Abstract
Fluctuating hydrochemistry, as a result of extreme hydrological regimes, imposes major physiological constraints on the biota of ephemeral saline lakes. While the inverse relationship between salinity and zooplankton species richness is well-known across salinity gradients, few studies have documented closely the response of zooplankton to seasonal changes in salinity. Weekly sampling during two flood seasons at Sua Pan, an intermittent saline lake in central Botswana demonstrated the importance of spatial and temporal salinity gradients for crustacean community composition, associated with a decline in species richness, from 11 to three species. Conductivity ranged between 320 and 125,800 μS cm−1 during seasonal flooding; changing from dominance by \( {\text{HCO}}_{3} ^{ - } \) and \( {\text{CO}}_{3} ^{ - } \), Ca2+ and Mg2+, at the beginning of the floods, to NaCl dominated waters as the lake dried out and salinities increased. pH estimates generally ranged between 8.6 and 10, with maximum values recorded during initial flooding. Crustaceans comprised mainly Branchinella spinosa, Moina belli, Lovenula africana and Limnocythere tudoranceai, all of which occurred across a wide range of salinities, while halotolerant freshwater species (Metadiaptomus transvaalensis, Leptestheria striatochonca and the ostracods Plesiocypridopsis aldabrae, Cypridopsis newtoni and a newly identified Potamocypris species) disappeared above conductivities of 1,500 μS cm−1. A unique crustacean composition in southern Africa was attributed to Sua Pans’ rare chemical composition among southern African saline lakes; flood waters on Sua Pan contained a higher proportion of Na+ and \( {\text{HCO}}_{3} ^{ - } \), and less K+, Mg2+ and \( {\text{SO}}_{4} ^{{{\text{2 + }}}} \) than over 80% of records from salt pans elsewhere in southern African. The freshwater species of crustaceans in Sua Pan were similar to those found in other southern Africa lakes, and these similarities decreased in lakes with higher pH and proportions of Na, and less SO4 and Mg in their chemical composition. The predominant saline tolerant species on Sua Pan, however, showed a greater similarity to those in saline lakes in southern and East Africa with higher proportions of \( {\text{HCO}}_{3} ^{ - } \) and, particularly, Mg2+ in their chemical composition.
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References
Allanson, B. R., R. C. Hart, J. H. O′Keeffe & R. D. Robarts, 1990. Inland Waters of Southern Africa: An Ecological Perspective. Kluwer Academic Publishers, Dordrecht.
Arengo, F. & G. A. Baldassarre, 1995. Effects of food density on the behaviour and distribution of nonbreeding American flamingos in Yucatan, Mexico. The Condor 97: 325–334.
Ashton, P. J. & F. R. Schoeman, 1983. Limnological studies on the Pretoria Salt Pan, a hypersaline maar lake. Hydrobiologia 99: 61–73.
Barnard, K. H., 1924. 4. Contributions to a knowledge of the fauna of South-West Africa. II: Crustacea, Entomostraca, Phyllopoda. Annals of the South African Museum. 20: 213–230.
Belk, D. & G. A. Cole, 1975. Adaptational biology of desert temporary-pond inhabitants. In Hadley, N. F. (ed.), Environmental Physiology of Desert Organisms. Hutchinson & Ross, Inc., Pennsylvania, Dowden, 207–226.
Berry, H. H., 1972. Flamingo breeding on the Etosha Pan, South West Africa, during 1971. Madoqua 5: 5–31.
Bishop, J. A., 1967. Some adaptations of Limnadia stanleyana King (Crustacea: Branchiopoda: Conchostraca) to a temporary fresh water environment. Journal of Animal Ecology 36: 599–609.
Bos, D. G., B. F. Cumming, C. E. Watters & J. P. Smol, 1996. The relationship between zooplankton, conductivity and lakewater ionic composition in 111 lakes from the Interior Plateau of British Columbia, Canada. International Journal of Salt Lake Research. 5: 1–15.
Brendonck, L. & B. Riddoch, 1997. Anostracans (Branchiopoda) of Botswana: morphology, distribution, diversity, and endemicity. Journal of Crustacean Biology 17(1): 111–134.
Broch, E. S., 1965. Mechanisms of adaptation of the fairy shrimp Chirocephalus bundyi Forbes to the temporary pond, Vol. 392. Cornell University Agricultural Experimental Station Memoirs, 1–48.
Brooks, J. L. & S. I. Dodson, 1965. Predation, body size and the plankton. Science 150: 28–35.
Brown, L. R. & L. H. Carpelan, 1971. Egg hatching and life history of a Fairy Shrimp Branchinecta mackini Dexter (Crustacea: Anostraca) in a mohave desert playa (Rabbit Dry Lake). Ecology 52(1): 41–54.
Brtek, J., 1967. Anostraca, Nostraca and Conchostraca in den Sammlungen des Heitmat-Museums in Bojnice. Muzeum (Bratislava) 4: 32–36.
Carmouze, J. P., J. R. Durand & C. Leveque, 1983. Lake Chad. Ecology and productivity of a shallow tropical ecosystem. The Hague, Junk.
Comin, F. & O. Hernandez, 1997. Relationship between flamingo distribution and activity and benthic community structure in a coastal Lagoon of the Ebro Delta (N. E. Spain). Symposium on Limnology and Aquatic Birds: Monitoring, Modelling and Management. Wetlands International Publication, Merida, Mexico.
Comin, F. & W. D. Williams, 1994. Parched continents: our common future? In Margelef, R. (ed.), Limnology Now: A Paradigm of Planetary Problems. Elsevier, Amsterdam, 473–527.
Cooke, H. J., 1979. The origin of the Makgadikgadi pans. Botswana Notes and Records 11: 37–42.
Daday, E., 1908. Adatok Nemet-kelet-Afrika edesvizi mikrofauna janak is meretehez. Matematikai es termeszettudomanyi ertesito. 26(1): 43–57.
Daday, E., 1910. Monographie systematique des Phyllopodes Anostraces. Annales Sciences Naturelles Zoologie (90 serie) 9: 91–489.
Day, J. A., 1990. Environmental correlates of aquatic faunal distribution in the Namib desert. In Seely, M. K. (ed.), Namib Ecology: 25 years of Namib Research. Transvaal Museum, Pretoria, Transvaal Monograph No. 7: 99–107.
Day, J. A., 1993. The major ion chemistry of some southern African saline systems. Hydrobiologia 267: 37–59.
Day, J. A., B. A. Stewart, I. J. de Moor & A. E. Louw, 1999. Freshwater Invertebrates of Southern Africa: Crustacea I. Water Research Commission, Pretoria.
Day, J. A., I. J. de Moor, B. A. Stewart & A. E. Louw, 2001. Freshwater Invertebrates of Southern Africa: Crustacea II. Water Research Commission, Pretoria.
Derry, A. M., E. E. Prepas & P. D. N. Hebert, 2003. A comparison of zooplankton communities in saline lakewater with variable anion composition. Hydrobiologia 505: 199–215.
Eccles, D. H. (undated). Identification of hydrobiological specimens collected on the Makarikari Expedition 1957. Appendix III to Makarikari Report, 143–163.
Edmonson, W. T. & G. G. Winberg, 1971. A Manual on Methods for the Assessment of Secondary Productivity in Fresh Waters. IBP Handbook No. 17. Blackwell Scientific, Oxford.
Eugster, H. P. & L. A. Hardie, 1978. Saline lakes. In Lerman, A. (ed.) Lakes: Chemistry, Geology & Physics. Springer-Verlag, New York, 237–293.
Fishman, M. J. & L. C. Friedman, 1989. Methods for determination of inorganic substances in water and fluvial sediments. In Techniques of Water-Resources Investigations of the United States Geological Survey, 3rd edn, Chap. A1, Book 5, 545 p.
Forester, R. M., 1986. Determination of dissolved anion composition of ancient lakes from fossil ostracods. Geology 14: 796–798.
Frey, D. G., 1993. The penetration of cladocerans into saline waters. Hydrobiologia 267: 233–248.
Glassom, D. & G. M. Branch, 1997. Impact of predation by greater flamingos (Phoenicopterus ruber) on the macrofauna of two southern African lagoons. Marine Ecology Press Series 149: 1–12.
Green, J., 1986. Zooplankton associations in some Ethiopian crater lakes. Freshwater Biology 16: 495–499.
Green, J., 1993. Zooplankton associations in East African lakes spanning a wide salinity range. Hydrobiologia 267: 249–256.
Gurney, R., 1904. On a small collection of freshwater Entomostracan from South Africa. Proceedings of the Zoological Society of London. 2: 298–301.
Hamer, M. & N. A. Rayner, 1996. A note on the unusual crustacean community of a temporary pool in the Northern Cape. Southern African Journal of Aquatic Science 22(1/2): 100–104.
Hammer, U. T., 1986. Saline Lake Ecosystems of the World. Dr W. Junk Publishers, Dordrecht.
Hammer, U. T., 1993. Zooplankton distribution and abundance in saline lakes of Alberta and Saskatchewan, Canada. International Journal of Salt Lake Research 2: 111–132.
Hammer, M. L. & C. C. Appleton, 1991. Physical and chemical characteristics and phyllopod fauna of temporary pools in north-eastern Natal, RSA. Hydrobiologia 212: 95–104.
Hardie, L. A., J. P. Smoot & H. P. Eugster, 1978. Saline Lakes and their Deposits: A Sedimentological Approach. International Association of Sedimentology. Special Publication.
Hart, R. C., 1986. Zooplankton abundance, community structure and dynamics in relation to inorganic turbidity, and their implications for potential fishery in subtropical Lake le Roux, South Africa. Freshwater Biology 16: 351–371.
Hart, R. C., 1987. Population dynamics and production of five crustacean zooplankters in a subtropical reservoir during years of contrasting turbidity. Freshwater Biology 18: 287–318.
Hartland-Rowe, R. 1972. The limnology of temporary waters and the ecology of Euphyllopoda. In Clark, R. J. & R. B. Wootton (eds), Essays in Hydrobiology, Presented to Leslie Harvey. University of Exeter, Exeter, 15–31.
Hecky, R. E. & P. Kilham, 1973. Diatoms in alkaline, saline lakes: ecology and geochemical implications. Limnology and Oceanography 18(1): 53–71.
Herbst, D. B., 2001. Gradients of salinity stress, environmental stability and water chemistry as a templet for defining habitat types and physiological strategies in inland salt waters. Hydrobiologia 466: 209–219.
Hildrew, A. G., 1985. A quatitative study of the life history of a fairy shrimp (Branchiopoda: Anostraca) in relation to the temporary nature of its habitat. A Kenyan rainpool. Journal of Animal Ecology 54: 99–110.
Horne, A. J. & A. B. Viner, 1971. Nitrogen fixation and its significance in tropical lake George, Uganda. Nature 232: 417–418.
Hutchinson, G. E., 1967. A Treatise on Limnology. John Wiley & Sons, Inc, New York.
Hutchinson, G. E., G. E. Pickford & J. F. M. Schuurman, 1932. A contribution to the hydrobiology of pans and other inland waters of South Africa. Archiv fur Hydrobiologie 24: 1–154.
Jarvis, A. C., 1986. Zooplankton community grazing in a hypertrophic lake (Hartbeesport Dam, South Africa). Journal of Plankton Research 8: 1065–1078.
Kalk, M., 1979. Zooplankton in Lake Chilwa: adaptations to changes. In Kalk, M., A. J. McLachlan & C. Howard-Williams (eds), Lake Chilwa. Studies of Change in a Tropical Ecosystem, Vol. 35. Monographiae Biologicae, The Hague,Junk 123–141.
Kok, D. J., 1987. Invertebrate inhabitants of temporary pans. African Wildlife 41: 293.
La Barbera, M. C. & P. Kilham, 1974. The chemical ecology of copepod distribution in the lakes of east and central Africa. Limnolology and Oceanography 19: 459–465.
Langbein, W. B., 1961. Salinity and hydrology of closed basins. US Geological Survey Professional Papers 412: 20.
Martens, K., 1984. Annotated checklist of non-marine ostracods (Ostracoda, Crustacea) from African inland waters, Vol. 20. Zoologische Bijdragen Koninklijk Museum voor middin Afrika, Tervuren, 51 pp.
Martens, K., 1988. Seven new species and two new subspecies of Sclerocypris SARS, 1924 from Africa, with new records of some other Megalocypridinids (Crustacea, Ostracoda). Hydrobiologia 162: 243–273.
Martens, K., 1990. Revision of African Limnocythere s.s. Brady, 1867 (Crustacea, Ostracoda), with special reference to the Rift Valley Lakes: morphology, taxonomy, evolution and (paleo-) ecology. Arciv fur Hydrobiolgie, Suppl. 83(4): 453–524.
Martens, K., B. R. Davies, A. J. Baxter & M. E. Meadows, 1996. A contribution to the taxonomy and ecology of the Ostracoda (Crustacea) from Verlorenvlei (Western Cape, South Africa). South African Journal of Zoology 31(1): 23–36.
Meintjes, S., M. T. Seaman & D. J. Kok, 1994. Duration of inundation and change in physical and chemical characteristics of small temporary pans in South Africa. Hydrobiologia 281: 79–90.
Meisch, C., 1988. Ostracodes recoltes a Paris. Avec une clef pour la determination des especes du genre Ilyocypris (Crustacea, Ostracoda). Bulletin de la Societe des Naturalistes luxemburgeoises. 88: 145L.M. 163.
Melack, J. M., 1988. Primary producer dynamics associated with evaporative concentration in a shallow, equatorial soda lake (Lake Elmenteita, Kenya). Hydrobiologia 158: 1–14.
Mepham, J. S., 1987. The okavango delta and the Makgadikgadi pans. In Burgis, M. J. S. & J. J. Paris (eds), African Wetlands and Shallow Water Bodies. Editions de l’ORSTOM, 486–503.
Methuen, P. A., 1910. On a collection of freshwater Crustacea from the Transvaal. Proceedings of the Zoological Society of London. 1913: 1219–1299.
Rayner, N. A. & J. Heeg, 1994. Distribution patterns of the Diaptomidae (Copepoda: Calanoida) in southern Africa. Hydrobiologia 272: 47–75.
Saint-Jean, L., 1983. The zooplankton. In Carmouze, J. P., J. R. Durand & C. Leveque (eds) Lake Chad. Ecology and Productivity of a Shallow Tropical Ecosystem, Vol. 53. Monographiae Biologicae, The Hague, Junk, 199–232.
Schulze, B. R., 1972. South Africa. In Griffiths, J. F. (ed.), Climates of Africa. World Survey of Climatology, Vol. 10. Elsevier, Amsterdam, 501–586.
Seaman, M. T. & D. J. Kok, 1987. Ecological diversity in orange free state pans. Occasional Report Series No. 28, Ecosystem Programmes. Foundation for Research and Development, CSIR, Pretoria, 260–273.
Seaman, M. T., P. J. Ashton & W. D. Williams, 1991. Inland salt waters of southern Africa. Hydrobiologia 210: 75–91.
Seaman, M. T., D. J. Kok & M. Watson, 1999. Cladocera. In Freshwater Invertebrates of Southern Africa: Crustacea I. J. A. Day, B.A. Stewart, I.J. deMoor & A.E. Louw, Pretoria, Water Research Commision. 2.
Stumm, W. & J. J. Morgan, 1970. Aquatic Chemistry. New York, Wiley.
Talling, J. F. & T. B. Talling, 1965. The chemical composition of African lake waters. Internationale Revue der gesamten Hydrobiologie. 50(3): 421–463.
Thomas, D. S. G. & P. A. Shaw, 1991. The Kalahari Environment. Cambridge University Press, Cambridge.
Van de Velde, I., 1984. Revision of the African species of the genus Mesocyclops sars, 1914 (Copepoda: Cyclopoidae). Hydrobiologia 109: 3–66.
Vareschi, E. & A. Vareschi, 1984. The ecology of Lake Nakuru (Kenya). IV. Biomass and distribution of consumer organisms. Oecologia 61: 70–82.
Weir, J. S., 1969. Studies on central African pans. III. Fauna and physico-chemical environment of some ephemeral pools. Hydrobiologia 33: 93–116.
Weltner, W., 1897. Verzeichnis der bisher beschriebenen recenten cirripedien-Arten. Mit Angabe der im Berliner Museum vorhandenen species und ihrer fundorte. Archiv fur naturgeschichte 63: 227–280.
Williams, W. D., 1964. A contribution to lake typology in Victoria, Australia. Verhandlungen der Internationale Vereinigung fur theoretische und angewandte Limnologie 15: 158–163.
Williams, D. D., 1987. The Ecology of Temporary Waters. Croom Helm, London.
Williams, W. D., 1998. Guidelines of Lake Management. International Lake Environment Committee Foundation and the United Nations Environment Programme, Shiga.
Williams, W. D. & J. E. Sherwood, 1994. Definition and measurement of salinity in salt lakes. International Journal of Salt Lake Research 3(1): 53–63.
Williams, W. D., A. J. Boulton & R. G. Taaffe, 1990. Salinity as a determinant of salt lake fauna: a question of scale. Hydrobiologia 197: 257–266.
Wood, R. B. & J. F. Talling, 1988. Chemical and algal relationships in a salinity series of Ethiopian inland waters. Hydrobiologia 158: 29–67.
Zweers, G., F. De Jong, H. Berkhoudt & J. C. Vanden Berge, 1995. Filter feeding in flamingos (Phoenicopterus ruber). The Condor 97: 297–324.
Acknowledgements
We wish to thank the Botswana Government for their support and for authorising the research at Makgadikgadi, the government departments of Wildlife and National Parks, Meteorology and Water Affairs for their co-operation and for providing data, and Botswana Ash (Pty) Ltd. for their financial and logistical help and co-operation throughout. A special thanks also to the National Centre for US Geological Survey, who kindly carried out the ionic analysis of our water samples. Also, a big thanks to Dr Koen Martens, who kindly helped with the ostracod identifications and to Peter Stafford and Alison Boyce from the Zoology Department, Trinity College Dublin for their consistent and much appreciated assistance in the laboratory.
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McCulloch, G.P., Irvine, K., Eckardt, F.D. et al. Hydrochemical fluctuations and crustacean community composition in an ephemeral saline lake (Sua Pan, Makgadikgadi Botswana). Hydrobiologia 596, 31–46 (2008). https://doi.org/10.1007/s10750-007-9055-8
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DOI: https://doi.org/10.1007/s10750-007-9055-8