Summary of California's Water Reuse Guideline or Regulation for Landscaping
This page is part of the EPA’s REUSExplorer tool, which summarizes the different state level regulations or guidelines for water reuse for a variety of sources and end-uses.
The source water for this summary is Treated Municipal Wastewater.
- Technical basis
- History of microbial benchmarks in California
- History of key treatment requirements in California
- Water reuse for landscaping approved for use in California
- Water reuse treatment category for landscaping
- Additional context and definitions
- Water reuse for landscaping specifications (table)
- Upcoming state law or policy
- References
- Disclaimer
This page is a summary of the state’s water reuse law or policy and is provided for informational purposes only. Please always refer to the state for the most accurate and updated information.
In California, water reuse for water reuse for landscapingThe use of recycled water on land to assist in the irrigation of vegetation in residential and non-residential areas. Includes impoundments to store water for irrigation , ornamental vegetation, parks, school yards, sporting facilities (including golf courses), private gardens, roadsides and greenbelts, and cemeteries. Excludes irrigation of areas used for agriculture, commercial reuse applications, or any centralized non-potable reuse. includes parks and playgrounds; school yards; residential landscaping; unrestricted and restricted access golf courses; cemeteries; freeway landscaping; any nonedible vegetation where access is controlled so that the irrigated area cannot be used as if it were part of a park, playground or school yard; and landscape impoundments that do not utilize decorative fountains. The source of water treated municipal wastewater Treated wastewater effluent discharged from a centralized wastewater treatment plant of any size. Other terms referring to this source of water include domestic wastewater, treated wastewater effluent, reclaimed water, and treated sewage. is specified by the state as domestic wastewater. This write-up uses state terms when discussing sources or uses of water that may differ from the Regulations and End-Use Specifications Explorer's (REUSExplorer's) terms.
Technical basis
California allows the use of recycled municipal wastewater for water reuse for landscaping including surface irrigation of areas with both restricted and unrestricted access, such as golf courses and playgrounds and landscape impoundments (Cal. Code Regs. tit. 22). All applicable provisions of the Clean Water Act (CWA) (33 U.S.C. §§ 1251 et seq.), including its implementing regulations, must be met in addition to any state water quality standards.
Classes of recycled wastewater differ by both their treatment requirements and microbial specifications (Cal. Code Regs. tit. 22).
- Undisinfected secondary recycled water requires no coliform standard.
- Disinfected secondary-23 recycled water requires a 7-day median concentration of total coliform bacteria of ≤23 most probable number (MPN)/100 mL and must not exceed 240 MPN/100 mL in more than one sample in any 30-day period.
- Disinfected secondary 2.2 recycled water requires that total coliform bacteria must not exceed 23 MPN/100 mL in more than one sample in any 30-day period and requires a 7-day median concentration of total coliform bacteria of ≤2.2 MPN/100 mL.
- Disinfected tertiary recycled water requires a 7-day median concentration of total coliform bacteria of ≤2.2 MPN/100 mL and requirement of ≤23 MPN/ 100 mL in more than one sample in any 30-day period. Additionally, it requires turbidity of ≤2 NTU in the filter effluent and a 5-log removal of F-specific bacteriophage MS-2 or poliovirus.
History of microbial benchmarks in California
- Total coliform standard of 2.2 most probable number (MPN)/100 mL represents the non-detect threshold in a standard MPN test and is not based on a formal risk assessment, but rather on experience and the knowledge that accepted treatment processes can effectively reduce pathogen numbers (National Research Council, 1996). Historically, a concentration of total coliform bacteria of ≤2.2 MPN/100 mL served as the drinking water standard in California (NWRI, 2012). Drinking water meeting this criterion was categorized as “pathogen free” in the absence of quantification methods for viruses (NWRI, 2012).
- Total coliform standard of 23 MPN/ 100 mL was established in 1968 as an indicator that a disinfection process was operating effectively for oxidized (but not filtered) wastewater.
- Total coliform standard of 240 MPN/100 mL was established in 1978 to assure a robust disinfection process and avoid brief lapses in treatment.
- The 5-log reduction in virus requirement is based on a correlation to a total coliform reduction to ≤ 2.2 MPN/100 mL in Pomona’s tertiary effluent. The 1977 Pomona Virus Study evaluated a range of operational treatment conditions across pilot treatment trains using seeded poliovirus I (Sanitation Districts of Los Angeles County, 1977). The CT requirement specified in the Water Recycling Criteria (NWRI, 2012) of 450 mg-min/L is based on the Pomona Virus Study, which used combined chlorine and a modal contact time of about 90 minutes. The study determined a CT of 450 mg-min/L met the coliform standard of 2.2 MPN/100 mL and simultaneously reduced the seeded virus level by 5-logs.
History of key treatment requirements in California
In addition to the above microbial water quality standards, the treatment for the highest end uses involving food crop and landscape irrigation were based on drinking water standards because the exposures were considered similar. The degree of treatment and levels of disinfection specified are commensurate with the expected level of public exposure to the treated wastewater.
- Oxidation of wastewater is required to assure an acceptable minimal quality of recycled water and to have a recycled water that is more uniform in quality than primary effluent and with a lower ammonia and organic content to assure reliable disinfection of the water (NWRI, 2012).
- Coagulation is required based on studies carried out by the US Public Health Service at the Robert A. Taft Sanitary Engineering Center, which demonstrated that the use of chemical coagulants with media filtration is the most effective and practical method of removing viruses and suspended material that may contain viruses from the water being treated (NWRI, 2012).
- Filtration is necessary to assure physical removal of the agglomerated material which may contain virus particles and other particulates that could shield virus from disinfectants in the recycled water. A turbidity limit of 10 NTU was originally established in 1968 to assure the filtration process is functioning properly (NWRI, 2012). The turbidity limit was lowered in 1975 (average of 2 NTU and not to exceed 5 NTU more than 5 percent of the time during any 24-hour period) to assure that the filtration process produces a water quality that enables the downstream disinfection process to be effective and reliable. Subsequent adjustments of the turbidity standard were made to establish achievable limits, taking into account the capabilities of a filtration technology and requirements of the disinfection process. Specific maximum turbidity limits were established in 2000 to assure that filters would not be operated at the high rates which result in breakthrough of solids (NWRI, 2012).
- Chlorine disinfection: The regulations require a minimum chlorine concentration versus time (generally referred to as CT values) of 450 based on a minimum 90-minute contact time. These requirements are based on the Department of Public Health’s (Department, now DDW) experience with several demonstration projects (including the 1977 report on the Pomona Virus Study) where these concentrations and detention times were shown to be effective in inactivating viruses and on operational testing data submitted by the Los Angeles County Sanitation Districts (Sanitation Districts of Los Angeles County, 1977). Based on these data, CDPH published a policy statement (Policy Statement for Wastewater Reclamation Plants with Direct Filtration) that required a chlorine residual of at least 5 mg/L after a modal contact time of at least 90 minutes (NWRI, 2012), which resulted in a minimum allowable CT of 450 mg-min/L. The CT and modal contact time requirements were incorporated into the 2000 revision of the 1978 criteria, which as originally only based on coliform inactivation (NWRI, 2012).
- Alternative disinfection: The regulations also allow an alternative disinfection method if it is demonstrated to be capable of removing or inactivating viruses to a level of 1/100,000 (5 logs) of the initial concentration. The demonstration of a 5-log reduction or use of the specified CT values were determined by the Department to be necessary to assure effective and reliable removal and inactivation of enteric viruses for those uses where the public exposure to the recycled water is high (NWRI, 2012).
Water reuse for landscaping approved for use in California
Cal. Code Regs. tit. 22 defines the following approved water reuse for landscaping for the surface irrigation of:
- Parks and playgrounds (Disinfected Tertiary)
- School yards (Disinfected Tertiary)
- Residential landscaping (Disinfected Tertiary)
- Unrestricted access golf courses (Disinfected Tertiary)
- Cemeteries (Disinfected Secondary-23)
- Freeway landscaping (Disinfected Secondary-23)
- Restricted access golf courses (Disinfected Secondary-23)
- Any nonedible vegetation where access is controlled so that the irrigated area cannot be used as if it were part of a park, playground or school yard (Disinfected Secondary-23)
- Landscape impoundments that do not utilize decorative fountains (Disinfected secondary-23)
Water reuse treatment category for landscaping
In California, the various classes of recycled water treatment are defined by their respective treatment requirements and applicable performance standards.
- For disinfected tertiary recycled water, the treatment requirements are filtration and disinfection via chlorine disinfection or another disinfection process, that when combined with filtration, achieves a 5-log inactivation or removal of plaque forming units of F-specific bacteriophage MS-2, poliovirus or a similar virus. In the disinfected effluent, the median concentration of total coliforms cannot exceed 2.2 MPN/100 mL (based on a median concentration using results of the last 7 days for which analyses have been completed), cannot exceed 23 MPN/100 mL in more than one sample in any 30-day period and cannot exceed 240 MPN/100 mL in a single sample. A disinfected tertiary recycled water can also be a chlorine disinfection process following filtration that provides a CT value of not less than 450 mg-min/L at all times with a modal contact time of at least 90 minutes based on peak dry weather design flow.
- For disinfected secondary-23 recycled water, the treatment requirements are oxidation and disinfection and water must meet a 7-day median concentration of ≤23 MPN/100 mL of total coliform bacteria. Total coliform must not exceed 240 MPN/100 mL in more than one sample in any 30-day period.
Additional context and definitions
In California, recycled municipal wastewater is defined as “recycled water that is the effluent from the treatment of wastewater of municipal origin” (Cal. Code Regs. tit. 22). A landscape impoundment is defined as “an impoundment in which recycled water is stored or used for aesthetic enjoyment or landscape irrigation, or which otherwise serves a similar function and is not intended to include public contact” (Cal. Code Regs. tit. 22).
No impoundment of disinfected secondary-23 recycled water may occur within 100 feet of a domestic water supply well.
All use areas where recycled municipal wastewater is used that are accessible to the public must have signs posted that include the wording “RECYCLED WATER – DO NOT DRINK” and display the international “Do Not Drink” symbol (Cal. Code Regs. tit. 22). No physical connection is allowed to exist between a recycled water system and a potable water system (except as allowed under Section 7604 of Title 17). The portions of the recycled water in areas accessed by the general public (except for cemeteries) must not include any hose bibs and must use quick couplers that differ from those used on the potable water system. Dual plumbed systems are approved for use in California and are defined as “a system that utilizes separate piping systems for recycled water and potable water within a facility” and the recycled water is used to either serve plumbing outlets (excluding fire protection systems) within a building or for outdoor landscape irrigation at individual residences (Cal. Code Regs. tit. 22). Only a “recycled water agency” is allowed to deliver recycled water to a dual plumbed facility.
Water reuse for landscaping specifications
Summary of California's Water Reuse for Landscaping Specifications
Recycled Water Class/Category | Source Water Type | Water Quality Parameter | Specification | Sampling/Monitoring Requirements (Frequency of monitoring; site/ location of sample; quantification methods)* |
---|---|---|---|---|
Disinfected tertiary (Surface irrigation of parks, playgrounds, school yards, residential landscaping and unrestricted access golf courses) |
Domestic wastewater |
Turbidity (if filtered by natural undisturbed soils or a bed of filter media pursuant to Cal. Code Regs. tit. 22, § 60301.320a) |
≤2 NTU (average within 24-hour period) ≤5 NTU (more than 5% of the time within a 24-hour period) ≤10 NTU (single sample maximum) |
Continuous monitoring |
Turbidity (if filtered by microfiltration, ultrafiltration, nanofiltration or reverse osmosis membrane) |
≤0.2 NTU (more than 5% of the time within a 24-hour period) ≤0.5 NTU (single sample maximum) |
Continuous monitoring |
||
Total coliform |
≤2.2 MPN/100 mL (7-day median) ≤23 MPN/100 mL (does not exceed in more than one sample in 30-day period) ≤240 MPN/100 mL (single sample maximum) |
At least once daily |
||
CTa |
≥450 milligram-minutes/L |
Must be maintained at all times with a modal contact time of at least 90 minutes, based on peak dry weather design flow |
||
F-specific bacteriophage MS-2 or polio virusb,c |
5-log removal |
Must be demonstrated after filtration and disinfection |
||
Nitrogend |
Not specified |
Not specified |
||
Phosphorusd |
Not specified |
Not specified |
||
Disinfected secondary-23 (Irrigation of cemeteries, freeway landscaping, restricted access golf courses and any nonedible vegetation where access is controlled so that the irrigated area cannot be used as if it were part of a park, playground or school yard; Landscape impoundments) |
Domestic wastewater |
Total coliform |
≤23 MPN/100 mL (7-day median) ≤240 MPN/100 mL (does not exceed in more than one sample in 30-day period) |
At least once daily |
Nitrogend |
Not specified |
Not specified |
||
Phosphorusd |
Not specified |
Not specified |
Source= Cal. Code Regs. tit. 22
* Information about sampling and monitoring requirements such as frequency, site and quantification methods not specifically listed in the table was not explicitly specified in the State-specific regulations.
a The CT is the product of total chlorine residual and modal contact time measured at the same point (Cal. Code Regs. tit. 22). This only applies if chlorine was used for disinfection.
b This only applies if a disinfection process other than chlorination was used.
c A virus that is at least as resistant to disinfection as polio virus may be used for the purposes of the demonstration.
d The Regional Boards may include the nitrogen and phosphorous limits or control for the protection of beneficial uses, or as required by Basin Plans.
Upcoming state law or policy
No upcoming regulations pertaining to water reuse for landscaping were found for California.
References
Clean Water Act, 33 U.S.C. §§ 1251 et seq.
Sanitation Districts of Los Angeles County. 1977. Pomona Virus Study - Final Report. Report prepared by Sanitation Districts of Los Angeles County for California State Water Resources Control Board, Sacramento, CA.
Water Recycling Criteria, Cal. Code Regs. tit. 22.
Please contact us at waterreuse@epa.gov if the information on this page needs updating or if this state is updating or planning to update its laws and policies and we have not included that information on the news page.