraints. • Need for improvement and expansion of the Arizona and California Railroad including the addition of a spur to the vicinity of Quartzsite to serve industrial parks proposed for the SR95 corridor north of the Town. accommodate turning radii of larger vehicles. • Conduct feasibility study for construction of rail spur from Arizona and California main line east of Parker. Regional • High truck volumes combined with restricted road capacity, road geometric constraints will continue to contribute to congestion and safety impact. Lima & Associates • Improve major roads, provide passing lanes, widen roads. • Consider construct new alignments. La Paz Transportation Planning Study – Page 113 3. Increasing highway congestion will drive supply chain strategies like transloading that will impact commercial development and regional land use in Arizona. 4. Remaining competitive in the new economy may propel businesses to seek environments where public and private infrastructure supports integrated supply chain strategies; namely transportation networks that are reliable, agile, dependable, and to some extent redundant. 5. Freight transportation sector is a significant contributor to airborne emissions and air quality issues. As citizens and communities become increasingly sensitive to environmental quality, companies are recognizing the need to respond with transport options that reduce carbon emissions Within the Study Area, a key concern is the increasing truck volumes on I-10. Throughout the Study Area, commercial trucks—primarily large tractor-trailer rigs—comprise about 40 percent of all motor vehicle traffic on I-10. On SR 72, trucks comprise 44 percent of all traffic. While total motor vehicle traffic volume on SR 72 is less than a tenth of that on the Interstate, SR 72 is a narrow, two-lane, largely shoulder-less facility. Sight-distance on SR 72 is frequently impacted by dips through low-water crossings, and opportunities for motorists to pass trucks are limited. The high truck volumes on the two lane road segments of the State routes significantly degrade traffic level of service. These high truck volumes combined with roads segments in rolling and mountainous terrain further degrade traffic levels of service. An example of such a segment is SR 95 from Buckskin State Park north to the County boundary. Potential Distribution Center The proximity of Quartzsite to the growing area of Western Maricopa County, including the planned Hassayampa and Hidden Valley areas, suggests the potential for the development of Quartzsite as a potential distribution center. If a rail spur is completed to Quartzsite, containerized freight from the West Coast could be delivered directly to Quartzsite to be transloaded to trucks, by-passing congested trans-loading facilities and roadways in Southern California. The development of this center would require significant additional investment in both rail and roadway infrastructure, but would also provide stable, year-round employment. The BNSF Railway is currently planning to develop a similar “inland port” facility in the vicinity of Luke Air Force Base in the West Valley, where the noise contour from military aircraft operations precludes other than industrial uses for the rail-served acreage. However, if the air base were closed in the future, the land planned for the development of the freight facility could be opened for commercial or residential development. Such an occurrence might prompt development of an inland port at an alternate location, such as Quartzsite. Lima & Associates La Paz Transportation Planning Study – Page 114 5. MULTIMODAL TRANSPORTATION PLAN Chapter 5 presents the Multimodal Transportation Plan for La Paz County including 2020 and 2030 Road Plans, Multimodal Transit Element, and a Freight Element. The road plans and multimodal elements were developed based on the analysis of future conditions presented in Chapter 4. Additional analyses were conducted to assess possible alternative road networks in the County and are presented in this chapter. TRANSPORTATION VISION The following vision for the transportation system in La Paz County was prepared based on stakeholder comments: The La Paz County Transportation System will be developed and maintained in cooperation with the residents, visitors, businesses, County, Town, Colorado River Indian Tribes, federal land management agencies, businesses, and other stakeholders. The transportation system will be efficient and safe supporting economic development, tourism, and recreational activities for residents, businesses, and visitors. A multimodal transportation system will serve pedestrians, equestrian riders, bicyclists, automobiles, and transit users. Alternative routes and transit services will be provided connecting the Towns, Colorado River Indian Tribes, and rural areas as well as provide for interregional travel connecting County activities to Phoenix, Las Vegas, and Los Angeles metropolitan areas. ALTERNATIVE ROAD NETWORK ANALYSIS Capacity deficiencies for the years 2020 and 2030 were identified in Working Paper 2: Future Conditions. This section presents the analysis of alternative road networks to correct the capacity deficiencies. The analysis included the following steps. 1. 2. 3. 4. Identify alternative road networks. Forecast of off-peak and peak season average daily traffic volumes. Computation of level of service for the alternative road networks. Compare alternative road networks using performance and feasibility measures. Identify Alternative Road Networks Three alternative roadway networks were identified based on the capacity deficiencies as well as stakeholder suggestions. The three alternative networks are: 1) Road Widening Network; 2) New Alignments Network; and 3) Mohave Road Extension. Lima & Associates La Paz Transportation Planning Study – Page 115 Road Widening Alternative Network Figures 5.1 and 5.2 present the functional classification and number of lanes for the Road Widening Alternative Network, respectively. This network includes roads in the Base Future Network plus the following segments widened from two to four lanes: • • • • • Kuehn Street, Quartzsite from Riggles Avenue to Quartzsite Boulevard Quartzsite Boulevard from Main Street to Kuehn Street Riggles Avenue from Main Street to Kuehn Street SR 95 from SR 72 north to Mohave Road SR 95 from Lakeside Boulevard to northern La Paz County boundary New Alignments Network Figures 5-3 and 5-4 present the functional classification and number of lanes for the New Alignments Alternative Network. This road network includes roads in the Road Widening Network plus the following new road alignments: • Four-lane realignment of SR 95 from south of the Town of Quartzsite to north of Plomosa Road. • Four-lane realignment of SR 95 from existing SR 95 west of the Parker Annex running northeast to SR 95 to the vicinity of Lakeside Boulevard. Mohave Road Extension The extension of Mohave Road in the Parker area was assessed from SR 95, S. California Avenue to Riverside Drive. The potential extension traverses to the east, staying to the south of the Avi Suquilla Airport, and then turns north to intersect with SR 95, Riverside Drive beyond the new runway. Forecasting Traffic and Computing Level of Service The methodology for estimating daily traffic volumes and levels of service was discussed in Working Paper 2: Future Conditions. In brief, the LA Paz County TransCAD travel demand model was used to estimate daily traffic volumes and LOS were then estimated for the Road Widening and New Alignments alternatives for both the off-peak and peak seasons. Levels of service were then computed for roads based on the relationship of volume-to-capacity ratios to LOS ranges of A to F. Level of service A indicates free flow and LOS F represents congested conditions. In general, levels of service in the range LOS C-D are considered acceptable. Lima & Associates La Paz Transportation Planning Study – Page 116 FIGURE 5-1. ROAD WIDENING ALTERNATIVE NETWORK FUNCTIONAL CLASSIFICATION Lima & Associates La Paz Transportation Planning Study – Page 117 FIGURE 5-2. ROAD WIDENING ALTERNATIVE NETWORK NUMBER OF LANES Lima & Associates La Paz Transportation Planning Study – Page 118 FIGURE 5-3. NEW ALIGNMENTS ALTERNATIVE FUNCTIONAL CLASSIFICATION Lima & Associates La Paz Transportation Planning Study – Page 119 FIGURE 5-4. NEW ALIGNMENTS ALTERNATIVE NUMBER OF LANES Lima & Associates La Paz Transportation Planning Study – Page 120 Road Widening Alternative Network Figures 5-5 and 5-6 present the daily traffic volumes and level of service for the Road Widening Alternative Network during the off-peak season and peak season, respectively. The analysis shows that the roads in the network will operate at or above level of service range of C-D during the both the off-peak season and peak season. New Alignments Alternative Network Figures 5-7 and 5-8 present the daily traffic volumes and level of service for the New Alignments Alternative Network during the off-peak season and peak season, respectively. The analysis shows the following: • The 2030 daily traffic volume during the peak season on the new alignment connecting US 95 south of Quartzsite to SR 95 north of Quartzsite is low ranging from 500 vehicles per day (vpd) to 2000 vpd. • The 2030 daily traffic volume on the new alignment connecting SR 95 south of Parker to SR 95 (Riverside) east of Parker has a volume of approximately 6,200 vpd. • Roads in the New Alignments Alternative Network will operate at or above level of service range of C-D during both the off-peak season and peak season. • The level of service on portions of Kuehn Street is improved over the Road Widening Alternative Network. • The New Alignments Alternative Network also reduces traffic volumes on California Avenue south of Riverside Drive and Riverside Drive east of California Avenue due to the realignment of SR 95 to the east of the Town of Parker. Mohave Road Extension The estimated 2030 Daily Peak Seasonal Traffic Volume on the Mohave Road Extension is approximately 9,900 vehicles per day. The extension decreased the traffic volume on Riverside Drive west of Bluewater Drive by approximately 13,625 vehicles per day from the Base Road Network. The traffic volume on California Avenue north of Mohave Road is decreased by approximately 11,427 vehicles per day. The following table presents traffic volumes for selected locations with and without the extension: Lima & Associates La Paz Transportation Planning Study – Page 121 TABLE 5-1. MOHAVE ROAD EXTENSION TRAFFIC VOLUMES 2030 Daily Peak Seasonal Traffic Volumes (Vehicles Per Day) Base Road Base Road Network Network Without Mohave With Mohave Change in Traffic Road Ext. Road Ext. Volume Location SR 95, S. California Ave. North of Mohave Road 26,112 14,685 -11,427 SR 95, Riverside Drive West of Bluewater Drive 29,648 16,023 -13,625 Mohave Road Extension N/A 9,913 N/A Evaluation Methodology Potential alternative road networks were compared using a set of performance measures (Table 5-2). The feasibility of implementing each alternative road network was also assessed using a set of feasibility criteria. The results of the evaluation of performance and feasibility measures for the alternative networks are presented later in a comparison table. TABLE 5-2. PERFORMANCE MEASURES Performance Measures Mobility/Congestion Relief Accessibility and Connectivity System Preservation Integration and Connectivity with Other Modes Safety (Reduction in Crashes) Economic Benefits Each criterion was assessed to the degree it impacts the feasibility positively or negatively. Based on previous studies, general right-of-way needs and general level of costs for the roadway concepts were established. Additionally, the socioeconomic impacts of the concepts were evaluated together with other impacts to adjacent property. General economic and land use impacts and possible economic opportunities were determined. Lima & Associates La Paz Transportation Planning Study – Page 122 FIGURE 5-5. 2030 DAILY TRAFFIC VOLUMES ROADWAY WIDENING ALTERNATIVE - OFF-PEAK SEASON Lima & Associates La Paz Transportation Planning Study – Page 123 FIGURE 5-6. 2030 DAILY TRAFFIC VOLUMES ROADWAY WIDENING ALTERNATIVE - PEAK SEASON Lima & Associates La Paz Transportation Planning Study – Page 124 FIGURE 5-7. 2030 DAILY TRAFFIC VOLUMES NEW ALIGNMENT ALTERNATIVE - OFF-PEAK SEASON Lima & Associates La Paz Transportation Planning Study – Page 125 FIGURE 5-8. 2030 DAILY TRAFFIC VOLUMES NEW ALIGNMENT ALTERNATIVE - PEAK SEASON Lima & Associates La Paz Transportation Planning Study – Page 126 Mobility/Congestion Relief (Travel Demand, Street level of service). Each potential network was evaluated for its impact on future mobility, and the ability of residents and visitors to move from place to place. Mobility is both a quantitative and qualitative measure. Mobility of residents and visitors was assessed for potential road and multimodal transportation improvements including pedestrian, bicycle, and transit improvements. The potential of an improvement to provide a desirable level of service of the roadway system was also measured. Accessibility and Connectivity. The accessibility between activity centers within the County and the connectivity of residential areas and major activity centers to other regions and states was evaluated for each potential road network. System Preservation. The preservation and maintenance of the efficiency of an existing and future transportation system is vital, particularly given the existing constrained economy. System preservation was considered for both existing and potential new improvements. Integration and Connectivity with Other Modes. A key goal in the development of the transportation system in the La Paz PARA Study Area is to maximize the use of all modes of transportation including walking, bicycling, and transit use. Each alternative was evaluated in regard to the potential to accommodate alternative modes such as transit service and bicycle facilities. Safety (Reduction in Crashes). The potential to reduce crashes by implementing improvements such as road widening and constructing passing lanes was assessed. Economic Benefits. The economic benefit of potential improvements was evaluated. Economic benefits of transportation development include travel time and cost savings to residents and businesses, business productivity gains, increased value of land, and access to suppliers and consumers. Feasibility Measures The following measures (Table 5-3) were used to evaluate the feasibility of implementing an alternative road network. TABLE 5-3. FEASIBILITY MEASURES Feasibility Measures Socioeconomic, Land Use Environmental and Cultural Resources Engineering Opportunities and Constraints Multimodal Considerations Public Support Costs/Right-of-way (ROW)/Funding Lima & Associates La Paz Transportation Planning Study – Page 127 Each criterion was assessed to the degree it impacts the feasibility positively or negatively. Based on previous studies, general right-of-way needs, and general level of costs for the roadway concepts were established. Additionally, the socioeconomic impacts of the concepts were evaluated together with other impacts to adjacent property. General economic and land use impacts and possible economic opportunities were determined. Socioeconomic and Land Use. The impact of a potential road network on adjacent communities and land use was assessed. This included community disruption and other direct and indirect impacts on communities such as potential traffic impacts. Alternatives that include road widening may require additional right-of-way and will impact adjacent residential and business properties. Right-of-Way. Right-of-way will be required for new street arterials and collectors. It is critical that right-of-way be identified as early as possible and preserved. The alternatives that include road widening on SR 95 from Lakeside Boulevard to the northern La Paz County boundary will require additional right-of way. Environmental and Cultural Resources. Potential impacts of improvements on environmental and cultural resources were considered in the evaluation of alternatives. Engineering. Engineering considerations include the ability to apply acceptable geometric and traffic operational standards to provide safe and efficient improvements. Possible obstacles were identified that would preclude moving forward with the development of a facility. Also, constraints to the constructability of a potential facility were considered. Consideration was also given to impacts of the new facility on visual aesthetics, new right-of-way, cultural and environmental resource mitigation, and particularly drainage requirements. Multimodal Considerations. High quality transportation service can be obtained through provision of an array of transportation alternatives including pedestrian, bicycle, and transit facilities. As residents age and the City grows, transit demand will increase. Each alternative was evaluated in regard to the potential to accommodate alternative modes. Costs. The general level of construction costs was assessed for each roadway network based upon the functional classification and number of lanes for roadways. Comparison of Alternative Road Networks The Road Widening Network Alternative performed better than the other alternative networks evaluated in regard to performance and feasibility criteria. The road widening and passing lane candidate projects comprising this alternative provide good mobility and safety throughout the County with minimal impacts on residents, businesses, and the environment. This alternative also corrects infrastructure deficiencies on existing facilities. The magnitude of the daily traffic volumes accommodated during the peak season by the New Alignments and Mohave Road Extension alternatives do not warrant the cost and impacts of constructing new Lima & Associates La Paz Transportation Planning Study – Page 128 facilities. In addition, the New Alignments and the Mohave Road Extension alternatives would adversely impact the economy of the Towns of Quartzsite and Parker by diverting traffic from business centers. Table 5-4 presents a comparison of the Base Future Network, Road Widening Alternative Network, and New Alignments Alternative Network. Working Paper 2: Future Conditions described the Base Future Network and presents the forecasted traffic volumes and levels of service for the Base Future Network. The following summarizes the performance and feasibility of the alternative networks. Road Widening Alternative Network The Road Widening Alternative provides an acceptable level of service with the increased traffic volumes in 2030 and improves accessibility by providing a higher level of service. Road widening and passing lane projects in this alternative would improve safety and extend the life of existing road segments. Improvements of shoulders on State Routes on widening sections and potential passing lanes could encourage other modes such as bicycling. Moreover, the improved mobility due to a higher level of service will improve economic opportunities. The widening of roads in the Road Widening Alternative will impact adjacent properties to some extent. However, reduced traffic congestion also reduces impacts on adjacent properties. Improved speeds and reduced congestion may reduce air pollution. But noise may be increased with increased vehicle speeds. Public lands may also be impacted as roads are widened. No major engineering constraints are anticipated. Right-of-way may be required for widening of some road segments and potential passing lane segments. This alternative would require moderate capital costs. Road reconstruction for road widening and passing lane projects provides opportunities to incorporate multimodal facilities such as bike lanes and pedestrian paths. New Alignments Alternative The New Alignments Alternative provides the overall highest level of service and accessibility, slightly reduces through traffic in Quartzsite, and provides some relief of traffic in Parker. The road widening and passing lane projects would improve the life of existing roads. New alignments would reduce traffic volumes on portions of existing roads and thereby extend the life of some portions of existing roads. This alternative would provide the highest level of safety with road widening, possible passing lanes, and new alignments. The New Alignments Alternative would significantly impact local businesses in Quartzsite and Parker by diverting traffic from business centers. This alternative reduces congestion impacts on adjacent properties. Improved speeds and reduced congestion may reduce air pollution. But noise may be increased with increased Lima & Associates La Paz Transportation Planning Study – Page 129 vehicle speeds. This alternative has high impact on properties and businesses where new alignments are constructed. Moreover, the new alignments would generate the highest direct impact on environmental resources and public lands. Also, the alternative requires the highest level of planning and design. In addition, the alternative has the highest level of typographical and drainage constraints. However, no major engineering constraints are anticipated. The New Alignments Alternative has high cost and right-of-way requirements for road widening and new alignments. Road reconstruction for road widening and passing lanes and new alignment projects provides the most opportunities to incorporate multimodal facilities such as bike lanes and pedestrian paths. Mohave Road Extension The Mohave Road Extension would reduce traffic volumes on California Avenue south of SR 95 and Riverside Drive east of California Avenue in the Parker area and improve accessibility in the Parker area. The reduced traffic volumes on California Avenue and Riverside Drive will improve safety and extend the pavement life on those segments. Reduced congestion on California Avenue and Riverside Drive may reduce air pollution as well as noise levels along these segments. The Mohave Road Extension generates significant impacts. The diversion of traffic from Parker Central by the Extension will significantly adversely impact business in the Town of Parker. The extension lays entirely in the CRIT reservation and would impact CRIT lands. The extension would also have significant impact on virgin land, species habitat, and cultural resources. Engineering location and design studies would be required. In addition, the alternative would require the relocation and of Bluewater Drive in order to align with the Mohave Road extension to the north of the airport. The relocation would entail significant earthwork and reconstruction of Bluewater Drive. The extension would also require significant right-of-way all within the CRIT area and would also require high construction costs. Similar to the other alternatives, a new facility would provide an opportunity to incorporate multimodal facilities such as bike lanes and pedestrian paths. Lima & Associates La Paz Transportation Planning Study – Page 130 TABLE 5-4. COMPARISON OF 2030 NETWORKS Measure Performance Factors Mobility Accessibility System Preservation Integration with other modes Safety Economic Benefits Lima & Associates Base Future Road Widening New Alignments Level of service will degrade as traffic increases. Mobility will be reduced during peak traffic season, particularly on such streets as Kuehn Street. Provides acceptable level of service. Some road segments such as portions of Kuehn Street operate below desirable levels of service during the peak season. Improves accessibility by providing a higher level of service. Road widening and passing lane projects would extend life of existing road segments improved. Provides highest level of service. Slightly relieves through traffic in Quartzsite and provides relief of traffic in Parker. Reduces traffic volumes on California Avenue south of SR 95 and Riverside Drive east of California Avenue in the Parker area. Provides highest level of accessibility. Improves accessibility in the Parker area. Road widening and passing lane projects would improve the life of existing roads. New alignments would reduce traffic volumes on portions of existing roads and thereby extend life of some portions of existing roads. Allows for integration of other modes into new alignments. The reduced traffic volumes on California Avenue and Riverside Drive will extend the pavement life on those segments. Provides accessibility throughout region. Reduced accessibility in Peak Season. Infrastructure of existing roads will degrade as traffic increases. However, improvement projects could be programmed on the Base Network to extend some life to existing roads. Limited integration of other modes with current roads due to restricted geometrics of existing roads. However, improvement projects could be programmed to improve infrastructure such as adding shoulders. Increased future traffic volumes on the Base Network with existing roads would adversely impact safety. Reduced mobility due to increased traffic congestion on existing roads will adversely impact economic growth. Improvements of shoulders on State Routes on widening sections and potential passing lanes could encourage other modes such as bicycling. Improves safety with road widening and possible passing lanes. Improved mobility due to a higher level of service will improve economic opportunities. Provide highest level of safety with road widening, possible passing lanes, and new alignments. New alignments will divert traffic from business centers and adversely impact business in Quartzsite and Parker. Higher overall mobility may provide economic benefits throughout the region. Mohave Road Extension Allows for integration of transit and bicycling modes. Improves safety on California Avenue and Riverside Drive. Diversion of traffic from Parker Central will significantly adversely impact business in the Town. La Paz Transportation Planning Study – Page 131 TABLE 5-4. COMPARISON OF 2030 NETWORKS (Continued) Measure Feasibility Measure Socioeconomic Base Future Road Widening Least direct impact on adjacent properties and business. However, increased traffic congestion during peak season impacts adjacent properties. Lower speeds and stopping due to increased congestion would increase air pollution. Widening of roads impacts adjacent properties. Reduced traffic congestion reduces impacts on adjacent properties. Engineering Engineering would be limited to minor improvements. However, projects could be programmed for existing roads to include road and bridge projects. No major engineering constraints are anticipated. Planning and engineering would be required for road widening and passing lanes. No major engineering constraints are anticipated. Multimodal Considerations Existing road cross sections and right-of-way limits incorporation of multimodal facilities such as bike lanes and pedestrian paths. Road reconstruction for road widening and passing lane projects provides opportunities to incorporate multimodal facilities such as bike lanes and pedestrian paths. Costs/Right-of-way Lowest capital cost. Least right-ofway requirements. Minor right-ofway may be required. Right-of-way may be required for widening of some road segments and potential passing lane segments. Moderate capital costs required. Environmental Lima & Associates Improved speeds and reduced congestion may reduce air pollution. Increased speeds may increase noise levels. May be some impact on public lands as roads are widened. New Alignments Mohave Road Extension Reduces congestion impacts on adjacent properties. However, highest impact on properties and businesses where new alignments are constructed. Improved speeds and reduced congestion may reduce air pollution. Increased speeds may increase noise levels. Potentially highest direct impact on environmental resources and public lands. Requires highest level of planning and design. Highest level of typographical and drainage constraints. No major engineering constraints are anticipated. The extension lays entirely in the CRIT reservation and would impact CRIT lands. Road reconstruction for road widening and passing lane and new alignment projects provides the most opportunities to incorporate multimodal facilities such as bike lanes and pedestrian paths. Highest cost and right-of-way requirements for road widening and new alignments. Significant impacts on virgin land, species habitat, and cultural resources. Reduced traffic volumes on California Avenue and Riverside Drive may reduce air pollution and noise levels. Requires engineering location and design studies. Would require the relocation of Bluewater Drive in order to align with the Mohave Road Extension. The relocation would entail significant earthwork and reconstruction of Bluewater Drive. The extension would provide an opportunity to incorporate multimodal facilities such as bike lanes and pedestrian paths. Requires significant right-ofway all within the CRIT area. Requires major reconstruction of Bluewater Drive. The Extension and relocation of Bluewater Drive would require high construction costs. La Paz Transportation Planning Study – Page 132 RECOMMENDED ROAD PLAN This section presents the recommended road plans for the 2020 and 2030 planning horizon years. The plans have been developed based on the analysis of alternatives presented in the previous section. While this Study includes roadway facilities owned and operated by ADOT within the planning area, it is important to recognize that improvements to the State Highway System can be made only after in-depth planning and engineering studies are conducted by ADOT, and upon approval of the State Transportation Board. All traffic interchange improvements must be approved by the Federal Highway Administration (FHWA). Any recommendations made by this Study for improvements on State facilities can serve only as suggestions for further study. 2020 Road Plan Figure 5-9 illustrates the recommended road functional classification for both 2020 and 2030. Figure 5-10 illustrates the 2020 road plan with number of lanes and improvement projects. Key components of the 2020 road plan include: State Routes SR 95/US 95 • Widen SR 95 to four lanes - Beacon Road/Riverside Drive to Cienega Springs Road. • Widen California Avenue to four lanes – 7th Street to California Avenue Bridge. • Construct new California Avenue Bridge across Colorado River. • • Upgrade configuration and traffic signalization at the California Ave/Riverside Drive intersection. Reconstruct intersection and upgrade traffic control at the SR 95/SR 72 intersection. • Construct additional passing lanes in the following candidate locations: o Quartzsite Northern Boundary to SR 72 o Kuehn Street to SR 95 MP 99 o Lakeside Boulevard to northern County Boundary o SR 95 - SR 72 to Mohave Road SR 72 • Reconstruct SR 72 to include standard road cross section, construction cross drainage. • Reconstruct SR 72/US 60 intersection. • Reconstruct intersections with local roads along SR 72 to right-angle intersections with left-turn lanes and acceleration and deceleration lanes. (Possible configuration for these intersections is illustrated in Road Design and Access Criteria section.) Lima & Associates La Paz Transportation Planning Study – Page 133 • Construct passing lanes in the following candidate location: o Willamette Drive to SR 95 • Construct cross drainage improvements on SR 72 US 60 • Reconstruct US 60 to include standard road cross section, construct cross drainage, and reconstruct intersections to right-angle intersections with left-turn lanes and acceleration and deceleration lanes. • Construct cross drainage improvements on US 60 at Centennial Wash. • Construct passing lanes in the following candidate location: o Alamo Road/Centennial Park Road to Vicksburg Rd. I-10 • Reconstruct I-10 Exit 1. • Reconstruct I-10 Exit 17 interchange and upgrade traffic control. Town of Quartzsite • Widen and reconstruct Kuehn Street including drainage structures, Town of Quartzsite from Riggles Avenue to Quartzsite Boulevard to four lanes as shown. • Widen Quartzsite Boulevard to four lanes from Main Street to Kuehn Street, Town of Quartzsite. • Widen Riggles Avenue to four lanes from Main Street to Kuehn Street. • Widen Kofa Avenue to four lanes from Main Street to Kuehn Street. Ehrenberg • Reconstruct Juneau Avenue to Minor Arterial standards from I-10 Exit 1 to Ehrenberg Parker Highway. • Reconstruct Ehrenberg Parker Highway to a Minor Arterial standard from Juneau Avenue to Southern CRIT Boundary to increase capacity. La Paz County • Construct new Cibola Bridge. • Construct new River Road Bridge. • Reconstruct Salome Highway from US 60 to I-10. Lima & Associates La Paz Transportation Planning Study – Page 134 • Pave the road segments as shown in Figure 5-10. • Reconstruct Vicksburg Road and construct passing lanes between I-10 and SR 72. Colorado Indian Tribes • Reconstruct Ehrenberg Parker Highway (Mohave Road) from CRIT southern boundary to SR 95 to standard cross section with cross drainage improvements. • Reconstruct bridges on Ehrenberg Parker Highway (Mohave Road). 2030 Road Plan Figure 5-9 illustrates the recommended road functional classification for both 2020 and 2030 and Figure 5-11 illustrates the recommended 2030 Road Plan. Key components of the 2030 road in addition to those recommended for the 2020 Road Plan include: State Routes SR 95/US 95 • Widen SR 95 to four lanes from the Town of Quartzite to the northern County boundary. • Construct 4-lane divided highway on US 95 from MP 70.2 to southern County boundary as recommended by the Initial Design Report: US 95, MP 42 to Cibola Lake Road, September 2008. • Add passing lanes between MP 99 and southern County Border, (approximately MP 60). SR 72 • Add passing lanes on the following road segment: o Avenue 42E to Willamette Drive I-10 • Reconstruct I-10 Interchanges at all locations by 2030. Ehrenberg • Reconstruct Ehrenberg Parker Highway to a higher two-lane road standard from Juneau Avenue to CRIT southern boundary. • Reconstruct Juneau Avenue to a higher two-lane road standard from I-10 to Ehrenberg Parker Highway (Mohave Road). Lima & Associates La Paz Transportation Planning Study – Page 135 FIGURE 5-9. RECOMMENDED FUTURE FUNCTIONAL CLASSIFICATION Lima & Associates La Paz Transportation Planning Study – Page 136 FIGURE 5-10. 2020 ROAD PLAN Lima & Associates La Paz Transportation Planning Study – Page 137 FIGURE 5-11. 2030 ROAD PLAN Lima & Associates La Paz Transportation Planning Study – Page 138 ROAD DESIGN AND ACCESS CRITERIA Table 5-5 presents the proposed design and access criteria for the roadway classifications. Figures 5-12 through 5-16 illustrate the road cross-sections of five functional classes of roadways. Note that the criteria presented in the table are minimum spacing needs and that it is recommended that longer spacing intervals be provided between intersections and between driveways. Road deficiencies that were previously documented in both Working Paper 1 and Working Paper 2 included the oblique-angled intersections along SR 72 and other roads. In addition, the need for turning lanes and acceleration and deceleration lanes was identified for Tintersections along SR 72. Figure 5-17 presents a schematic plan view of potential improvements at T-intersections. Access Management A major goal for the design of roads and streets of all levels in La Paz County is: to provide for the safe and efficient movement of people and goods at a high level of service. Access management is one tool to obtain and maintain efficient and safe operations. Need for Access Management Safety and mobility will be maintained along roads and streets where access is managed. As property develops, if access is not controlled, additional signalized and unsignalized intersections and driveways would have an adverse effect on mobility and safety. Along arterial streets, the failure to control direct vehicle access would force more trips onto the arterial streets. Planned developments’ internal access systems would be developed with insufficient capacity. Level of service would decrease as traffic congestion increased on the roads. In addition, crashes would generally increase along such a road due to the large number of turning movements and other conflicts. Definition of Access Management One way to minimize the adverse impact of increased access to adjacent property is to apply access management techniques along transportation corridors. According to the FHWA, access management is: The process that provides access to land development while simultaneously preserving the flow of traffic on the surrounding system in terms of safety, capacity, and speed. In practical terms, this process requires the regulation of vehicular access to public highways from adjoining property in order to limit the number of access points to a roadway, and, therefore, to reduce the number of potential conflict points among the users of the roadway. The primary principles of access management are: Lima & Associates La Paz Transportation Planning Study – Page 139 TABLE 5-5. MINIMUM ROAD DESIGN AND ACCESS CRITERIA Criteria Road Purpose Planning Average Daily Traffic Functional Classification Commercial Collector Minor Arterial Freeway Principal/Major Arterial Mobility >55,000 Mobility 45,000-55,000 Mobility/Access 30,000 75 mph 300’ + 55 mph 130’ – 150’ 45 mph 110’ Collector Local Street Access/Mobility 10,000 Access 8,000 Access 1,000 35 mph 80’ 35 mph 70’ 20 mph 50’ Design Standards Design Speed Right-of-Way Width Median Number of Lanes Left-turn Lanes Divided 4 and greater N/A Right-turn Lanes N/A Divided 6 At all locations where permitted At all locations where permitted and warranted Raised Median 4 At all locations where permitted At all locations where permitted and warranted TWLT 3 At all locations where permitted At all locations where permitted and warranted TWLT 3 At all locations where permitted At all locations where permitted and warranted N/A 2 N/A N/A Access Management Guidelines Public Access Property Access Grade-Separated Interchanges Only None Traffic Signal Spacing N/A Typical Traffic Control N/A 1/8-1/2mile 1/8-1/4 mile 1/8-1/4 mile 1/8 mile Rt. in/Rt. Out. Full access where approved Mile and ½ mile locations, Fully coordinated and progressed where warranted Signalized, two-way stop Rt. in/Rt. Out. Full access where approved ½ mile locations, ¼ mile locations where warranted Full access where approved ½ mile locations.¼ mile locations where warranted Full access where approved N/A Signalized, two-way stop Signalized, twoway stop Signalized, twoway stop Bus pull-outs and queue jumpers where warranted 4’ 6’ meandering Bus pull-outs and queue jumpers where warranted 4’ 6’ meandering Residential street Not Restricted N/A Stop Control Alternative Modes Transit Potential HOV Lane None None Bike Lanes Sidewalk (both sides) TWTL – Two-way Turning Lanes Lima & Associates N/A N/A N/A 4’ 6’ meandering 4’ 6’ meandering None 4’ La Paz Transportation Planning Study – Page 140 FIGURE 5-12. ARTERIAL CROSS SECTION FIGURE 5-13. MAJOR COLLECTOR STREET Lima & Associates La Paz Transportation Planning Study – Page 141 FIGURE 5-14. MAJOR COLLECTOR STREET ALTERNATIVE FIGURE 5-15. RESIDENTIAL COLLECTOR STREET Lima & Associates La Paz Transportation Planning Study – Page 142 FIGURE 5-16. RURAL HIGHWAY FIGURE 5-17. POTENTIAL IMPROVEMENTS AT T-INTERSECTION Lima & Associates La Paz Transportation Planning Study – Page 143 • Prevention of traffic problems caused by unmanaged development. • Addressing how land is accessed along arterials. • Focusing on mitigating traffic problems arising from development and increased traffic volume traveling to new activity centers. • Calling upon local planning and zoning to address overall patterns of growth and the aesthetic issues arising from development. Access management involves the use of techniques by State and local governments to improve access to highways and local roads. The purpose of those techniques is to improve travel time and improve safety. Techniques include: • Increasing spacing of intersections and interchanges to improve movement and traffic flow. • Reducing the number of driveways to avoid conflict points and decrease the crash rate. • Using left- and right-turn lanes to separate traffic movements, improving both traffic flow and safety. • Applying median treatments including two-way left-turn lanes and raised medians that allow drivers to make safe left turns off the highway. • Using frontage and backage roads that provide for safer and easier access to businesses and local roadways (A backage road functions like a frontage road but provides access to the rear of the properties being served). • Implementing land use policies and regulations that assure appropriate connections between the various land uses and the transportation network. Benefits of Access Management The primary benefits of access management are: • • • Overall reduced travel time. Reduced vehicle crashes. Reduced travel time for customers to reach businesses. Benefits of access management are well documented in professional literature including the TRB Access Management Manual, NCHRP Report 420, Impacts of Access Management Techniques and other reports. Some of the most important access management techniques relate to the frequency of driveways and intersections and the uniformity of traffic signal spacing. Travel time has been shown to decrease significantly as speed increases with the reduction in the number of driveway and intersection access points. The uniform and increased spacing of traffic signals will also increase travel speeds. Lima & Associates La Paz Transportation Planning Study – Page 144 Many studies have shown that crash rates increase with greater frequency of driveways and intersections. More driveways and intersections mean more potential conflicts between vehicles and also between vehicles and pedestrians. Crashes can be reduced significantly with fewer driveways and intersections. Complaints about access management typically come from businesses concerned about restricting access to their enterprises. However, studies have shown that the application of access management techniques reduces the travel time from residential areas to commercial areas and thereby increases the overall market area for businesses. The reduction in the number of access points ensures safer access to businesses. The positive impact of access management on businesses is documented in the FHWA brochure and accompanying CD Safe Access is Good for Business. The brochure includes support from business owners who were in opposition before access management techniques were applied, but in support after the techniques were in effect. Access Management Methods Access management methods can be grouped into two broad categories: land use techniques and technical tools. Individual methods within these categories are listed below. Land use and Development Techniques: • Acquisition of Access Rights • Dedication and Exactions • Transit Oriented Design • Purchase of Development Rights • Transfer of Development Rights • Land Development Regulation • Cluster Zoning • Overlay Zones • Subdivision Regulations and Site Plan Review • Zoning Regulation Technical Tools: • Intersection and Driveway Spacing Standards • Frontage and Backage Roads (located at rear of property) • Traffic Signal Spacing Standards • Driveway Control • Driveway Consolidation • Joint Driveway/Cross-Access • Right-in/Right-out Driveways • Alternative Access Streets • Raised Medians Lima & Associates La Paz Transportation Planning Study – Page 145 Recommended Access Management Principles for Local Roads Recommended access management principles for local and County roads include: • Primary Access. For sites that have frontage on two streets, primary access should be onto the minor street. • Minimize Access Points. Subdivisions and sites should be designed to minimize the number of access points. A maximum of two driveway entrances are permitted. • Cross Access. Where new development adjoins other similarly zoned property or compatible land uses, a cross access easement may be required to permit vehicular movement between the parcels and reduce the number of access points required onto the adjacent public street. RECOMMENDED MULTIMODAL ELEMENT The Multimodal Element for La Paz County is recommended as a component of the overall La Paz County Multimodal Transportation Plan. The Element includes components of transit facilities and services, pedestrian and bicycle facilities, and aviation facilities. Recommended Transit Plan As documented in Working Paper 1, two public transportation operations currently serve the area: Quartzsite Transit Services provides local service within the Town of Quartzsite as well as regional service between the Town and Blythe, Lake Havasu City, Parker, and Yuma, serving different communities on different days of the week. La Paz County provides service within the Town of Parker as well as regional service to Bouse, Ehrenberg, Lake Havasu City, and Wickenburg, also serving different areas on different days of the week. In effect, both existing services are hybrids—providing some local services as well as regional services. Expanding Service to Address Projected Future Increases in Transit Demand Figure 5-18 depicts a transit plan which includes the regional routes used in the conduct of the future regional transit demand procedure described in Working Paper 2, together with proposed future local services. Draft regional transit schedules are presented in Table 5-6. Based on these schedules, each vehicle would have four or five of its seven seats filled. The I-10 trips could be part of an expanded corridor service carrying passengers between Phoenix and Southern California. The North-South schedules could be coordinated with—or part of—the transit services proposed for connecting Lake Havasu City, Bullhead City, Needles, and Kingman. The Parker-Wenden services could also be extended to Phoenix, or to connections with future commuter rail service in Wickenburg. Such services would be likely to use vehicles with capacities of more than seven persons. Lima & Associates La Paz Transportation Planning Study – Page 146 FIGURE 5-18. TRANSIT PLAN Source: Lima & Associates Future Local Circulator Services The transit demand estimating process documented in Working Paper 2 addressed regional services only. Methodologies exist for estimating local transit demand—that is, demand for transit trips within a particular town or community—however, these methodologies are designed for application to urban areas with significantly greater populations than any of the communities in the Study Area. Existing local transit demand is likely being met by the services currently being operated by La Paz County and by the Town of Quartzsite. However, it is recommended that the following local services be considered for future implementation: • Implement deviated fixed-route local circulator service along the Parker Strip, connecting Parker South, Parker Central, the Casino, and the residential areas along SR 95 up to the Parker Dam area and beyond. The Parker Central-Parker South segment should be year-round, but a population threshold for Parker South to trigger Lima & Associates La Paz Transportation Planning Study – Page 147 TABLE 5-6. DRAFT REGIONAL TRANSIT SCHEDULES I-10 Route Westbound – Rear Down ↓ ↓ 7:00 AM 7:20 AM 7:25 AM 10:45 AM 4:45 PM 12:28 PM 1:00 PM 1:20 PM 1:25 PM 6:28 PM 7:00 PM 7:20 PM 7:25 PM Stations Lv. Ar. North-South Route Southbound – Rear Down 6:30 AM 6:50 AM 7:10 AM 7:25 AM 8:00 AM 9:25 AM ↓ ↓ 12:10 PM 12:25 PM 1:00 PM ↓ 4:30 PM 4:50 PM 5:10 PM 5:25 PM 6:00 PM 7:25 PM 12:10 PM 12:20 PM 12:40 PM 1:20 PM 6:10 PM 6:20 PM 6:40 PM 7:20 PM Ar. 1:15 PM 1:22 PM 1:31 PM 1:37 PM 2:07 PM 2:40 PM Lv. Lake Havasu Parker Strip Parker Parker South Quartzsite Yuma Ar. Parker Tribal Complex Poston Ehrenberg Lv. Ar. Wenden Salome Hope Vicksburg Bouse Parker 4:25 PM 2:42 PM 8:10 AM 7:50 AM 7:45 AM 2:10 PM 1:50 PM 1:45 PM ↑ ↑ 8:10 PM 7:50 PM 7:45 PM ↑ ↑ 12:00 PM 11:45 AM 11:10 AM 9:45 AM 3:40 PM 3:20 PM 3:00 PM 2:45 PM 2:10 PM ↑ 10:40 PM 10:20 PM 10:00 PM 9:45 PM 9:10 PM 7:45 PM Northbound – Rear Up Ar. Lv. Stations Lv. 10:25 AM 8:42 AM Northbound – Rear Up Ar. Stations Lv. Wenden-Parker Route Westbound – Read Down 7:15 AM 7:22 AM 7:31 AM 7:37 AM 8:07 AM 8:40 AM Ar. Stations Lv. CRIT Route Southbound – Rear Down 6:10 AM 6:20 AM 6:40 AM 7:20 AM Phoenix I-10/Vicksburg Road Quartzsite Ehrenberg Blythe Eastbound – Rear Up 9:00 AM 8:50 AM 8:30 AM 7:50 AM 3:00 PM 2:50 PM 2:30 PM 1:50 PM 9:00 PM 8:50 PM 8:30 PM 7:50 PM Eastbound – Read Up Ar. Lv. 12:05 PM 11:58 AM 11:49 AM 11:43 AM 11:13 AM 10:40 AM 6:05 PM 5:58 PM 5:49 PM 5:43 PM 5:13 PM 4:40 PM Source: Lima & Associates Lima & Associates La Paz Transportation Planning Study – Page 148 its implementation should be determined. The Parker Strip segment of this service could begin as a seasonal operation—ultimately year-round service may be needed. • Implement deviated fixed-route local circulator service within the Town of Quartzsite. Such service could mitigate traffic congestion on Main Street during the tourist season, and facilitate local travel among the RV Parks, Rock and Gem Shows, and other area traffic generators and attractions. • Local circulator transit serving Tribal communities on the CRIT. Initially, this service could double as the Parker-Ehrenberg regional service, with a more relaxed schedule to allow for route deviation. Ultimately, this and other local circulators should be structured to feed passengers to the fixed-route regional routes. As population and seasonal activities both increase, a study should be conducted to assess the feasibility of providing increased local circulator services in the Study Area. In the near term, ridesharing programs and other lower-cost techniques should be examined as ways of enhancing the mobility of Study Area residents and visitors. Opportunities may also exist for enhancing the efficiency of the two existing operations through closer coordination. These concepts are summarized in the following section. Potential Transit And Intercity Bus Services and Facilities Different Types of Transit Service Transit services that may be in operation in the Study Area by 2030 include the following: • Dial-A-Ride and Paratransit Services. • Deviated Fixed Route Service. • Regional Commuter Bus Service including service connecting Study Area communities and adjacent communities as follows: 9 I-10 corridor service connecting the Quartzsite and Vicksburg areas with metropolitan Phoenix and Southern California. 9 SR 95 corridor service connecting the Quartzsite, Parker, and Parker Strip areas with Yuma and with Lake Havasu City. 9 Service on US 60 and SR 72 connecting the Wenden, Salome, Vicksburg, and Bouse areas with Parker and connecting to the other proposed services. 9 CRIT commuter service on the Ehrenberg-Parker Highway connecting Poston and other CRIT communities with Ehrenberg, Parker, and connections to the other proposed services. The regional commuter service could be structured as either a fixed-route service or a deviated fixed route service. Vehicles typically used for these services are shown in Figure 5-19. Lima & Associates La Paz Transportation Planning Study – Page 149 FIGURE 5-19. TYPES OF TRANSIT VEHICLES Vans similar to this vehicle operated in Pinal County are used in Parker and Quartzsite to transport seniors to and from Senior centers as well as trips to Blythe, California for shopping, medical, and other purposes. Future vehicles could be configured with higher roof lines to facilitate boarding and alighting of wheelchair and mobilitylimited passengers. —Lima & Associates photo This “cutaway” vehicle, comprising a minibus body constructed on a recreational vehicle chassis, is used by Valley Metro for paratransit services. However, similar vehicles are typically used in both deviated fixed route and downtown or neighborhood circulator services. —Lima & Associates photo Full size motorcoaches such as this one operated by Phoenix Bus Charter are used to bring tourists from Phoenix and other communities to area attractions such as the Colorado River, Tribal gaming, rock and gem shows, and historic area tours. Similar vehicles are used by Greyhound for I10 corridor schedules serving Quartzsite. —Phoenix Bus Charter photo Lima & Associates La Paz Transportation Planning Study – Page 150 Dial-a-Ride Service is a demand-response service. Vehicles do not operate on a fixed route or schedule, but pick-up patrons at their origins and deliver them directly to their destinations. Before the trip begins, and during the course of the trip, the driver receives information from a dispatcher concerning pick-up and drop-off requests. The dispatcher and driver decide the most efficient order in which to make stops. Such a procedure often means that, after being picked up, a passenger must remain on board while “detours” to pick up or drop off other passengers are made. Hence, a dial-a-ride trip can take significantly longer to complete than if the passenger had been able to drive directly to his or her destination, and such service appeals primarily to transit-dependent persons. Paratransit is complementary dial-a-ride service provided to seniors or disabled persons in a fixed-route service area as required by a provision of the Americans with Disabilities Act. Reserve-a-Ride is dial-a-ride service that requires that pick-up requests be made 24 hours in advance. Regional Commuter Service could be operated with any of the types of vehicles shown, or with full size over-the-road coaches, as demand warrants. Commuter services typically offer several departures in the morning, timed to arrive at the employment center at the beginning of the work day, and afternoon departures scheduled at the end of the work day. Such services do not necessarily operate on weekends, but may offer weekend schedules timed to accommodate shoppers and tourists. Fixed Route Buses operate on a route that never varies, although alternate routes may be used on Saturday or Sunday. In large urban areas, fixed route buses typically operate on headways of 60 minutes or less—with even more frequent service offered during peak travel periods. All passengers board at posted bus stops. Some of these are “time points” that appear in published timetables, but intermediate stops not listed in schedules may also be served. Deviated Fixed Route Service, sometimes referred to as “checkpoint” service, is considered an intermediate step between dial-a-ride, which targets transit dependent riders, and fixed route service, which is more efficient in larger cities having significant volumes of transit ridership. A deviated fixed route stops at scheduled “time points”—or “checkpoints”—much as a fixed route service does. However, the route taken between points can vary from trip to trip. This “connect-the-dots” approach offers the best of both worlds: Passengers wishing to catch the bus at the last minute can wait at a time point; at the same time, the driver can receive a pick up request from a dispatcher and “deviate” from the route accordingly. Hence, deviated fixed route trips can take longer than fixed route trips. At the same time, the service is more visible to the public than one that operates on strictly a demand-response basis. Types of Bus Transit Vehicles The vehicles used by a public transportation operation are the most tangible aspects of the service, and it is tempting to think of the service provided by a particular operation in terms of Lima & Associates La Paz Transportation Planning Study – Page 151 its vehicles. We all know what a “Greyhound Bus” looks like, for example. Technically speaking, however, any type of vehicle can be used for the operation of any type of service. On a lightly traveled route, for example, a 14-passenger van often functions as a scheduled intercity bus. At the other end of the scale, full size coaches, when chartered by groups, perform a function not unlike that of a taxi—except for the number of persons carried. Five basic types of vehicles are used to provide public transportation: • • • • • Automobiles Vans and customized vans Body-on-recreational-vehicle-chassis or cutaway vehicles School bus vehicles Purpose-built vehicles—intercity and transit coaches Examples of the vehicle types most commonly associated with the different types of operation are shown in Figure 4-20. With the exception of automobiles, all vehicle types are routinely fitted with wheel chair lifts and other appliances designed to facilitate accessibility pursuant to the specifications of the Americans with Disabilities Act. Transportation Demand Management Transportation Demand Management consists of a wide range of programs and services that enable people to get around without driving alone. Included are alternative transportation modes such as carpooling, vanpooling, transit, bicycling, and walking, as well as programs that alleviate traffic and parking problems such as telecommuting, variable work hours, and parking management. Transportation Demand Management can address the needs of those traveling long distances with rideshare options such as vanpools and carpools. These types of services are vital in moving people around large areas, whether for work or for traveling to regional centers that have special services, medical facilities, or retail stores. Rideshare Matching Programs provide service by identifying people who live and work close to each other and then facilitate carpooling and vanpooling. Matching services can pair full-time partners, or simply someone to call in an emergency. Rideshare matching can be done by individual employers or on a community-wide basis. In addition to commute trips, travelers can be matched with others participating in the same extracurricular school function, medical-related trip, shopping trip, or community activity. Rideshare matching is typically done through a computerized system. A variety of vendors have created inexpensive, effective software that makes this process easy to use. Rideshare services can also be offered on-line. A sample rideshare application is provided in the Appendix in Working Paper 3. Lima & Associates La Paz Transportation Planning Study – Page 152 Two common forms of ridesharing are carpools and vanpools. Carpool participation is higher than the national average in rural Arizona, suggesting that a potential for developing additional carpools in the area exists. Strategies for formalizing and increasing carpooling in the La Paz Planning Area follow: • The carpooling that is already established needs to be quantified and documented. This process could be an employer-based registration system that provides an incentive for filling out an information/registration card. Incentives might be as simple as a chance to be entered in a drawing for dinner for two at a popular restaurant. Periodic updates and opportunities for future carpooling incentives would be an option for carpoolers. • A benefit of registering carpools is that the informal carpools might be able to serve another commuter who works the same shift, or an additional participant in the same periodic activity. The baseline data forms the beginning of destination-driven ride matching. • Once the baseline data quantifies a level of carpool usage, goals for increasing participation and incentives to attract more new carpools can be identified and implemented. Vanpools are also an alternative to be considered for area commuting. The methodology described above for carpools is one way to begin building a database for informal vanpools. By asking vehicle capacity on the registration card, the information helps organizers build an “excess capacity” database. This type of vanpool is very informal and maintains its schedule based on employee needs. Matching commuters from the same or other businesses is the growth potential. Again, the object is to quantify and document existing vanpool commuters and build the program where possible. Another option is to provide businesses with an incentive to let the vehicle be used for a formal vanpool program with a wider group of employees. If the vehicle becomes a part of a formal program, maintenance, insurance and vehicle upkeep can be offered as an incentive. Such a fleet of vanpool vehicles can be used as a “guaranteed ride home” for bus/rideshare commuters who have an unscheduled midday need to get home. A few issues arise with shared-use vehicles as those described above. If the driver of the vanpool is an employee who is also commuting to work, the type of insurance needed is different than if the driver is paid or if the vehicles are used for other service during the day. As with any formal bus service, vanpools need back-up vehicles or a plan for alternate service. Coordinating Local Human Services Transportation Programs La Paz County may benefit from a program called Arizona Rides, a Statewide effort to coordinate provision of human services transportation within counties or regions of counties to Lima & Associates La Paz Transportation Planning Study – Page 153 increase efficiency, limit service duplication and confusion, and save costs. Arizona Rides was initiated in response to the federal “United We Ride” program established in 2004. “Pinal Rides,” a pilot project of the program, funded a study of the concept in Central Pinal County. The Final Report of the pilot project was published in December 2005. The pilot project consisted of two phases. In the first phase, existing human services transportation providers in Pinal County were inventoried, and potential areas of service duplication and inefficiency were identified. In Phase II, specific implementation objectives were identified, together with impediments to service coordination, and key service providers were selected for participation in a model coordination project. Recommendations included the establishment of a transit coordinating council for the Study Area and the implementation of service along two regional corridors. Existing and future public transportation services in La Paz County may benefit from techniques for coordinating services, pooling equipment, and other concepts developed by Pinal Rides. The County, the Towns of Parker and Quartzsite, and the CRIT should evaluate the results of the Pilot Program. Promoting the Dial-a-Ride Service By far the most effective means of promoting the service, particularly in a small service area such as La Paz County, is by word-of-mouth. In order to get positive word-of-mouth, efforts should be made to tailor the service to the needs of existing and potential riders to the extent possible. Transit Marketing, LLC, with CJI Research Corporation conducted a transit marketing study in 2006 that documented data gathering techniques used by a number of transit companies nationwide. Brief summaries of techniques used to obtain marketing data by various transit systems were reviewed: Table 5-7 summarizes the different techniques used by different operators: The most popular means of gathering data among the agencies reviewed was the conduct of an on-board survey. On–board surveys can be used to gauge customer satisfaction with the current service as well as obtain suggestions regarding unmet needs. Other methods employed were: • Telephone surveys of service area residents as well as surveys of the dial-a-ride users themselves • Conduct of focus groups consisting of existing and potential users of the service • Internet surveys of students as well as employees of major employers • Interviews with service area stakeholders such as major employers Most of the transit operating agencies conduct periodic strategic plans where the data collected is assessed and indicated improvements are programmed. Lima & Associates La Paz Transportation Planning Study – Page 154 TABLE 5-7. SUMMARY OF TRANSIT MARKETING DATA GATHERING TECHNIQUES Transit Operation Community Telephone Survey Marketing Data Gathering Technique Internet/ OriginStakehold Focus E-mail On-Board Destinatio er Groups Survey Survey n Survey Interviews Beeline 9 Big Blue Bus 9 CATA 9 Champaign Urbana 9 9 Chatham Area Transit 9 Golden Empire Transit 9 Hartline 9 9 9 9 9 9 9 9 9 9 9 Intercity Transit User Telephone Survey 9 9 9 KCATA 9 Lane Transit 9 LAVTA 9 9 PeopleMover 9 9 Potomac and Rappahannock 9 9 Sacramento Regional Transit 9 9 9 9 Source: CJI Research Corporation Lima & Associates La Paz Transportation Planning Study – Page 155 Community Gateway Centers The participating agencies in the La Paz Planning Area should consider developing one or more community gateway centers. In late 2009, the Arizona Department of Transportation chose to close a number of highway rest stops—including several located on Interstate 10 in La Paz County. The opportunity exists for local agencies, private sector firms, or one or more public-private partnerships to provide gateway center facilities on I-10 and on other heavilytraveled roadways within the Study Area. Such “gateway centers” should be designed or re-configured to provide more than simple sanitary facilities. Possible elements of these centers could include transfer terminals for use by intercity bus services and future local area circulators as well as park-and ride facilities for transit passengers, car pool, and van pool participants. Examples of amenities that these centers could provide include: • Tourist and Newcomer information centers staffed by local volunteers or Chamber of Commerce staff. • Internet “hot spots” where travelers—using their own or provided computers—could look up information on-line about area attractions, hotel accommodations, dining, boating, casino gaming, or other available recreation, and so forth. • Transit centers and transfer points among local and regional public transportation providers. • Economic development satellite offices. • Full service truck and RV stops. • Secure parking for bus and rail patrons. • Bicycle lockers and bicycle rental. Private establishments such as truck stops could “host” these centers and agree to provide restroom facilities for motorists in return for “Tourist Information” signage on the highways and other forms of free promotion designed to increase patronage. Bicycle and Pedestrian Facilities This section presents a strategy to develop bicycle and pedestrian facilities as an integrated system. Bicycle facilities include bicycle lane, multi-use paths, bicycle routes, and shared roadway. Pedestrian facilities include sidewalks, separate pedestrian paths, and multi-use paths. In order to develop this strategy, the available general and comprehensive plans for the agencies participating in the Study were reviewed as well as national and local practice in planning and designing for bicycle and pedestrian facilities. Lima & Associates La Paz Transportation Planning Study – Page 156 The bicycle and pedestrian strategy for the La Paz County transportation system is to provide regional and local bicycle and pedestrian facilities as alternatives to motorized travel. Local facilities should be connected to State Routes and regional facilities. Regional bike travel can occur on discrete desert paths or on widened shoulders of State Highways and other regional roadways such as Plomosa and Alamo Roads. This Study’s recommendations to reconstruct segments of SR 95, SR 72, and US 60 and provide full shoulders support interregional bike travel connecting regional activities as well as serve crosscountry bicycling. The bicycle and pedestrian network should be designed to provide access to and connect regional activity centers such as the Buckskin Mountain and River Island State Parks. Bureau of Land Management trails, wildlife preserves as well as local activity centers in urban areas such as town parks, libraries, and schools. As existing County roads are upgraded and new County roads constructed, bike lanes, sidewalks, and paths should be incorporated in the road cross section. Low volume County roads such as Plomosa Road, Powerline Road, and Alamo Road should be designated as bike and pedestrian routes. In some areas, abandoned roadways could be redeveloped as multi-use paths. For example, the abandoned old SR 95 along the Colorado River should be designated a multi-use path. In emerging urban areas, such as the McMillan Valley communities of Salome and Wenden that are bisected by US 60, future bicycle and pedestrian crossings should be installed when warranted. Side streets in these communities should be designated as bike routes as appropriate to support population growth and existing and future activity centers attracting bicycle travel such as schools and parks. As part of the strategy, the CRIT should incorporate pedestrian and bicycle facilities into reservation roads. For example, the reconstruction of Ehrenberg-Parker Road should incorporate wider shoulders. In addition, marked cross walks should be provided for safe crossing of streets. The plans of all the agencies—La Paz County, the Town of Parker, the Town of Quartzsite, and the CRIT—contain goals that recognize the need for developing local and regional bicycle and pedestrian facilities. The Town of Quartzsite General Plan also included maps of proposed bicycle and pedestrian trails and paths in their plan (see Chapter 3). Local bike and pedestrian facilities such as those recommended in Town of Quartzsite General Plan, include bicycle lanes, multi-use paths, separate pedestrian paths, and shared roadways. In addition, these facilities should connect to regional facilities such as State routes and other facilities. Other Factors A goal for all communities is to be walkable and bikeable. All facilities need to be designed according to American Disabilities Act standards that include providing curb ramps. Intersection and mid-block crossings need to be provided for safe crossing of streets. Bridges need to provide adequate shoulders or sidewalks for connectivity and safe pedestrian and bicycle crossings. Traffic calming measures in residential neighborhoods should be considered Lima & Associates La Paz Transportation Planning Study – Page 157 to provide pedestrian friendly and safe environments. In addition, intersections and traffic control devices such as traffic signals and marked crosswalks should be designed to accommodate pedestrians and bicyclists. Also, as transit becomes more prevalent throughout the County, safe access to transit stops and well designed transit stops must be provided. In certain situation, pedestrian overpasses or underpasses may be considered. The preparation of a map illustrating regional bicycle and pedestrian facilities is recommended to encourage safe bicycling and walking. A Safe Routes to School map is also recommended as a local and County guide to promote safe walking to school routes. Aviation Plan Within the Study Area, potential aviation improvements are the following: • Correct the deficiencies identified for the CRIT Avi Suquilla Airport at Parker, including the reconstruction of the airport entry, access road, parking lot, and terminal facilities. • Study the feasibility of a new airport at Quartzsite, which could serve as both a General Aviation facility open to the public and an adjunct to the proposed industrial park— designed to permit future introduction of scheduled passenger service. • Closely monitor the volume of flight operations at the two private McMillan Valley airports to identify when the development of a General Aviation facility in the area might be warranted. Recommended Next Steps The Consultant recommends that La Paz County, the Town of Parker, the Town of Quartzsite, the Colorado River Indian Tribes, and the Participating Agencies in the La Paz Transportation Planning Study, take the following steps, as appropriate, to implement and expand multimodal transportation services: • The Participating Agencies should closely study the Pinal Rides Pilot Program to learn what features of the program are applicable to the Study Area. In particular, the agencies currently operating dial-a-ride or commuter van services should explore coordination, operational, and marketing opportunities among the services. • La Paz County, the Town of Parker, the Town of Quartzsite, and the Colorado River Indian Tribes should communicate and coordinate with organizations and agencies that are evaluating and/or advocating inter-regional transit service options affecting the Study Area including the ADOT Multimodal Planning Division, WACOG, Maricopa Association of Governments, California Department of Transportation, and the Arizona Transit Association. Lima & Associates La Paz Transportation Planning Study – Page 158 • La Paz County, the Town of Parker, the Town of Quartzsite, and the Colorado River Indian Tribes should continue to present short- and long-range plans to ADOT Multimodal Planning Division including plans for future seasonal local circulator services, additional dial-a-ride services, and regional bus services. Demographic thresholds for the implementation of each should be identified and the demographics tracked periodically. • The Participating Agencies should conduct a Transit Feasibility and Implementation Study to identify current and future public transportation needs within the Study Area as well as demographic thresholds for implementing future services. • The Participating Agencies should designate a Transportation Coordinator, when needed, to develop a rideshare program, serve as a clearing house for local and regional public transportation information, and manage the implementation and operation of transit services. The Transportation Coordinator could also manage the implementation of non-motorized transportation facilities such as multi-use paths and trains. • The Participating Agencies should appoint a volunteer Transportation Advisory Committee to assist in identifying the desirable attributes of the coordinator position and to work with the coordinator after his or her selection. The Transportation Advisory Committee could act as a liaison for public transportation issues among the agencies, and the business community, and could also provide input for public transportation mode choice, equipment selection, route selections and additions, and transit center concept and site selection. The Advisory Committee would also oversee the implementation of non-motorized facilities and the dissemination of information to potential bike system users, transit riders, and pedestrians. • The Participating Agencies should explore the concept of providing one or more “gateway centers” within the Study Area and evaluate options for public or private development and operation of these facilities. • The Colorado River Indian Tribes should continue to work with ADOT Aeronautics Division to program improvements to the Avi Suquilla Airport. • The Town of Quartzsite should study the feasibility of developing an airport in conjunction with the proposed industrial park described in the following section as part of the Recommended Freight Plan. Implementation Options Table 5-8 presents a suggested implementation schedule for transit improvements. The schedule is based on the “Next Steps” recommended above. The actual costs of both implementing and funding multimodal services will depend upon a number of variables, including the following: Lima & Associates La Paz Transportation Planning Study – Page 159 TABLE 5-8. SUGGESTED PUBLIC TRANSPORTATION IMPLEMENTATION SCHEDULE Action Responsibility Appoint Transportation Advisory Board Designate Transportation Coordinator Contract for Transit Feasibility Study La Paz County, Town of Parker, Town of Quartzsite, Colorado River Indian Tribes Participating Agency councils, with input from the Transportation Advisory Board Participating Agency councils, with input from the Transportation Advisory Board and the ADOT Multimodal Planning Division Participating Agency councils, with input from the Transportation Advisory Board and the ADOT Multimodal Planning Division Participating Agency councils, with input from the Transportation Advisory Board Public Works departments of Participating Agencies Transportation Coordinator Contract for Bicycle and Pedestrian Mobility Study Assess “Gateway Center” concept Select initial funding sources and set Budgets Present short, long-range plans in partnership with the ADOT Multimodal Planning Division Begin Ridesharing Program Development Recommend transit service types and implementation thresholds Obtain funding approval from ADOT Request Design Concept Proposals for Gateway Centers Request proposals for equipment, and gateway center construction Develop Transit Service Marketing concepts Implement Marketing Campaign Order equipment and begin construction Equipment arrives and transit service starts Lima & Associates Time Frame Near Term Near Term Near Term Near Term Near Term Near Term Transportation Coordinator with input from the Transportation Advisory Board Transportation Coordinator with input from the Transportation Advisory Board and the ADOT Multimodal Planning Division Participating Agency councils and Public Works departments Public Works departments of Participating Agencies Public Works departments of Participating Agencies Near Term Transportation Coordinator with input from the Transportation Advisory Board Transportation Coordinator Long Term Public Works departments of Participating Agencies input from the Transportation Coordinator and the Transportation Advisory Board Transportation Coordinator with input from the Transportation Advisory Board Long Term Mid Term Mid Term Mid Term Mid Term Long Term Long Term La Paz Transportation Planning Study – Page 160 • Which mode, or modes, of transit service are recommended for implementation? • What type of vehicles will be used and how many will be purchased? • Will gateway centers be built initially? Or will they be programmed for later fiscal years? • What new vehicle maintenance facilities will be needed? Can existing facilities belonging to either the County or local jurisdictions be used initially for starting or expanding bus systems? Or is contracting the maintenance out to another agency or a private sector provider practicable? • What bus stop furniture will be provided? Will shelters be constructed at stops? • Can bicycle and pedestrian facilities be included in the programming of roadway improvements? Or must they be funded separately? RECOMMENDED FREIGHT ELEMENT A goal of the Multimodal Transportation Element in the La Paz County Comprehensive Plan included developing County rail and trucking facilities. A Freight Element is presented here that addresses rail and trucking strategies to encourage freight related economic development within the County. During the course of the La Paz Transportation Planning Study, the consultant discussed freight issues with area stakeholders including ADOT, County, Town, Tribal, and railroad officials. A number of strategies are focused on moving trucks efficiently and safely through and within the County. The following actions are recommended: • Develop truck stop and off-street parking for tractor-trailer rigs in the Town of Parker to eliminate truck parking in the center median of California Avenue. • Reconstruct Ehrenberg Parker Highway (Mohave Road) roadway and bridges to handle existing and future volumes of truck traffic that use the facility as a short cut from I-10 West to SR 95 North. • Reconstruct SR 72 and add bridges over low-water crossings to handle existing and future volumes of truck traffic. Also Reconstruct US 60 as needed to handle existing and future volumes of truck traffic. • Reconstruct the Ehrenberg Port-of-Entry. Upgrade the Port-of-Entry building and communications system to provide sufficient staging area and storage for trucks being processed. • Develop a Travel Plaza at the I-10/Ehrenberg Highway interchange in Ehrenberg, including facilities for exchanging truck tractors, facilities to enable tractor-trailer overnight parking without idling, and other facilities as appropriate. Lima & Associates La Paz Transportation Planning Study – Page 161 • Develop roadway, rail, and air-served industrial park and distribution center north of Quartzsite. Also include the study of an airport as mentioned as part of the industrial park. Study the feasibility of constructing a rail spur south from the ARZC main line to Quartzsite and identify alignment. • Reconstruct I-10, Exit 17 at Quartzsite to facilitate access by commercial trucks to the new truck stops being constructed as well as the proposed industrial park. Figure 5-20 illustrates the locations of the proposed improvements. As part of the Arizona Multimodal Freight Analysis Study conducted for ADOT in 2008, a proposed Freight Planning Agenda was developed for ADOT. Table 5-9 summarizes the proposed agenda. La Paz County, the Town of Parker, the Town of Quartzsite, and the Colorado River Indian Tribes should take into consideration the findings and recommendations of the Study. The Transportation Advisory Committee previously recommended coordination with ADOT and truck and rail freight stakeholders. FIGURE 5-20. FREIGHT PLAN Lima & Associates La Paz Transportation Planning Study – Page 162 TABLE 5-9. SUMMARY OF PROPOSED ADOT FREIGHT PLANNING AGENDA Strategic Response #1: Link Freight Planning to Economic Development Tactics Performance Measures/Indicator 1a. Engage the private sector in transportation planning 1b. Support freight-related training and education for State, regional, and local planning staff. • • • • Number of freight stakeholder outreach activities Number of private sector attendees at events Number of training sessions or workshops hosted Number of MPO/COG representatives at training sessions • Public attitudes toward freight in omnibus surveys • Sponsorship of the CAPS Center for Strategic Supply Research or similar organizations 1c. Market the link between transportation and Arizona’s economy. Strategic Response #2: Coordinate Freight Planning and Local Land Use Planning Tactics Performance Measures/Indicator 2a. Encourage and support efforts on behalf of local governments to develop land use planning guidelines for freight-intensive development. • Number of Arizona communities that adopt or develop land use guidelines specifically addressing freight developments • Number of in-State university research projects addressing land use and freight 2b. Encourage communities to work closely with the private sector when developing freight logistics centers • Number of communities that develop local freight stakeholder forums or groups Strategic Response #3: Preserve and Prioritize Key Freight Infrastructure Tactics Performance Measures/Indicator 3a. Expand Arizona’s participation in high-priority corridor initiatives. • Number of corridor-level agreements with other states • Number of projects funded through or initiated by COF or other corridor-based programs 3b. Support railroad mainline capacity expansions. • The formation of, or participation in, rail corridor coalitions • Rail freight facility access improvements • Number of at-grade crossings removed 3c. Prioritize and protect priority highway corridors for efficient freight movement. • Average truck trip time between trade centers 3d. Establish and maintain a freight data collection program. • The number or percent of planning studies, such as framework studies, that include some element of freight analysis • Average travel time and buffer indices for major truck corridors Strategic Response #4: Seek Opportunities to Improve Freight Operations Tactics Performance Measures/Indicator 4a. Incorporate heavy truck movements into highway design and reduce bottlenecks Lima & Associates • Percent of priority truck routes meeting ADOT standards for: o pavement condition o bridge condition o WB-67 intersection design o adequate acceleration lanes for trucks • Adequate climbing lanes for trucks on steep grades La Paz Transportation Planning Study – Page 163 5-8. SUMMARY OF PROPOSED ADOT FREIGHT PLANNING AGENDA (Continued) Strategic Response #4: Seek Opportunities to Improve Freight Operations (Continued) Tactics Performance Measures/Indicator 4b. Expand Arizona’s NHS intermodal • Number of Arizona road segments on the connector network for freight. FHWA-NHS connector listing that serve freight facilities 4c. use innovative technology to improve • Number of ITS projects on freight-significant highway operations for commercial corridors in Arizona vehicles. • Estimated time savings from ITS investments on priority truck corridors Strategic Response #5: Enhance Freight System Safety and Security Tactics Performance Measures/Indicator 5a. Target improvements to truck crash “hot • Commercial vehicle crash rates by segment spots.” • Percent of vehicle and driver attributes for truck crashes for which the response “unknown” is listed in crash reports 5b. Provide safe, secure parking opportunities for commercial vehicle drivers. • Percent of public truck parking spaces occupied by time of day • Distance (in miles) between public truck parking facilities on major corridors 5c. Monitor/improve the safety of railroad grade crossings that have a crash history. • Number of crashes by crossing • Number of at-grade improvements 5d. Implement performance-based truck size and weight enforcement policies. • Annual pavement and bridge infrastructure savings from weight enforcement 5e. Monitor impacts of TSA air cargo screening requirements on businesses. • Number of meetings with air cargo stakeholders to monitor impacts Strategic Response #6: Environmental Preservation and Energy Efficiency Tactics Performance Measures/Indicator 6a. Promote “green” freight initiatives in • Percentage reduction in mobile source emissions Arizona’s growing freight transport sector. from large trucks • Percentage reduction in energy consumption from large trucks 6b. Study options for moving through trucks out of congested urban corridors. • Percentage reduction in truck VMT on congested urban corridors Source: Arizona Department of Transportation, Arizona Multimodal Freight Analysis Study, Wilbur Smith Associates, et. al., 2008 Lima & Associates La Paz Transportation Planning Study – Page 164 Next Steps The consultant recommends the following next steps relating to freight improvements: • In the process of updating general or comprehensive plans, La Paz County, the Town of Parker, the Town of Quartzsite, and the Colorado River Indian Tribes should take into consideration the findings and recommendations of the Arizona Multimodal Freight Analysis Study conducted for ADOT in 2008. Participating agencies should focus on those findings and recommendations that pertain to the impact that increased truck and rail shipments from the West Coast will have on Western Arizona infrastructure and traffic volumes. • The participating agencies should also monitor closely the concepts for developing alternatives to West Coast ports such as Punta Colonet and Guymas, which were alluded to in the Multimodal Freight Analysis Study. The opening of these facilities— and the new highway and/or rail alignments that might be constructed as a consequence—could significantly impact the opportunities for developing freight facilities and could also affect future traffic flows and volumes. • The Town of Parker should identify candidate locations for off-street parking for tractor-trailer rigs and program funding for site preservation. The Town should continue to work for attracting truck stop developers to the area. • The CRIT should work with ADOT to program roadway and bridge improvements for Ehrenberg Parker Highway (Mohave Road). • The participating agencies should continue to encourage ADOT to program improvements to SR 72 and SR 95 related to the efficient and safe movement of heavy trucks, including the installation of bridges or culverts on low-water crossings, improvements to roadway geometry, and widening. • The participating agencies should continue to encourage ADOT to program reconstruction of the Ehrenberg Port-of Entry. • The Town of Quartzsite should study the feasibility of developing a multimodal industrial park north of Town and begin the appropriate site preservation and zoning processes. The Town should coordinate with the ADOT Multimodal Planning and Aeronautics Divisions to explore funding for studying the feasibility of multimodal transportation facilities—air, highway, and rail—to serve the proposed park. The Town should continue to coordinate with the Arizona & California Railroad and keep the Railroad informed of the progress of the concept. • The County should work with ADOT and private interests to develop a Travel Plaza at the I-10/Ehrenberg Parker Highway interchange in Ehrenberg to serve commercial trucking as well as the general public. • The Town of Quartzsite should continue to urge ADOT to program the reconstruction of I-10, Exit 17 to improve access and safe movement of heavy trucks into the Town from the West. Lima & Associates La Paz Transportation Planning Study – Page 165 6. IMPLMENTATION CHALLENGES TO IMPLEMENTATION Implementing the multimodal transportation infrastructure within the context of approved development plans presents several major challenges, including the following: • • • • • • • Coordination of recommendations among the various stakeholders Right-of-way needs and preservation for roadways Lead time needed to construct roads Cost of needed improvements and funding implications Limited funding and ability to obtain funding Prioritization of projects as development phases in Implementation of multimodal and transit projects IMPLEMENTATION STRATEGIES Agency and Stakeholder Coordination To meet these challenges, it is essential that an implementation action plan for short-, mid-, and long-range transportation projects be developed in coordination with the following agencies and organizations: • • • • • ADOT La Paz County Town of Parker Town of Quartzsite CRIT • • • • WACOG BLM Arizona State Land Department Developers and other private sector stakeholders It is important to note that recommendations made by this Study for improvements on State facilities can serve only as suggestions for further study. Improvements to the State Highway system can be made only after in-depth planning and engineering studies are conducted by ADOT, and upon approval of the State Transportation Board. All traffic interchange improvements must be approved by the Federal Highway Administration. In addition, environmental assessments must be conducted and Design-Concept Reports must be developed prior to the construction of any new roadway or multimodal facility. Tables 6-1 through 6-3 list recommended strategies for road, multimodal and freight projects for the 2010, 2015, 2020, and 2030 planning horizons. The tables also list the likely primary responsible parties for implementing the projects. Lima & Associates La Paz Transportation Planning Study – Page 166 TABLE 6-1. LA PAZ ROADWAY IMPLEMENTATION STRATEGIES Implementation Strategy Horizon Years 2010-2015 2020 2030 Responsibility Plan and Program Adoption - Adopt the La Paz PARA Study. Adopt roadway functional classifications, design standards, access management, and traffic-calming policies. Program the recommended multimodal improvements into the Capital Program. X County, Towns, CRIT X County, Towns, CRIT X County, Towns, CRIT, ADOT X County, Towns, CRIT, ADOT, other Stakeholders X County, Towns, CRIT, ADOT, other Stakeholders Coordination - Coordinate with ADOT on completion of ADOT Design Concept Studies. Coordinate with ADOT and stakeholders on Design Concept Studies for high capacity corridors. Coordinate with WACOG on continuous updating of population projections. Coordinate with ADOT to review development proposals that may impact right-of-way on State highways. Work with ADOT and the Arizona Office of Tourism to establish an information center on I-10 to welcome incoming motorists and inform them of attractions and facilities in Arizona and La Paz County. Work with ADOT to develop an emergency alternate route plan that alleviates impacts to non-redundant routes from accidents and emergencies. Continuous County, Towns, CRIT, other Stakeholders Continuous County, Towns, CRIT, other Stakeholders X County, Towns, CRIT, ADOT, other Stakeholders X County, Towns, CRIT, ADOT, other Stakeholders X X X County, Towns, CRIT, other Stakeholders County, Towns, CRIT, other Stakeholders ADOT, other jurisdictions X ADOT, Town of Parker, CRIT, other Stakeholders Planning and Studies - Establish a process to coordinate land use and transportation decisions on a regular basis. Implement a pavement management system. Conduct Traffic Warrant Studies Conduct study to assess potential upgrade of California Ave./Riverside Drive intersection Lima & Associates La Paz PARA Final Report – Page 167 TABLE 6-1. LA PAZ ROADWAY IMPLEMENTATION STRATEGIES (Continued) Implementation Strategy Horizon Years 2010-2015 2020 2030 Responsibility Project Development - Develop and implement access management plans for the State Routes, County roads, and local streets. Develop and implement pavement maintenance program. Conduct Design Concept Studies for passing lanes on SR 95, US 60, and SR 72. Conduct Design Concept Studies to reconstruction State routes to standard cross sections, improved cross drainage, turning lanes, and acceleration and deceleration lanes. Conduct Design Concept Studies for widening SR 95 to four lanes. Address capacity and safety concerns on paved County roads and work with land owners to pave existing unpaved County roads. X X County, Towns, CRIT, other Stakeholders County, Towns, CRIT X ADOT X ADOT ADOT Continuous County, Stakeholders Right-of-way Preservation - Preserve right-of-way for arterials and State Highways X X X ADOT, County, Towns, CRIT, other Stakeholders X ADOT, County, Towns, CRIT, other Stakeholders ADOT, County, Towns, CRIT, other Stakeholders Construct Improvements - Construct recommended roads as shown in 2020 Road Plan. Construct recommended roads as shown in 2030 Transportation Plan. Upgrade existing roadways to comply with adopted functional classifications and standards as warranted. Upgrade California Ave./Riverside Drive intersection. X X X X ADOT, County, Towns, CRIT, other Stakeholders ADOT, Town of Parker, CRIT, other Stakeholders Funding - Identify high priority funding strategies. Coordinate to obtain funding and leverage funds for improvements. X X ADOT, County, Towns, CRIT, other Stakeholders ADOT, County, Towns, CRIT, other Stakeholders Continuous Continuous ADOT, County, Towns, CRIT, other Stakeholders ADOT, County, Towns, CRIT, other Stakeholders Monitoring and Updating Plan - Implement a process to monitor and update plan. Coordinate on a regional traffic count program. Lima & Associates La Paz PARA Final Report – Page 168 TABLE 6-2. LA PAZ MULTIMODAL IMPLEMENTATION STRATEGIES Implementation Strategy Horizon Years 2010-2015 2020 2030 Responsibility Plan and Program Adoption - Adopt the La Paz PARA Study. Program the recommended multimodal improvements into the capital program. County, Towns, CRIT, ADOT Public Works departments of Participating Agencies, ADOT X X Coordination - Appoint Transit Advisory Board. Designate County Transportation Coordinator. Explore implementation of ride-sharing program. X X X - Participate in an “Arizona Rides” program as warranted. Assess unmet needs and deficiencies with respect to human services transportation and potential rationalization of vehicles and other assets. Work with ADOT to improve shoulders for biking. X - X County, Towns, CRIT County, Towns, CRIT Transportation Coordinator with input from the Transportation Advisory Board Transportation Coordinator with input from the Transportation Advisory Board and the ADOT Multimodal Planning Division X County, Towns, CRIT, ADOT X X County, Towns, CRIT, ADOT Multimodal Planning Division County, Towns, CRIT Planning and Studies - - Conduct La Paz County Transit Feasibility Study. Identify potential sites of future park-and-ride lots, transit centers, and passenger rail facilities and preserve acreages. Study improvement and expansion of multiuse pathway network. Determine most appropriate bicycle and pedestrian facilities for each roadway segment given planned abutting land uses. Develop La Paz County standards for bike paths and trails. Develop regional bike and trails system. Develop an integrated bicycle trail system in the Parker Strip area that will allow visitors and residents an alternate form of transportation. Lima & Associates X X County, Towns, CRIT with input from the Transportation Coordinator and Transportation Advisory Board Public Works departments of Participating Agencies Public Works departments of Participating Agencies Public Works departments of La Paz County, Town of Parker, and CRIT La Paz PARA Final Report – Page 169 TABLE 6-2. LA PAZ MULTIMODAL IMPLEMENTATION STRATEGIES (Continued) Implementation Strategy - Construct extensions to multiuse pathway network to connect new developments as warranted. - Work with the ADOT Aviation Department and the CRIT to monitor activity at Avi Suquilla Airport and anticipate and prepare for future facility improvements. Construct additional T-hangars at airport. Design and construct new airport terminal building. Complete 2030 multimodal plan. - Horizon Years 2010-2015 X 2020 2030 X X X X X X Funding - Identify high priority funding strategies. X - X Coordinate to obtain funding and leverage funds for improvements. Monitoring and Updating Plan - Implement a process to monitor and update plan. - Coordinate on a regional multimodal usage count program (incorporating motor vehicle traffic counts and gathering of transit ridership data). Lima & Associates X Continuous Responsibility Public Works departments of Participating Agencies with input from the Transportation Coordinator and Transportation Advisory Board Public Works departments of La Paz County, Town of Parker, and CRIT CRIT Public Works department CRIT Public Works department Public Works departments of Participating Agencies with input from the Transportation Coordinator and Transportation Advisory Board Transportation Coordinator with input from the Transportation Advisory Board and the ADOT Multimodal Planning Division Participating Agency councils, with input from the Transportation Advisory Board Public Works departments of Participating Agencies with input from the Transportation Coordinator and Transportation Advisory Board Public Works departments of Participating Agencies with input from the Transportation Coordinator and Transportation Advisory Board La Paz PARA Final Report – Page 170 TABLE 6-3. LA PAZ RAIL AND TRUCK FREIGHT IMPLEMENTATION STRATEGIES Implementation Strategy Plan and Program Adoption - Adopt the La Paz PARA Study. Horizon Years 2010-2015 2020 2030 X Responsibility County, Towns, CRIT, ADOT Coordination - Assist the Arizona & California Railroad in recruiting rail-served industries to Parker South and other La Paz County sites. X - Consider existing and future needs of truck operators when developing expansion and access management plans for County roadways. X Councils and Public Works departments of Participating Agencies - Develop a plan for an industrial and distribution center north of Quartzsite. X Town of Quartzsite Public Works with input from La Paz County and ADOT - Develop a plan for a truck-tractor interchange facility near Ehrenberg to accommodate truck-tractor swaps as California moves to ban diesel tractors from the State. X Lima & Associates X x County, Town of Parker, ARZC ADOT Multimodal Planning Division with input from La Paz County and CRIT La Paz PARA Final Report – Page 171 FUNDING SOURCES This section summarizes multimodal revenue sources and estimates that are applicable to the La Paz area, together with financial constraints and opportunities pertaining to needed roadway improvements. A number of funding mechanisms exist that could be used to fund multimodal improvements in the Study Area. Key federal, State, regional, and local sources are shown in Table 6-4. Funding options include both traditional and innovative sources. Traditional sources are the Arizona Highways User Revenue Fund (HURF); the Local Transportation Assistance Fund (LTAF); Federal-aid funds (Surface Transportation, Bridge, Safety, and Transportation Enhancement Funds); and local general funds, such as general obligation bonds and revenue bonds. Alternative sources of funding include special assessment districts, developer dedications, and exactions such as impact fees. TABLE 6-4. MATRIX OF KEY FUNDING SOURCES Fund Name Description Eligible Uses Application Process Federal Surface Transportation Program (STP) High Risk Rural Roads Safe Routes to School Program Highway Safety Improvement Program (HSIP) Federal funds, administered by FHWA and ADOT Variety of capital projects including highways, bridges, and enhancement projects Programmed WACOG and ADOT District Federal funds, administered by FHWA and ADOT Federal funds, administered by FHWA and ADOT focused on enabling and encouraging children to safely walk and bicycle to school. Correct safety problems on roadways classified as rural major collectors, rural minor collectors and rural local roads Projects can include sidewalk, traffic calming and speed reduction improvements, pedestrian and bicycle crossing improvements, and traffic diversion improvements near schools. Each State must use between 10-30 percent of the funds for non-infrastructure related activities, such as public awareness campaigns, traffic education and enforcement near schools, and student sessions on pedestrian and bicycle safety. Funds can be used on safety improvement projects to reduce the number and severity of highwayrelated crashes. As a part of the HSIP, there are specific set asides for High Risk Rural Roads and for Railway-Highway Grade Crossings. Every state is required to develop a Strategic Highway Safety Plan that involves a comprehensive, collaborative and data driven approach of highway safety. Programmed through ADOT Federal funds administered by FHWA and ADOT Lima & Associates Programmed through ADOT. Programmed through WACOG and ADOT. La Paz PARA Working Paper 3 – Page 172 TABLE 6-4. MATRIX OF KEY FUNDING SOURCES (Continued) Fund Name Description Federal (Continued) Federal Transit Administration (FTA) Federal Transit Funds administered by ADOT Multimodal Transportation Division. Community Development Block Grants Funds provided by the Federal Office of Housing and Urban Development. Eligible Uses Application Process - Section 5310: Formula Grants for Application to ADOT Special Needs of Elderly Individuals and Individuals with Disabilities - Section 5311: Formula Grants for rural and small urban public transportation - Section 5313: State Planning and Research Programs Construction of capital improvement projects that benefit low to medium income groups. Projects that alleviate slums or address an urgent need such as circumstances caused by a natural disaster may be eligible. A transportation improvement project must be located in a census tract or block group with at least 51 percent of the population in the low and moderate-income group. Multimodal transportation Division Application submitted to Federal Office of Housing and Urban Development. State Highway User Revenue Fund LTAF State funds, derived from fuel tax and VLT, administered by ADOT State funds derived from lottery sales Off-Highway Vehicle Recreation Fund State funds as a portion of total license tax on motor fuel. Arizona State Parks Law Enforcement and Boating Safety Fund (LEBSF) Economic Strength Projects Fund State funds granted to County Boards of Supervisors intended to support boating safety and law enforcement. State funds administered by Arizona Department of Commerce and funded by HURF. Lima & Associates Nearly any capital project related to roadway improvements General transportation improvements Designation, construction, and maintenance of OHV recreational facilities, OHV use areas, and OHV trails, enforcement of off-highway vehicle laws, and mitigation of damages to land. Funds enforcement of boating laws to ensure safety. Selected road projects that support economic development objectives. Funds allocated to jurisdiction as proportion of population Funds allocated to jurisdiction as proportion of population Funds distributed to the State Parks Department, and Game and Fist Department. Application to Arizona State Parks Department. Application to Arizona Department of Commerce. La Paz PARA Working Paper 3 – Page 173 TABLE 6-4. MATRIX OF KEY FUNDING SOURCES (Continued) Fund Name Description Eligible Uses Application Process State (Continued) Governor’s Office of Highway Safety Federal funds are allocated by the Governor’s Office of Highway Safety to finance State and local government highway safety projects. Projects are selected according to safety priorities. Application to Governor’s Office of Highway Safety. Funds eligible for road construction improvements Fund is submitted to County voters for adoption of an excise tax. Funds eligible for transportation improvements Locally administered Used to fund a variety of infrastructure needs including transportation Locally administered Benefits are derived by offsetting cost of acquiring ROW and building infrastructure Locally administered Benefits are derived through commitments to local hiring and living wage jobs, construction of affordable housing off site, and traffic mitigation/traffic calming measures. Locally administered Municipal/Regional Regional Area Road Fund Sales tax Impact Fees* Development Stipulations* Community Benefits State law provides for the enacting of transportation excise taxes, which are subject to voter approval. Funds provided by an allocation of a portion of a municipality’s sales tax. Fee imposed by local jurisdiction on development on per unit basis Requirements that developers dedicate appropriate ROW and build streets adjacent to project Developer forms an agreement with local government to provide certain community benefits. *if implemented Notes: (1) State budgetary concerns resulting from the 2008 Recession caused the Arizona State Parks Department to cancel the LEBSF programs and other grant programs in 2009. (2) ADOT has recently adopted a policy providing that, on a case-by-case basis, a private sector nonprofit agency may be the recipient of Section 5311 funds. (3) As of this writing, no LTAF monies will be available for transportation purposes in Fiscal 2011. Federal Funds The Federal government funds a variety of transportation programs: Most applicable to the Study Area would be the Surface Transportation Program funds. Arizona receives about $155 million in STP funds per year. These funds can be used on State highways or for bridge Lima & Associates La Paz PARA Working Paper 3 – Page 174 rehabilitation, transportation enhancements, and safety projects. The County would work through ADOT and WACOG to utilize STP funds. In addition, FHWA STP “Flex” funds can also be used for transit capital projects. The State also administers Federal Transit Administration Section 5304, Statewide Transportation Planning Funds; Section 5310, Elderly & Persons with Disabilities Transportation Program Funds; and Section 5311, Rural Public Transportation Program Funds. In 2005, the Safe, Accountable, Flexible, Efficient Transportation Equity Act: A Legacy for Users (SAFETEA-LU) was enacted by the federal government, providing funding for highways, highway safety, and public transportation totaling $244.1 billion. Table 6-5 lists the amounts of major funding categories of federal funds in SAFETEA-LU and the amounts of authorized funds for Arizona for Fiscal Year (FY) 2008. The federal transportation funding bill for the next five-year period has been delayed. The emphasis of the next bill is uncertain at this time. The amount of funding available to the State of Arizona is also unknown. TABLE 6-5. FY 2008 FEDERAL FUNDING SOURCES FOR ARIZONA (IN MILLIONS OF DOLLARS) Description Surface Transportation Enhancement (TEA) National Highway System Interstate Maintenance Highway Safety Improvement Program (HISP) Bridge Replacement and Rehabilitation Congestion Mitigation & Air Quality Recreational Trails Planning and Research Metropolitan Planning Border Infrastructure Program Safe Routes to School Equity Bonus Indian Reservation FTA, Section 5310 FTA, Section 5311 Total Amount $138.8 $16.5 $174.1 $128.0 $33.8 $22.9 $35.2 $4.9 $12.6 $5.3 $8.9 $2.8 $74.4 $0.6 $2.3 $9.1 $607.2 Source: Arizona Department of Transportation, Funding Sources and Authorities, FY 2008 portion of State Transportation Funds are flexed to FTA for Transit projects Statewide. Lima & Associates La Paz PARA Working Paper 3 – Page 175 American Recovery and Reinvestment Act “Stimulus” Funds The American Recovery and Reinvestment Act of 2009 (ARRA) includes provisions for modernizing infrastructure. Allocation of the approximate $350 million received by ADOT for highway and bridge projects Statewide according to State formula has resulted in funding for two projects within the La Paz Planning Area as summarized in Table 6-6. TABLE 6-6. ARRA FUND PROJECTS IN LA PAZ PLANNING AREA Project Name: US 95, Peligro to Clarks Project Type: Pavement preservation and pipe liners. Selected milling and overlaying of asphalt pavement, polyethylene lining of existing corrugated metal pipes, and extension of existing CMP pipes at a ford wall. $13,500,000 $6,695,724 JAR Concrete 7/17/09 Awarded Estimate: Contract Value: Contractor: Date Awarded: Project Status: SR 95, Passing lanes south of Bouse Wash Construct passing lanes. Construct passing lanes one mile in length south of Bouse Wash (near junction of SR 72 between Quartzsite and Parker). $2,000,000 $1,279,002 Combs Construction Company 6/19/09 Awarded Source: Arizona Department of Transportation Arizona State Shared Revenue Highway User Revenue Fund (HURF) One of the main sources of State transportation funds is the Highway User Revenue Fund. These funds are comprised of gasoline taxes, use fuel tax, motor carrier fees, vehicle license taxes, other registration fees, border crossing fess, and other miscellaneous fees. The FY 2008 HURF allocation was approximately $1.25 billion and the FY 2010 HURF forecast is approximately $1.45 billion (Arizona Department of Transportation, Financial Management Services, September 2008). The HURF is the primary source for State highway funding and HURF funds are limited to highway use by the Arizona Constitution. Monies from the HURF are intended for the improvement of the State’s highways and bridges. Once collected, the HURF revenues are distributed to ADOT, and in turn distributed as an entitlement share to cities, towns, and counties in proportion to population and to the Economic Strength Project Fund (described later in this chapter). HURF distributions may be used as debt service for revenue bond projects. Lima & Associates La Paz PARA Working Paper 3 – Page 176 La Paz County received $3.77 million of HURF funds in Fiscal 2009; the Town of Parker received $1.00 million and the Town of Quartzsite received $1.09 million. The County received a total of $20.18 million for fiscal years 2004 through 2008. The Town of Parker received a total of $5.68 million for fiscal years 2004 through 2008, and the Town of Quartzsite received a total of $6.18 million (Arizona Department of Transportation, Financial Management Services, September 2009). Public Transit Funds Local Transportation Assistance Funds (LTAF I and LTAF II) Local Transportation Assistance Funds include LTAF I, which is funded by Arizona Lottery receipts other than Powerball, and LTAF II, which is funded by Powerball receipts. Both of these funds are distributed based on population. Each requesting municipality is guaranteed a minimum of ten thousand dollars of LTAF1 funds. Cities and towns with a population of more than 300,000 persons were required to use LTAF funds for public transportation. Smaller communities could use the funds for other transportation projects. In addition, up to 10 percent of funds could have been used for the arts or for disabled and handicapped assistance. LTAF II monies were required to be used for transit by nearly all jurisdictions. From the implementation of LTAF II through Fiscal Year 2010, the legislature provided that when Powerball receipts reached a certain threshold amount in any fiscal year, the balance flowed to the LTAF II program for apportioned distribution to councils of governments, county governments, and local governments. Table 6-7 presents the fiscal year 2010 LTAF II distribution for La Paz County, the Town of Parker, and the Town of Quartzsite. Note that for Fiscal 2011, the legislature “swept” the LTAF monies into the General Fund as part of an effort to mitigate the State budget deficit caused by the recession. As of this writing, no LTAF monies will be available in Fiscal 2011 and the future of the LTAF and LTAF II programs for 2012 and subsequent fiscal years is unknown. TABLE 6-7. LTAF II DISTRIBUTION, COUNTIES AND CITIES/TOWNS FY 2010 Jurisdiction La Paz County Town of Parker Town of Quartzsite County Level Distribution $29,897.61 Jurisdiction Level Distribution $20,076.53 $4,697.52 $5,123.56 Source: Arizona Department of Transportation, Multimodal Planning Division Lima & Associates La Paz PARA Working Paper 3 – Page 177 Surface Transportation Program Flexible Funding Since 2000, the State Transportation Board has made available $6.5 million annually in STP “flexible funds” Statewide for qualified transit capital projects such as vehicles and transit facilities. These funds, created within the federal TEA-21 program and continued under SAFETEA-LU, are regarded as “flexible” in that the monies may be used for either highway or transit purposes. Funding originates with the Federal Highway Administration and is administered by ADOT. Additional sources of revenue available for transit services include the following: 1) Welfare to Work Act; 2) Older American Act Title III funds, Department of Economic Security; 3) Division of Developmental Disability funds; 4) Transportation funding through Medicaid administered through the Arizona Health Care Cost Containment System; 5) Head Start, Behavioral Health Funding; and 6) Transit fares. Pedestrian/Bicyclist Funding Revenue sources for bicycle facilities primarily for transportation: • Federal funds are available to construct bicycle transportation facilities and pedestrian walkways on land adjacent to any highway on the NHS. • Federal Lands Highway Funds are available to construct bicycle facilities and pedestrian walkways in connection with roads, highways, and parkways. • Surface Transportation Program Funds are available to construct pedestrian walkways and bicycle transportation facilities, and modifications to make existing sidewalks accessible for mobility-limited persons. Other funds for bicycle and pedestrian facilities include: • National Recreational Trails Fund, which provides funds for recreational programs for bicyclists and pedestrians. • Scenic Byways Program can fund bicycle facilities along highways. • Federal Transit Funds can be used to provide bicycle and pedestrian access to transit facilities including shelters and bicycle parking facilities. • Additional funding is available through the new “Safe Routes to Schools” program explained in the previous section. Another potential funding source for trails is the Heritage Fund. The Arizona State Parks Board Heritage Fund legislation stipulated the use of Arizona Lottery Fund revenues for trails. Eligible projects are trail land acquisition, design, engineering, development and renovation activities, and trail support facilities. Lima & Associates La Paz PARA Working Paper 3 – Page 178 ENVIRONMENTAL JUSTICE CONSIDERATIONS This Study has analyzed the effects of the draft recommended transportation plan upon environmental justice populations, using procedures developed following Executive Order 12898 (1994), Federal Actions to Address Environmental Justice in Minority Populations and Low Income Populations. This Study addresses the environmental justice protected classes including the elderly (Aged 65 and older), minority and low-income populations, and mobilitylimited populations. Working Paper 1: Existing Conditions presented an inventory of these population groups based on the 2000 US Census. La Paz County has been identified as a County that has one of the highest proportions of people aged 65 and older in the nation. The percent population 65 and over in the County is double the Statewide proportion, approximately 26 percent compared to the State proportion of approximately 13 percent. This proportion increases during the peak season as winter visitors come to the County. Similarly, the proportion of mobility limited is relatively high, 26 percent compared to the State proportion of approximately 18 percent. The proportion of the population below poverty is also higher – 19 percent compared the State proportion of approximately 14 percent. Although the countywide proportion of minority populations tracks that of the Statewide proportion of approximately 36 percent, Native Americans residing on the Colorado River Tribes Reservation and throughout the County are a critical group to address. Projects such as reconstructing the Ehrenberg Parker Highway (Mohave Road) will impact Native Americans both positively and negatively. Other projects such as transit service will improve mobility of Native Americans. Both potential positive and negative impacts need to be analyzed closely when projects are implemented. Positive impacts on Environmental Justice population groups include increased mobility and safety through traffic operations improvements, provision of transit facilities, and implementation of pedestrian and bicycle facilities. Potential negative impacts on these population groups include disruption of neighborhoods with higher proportions of elderly and minority populations as well as populations below the poverty level. Another negative impact is not providing transportation alternatives such as transit service. Future more detailed studies of recommended improvements must assess the positive and negative impacts on Environmental Justice population groups. Examples of possible future studies include Design Concept Reports for road improvements and transit feasibility studies. ENVIRONMETAL IMPACTS Future more detailed studies of recommended improvements must also assess the impacts on environmental and cultural resources. Potential impacts include impacts on vegetation, wildlife habitat, wildlife movement corridors, water impairment, Native American cultural resources, and other historical resources. Sensitive environmental areas in La Paz County Lima & Associates La Paz PARA Working Paper 3 – Page 179 were described in Working Paper 1: Current Conditions. Wildlife Movement Corridors are one of the sensitive environmental areas that need to be considered where roads in the County intersect with the corridors. The Arizona Game and Fish Department identified Wildlife Movement Corridors in the County that have been included in the Resource Management Plans prepared by the Lake Havasu and Yuma Field Offices, respectively. These corridors are illustrated in Working Paper 1. The following factors contribute to the importance of wildlife corridors: • Increased interaction between populations to maintain diversity, increase population size, decrease probability of extinction, and prevent inbreeding • Increased foraging area for a wide range of species • Escape or refuge from predators, fire, and other disturbances More detailed studies for the planning and design of potential road improvements should assess the need for mitigation measures that would facilitate wildlife movement along the corridors across roadways and help in reducing vehicle/animal crashes. Lima & Associates La Paz PARA Working Paper 3 – Page 180 REFERENCES America Association of State Highway and Transportation Officials, Guide for the Development of Bicycle Facilities, 1999. Arizona Association of County Engineers, AACE 2008 Roadway Needs Study, Lima & Associates, March 2009. Arizona Department of Economic Security, La Paz County Population Projections 2006-2055, 2006. Arizona Game and Fish Department Special Status Species, Arizona’s Comprehensive Wildlife Conservation Strategy: 2005-2015, May 2006. Arizona Department of Transportation, 2003 Arizona Climbing Lanes and Passing Lane Prioritization, Lima & Associates, Inc, May 2004. Arizona Department of Transportation, Arizona Access Management Study, On-going. Arizona Department of Transportation, Arizona Five-Year Transportation Facilities Construction Program, FY 2010-FY 2014. Arizona Department of Transportation, Arizona Rail Framework Study, Existing Conditions and Studies Review, AECOM, 2009. Arizona Department of Transportation, Arizona Rural Transit Needs Study, Cambridge Systematics, Inc with TranSystems Corporation, May 2008. Arizona Department of Transportation, Arizona Statewide Bicycle and Pedestrian Plan, Kimley-Horn and Associates with Alta Planning and Design. Arizona Department of Transportation, Arizona Statewide Transportation Improvement Program, FY 2009 – 2012, December 2008. Arizona Department of Transportation, Bridge Management System, 2009. Arizona Department of Transportation, Financial Management Services, September 2009. Arizona Department of Transportation, Highway Performance Monitoring System, 2007. Arizona Department of Transportation, Initial Design Report: US 95, MP 42 to Cibola Lake Road, September 2008. Arizona Department of Transportation, Multimodal Freight Analysis Study, Wilbur Smith Associates, November 2007. Arizona Department of Transportation, Pavement Management System, 2009. Arizona Department of Transportation, State of Arizona Rail Safety & Security Resource Guide, November 2007. Arizona Department of Transportation, State Transportation Board Policies, Rev. 2003. Arizona Department of Transportation, State of Arizona 2007 Railroad Inventory and Assessment, R.L Banks & Associates, Inc with Lima & Associates and Systra Consulting, Inc, March 2007. Lima & Associates La Paz PARA Working Paper 3 – Page 181 REFERENCES (Continued) Arizona Department of Transportation, Statewide Transportation Investment Strategy, La Paz County Transportation Investment Strategy, June 2008. Arizona Department of Transportation, Western Regional Framework Study. Working Paper: Existing and Future Conditions, Parsons Brinkerhoff, April 2008. Arizona Department of Transportation, Western Framework Study, Parson Brinckerhoff, April 2008. Arizona Department of Transportation. Yuma District Projects and Studies (various) Arizona Division of Emergency Management-Arizona State Emergency Response Commission, Hazardous Materials Commodity Flow Study Report: I-10 Corridor from SR 85 to California, Arterial Highways and Railroads, Maricopa and La Paz Counties, Arizona, AMEC Earth & Environmental, Inc, December 2008. Arizona State Transportation Board, American Recovery and Reinvestment Act, February 2009. Arizona Travel Plaza Traffic Impact Study, La Paz County, July 2006. Bureau of Land Management Yuma and Lake Havasu Field Office, Community Wildfire Protection Plan La Paz County, January 2008. Bureau of Land Management Yuma Field Office, Proposed Resource Management Plan and Final Environmental Impact Statement, April 2008. Bureau of Land Management Lake Havasu Field Office, Approved Resource Management Plan and Final Environmental Impact Statement, 2007. Bureau of Land Management Arizona State Office, East Cactus Plain Wilderness Plan, Environmental Assessment, and Decision Record, 1994. I-10 National Freight Study, RNO Group with Wilbur Smith Associates, May 2003. InfoUSA Employment Database, InfoUSA.com, 2009. La Paz County Comprehensive Plan, Lima & Associates and Partners for Strategic Action, Inc., May 2005. National Register of Historic Places, “Arizona-La Paz County” http://www.nationalregisterofhistoricplaces.com/az/La+Paz/state.html (March, 10 2009). Town of Parker General Plan, The Holt Group, Inc, January 2008. Town of Quartzsite General Plan, 2003. Transportation Research Board, Highway Capacity Manual, 2000. U.S. Census Bureau, Census 2000 Summary File 3 (SF 3), 2000. U.S. Census Bureau, Census 2000 Summary File 1 (SF 1), 2000. Lima & Associates La Paz PARA Working Paper 3 – Page 182