Quality Requirements for Irrigation with Sewage Water
Publication: Journal of Irrigation and Drainage Engineering
Volume 113, Issue 4
Abstract
Irrigation is an excellent use for sewage effluent because it is mostly water with nutrients. For small flows, the effluent can be used on special, well‐supervised “sewage farms,” where forage, fiber, or seed crops are grown that can be irrigated with standard primary or secondary effluent. Large‐scale use of the effluent requires special treatment so that it meets the public health, agronomic, and aesthetic requirements for unrestricted use (no adverse effects on crops, soils, humans, and animals). Crops in the unrestricted‐use category include those that are consumed raw or brought raw into the kitchen. Most state or government standards deal only with public health aspects, and prescribe the treatment processes or the quality parameters that the effluent must meet before it can be used to irrigate a certain category of crops. However, agronomic aspects related to crops and soils must also be taken into account. Quality parameters to be considered include bacteria, viruses, and other pathogens; total salt content and sodium adsorption ratio of the water (soil as well as crop effects); nitrogen; phosphorus; chloride and chlorine; bicarbonate; heavy metals, boron, and other trace elements; pH; and synthetic organics (including pesticides).
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References
1.
Arizona Department of Health Services (1983). “Regulations for the reuse of wastewater.” Water quality standards, Arizona Department of Health Services, Jun.
2.
Ayers, R. S., and Tanji, K. K. (1981). “Agronomic aspects of crop irrigation with wastewater.” Proc. Water Forum '81, 1, ASCE, New York, N.Y., 579–586.
3.
Baier, D. C., and Fryer, W. B. (1973). “Undesirable plant responses with sewage irrigation.” J. Irrig. and Drain. Div., 99 (IR2), 133–142.
4.
Bernstein, L. (1964). “Salt tolerance of plants.” U.S. Dept. of Agr. Information Bull. No. 283, Washington, D.C.
5.
Bouwer, E. J., et al. (1984). “Organic contaminant behavior during rapid infiltration of secondary wastewater at the Phoenix 23rd Avenue Project.” Water Res., 18(4), 463–472.
6.
Bouwer, H. (1976). Groundwater hydrology. McGraw‐Hill Book Company, New York, N.Y.
7.
Bouwer, H. (1982). “Wastewater reuse in arid areas. Water reuse, E. J. Middlebrooks, ed., Ann Arbor Science Publishers, Inc., Ann Arbor, Mich., 137–180.
8.
Bouwer, H., Lance, J. C., and Riggs, M. S. (1974). “High‐rate land treatment. II. Water quality and economic aspects of the Flushing Meadows Project.” J. Water Pollut. Control. Fed., 46(5), 844–859.
9.
California Department of Health. (1978). “Wastewater reclamation criteria.” Excerpt from the California Administrative Code, Title 22, Division 4—Environmental Health, California Dept. of Health.
10.
Childers, N. F., ed. (1966). “Temperate to tropical fruit nutrition.” Horticultural Publication, Rutgers State University, New Brunswick, N.J.
11.
Hoffman, G. J. (1982). “Leaching requirements for managing salinity.” Proc. Specialty Conf. Adv. in Irrig. and Drain. ASCE, New York, N.Y., 409–416.
12.
Idelovitch, E., and Bouwer, H. (1984). “Wastewater treatment for irrigation.” Internal report, TAHAL Consulting Engrs., Ltd., Tel Aviv 64–364, Israel.
13.
Israeli Ministry of Health. (1979). “Recommendations for treatment of wastewater to be used for crop irrigation,” 2nd Draft, Israeli Ministry of Health, Nov.
14.
Israeli Ministry of Health. (1981). “Public Health Law No. 4263: Purification of sewage water to be used for irrigation.” Israel: Ministry of Health, Aug. 27.
15.
Kary, S. (1966). “The use of effluent for unrestricted irrigation.” Progress Rpt. No. 1, Tahal Publication No. 01/86‐66, Sep., TAHAL Consulting Engineers, Ltd., Tel Aviv, Israel.
16.
Lance, J. C., Rice, R. C., and Gilbert, R. G. (1980). “Renovation of sewage water by soil columns flooded with primary effluent.” J. Water Pollut. Control Fed., 52(2), 381–388.
17.
McNeal, B. L. (1968). “Prediction of the effect of mixed‐salt solutions on the soil hydraulic conductivity.” Proc. Soil Sci. Soc. Am., 32, 190–193.
18.
National Academy of Sciences and National Academy of Engineering. (1973). “Water quality criteria 1972.” Report of the Committee on Water Quality Criteria, Ecological Research Series, EPA‐R3‐73‐033, Mar.
19.
United States Department of Agriculture. (1954). Diagnosis and improvement of saline and alkaline soils.” Agr. Handbook No. 60, U.S. Salinity Laboratory Staff, USDA, Washington, D.C., Feb.
20.
U.S. Environmental Protection Agency. (1977). Process design manual for land treatment of municipal wastewater. EPA 625/1‐77‐008, Cincinnati, Ohio, Oct.
21.
U.S. Environmental Protection Agency, (1977). Manual of treatment techniques for meeting the interim primary drinking water regulations. EPA‐600/8‐77‐005, Cincinnati, Ohio.
22.
Van Schilfgaarde, J., et al. (1973). “Irrigation management for salt control.” Proc. Irrig. and Drain. Div. Specialty Conf. ASCE, New York, N.Y., Ap., 647–672.
23.
World Health Organization. (1972). “International standards for drinking water.” World Health Organization, Geneva, Switzerland.
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Copyright © 1987 ASCE.
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Published online: Nov 1, 1987
Published in print: Nov 1987
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