Abstract
The Salton Sea, California's largest inland water body, is an athalassic saline lake with an invertebrate fauna dominated by marine species. The distribution and seasonal dynamics of the benthic macroinvertebrate populations of the Salton Sea were investigated during 1999 in the first survey of the benthos since 1956. Invertebrates were sampled from sediments at depths of 2–12 m, shallow water rocky substrates, and littoral barnacle shell substrates. The macroinvertebrates of the Salton Sea consist of a few invasive, euryhaline species, several of which thrive on different substrates. The principal infaunal organisms are the polychaetes Neanthes succinea Frey & Leuckart and Streblospio benedicti Webster, and the oligochaetes Thalassodrilides gurwitschi Cook, T. belli Hrabe, and an enchytraeid. All but Neanthes are new records for the Sea. Benthic crustacean species are the amphipods Gammarus mucronatus Say, Corophium louisianum Shoemaker, and the barnacle Balanus amphitrite Darwin. Neanthes succinea is the dominant infaunal species on the Sea bottom at depths of 2–12 m. Area-weighted estimates of N. succinea standing stock in September and November 1999 were two orders of magnitude lower than biomass estimated in the same months in 1956. During 1999, population density varied spatially and temporally. Abundance declined greatly in offshore sediments at depths >2 m during spring and summer due to decreasing oxygen levels at the sediment surface, eventually resulting in the absence of Neanthes from all offshore sites >2 m between July and November. In contrast, on shoreline rocky substrate, Neanthes persisted year round, and biomass density increased nearly one order of magnitude between January and November. The rocky shoreline had the highest numbers of invertebrates per unit area, exceeding those reported by other published sources for Neanthes, Gammarus mucronatus, Corophium louisianum, and Balanus amphitrite in marine coastal habitats. The rocky shoreline habitat is highly productive, and is an important refuge during periods of seasonal anoxia for Neanthes and for the other invertebrates that also serve as prey for fish and birds.
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References
Allan, J. D., 1997. Stream ecology. Structure and function of running waters. Chapman & Hall, London: 388 pp.
Badino G., G. Forneris & E. Lodi, 1992. Carta Ittica relativa al territorio della regione piemontese. University of Turin, Turin: 186 pp.
Bird G. A. & H. B. N. Hynes, 1980. Movements of adult aquatic insects near stream in Southern Ontario. Hydrobiologia 77: 65-69.
Bird G. A. & H. B. N. Hynes, 1981. Movement of immature aquatic insects in a lotic habitat. Hydrobiologia 77: 103-112.
Bishop J. E. & H. B. N. Hynes, 1969. Upstream movements of the benthic invertebrates in the Speed River, Ontario. J. Fish. Res. Bd Can. 26: 279-298.
Brittain J. E. & T. J. Eikeland, 1988. Invertebrate drift-A review. Hydrobiologia 166: 77-93.
Clarke K. D. & D. A. Scruton, 1997. The benthic community of stream riffles in Newfoundland, Canada and its relationship to selected physical and chemical parameters. J. Anim. Ecol. 12: 113-121.
Delucchi, C. M., 1989. Movement patterns of invertebrates in temporary and permanent streams. Oecologia 78: 199-207.
Ghetti, P. F., 1997. Manuale di applicazione Indice Biotico Esteso (I.B.E.). Provincia Autonoma di Trento, Trento: 222 pp.
Grubaugh, J. W. & J. B Wallace, 1995. Functional structure and production of the benthic community in a Piedmont river: 1956-1957 and 1991-1992. Limnol. Oceanogr. 40: 490-501.
Mackay, R. J., 1992. Colonization by lotic macroinvertebrates: a review of processes and patterns. Can. J. Fish. aquat. Sci. 49: 617-628.
Mendel, H. & K. Müller, 1978. The colonization cycle of Amphinemura sulcicollis Ris (Ins. Plecoptera) in the Abisko area. Hydrobiologia 60: 109-111.
Müller, K., 1982. The colonization cycle of freshwater insects. Oecologia 52: 202-207.
Shaw, D.W. & G.W. Minshall, 1980. Colonization of an introduced substrate by stream invertebrates. Oikos 34: 259-271.
Söderström, O., 1987. Upstream movements of invertebrates in running waters-a review. Arch. Hydrobiol. 111: 197-208.
Townsend, C. R. & A. G. Hildrew, 1976. Field experiments on the drifting, colonization and continuous redistribution of stream benthos. J. anim. Ecol. 45: 759-772.
Vannote, R. L., G. W Minshall, K. W. Cummins, J. R. Sedell & C. E. Cushing, 1980. The river continuum concept. Can. J. Fish. aquat. Sci. 37: 130-137.
Williams, D. D. & H. B. N. Hynes, 1976. The recolonization mechanisms of stream benthos. Oikos 27: 265-272.
Williams, D. D., 1980. Temporal patterns in recolonization of stream benthos. Arch. Hydrobiol. 90: 56-74.
Wise, D. H. & M. C. Molles Jr., 1979. Colonization of artificial substrates by stream insects: influence of substrate size and diversity. Hydrobiologia 65: 69-74.
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Detwiler, P.M., Coe, M.F. & Dexter, D.M. The benthic invertebrates of the Salton Sea: distribution and seasonal dynamics. Hydrobiologia 473, 139–160 (2002). https://doi.org/10.1023/A:1016537903644
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DOI: https://doi.org/10.1023/A:1016537903644