Thermal, mixing, and oxygen regimes of the Salton Sea, California, 1997–1999 (original) (raw)
References
Almgren, T. & I. Hagström, 1974. The oxidation rate of sulphide in sea water. Wat. Res. 8: 395–400. Google Scholar
American Public Health Association, 1998. Standard methods for the examination of water and wastewater. 20th edn. American Public Health Association, Washington: 1162 pp. Google Scholar
Arnal, R. E., 1961. Limnology, sedimentation, and microorganisms of the Salton Sea, California. Geol. Soc. am. Bull. 72: 427–478. Google Scholar
Bagarinao, T. & R. D. Vette, 1989. Oxidative detoxification of sulfide by mitochondria of the California killifish Fundulus parvipinnis and the speckled sanddab Citharichthys stigmaeus. J. comp. Physiol. 160: 519–527. Google Scholar
Bagarinao, T., 1992. Sulfide as an environmental factor and toxicant: tolerance and adaptations in aquatic organisms. Aquat. Tox. 24: 21–62. Google Scholar
Bain, R. C., A. M. Caldwell, R. H. Clawson, H. L. Scotten & R. G. Wills, 1970. Salton Sea California: water quality and ecological management considerations. U.S. Dept. Interior, Federal Water Quality Administration, Pacific Southwest Region: 53 pp. Google Scholar
Black, G. F., 1988. Description of the Salton Sea sport fishery 1982- 1983. California Fish and Game Administrative Report 88–9.
Blaney, H. F., 1955. Evaporation from the stabilization of Salton Sea water surface. Am. Geophys. Union. Trans. 36: 3633–640. Google Scholar
Carpelan, L. H., 1958. The Salton Sea: physical and chemical characteristics. Limnol. Oceanogr. 3: 373–386. Google Scholar
Carpelan, L. H., 1961. Physical and chemical characteristics. In Walker, B.W. (ed.), The Ecology of the Salton Sea, California in Relation to the Sportfishery. Calif. Dept. Fish. Game, Fish Bull. 113: 1–204.
Chen, K. Y. & J. C. Morris, 1972. Kinetics of oxidation of aqueous sulfide by O2. Environ. Sci. Technol. 6: 529–537. Google Scholar
Cline, J. D. & F. A. Richards, 1969. Oxygenation of hydrogen sulfide in sea water at constant salinity, temperature and pH. Environ. Sci. Technol. 3: 838–834. Google Scholar
Cohen, M., J. Morrison & E. P. Glenn, 1999. Haven or hazard: The ecology and future of the Salton Sea. Pacific Institute, Oakland, California: 64 pp. Google Scholar
Cook, C. B. & G. T. Orlob, 1997. Field monitoring and hydrodynamic modeling of the Salton Sea, CA, environmental and coastal hydraulics: protecting the aquatic habitat, Vol. 1, 27th Congress of the International Association for Hydraulic Research, Aug 1997: 659–664.
Cooper, J. J. & D. L. Koch, 1984. Limnology of a desert terminal lake, Walker Lake, Nevada, U.S.A. Hydrobiologia 118: 275–292. Google Scholar
Detwiler, P., M. F. Coe & D. M. Dexter, 2002. Benthic invertebrates of the Salton Sea: distribution and seasonal dynamics. Hydrobiologia/Developments in Hydrobiology (in press).
Eckert W. & D. K. Hambright, 1996. Seasonal and vertical distributions of temperature, pH, oxygen, and sulfide in Lake Kinneret. Limnologica 26: 345–351. Google Scholar
Ehrhardt, M. & A. Wenck, 1984. Wind pattern and hydrogen sulfide in shallow waters of the Western Baltic Sea, a cause and effect relationship? Meeresforsch 30: 101–110. Google Scholar
Ferrari, R. L. & P. Weghorst, 1997. Salton Sea 1995 hydrographic GPS survey. U.S. Bureau of Reclamation, Water Resources Services. Denver, Colorado: 23 pp. Google Scholar
Galat, D. L., E. L. Lider, S. Vigg & S. R. Robertson, 1981. Limnology of a large, deep, North American terminal lake, Pyramid Lake, Nevada, U.S.A. Hydrobiologia 82: 281–317 Google Scholar
Goldhaber, M. & I. R. Kaplan, 1974. The sulfur cycle, In Goldberg, E. (ed.), The Sea, Vol. 5, Marine Chemistry. Wiley, New York: 569–665. Google Scholar
Hagerman L. & B. Vismann, 1995. Anaerobic metabolism in the shrimp Crangon crangon exposed to hypoxia, anoxia and hydrogen sulfide. Mar. Biol. 123: 235–240. Google Scholar
Hely, A. G., G. H. Hughes & B. Irelan, 1966. Hydrologic regimen of Salton Sea, California. U. S. Geol. Surv. Prof. Paper 486–C: 32 pp.
Hutchinson, G. E., 1957. A Treatise on Limnology, volume 1. Wiley & Sons: 1015 pp.
Huxtable, R. J., 1986. Biochemistry of Sulfur. Plenum Press: 445 pp.
Idso, S. B., 1973. On the concept of lake stability. Limnol. Oceanogr. 18: 681–683. Google Scholar
Imberger, J., 1985. Thermal characteristics of standing waters: an illustration of dynamic processes. Hydrobiologia 125: 7–29. Google Scholar
Llanso, R. J., 1991. Tolerance of low dissolved oxygen and hydrogen sulfide by polychaete Streblospio benedicti. J. exp. mar. Biol. Ecol. 153: 165–178. Google Scholar
MacIntyre, S., 1993. Vertical mixing in a shallow, eutrophic lake: possible consequences for the light climate of phytoplankton. Limnol. Oceanogr. 38: 798–817. Google Scholar
Millero, F. J., 1986. The thermodynamics and kinetics of the hydrogen sulfide system in natural waters. Mar. Chem. 18: 121–147. Google Scholar
Mitteilung, K., 1988. Lake mixis and internal phosphorus dynamics. Arch. Hydrobiol. 113: 629–638. Google Scholar
Parsons, 1986. Proposed water conservation program and initial water transfer, environmental impact report. Draft. Imperial Irrigation District, Imperial California. Google Scholar
Reifel, K. M., M. P. McCoy, M. A. Tiffany, T. E. Rocke, C. C. Trees, S. B. Barlow, D. J. Faulkner & S. H. Hurlbert, 2001. Pleurochrysis pseudoroscoffensis (Prymnesiophyceae) blooms on the surface of the Salton Sea, California. Hydrobiologia 466 (Dev. Hydrobiol. 162): 177–185. Google Scholar
Reifel, K. M., M. P. McCoy, M. A. Tiffany, T. E. Rocke, S. H. Hurlbert & D. J. Faulkner, 2002. The possible importance of algal toxins in the Salton Sea, California. Hydrobiologia/ Developments in Hydrobiology (in press).
Riedel, R., L. Caskey & B. Costa-Pierce, 2002. Fish biology and fisheries ecology of the Salton Sea. Hydrobiologia/ Developments in Hydrobiology (in press).
Romero, J. R. & J. M. Melack, 1996. Sensitivity of vertical mixing in a large saline lake to variation in runoff. Limnol. Oceanogr. 41: 955–965. Google Scholar
Setmire, J. G., R. A. Schroeder, J. N. Densmore, S. L. Goodbred, D. J. Auden & W. R. Radke, 1993. Detailed study of water quality, bottom sediment, and biota associated with irrigation drainage in the Salton Sea area, California, 1988-90. U.S. Geol. Surv. Water-Resources Investigations Report 93-4014: 102 pp.
Smith, L. L., D. M. Oseid, I. R. Adelman & S. J. Broderius, 1976. Effects of hydrogen sulfide on fish and invertebrates, Parts I and II. U.S. Environmental Protection Agency: 250 pp.
Snoeyink, V. L. & D. Jenkins, 1980. Water Chemistry. John Wiley and Sons, Inc. New York, NY: 430 pp. Google Scholar
Talling, J. F., 1966. The annual cycle of stratification and phytoplankton growth in Lake Victoria (East Africa). Int. Rev. ges. Hydrobiol. 51: 545–621. Google Scholar
Theede, H., A. Ponat, K. Hiroki & C. Schlieper, 1969. Studies on the resistance of marine bottom invertebrates to oxygen-deficiency and hydrogen sulfide. Mar. Biol. 2: 325–337. Google Scholar
Tiffany, M. A., B. K. Swan, J. M. Watts & S. H. Hurlbert, 2002. Metazooplankton dynamics in the Salton Sea, 1997-1999. Hydrobiologia/Developments in Hydrobiology (in press).
Tostrud, M. B., 1997. The Salton Sea 1906-1996: computed and measured salinities and water levels. Colorado River Board of California, Glendale, California. Google Scholar
Vismann, B., 1991. Sulfide tolerance: physiological mechanisms and ecological implications. Ophelia 34: 1–27. Google Scholar
Walker, B. W., R. R. Whitney & G. W. Barlow, 1961. The ecology of the Salton Sea, California in relation to the sportfishery. The Calif. Dept. Fish. Game, Fish Bull. 113: 1–204. Google Scholar
Wetzel, R. G., 1983. Limnology. New York, Saunders College Publishing, Inc.: 767 pp. Google Scholar