Scottsdale Water 9379 E. San Salvador Scottsdale, AZ 85258 ScottsdaleAZ.gov/Water 480-312-5650 Water Quality: 480-312-8732 Additional Water Information Resources U.S. EPA’s Safe Drinking Water Hotline 800-426-4791, epa.gov/safewater Arizona Department of Environmental Quality 602-771-2300, azdeq.gov/environ/water/dw Maricopa County Environmental Services Department 602-506-6666, maricopa.gov/EnvSvc/WaterWaste Water-related topics may be discussed at City Council meetings or other public forums and we welcome your attendance. Meeting notices and City Council agendas are posted on the city’s website at ScottsdaleAZ.gov, search “Council Agendas.” Este informe contiene informacion muy importante sobre su agua potable. Si desea una copia de este informe en español o tiene alguna pregunta sobre el, por favor llame a 480-312-8711. Water Sustainability through Stewardship, Innovation and People 2016 Water Quality Report About This Report Scottsdale Water is dedicated to providing you with safe, reliable drinking water each and every day of the year, whenever you need it. Our goal is to supply you with quality drinking water at an affordable price with outstanding service. Our commitment to that goal is summarized in this annual report. Water is a precious resource for our community, especially in our desert environment. In addition to working to ensure your water is safe, we are also dedicated to ensuring a secure and sustainable water supply for today and the future. Through innovative aquifer recharge programs and effective strategic planning and investment, Scottsdale was the first city in Arizona to meet safe yield – put more water in the aquifer than we take out – and has been doing so every year since 2006, nearly 20 years ahead of the state-mandated deadline to do so. We also work to actively educate and encourage our citizens to use water wisely and conserve whenever possible. I encourage you to review this report and learn about the work and dedication that goes into providing you safe, reliable and affordable drinking water each and every day. Brian K. Biesemeyer, PE • Scottsdale Water Director A Note from the EPA • Microbial contaminants including viruses, bacteria and parasites, which may come from sewage treatment plants, septic systems, agricultural or livestock operations and wildlife. • Inorganic contaminants such as minerals, salts and metals, which can be naturally occurring or result from urban stormwater runoff, industrial or domestic wastewater discharges, oil and gas production, mining or farming. • Radiochemical contaminants, which occur naturally or result from oil and gas production and mining activities. • Pesticides and herbicides that may come from a variety of sources Scottsdale’s drinking water sources include rivers, lakes, such as agriculture, stormwater runoff and residential uses. reservoirs and wells. As water travels over the surface of the • Organic chemical contaminants including synthetic and volatile land or through the ground, it dissolves naturally occurring organic compounds, which are byproducts of industrial processes materials and can pick up substances from human or and petroleum production, and also can come from gas stations, animal activity. Possible contaminants may include: urban stormwater runoff and septic systems. To ensure the water from your tap is safe to drink, the Environmental Protection Agency issues regulations limiting the amount of certain impurities allowed in drinking water and the water treatment process. You can expect all drinking water, including bottled water (which is regulated by the Food and Drug Administration), to contain at least small amounts of some contaminants. It’s important to know that the presence (or detection) of impurities does not necessarily indicate a health risk. Definitions and Abbreviations Contaminant - Any physical, chemical, biological or radiological substance or matter in the water. Maximum Contaminant Level Goal (MCLG) – The level of a contaminant in drinking water below which there is no known or expected risk to health. MCLGs allow for a margin of safety. Maximum Contaminant Level (MCL) – The highest level of a contaminant allowed by the EPA in drinking water. MCLs are set as close to MCLGs as feasible using the best available treatment technology. Maximum Residual Disinfectant Level (MRDL) – The highest level of a disinfectant (chlorine) allowed in drinking water. There is convincing scientific evidence that the addition of a disinfectant is necessary for the control of microbial contaminants. Maximum Residual Disinfectant Level Goal (MRDLG) – The level of drinking water disinfectant below which there is no known or expected risk to health. MRDLGs do not reflect the benefits of the use of disinfectants to control microbial contamination. Treatment Technique (TT) – A required process intended to reduce the level of a contaminant in drinking water. Action Level (AL) – The concentration of a contaminant, which, if exceeded, triggers treatment or other requirements that a water provider must follow. Part Per Million (ppm) / Part Per Billion (ppb) – Equivalent to mg/L and ug/L respectively, describe the levels of detected substances. Picocuries Per Liter (pCi/L) – A measure of the radioactivity in a liter of water. Non-detectable (ND) – The substance was analyzed but not detected. Not Applicable (NA) – A regulatory limit does not exist. One part per million is approximately equal to one drop of food coloring in 13 gallons of water. One part per billion is equivalent to one second in 32 years. Scottsdale’s Water Supply Up until the early 1980s, Scottsdale was 100 percent reliant on groundwater for our water supply. Today, almost 90 percent of our total water supply comes from renewable surface water sources, helping us ensure a long-term water supply for future generations. Scottsdale’s total water supply includes surface water and groundwater sources, as well as an increasing amount of recycled water. Depending on the time of year, the weather and customer demand, it’s possible you may receive water from a single source of water or from a combination of water sources. Scottsdale’s 2015 Water Supply Portfolio 15% SRP Scottsdale’s main surface water supply is from the Colorado River. This water is transported through the Central Arizona Project (CAP) canal to the Scottsdale CAP Water Treatment Plant. We also receive surface water from the Salt River Project (SRP), which comes from the Verde and Salt rivers. Water is transported by SRP to the Chaparral Water Treatment Plant. Both facilities employ state of the art technology to ensure superior water quality to our customers. In addition to these two main surface water sources, your drinking water may also come from aquifers deep below ground. The water is pumped from the ground through one of the city’s 23 active wells and then disinfected prior to entering the drinking water distribution system. The water from these wells may receive other forms of treatment prior to disinfection and distribution. Scottsdale also uses underground aquifers to store surface water (so some groundwater was previously surface water) and highly treated, ultrapure recycled water. 10% CAP 12% Recycled DID YOU KNOW? Scottsdale Water operates one of the most advanced recycled water treatment facilities in the world. Annually, we recycle over 2.5 billion gallons of water for turf irrigation and recharge over 1.5 billion gallons of ultrapure recycled water to Scottsdale’s aquifer, which helps safeguard the long-term viability of our precious groundwater supplies. Water Hardness As water makes its way to our treatment plants or through the aquifer, it picks up naturally occurring minerals that make the water “hard” and can also affect taste and other characteristics. Hardness is not a primary water quality standard and is not considered to be a health concern. Scottsdale is committed to providing you with the cleanest and safest drinking water possible, at an affordable price. We could implement additional treatment processes to address hardness and/or taste, but concluded this is not cost effective, especially since the majority of residential water consumption is for outdoor use. There are varying levels of water hardness throughout Scottsdale as shown in the table to the right. 63% Groundwater Approximate Hardness Levels Boundary Hardness (Grains per Gallon) Hardness (mg/L or ppm) South of Indian School Road 22 - 25 370 - 430 Indian School Road to Chaparral Road 20 - 22 340 - 370 North of Chaparral Road 16 - 18 275 - 300 Source Water Assessment Program In 2004, Scottsdale worked with the Arizona Department of Environmental Quality to finalize an assessment on the wells and surface water sources we use to provide you with drinking water. This assessment looked at potential risks to our water sources, which include gas stations, landfills, dry cleaners, agricultural fields and wastewater treatment plants. The assessment concluded that most of Scottsdale’s groundwater wells have low to medium risk, with the exception of the wells linked to the North Indian Bend Wash Superfund Site. The water produced by these wells has a high risk of contamination, but is treated to meet or surpass drinking water standards and monitored closely by the city, ADEQ and the EPA. All surface water sources are considered high risk due to their exposure to open air. These risks are addressed by the EPA through its increased monitoring requirements for surface water sources. The complete assessment is available at azdeq.gov/ environ/water/dw/swap.html or by calling Scottsdale Water at 480-312-8732. CAP Water Treatment Plant Floccula on Basins Water Treatment Process Surface Water Treatment Plants Most of Scottsdale’s drinking water is treated at its surface water plants, the CAP Plant, which is actually three distinct facilities, and the Chaparral Water Treatment Plant. All three CAP facilities are located on the Scottsdale Water Campus off Pima Road and treat water from the Central Arizona Project. They have a combined capacity to treat 70 million gallons a day. CAP I and II use a conventional water treatment process, which includes pretreatment, coagulation/flocculation, sedimentation, filtration and disinfection. Water at CAP III is treated with ultrafiltration membrane technology and disinfection. The entire CAP Plant also uses granular activated carbon (GAC) to improve taste and odor and treat for disinfection byproducts. The Chaparral WTP, located on McDonald Drive at Hayden Road, treats water from the Salt River Project. The plant has a very small footprint – using state-of-the-art ultrafiltration membrane technology and GAC – and a treatment capacity of 27 million gallons a day. North Indian Bend Wash Cleanup Commitment In addition to the CAP and Chaparral surface water treatment plants, Scottsdale operates several groundwater treatment facilities, including the Central Groundwater Treatment Facility (CGTF) and the North Groundwater Treatment Facility (NGTF), which treat groundwater from the North Indian Bend Wash (NIBW), an EPA-designated Superfund site. Both facilities were built by private companies that were deemed potentially responsible for contaminating the groundwater with Trichloroethylene (TCE). The private companies are responsible for the cost of operating and maintaining the facilities. The groundwater is treated to levels that exceed federal and state drinking water standards, with regulatory oversight by the EPA, ADEQ and Maricopa County. Water from these facilities makes up only a small portion of Scottsdale’s total water supply. Ar s c wall gabions help the Chaparral WTP blend into the surrounding landscape of the Sco sdale Xeriscape Garden. For more information on the NIBW Superfund site, please call the EPA’s message line (800-231-3075). For more information on the CGTF and the NGTF, please visit ScottsdaleAZ.gov/Water or contact Scottsdale Water at 480-312-8732. 2015 Compliance Monitoring Results Scottsdale is required to test for an assortment of contaminants at various locations throughout the city. Testing is done at 10 entry points to the distribution system that represent the treated source water. We also perform tests throughout the distribution system at 150 different locations to ensure the water entering your home or business remains safe and reliable. We test for over 100 substances, but only the substances detected in the water during testing are listed in this report. The results shown are from testing performed in 2015 unless otherwise noted. A few substances are discussed in detail below. If you would like more information about other substances or a complete list of all testing, please contact us at 480-312-8732. You can also find detailed information on the EPA’s website, epa.gov/dwstandardsregulations. Arsenic is a naturally occurring mineral commonly found in water due to leaching from rocks and soil. The maximum contaminant level (MCL) for arsenic allowed in drinking water is 10 ppb (parts per billion), based on a running annual average. While your drinking water meets or surpasses EPA’s standard for arsenic, it does contain low levels of arsenic. EPA is continually researching the health effects of low levels of arsenic, which has been known to cause cancer in humans at high concentrations and is linked to other health effects such as skin damage and circulatory problems. In 2015, the highest level of arsenic measured in Scottsdale’s drinking water was 6.4 ppb. Nitrate is an inorganic substance that is monitored due to run off from fertilizer use. Nitrate in drinking water at levels greater than 10 ppm (parts per million) is considered a health risk for infants younger than six months of age. (Nitrate levels above 10 ppm in drinking water can cause blue baby syndrome.) Nitrate levels in surface water supplies may rise quickly for short periods of time due to rainfall or agricultural activity. If you are caring for an infant you should seek advice from your health care provider. In 2015, the highest nitrate level detected in Scottsdale’s drinking water was 6.7 ppm. Turbidity is a measure of clarity in the water and is reported as Nephelometric Turbidity Units (NTU). Turbidity is caused by a variety of substances including sand, dirt and algae. Water is measured for turbidity to determine the effectiveness of the water treatment process. Scottsdale measures turbidity continuously at its surface water treatment plants. Microbiological Testing is performed monthly at over 150 sites within the distribution system for Total Coliform and E. coli bacteria in order to verify the integrity of the distribution system as well as our water sources. Chlorine is used as a disinfectant to ensure the treated water remains safe at all times. We continually monitor chlorine levels throughout the system to ensure that safe and adequate levels are maintained. Scottsdale’s goal is to have a chlorine residual between 0.5 and 1.2 ppm in our drinking water system. Byproducts of using chlorine as a disinfectant are trihalomethanes and haloacetic acids. These are formed as a result of a chemical reaction between chlorine and naturally occurring organic matter in the water. To minimize the formation of these disinfection byproducts (DBPs), granular activated carbon (GAC) is used during the water treatment process to reduce levels of organic matter and subsequently reduce DBP levels. Lead and copper are typically found in drinking water because of materials and components found in service lines and home plumbing. If present, elevated levels of lead can cause serious health problems, especially for pregnant women and young children. Scottsdale is committed to providing high quality drinking water, but cannot control the variety of materials used in plumbing components. When your water has been sitting for several hours, you can minimize the potential for lead exposure by flushing your tap for 30 seconds to 2 minutes before using water for drinking or cooking. If you are concerned about lead in your water, you may wish to have your water tested. Information on lead in drinking water, testing methods, and steps you can take to minimize exposure is available from the Safe Drinking Water Hotline (800-426-4791) or at epa.gov/ safewater/lead. The most recent testing for lead and copper was performed in 2014. Lead and copper levels reported in the table are from water faucets inside 68 Scottsdale homes that were built before the lead ban. Results from all homes were below the action levels for lead and copper. All residents participating in the lead and copper program are notified of their home’s results. If the lead concentration in a home’s water exceeds 15 ppb, the home is retested and the homeowner is contacted for follow-up guidance on ways to lessen the risk of exposure to lead from drinking water. To further protect our customer’s from lead in drinking water, Scottsdale uses caution when changing to a new water source or changing an existing treatment process. Additional monitoring is performed to ensure the water is not corrosive to home plumbing. Additional Monitoring Cryptosporidium is a pathogen found in surface water throughout the United States and can be spread through other methods besides drinking water. Ingestion may cause a gastrointestinal illness. During periodic monitoring conducted in 2015, Cryptosporidium was not detected in our source waters. If present, this organism is removed during treatment through the use of multimedia filtration. 2014 Results – Treated Source Water Monitoring Results for Regulated Contaminants Substance Unit MCL MCLG Lowest Amount Detected Highest Amount Detected Average Arsenic3 ppb 10 0 1 6.4 4.7 3 Likely Source in Drinking Water Leaching of natural deposits ppb 2000 2000 9.7 136 52 Leaching of natural deposits Chromium3 ppb 100 100 ND 39 7.5 Leaching of natural deposits Fluoride3 Barium ppm 4 4 0.2 0.7 0.4 Leaching of natural deposits 3 Nickel ppb N/A N/A ND 2.7 ND Leaching of natural deposits Nitrate ppm 10 10 ND 6.7 5.0 Leaching of natural deposits and sep c systems; runoff from fer lizer use Selenium3 ppb 50 50 ND 2.7 1.5 Leaching of natural deposits; discharge from petroleum refineries and mining Alpha Emi ers3 pCi/L 15 0 ND 2.7 0.8 Leaching of natural deposits ppb 30 0 ND 5.2 2.6 Leaching of natural deposits Uranium 3 3 Radium (combined) pCi/L 5 0 ND 0.7 ND Leaching of natural deposits Total Organic Carbon ppm TT N/A 0.9 1.7 1.4 Naturally present in the environment Substance Unit MCL TT Requirement Highest Measurement Treatment Technique Comparison Turbidity NTU 1 95% less than 0.3 NTU 0.09 100% less than 0.3 NTU Substance Total Coliform Unit MCL MCLG Lowest Amount Detected Highest Amount Detected Average Likely Source in Drinking Water Soil runoff Likely Source in Drinking Water % 5 (monthly) 0 0 0 0 Chlorine ppm 4 (MRDL) 4 (MRDLG) 0.27 1.92 0.96 Water addi ve used to control microbial growth Total Trihalomethanes (TTHMs) ppb 80 N/A 15.0 74.4 65.51 Byproduct of water disinfec on Haloace c Acids ppb 60 N/A 2.7 15.9 14.81 Byproduct of water disinfec on Substance Unit MCL MCLG 90th Percentile Value # of Homes Greater than AL Levels in Treated Water Likely Source in Drinking Water Lead 2, 3 ppb 15 0 1.6 0 of 68 ND - 1.6 Corrosion of household plumbing ppb 1300 N/A 120 0 of 68 ND - 8.4 Corrosion of household plumbing Copper 2, 3 1. Reported value is the highest loca onal running annual average (LRAA) calculated on a quarterly basis. 2. Lead and Copper Standard: 90% of homes tested must have lead and copper levels below the alert level (AL). 3. Values reported include tes ng results from 2014 - 2015 (most recent tes ng performed). Scottsdale is proud to partner with Tap Into Quality, an educational campaign aimed at increasing awareness about the safety, convenience and affordability of the region’s tap water. TapIntoQuality.com Naturally present in the environment Attention Immuno-Compromised Citizens If you are a person with a compromised immune system (i.e. undergoing chemotherapy, have had an organ transplant or have HIV/AIDS or other immune system disorders) you may be particularly at risk of infections and more vulnerable to contaminants in drinking water. Some elderly persons and infants may also have increased risk. You are encouraged to seek advice about drinking water from your health care provider. More information including ways to lessen the risk of infection from microbial contaminants and potential health effects can be obtained by calling the EPA’s Safe Drinking Water Hotline (800-426-4791). Monitoring Results for Unregulated Contaminants Substance Unit MCL MCLG Lowest Amount Detected Highest Amount Detected Alkalinity ppm NA NA 114 252 Aluminum ppm NA NA ND 0.17 Calcium ppm NA NA 21 124 Chloride ppm NA NA 32 208 Iron ppm NA NA ND 0.34 Magnesium ppm NA NA 13 57 Manganese ppm NA NA ND 0.06 Std. Unit NA NA 6.9 8.3 Sodium ppm NA NA 31 96 Sulfate ppm NA NA 11 227 oC NA NA 17 34 oF NA NA 63 93 Total Dissolved Solids ppm NA NA 272 760 Zinc ppm NA NA ND 0.013 pH Temperature 2015 Results for Unregulated Contaminant Monitoring Rule (UCMR3) In an ongoing effort to improve the safety of drinking water, the Unregulated Contaminant Monitoring Rule (UCMR), part of the Safe Drinking Water Act, requires the EPA and water systems to assess the occurrence of unregulated contaminants in drinking water across the country. A new list of contaminants is issued about every five years and can contain up to 30 contaminants. The EPA uses this occurrence data along with health effects studies to determine if additional regulations are needed to protect public health. Monitoring is performed at every location where source water enters the distribution system and some contaminants are also measured at points within the distribution system, where the water is consumed. The table below shows results of the most recent testing conducted in 2015. Substance Unit MCL MCLG Lowest Amount Detected Highest Amount Detected Average Chlorate ppb N/A N/A 180 250 180 (250 1) 1 Likely Source in Drinking Water Byproduct of drinking water disinfec on Chromium, Hexavalent ppb N/A N/A 4.8 5.2 5.2 (4.8 ) Leaching of natural deposits Molybdenum, Total ppb N/A N/A 1.9 3.0 3.0 (1.9 1) Leaching of natural deposits Stron um, Total ppb N/A N/A 1100 1300 1300 (1100 1) Leaching of natural deposits Vanadium, Total ppb N/A N/A 9.0 9.9 9.0 (9.9 1) Leaching of natural deposits 1,4-Dioxane ppb N/A N/A 0.27 0.27 0.27 Used primarily as a solvent, or solvent stabilizer 1. The first value listed is the average concentra on in the source water; the second value listed is the average in the distribu on system. The Scottsdale Water Citizen Academy provides an inside look at your city’s water utility, which happens to be one of the most advanced municipal water systems in the country! The six-week course explains all facets of Scottsdale Water planning and policies and takes you inside our state-of-the-art facilities and daily operations. Space is limited! Contact us at 480-312-5650 to reserve your space in the 2017 class! Water Conservation The Scottsdale Water Conservation Office has been helping Scottsdale residents and businesses be more water wise since 1982. Today, it offers multiple programs – including rebates, landscape workshops, home water audits and classroom education programs – to encourage water efficiency and protect our desert’s most precious resource. Free Publications Scottsdale Water offers a range of free publications to help you conserve water in and around your home. To view the publications online or request a printed copy, visit us at ScottsdaleAZ.gov/Water or call 480-312-5650. Wayne Drop gets kids excited about saving water! Landscape Tips for the Desert Southwest In Scottsdale, approximately 70 percent of residential water use is outdoors! When it’s time to create a low-water-use, desert-friendly landscape at your home, use these tips to save water, energy and money: • Use dirt mounds or depressions to direct rain water to your plants. • Choose native plants that require less water. • Plant evergreen trees on the west and trees that drop leaves on the east side of your house to maximize shade and energy savings. • Locate new plants where they have room to grow and mature without the need for constant pruning. • Consider not overseeding for a winter lawn and save a lot of money, time and effort. Identify water-efficient toilets, faucets and other plumbing fixtures by looking for the WaterSense label the next time you shop for new fixtures. Palo Verdes in bloom at the ScoƩsdale Xeriscape Garden Scottsdale is one of seven valley water providers partnered in a regional water awareness campaign to promote easy tips for saving water every day. Scottsdale Xeriscape Garden at Chaparral Park: Demonstrating the Beauty of Saving Water One of Scottsdale’s hidden treasures, the Scottsdale Xeriscape Garden at Chaparral Park is a place to enjoy the natural beauty of the desert and learn how to bring this splendor to your yard. Nestled on five and a half acres behind the dog park at Chaparral Park, this demonstration garden has over 7,000 plants that exemplify the beauty of the desert and require very little water. Visit the garden at the SE corner of McDonald Dr. and Hayden Rd. ScottsdaleAZ.gov/Water 480-312-5650