Abstract
In contrast to cold and eurythermal waters, benthic communities of warm brooks in temperate regions have been inadequately studied. In order to investigate the effects of water thermal regime on the benthic communities of warm waters and their relationships with those of cold and eurythermic ones, the macrozoobenthos was studied at eight sites in the Toplica River, and at four sites in its tributary, the Termalni brook. Investigations were carried out seasonally from April 2000 to January 2001. Warm waters of the Termalni brook were characterized by specific macrozoobenthos assemblages that exhibited significant differences to the populations of eurythermal and cold waters of the Toplica River. The dominant taxa in the macrozoobenthos community of warm waters were mainly Gastropoda species. Moreover, benthic communities of warm waters were characterized by lower diversity and greater biomass in comparison with those of cold and eurythermal waters. The gradient of average annual temperatures represented the main ecological factor influencing changes of diversity and biomass along the course of the investigated Termalni brook. Inflow of warm waters at site T6 lead to a decrease in macrozoobenthos abundance and changes in qualitative and quantitative composition of the benthocoenosis of a highland stream, but did not significantly alter diversity.
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References
Burgherr, P. & Ward, V.J. 2001. Longitudinal and seasonal distribution patterns of the benthic fauna of an alpine glacial stream (Val Roseg, Swiss Alps). Freshwater Biol. 46: 1705–1721.
Castella, E., Adalsteinsson, H., Brittain, E.J., Gislason, M.G., Lehmann, A., Lencioni, V., Lods-Crozet, B., Maiolini, B., Milner, A., Olafsson, J., Saltveit, J.S. & Snook, D. 2001. Macrobenthic invertebrate richness and composition along a latitudinal gradient of European glacierfed streams. Freshwater Biol. 46: 1881–1831.
Death, R.G. & Winterbourn, M.J. 1995. Diversity patterns in stream benthic invertebrate communities: the influence of habitat stability. Ecology 76: 1446–1460.
Edington, J.M. & Hildrew, A.G. 1981. A key to the caseless caddis larvae of the British Isles, with notes on their ecology. Freshwater Biol. Assoc., Sci. Publ. 43: 1–91.
Flory, A.E. & Milner, M.A. 2000. Macroinvertebate community succession in Wolf Point Creek, Glacier Bay National Park, Alaska. Freshwater Biol. 44: 465–480.
Gillian C.B., Shabarni, G.A., Don, C. & Adrian, R.S. 2001. Bacterial community analysis of Indonesian hot springs. Microbiology Lett. 200: 103–109.
Gislason, M.G., Adalsteinsson, H., Hansen, I., Olafsson, J. & Svavarsdottir, K. 2001. Longitudinal changes in macroinvertebate assemblages along a glacial river system in central Iceland. Freshwater Biol. 46: 1737–1751.
Glöer, P., Meler-Brook, C. & Ostermann, O. 1985. Süsswassermollusken. Ein Bestimmugsschlüssel für die Bundesrepublik Deutschland, Deutscher Jugendbund für Naturbeobachtung, Hamburg, 81 pp.
Hurlbert, S.H. 1971. The non-concept of species diversity: a critique and alternative parameters. Ecology 52: 577–586.
Hynes, H.B.N. 1970a. The ecology of running waters. Univ. Toronto Press, Toronto, 555 pp.
Hynes, H.B.N. 1970b. The ecology of stream insects. Annu. Rev. Entomol. 15: 25–42.
Hynes, H.B.N. 1977. A key to the adults and nymphs of the British stoneflies (Plecoptera), with notes on their ecology and distribution. Freshwater Biol. Assoc., Sci. Publ. 17: 1–90
Lillehammer, A. 1985. Zoogeographical studies on Fennoscandian stoneflies (Plecoptera). J. Biogeogr. 12: 209–221.
McAleece, N. 1997. BioDiversity. Professional Beta. The Natural History Museum & The Scottish Association for Marine Science, 125 pp.
Macan, T.T. 1974. Freshwater ecology. Wiley, New York, 343 pp.
Macan, T.T. 1979. A key to the nymphs of the British species of Ephemeroptera with notes on their ecology. Freshwater Biol. Assoc., Sci. Publ. 20: 1–63.
Malard, F., Galassi, D., Lafont, M., Doledec, S. & Ward, V.J. 2003. Longitudinal patterns of invertebrates in the hyporheic zone of glacial river. Freshwater Biol. 48: 1709–1725.
Marković, Z. 1998. Springs in mountainous regions of Serbia: Ecological study of the macrozoobenthos. Faculty of Biology, University of Belgrade, 318 pp.
Milner, M.A., Brittain, E.J., Castella, E. & Petts, E.G. 2001. Trends of macroinvertebrate community structure in glacier-fed rivers in relation to environmental conditions: a synthesis. Freshwater Biol. 46: 1833–1847.
Mitchell, R. 1974. The evolution of thermophily in hot springs. Q. Rev. Biol. 49: 229–242.
Nedeau, J.E., Merritt, W.R. & Kaufman, G.M. 2003. The effect of an industrial effluent on an urban stream benthic community: water quality vs. habitat quality. Environ. Poll. 123: 1–13.
Pantle, E. & Buck, H. 1955. Die biologische Überwachung der Gewässer und die Darstellung der Ergebnisse. Gas-und Wasserfach 96, 604 pp.
Pennak, R.W. 1953. Freshwater invertebrates of the United States, chapter 36 Gastropoda. The Ronald Press Company, New York, 681 pp.
Pritchard, G., Harder, D.L. & Mutch, A.R. 1996. Development of aquatic insect eggs in relation to temperature and strategies for dealing with different thermal enironments. Biol. J. Linn. Soc. 58: 221–244.
Resh, V.H. 1983. Spatial differences in the distribution of benthic macroinvertebrates along a spring brook. Aquat. Insects 5: 193–200.
Ross, H.H. 1967. The evolution and past dispersal of the Trichoptera. Annu. Rev. Entomol. 12: 169–206.
Rozkošný, R. 1980. Klič larev vodneho hmyzu. Československa Akademie Věd, Praha, 521 pp.
Shannon, C.E. & Wiener, W. 1949. The mathematical theory of communication. University of Illinois Press, Urbana, 125 pp.
Simpson, E.H. 1949. Measurement of diversity. Nature 163: 688.
Stanford, A.J. & Ward, V.J. 1983. Insect species diversity as a function of environmental variability and disturbance in stream systems, pp. 265–278. In: Barnes, J.R. & Minshall G.W. (eds) Stream ecology: Application and testing of general ecological theory, Plenum, New York.
Takacs, C.D., Ehringer, M., Favre, R., Cermola, M., Eggertsson, G., Palsdottir, A. & Reysenbach, A.L. 2001. Phylogenetic characterization of the blue lamentous bacterial community from an Icelandic geothermal spring. Microbiol. Ecol. 35: 123–128.
Usseglio-Polatera, P.M. Bournaud, P. Richoux & Tachet, H. 2000. Biological and ecological traits of benthic freshwater macroinvertebrates: relationships and definition of groups with similar traits. Freshwater Biol. 43: 175–205.
Vinson, R.M. & Hawkins, P.C. 1998. Biodiversity of stream insects: Variation at local, basin and regional scales. Annu. Rev. Entomol. 43: 271–293.
Ward, V.J. 1985. Thermal characteristies of running waters. Hydrobiologia 125: 31–46.
Ward, V.J. 1986. Altitudinal zonation in a Rocky Mountain stream. Arch. Hydrobiol., Suppl. 74: 133–199.
Ward, V.J. & Dufford, R.G. 1979. Longitudional and seasonal distribution of macroinvertebrates and epilithic algae in a Colorado springbrook-pond system. Arch. Hydrobiol. 86: 284–321.
Ward, V.J. & Stanford, A.J. 1982. Thermal responses in the evolutionary ecology of aquatic insect. Annu. Rev. Entomol. 27: 97–117.
Waringer, J. & Graf, W. 1997. Atlas der österreichischen Köcherfliegenlarven: unter Einschluß der angrenzenden Gebiete. Facultas Universitätsverlag, Wien, 286 pp.
Wesenberg, L.C. 1943. Biologie der Süsswasserinsekten. Berlin — Wien, 682 pp.
Živić, I., Marković, Z. & Brajković, M. 2002. Macrozoobenthos of three brooks in the southern part of the Pannonian depression: comparative analysis of secondary production. Tiscia 33: 37–44.
Živić, I., Marković, Z. & Brajković, M. 2002a. Saprobiological evaluation of the quality of water in the Toplica River, the right tributary of the Kolubara River (Yugoslavia). Limnological Reports 34: 575–582.
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Živić, I., Marković, Z. & Brajković, M. Influence of the temperature regime on the composition of the macrozoobenthos community in a thermal brook in Serbia. Biologia 61, 179–191 (2006). https://doi.org/10.2478/s11756-006-0029-5
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DOI: https://doi.org/10.2478/s11756-006-0029-5