Abstract
In much of the San Joaquin Valley, California, USA, inadequate drainage of applied irrigation water and accumulating salts in the soil have necessitated the installation of subsurface tile drainage systems to preserve crop productivity. At present, these subsurface drainage waters are disposed of by means of evaporation ponds or discharges into the San Joaquin River. Unfortunately, most of these agricultural drainage waters contain high concentrations of salts and naturally occurring trace elements, such as selenium, and recent evidence indicates that substantial numbers of waterbirds are exposed to contamination by selenium in the evaporation ponds. In order to avoid, minimize, or mitigate the adverse impacts on wildlife using the ponds, alternative pond management methods must be identified and evaluated for implementation. A number of methods have the potential to be cost-effective in significantly reducing the contamination hazard to birds using agricultural evaporation ponds. Twenty general methods were evaluated in this study, and four methods are recommended for implementation: remove levee vegetation, remove windbreaks, deepen the ponds, and haze birds. A number of other methods are recommended for further consideration because they appear to have good prospects for reducing the contamination hazard: steepen interior levee slopes, apply herbicides and insecticides, place netting on pond shorelines, and provide freshwater habitat adjacent to evaporation ponds. It may be necessary to use a combination of methods to effectively control selenium contamination of aquatic birds because it is unlikely that a single affordable pond management method will be able to entirely eliminate the contamination hazard.
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Literature Cited
Bradford, D. F., D. Drezner, J. D. Shoemaker, and L. Smith. 1989. Evaluation of methods to minimize contamination hazards to wildlife using agricultural evaporation ponds in the San Joaquin Valley, California. ESE Report No. 89-64, Environmental Science and Engineering Program, University of California, Los Angeles. Prepared under Contract No. STCA/DWR B57037 for California Department of Water Resources, Sacramento, 222 pp.
Brown and Caldwell, Consulting Engineers. 1987. Screening potential alternative geographic disposal areas, Volume 1. report prepared for the San Joaquin Valley Drainage Program, under contract to US Bureau of Reclamation.
Charmlee, T. J. 1986a. Kern National Wildlife Refuge master plan. US Fish and Wildlife Service, Kern National Wildlife Refuge, Delano, California.
Charmlee, T. J. 1986b. Pixley National Wildlife Refuge master plan. US Fish and Wildlife Service, Kern National Wildlife Refuge, Delano, California.
Ford, S., J. Young, R. Avina, and C. Nesmith. 1988. Investigation of evaporation ponds for the disposal of agricultural drainage in the San Joaquin Valley, a progress report. California Department of Water Resources, Sacramento. October.
Frankenberger, W. T., Jr., and E. T. Thompson-Eagle. 1988. In situ volatilization of selenium. II. Evaporation ponds. Phase II. Prepared for the San Joaquin Valley Drainage Program, Sacramento, California.
Frankenberger, W. T., Jr., U. Karlson, and K. E. Longley. 1989. Microbial volatilization of selenium from sediments of agricultural evaporation ponds, draft report, January 1989. Prepared for the State Water Resources Control Board, Sacramento, California.
Grahn, O. 1985. Macrophyte biomass and production in Lake Gårdsjön—an acidified clearwater lake in southwestern Sweden.Ecological Bulletins (Stockholm) 37:203–212.
Hall, S. K., W. R. Johnston, and W. J. Miller. 1989. Agricultural drainage water—how should it be regulated in California?Journal of Irrigation and Drainage Engineering 115:3–8.
Harvey, T. E., R. R. Kelly, R. W. Lowe, and D. Fearn. 1988. The value of saltponds for waterbirds in San Francisco Bay and considerations for future management. Presented at the conference, Wetlands ’88: Urban Wetlands and Riparian Habitat, 26–29 June 1988. Oakland, California.
Ivy, G. L. 1984. Some recent records for the snowy plover in the San Joaquin Valley, California.Western Birds 15:189.
Jones & Stokes Associates, Inc. 1988. Private wetlands in the Kern-Tulare Basin, California: Their status, values, protection, and enhancement. Prepared for California Department of Fish and Game and California Waterfowl Association, Sacramento, California.
LBL and SERL (Lawrence Berkeley Laboratory and Sanitary Engineering Research Laboratory, University of California). 1987. Hydrological, geochemical, and ecological characterization of Kesterson Reservoir. Annual Report, 1 October 1986 through 30 September 1987. Report No. LBL-24250. Berkeley, California.
Martin, L. R. 1980. The birds are going, the birds are going.Pollution Engineering July:39–41.
Martin, L. R., and S. Hagar. 1989. Bird control on containment pond site. Presented at The International Gold Expo.Engineering and Mining Journal September.
Ohlendorf, H. M., and J. P. Skorupa. 1989. Selenium in relation to wildlife and agricultural drainage water. Proceedings of the Fourth International Symposium on Uses of Selenium and Tellurium; Banff, Alberta, 7–10 May 1989 (in press).
Parker, M. S., and A. W. Knight. 1988. Biological characterization of agricultural drainage evaporation ponds. Prepared for Central Valley Regional Water Quality Control Board, Sacramento, California.
Parrish, J. M., and B. F. Hunter. 1969. Waterfowl botulism in the southern San Joaquin Valley, 1967–68.California Fish and Game 55(4):265–272.
Presser, T. S., and H. M. Ohlendorf. 1987. Biogeochemical cycling of selenium in the San Joaquin Valley, California, USA.Environmental Management 11:805–821.
Renberg, I., T. Hellberg, and M. Nilsson. 1985. Effects of acidification on diatom communities as revealed by analysis of lake sediments.Ecological Bulletins (Stockholm) 37:219–223.
Salmon, T. P., F. S. Conte, and W. P. Gorenzel. 1986. Bird damage at aquaculture facilities. Prevention and control of wildlife damage. Great Plains Agricultural Council, Wildlife Resources Committee, Cooperative Extension Service, Institute of Agriculture and Natural Resources. Supplement 1986.
San Joaquin Valley Drainage Program. 1990. A management plan for agricultural subsurface drainage and related problems on the westside San Joaquin Valley. Final report. US Department of the Interior and California Resources Agency, Sacramento, California.
Schroeder, R. A., D. U. Palawski, and J. P. Skorupa. 1988. Reconnaissance investigation of water quality, bottom sediment, and biota associated with irrigation drainage in the Tulare Lake Bed area, southern San Joaquin Valley, California, 1986–87. US Geological Survey, Water-Resources Investigations Report 88-4001.
Skorupa, J. P., H. M. Ohlendorf, D. L. Roster, and W. L. Hohman. 1989. Bioaccumulation of selenium in Tulare Basin duck eggs: Apparent agreement with an experimental dose-response relationship. Report presented to the Evaporation Pond Coordinating Committee, California Department of Water Resources, 14 March 1989, Fresno, California.
Spencer, D. 1984. Influence of Aquashade on growth, photosynthesis and phosphorous uptake of microalgae.Journal of Aquatic Plant Management 22:80–84.
Swarth, C. W., C. Akagi, and P. Metropulos. 1982. The distribution patterns and ecology of waterbirds using the Coyote Hills Salt Ponds. US Department of the Interior, Fish and Wildlife Service, San Francisco Bay National Wildlife Refuge.
Tanji, K., S. Ford, K. Langley, A. Knight, and M. Grismer. 1988. Targeted research needs for agricultural evaporation ponds in the next three years. An initial assessment report prepared for the Assembly Committee on Water, Parks and Wildlife, California State Legislature.
Tribbey, B. 1988. Biological assessment of evaporation ponds. Report prepared for US Soil Conservation Service, Kings River Conservation District, 96 pp.
Tribbey, B., and D. L. Beckingham. 1986. Biological assessment of two central San Joaquin Valley Evaporation Ponds. Final report. Department of Biology, California State University, Fresno.
US Fish and Wildlife Service. 1988. Deformed waterbird embryos found near agricultural drainage ponds in the Tulare Basin. Research Bulletin No. 88-49.
University of California, Riverside. 1988. Dissipation of soil selenium by microbial volatilization at Kesterson Reservoir. Final report by Department of Soil and Environmental Sciences. Prepared for the US Department of the Interior, Bureau of Reclamation, Sacramento, California.
Westcot, D., S. Rosenbaum, B. Grewell, and K. Belden. 1988. Water and sediment quality in evaporation basins used for the disposal of agricultural subsurface drainage waters in the San Joaquin Valley, California. Central Valley Regional Water Quality Control Board. Sacramento, California. 50 pp.
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Bradford, D.F., Smith, L.A., Drezner, D.S. et al. Minimizing contamination hazards to waterbirds using agricultural drainage evaporation ponds. Environmental Management 15, 785–795 (1991). https://doi.org/10.1007/BF02394816
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DOI: https://doi.org/10.1007/BF02394816