Abstract
Spatial and temporal changes of zoobenthos composition and density were assessed in a woodland pond, near Geneva (Switzerland), by monthly sampling (during 15 months), on the three main substrates: a submerged macrophyte (Chara sp.), an emergent macrophyte (Typha latifolia stems) and allochthonous detritus (oak leaves).
Many taxa showed preferences for one or two of the substrates, as expressed by differences in densities, but few taxa presented an exclusivity for one substrate. Zoobenthos densities (per m2 of pond bottom) were largely dominated on all substrates and seasons by Chironomidae and Oligochaeta. Other dense macroinvertebrates included Ostracoda (on Chara and Typha stems), Gastropoda (on Typha stems), Ephemeroptera (all substrates), and Ceratopogonidae (on Typha stems).
The magnitude of temporal differences in densities was expressed by the ratio of maximal to minimal monthly densities and reached values between 2.8 to 11.8. On all substrates the highest monthly densities were observed in summer or beginning of autumn. The temporal changes in densities were strongly influenced by the life cycles of the invertebrates: presence of numerous young individuals in summer (for example Cypridopsis vidua, Cloeon dipterum, Caenis horaria, Ferrissia wautieri), and emergence (for example Chironomidae in April). Fluctuations in densities, especially on Chara and leaves, were also attributed to modification of substrate condition (surface availability, stage in the decomposition or senescence process). Temporal fluctuations of densities were compared with other lentic water bodies: highest densities showed a common trend, occurring between end of spring and beginning of autumn.
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Auderset, D., D. Cambin, J. Detraz-Merroz, P. Durand, R. Juge, J.-B. Lachavanne, B. Lods-Crozet, A. Noetzlin, B. Oertli, C. Oïhénart & O. Rossier, 1993. Les plans d'eau du Canton de Genéve. Partie II. Caractérisation et qualification écologiques de 13 étangs (in French). Département de l'Intérieur, de l'Agriculture et des Affaires régionales du Canton de Genéve. University of Geneva, Geneva, 165 pp.
Barnes, L. E., 1983. The colonization of ball-clay ponds by macroinvertebrates and macrophytes. Freshwat. Biol. 13: 561–578.
Biggs, B. J. F. & T. J. Malthus, 1982. Macroinvertebrate associated with various aquatic macrophytes in the backwaters and lakes of the Upper Chitha Valley, New Zealand. J. mar. Freshwat. Res. 16: 81–88.
Botts, P. S. & B. C. Cowell, 1993. Temporal patterns of abundance of epiphytic invertebrates on Typha shoots in a subtropical lake. J. N. Am. Benthol. Soc. 12: 27–39.
Boulton, A. J. & P. S. Lake, 1992. The ecology of two intermittent streams in Victoria, Australia. III. Temporal changes in faunal composition. Freshwat. Biol. 27: 123–138.
Brinkhurst, R. O., 1974. The benthos of lakes. The MacMilla Press Ltd, London, 190 pp.
Bunn, S. E., D. H. Edward & N. R. Loneragan, 1986. Spatial and temporal variation in the macroinvertebrate fauna of streams of the northern jarrah forest, Western Australia: community structure. Freshwat. Biol. 16: 67–92.
Castella, E., 1987. Apport des macroinvertébrés aquatiques au diagnostic écologique des écosystémes abandonnés par les fleuves. Recherches méthodologiques sur le Haut-Rhône français (in French). Dissertation, Université Claude Bernard - Lyon I, Lyon, Vol. 1: 229 pp, Vol. 2: 233 pp.
Chergui, H. & E. Pattee, 1990. The processing of leaves of trees and aquatic macrophytes in the network of the River Rhone. Int. Revue ges. Hydrobiol. 75: 281–302.
Crisp, D. T. & T. Gledhill, 1970. A quantitative description of the recovery of the bottom fauna in a muddy reach of a mill stream in southern England after draining and dredging. Arch. Hydrobiol. 67: 502–541.
Cummins, K. W., M. A. Wilzbach, D. M. Gates, J. B. Perry & W. B. Taliaferro, 1989. Shredders and riparian vegetation. BioScience 39: 24–30.
Cyr, H. & J. A. Downing, 1988. The abundance of phytophilous invertebrates on different species of submerged macrophytes. Freshwat. Biol. 20: 365–374.
Dall, P. C., C. Lindegaard & P. M. Jónasson, 1990. In-lake variations in the compositions of zoobenthos in the littoral of Lake Esrom, Denmark. Verh. int. Ver. Limnol. 24: 613–620.
Dvorak, J. & E. P. H. Best, 1982. Macro-invertebrate communities associated with the macrophytes of Lake Vechten: structural and functional relationships. Hydrobiologia 95: 115–126.
Elliott, J. M., 1977. Statistical analysis of samples of benthic invertebrates. Scientific publication No 25. Freshwat. Biol. Ass., Ambleside, 156 pp.
Fisher, S. G., L. J. Gray, N. B. Grimm & D. E. Busch, 1982. Temporal succession in a desert stream following flash flooding. Ecol. Monogr. 52: 93–110.
Gladden, J. E. & L. A. Smock, 1990. Macroinvertebrate distribution and production on the floodplains of two lowland headwater streams. Freshwat. Biol. 24: 533–545.
Glowacka, I., G. J. Soszka & H. Sozka, 1976. Invertebrates associated with macrophytes. In E. Pieczynska (ed.), Selected problems of lake littoral ecology. University of Warsaw, Warsaw: 97–122.
Iversen, T. M., 1988. Secondary production and trophic relationships in a spring invertebrate community. Limnol. Oceanogr. 33: 582–592.
Jónasson, P. M., 1972. Ecology and production of the profundal benthos in relation to phytoplankton in Lake Esrom. Oikos Suppl. 14: 1–148.
Kitching, R. L., 1987. Spatial and temporal variation in food webs in water-filled tree holes. Oikos 48: 280–288.
Korinkova, J., 1971. Quantitative relations between submerged macrophytes and populations of invertebrates in carp ponds. Hydrobiologia 12: 377–382.
Kornijów, R., 1992. Seasonal migration by larvae of an epiphytic chironomid. Freshwat. Biol. 27: 85–89.
Krecker, F. H., 1939. A comparative study of the animal population of certain submerged aquatic plants. Ecology 20: 553–562.
Lindegaard, C., 1992. Zoobenthos ecology of Thingvallavatn. Vertical distribution, abundance, population dynamics and production. Oikos 64: 257–304.
Lindegaard, C. & P. M. Jónasson, 1979. Abundance, population dynamics and production of zoobenthos in Lake Myvatn, Iceland. Oikos 32: 202–227.
Lodge, D. M., 1985. Macrophyte-gastropod associations: observations and experiments on macrophyte choise by gastropods. Freshwat. Biol. 15: 695–708.
Lodge, D. M., 1986. Selective grazing on periphyton: a determinant of freshwater gastropod microdistributions. Freshwat. Biol. 16: 831–841.
Macan, T. T., 1977. A twenty-year study of the fauna in the vegetation of a moorland fishpond. Arch. Hydrobiol. 81: 1–24.
Magdych, W. P., 1979. The microdistribution of mayflies (Ephemeroptera) in Myriophyllum beds in Pennington Creek, Johnston County, Oklahoma. Hydrobiologia 66: 161–175.
Mason, C. F., 1977. Populations and production of benthic animals in two contrasting shallow lakes in Norfolk. J. anim. Ecol. 46: 147–172.
Minshall, G. W., 1981. Structure and temporal variations of the benthic macroinvertebrate community inhabiting Mink Creek, Idaho, U.S.A., a third order rocky mountain stream. J. Freshwat. Ecol. 1:13–26.
Minshall, G. W., 1984. Aquatic insect-substratum relationships. In V. H. Resh & D. M. Rosenberg (eds), The ecology of aquatic insects. Praeger, New York: 358–400.
Obrdlik, P. & L.-C. Garcia-Lozano, 1992. Spatio-temporal distribution of macrozoobenthos abundance in the Upper Rhine alluvial floodplain. Arch. Hydrobiol. 124: 205–224.
Oertli, B., 1991. Oak leaf litter processing and associated macroinvertebrates in two ponds Geneva (Switzerland). Verh. int. Ver. Limnol. 24: 1543–1546.
Oertli, B., 1992. L'influence de trois substrats (Typha, Chara, feuilles mortes) d'un étang forestier sur la densité, la biomasse et la production des macroinvertébrés aquatiques (in French). Dissertation No 2557. University of Geneva, Geneva, 283 pp.
Oertli, B., 1993. Leaf litter processing and energy flow through macroinvertebrates in a woodland pond (Switzerland). Oecologia 96: 466–477.
Sapkarev, J. A., 1980. Composition and variation of the bottom fauna in the sublittoral of the euthropic lake Doiran (Macedonia, Yugoslavia). In M. Dokulil, H. Metz & D. Jewson (eds), Shallow lakes. Contribution their limnology. Dr W. Junk Publishers, The Hague: 195–201.
Scheffer, M., A. A. Achterberg & B. Beltman, 1984. Distribution of macroinvertebrates in a ditch in relation to the vegetation. Freshwat. Biol. 14: 367–370.
Smock, L. A. & D. L. Stoneburger, 1980. The response of macroinvertebrates to aquatic macrophyte decomposition. Oikos 35: 397–403.
Soszka, G. J., 1975a. Ecological relations between invertebrates and submerged macrophytes in the lake littoral. Ekol. pol. 23: 393–415.
Soszka, G. J., 1975b. The invertebrates on submerged macrophytes in three Masurian lakes. Ekol. pol. 23: 371–391.
Thioulouse, J., 1990. MacMul and GraphMu: two Macintosh programmes for the display and analysis of multivariate data. Computers and Geosciences 8: 1235–1240.
Voshell, J. R., Jr. & G. M. Simmons, 1984. Colonization and succession of benthic macroinvertebrates in a new reservoir. Hydrobiologia 112: 27–39.
Ward, J. V., 1992. Aquatic insect ecology. 1. Biology and habitat. John Wiley & Sons, Inc., New York, 438 pp.
Warren, P. H., 1989. Spatial and temporal variation in the structure of a freshwater food web. Oikos 55: 299–311.
Wiens, J. A., J. F. Addicott, T. J. Case & J. Diamond, 1986. Overview: the importance of spatial and temporal scale in ecological investigations. In J. Diamond & T. J. Case (eds), Community ecology. Harper & Row, New York: 145–153.
Wright, J. F., 1992. Spatial and temporal occurence of invertebrates in a chalk stream, Berkshire, England. Hydrobiologia 248: 11–30.
Wright, J. F., P. D. Hiley, A. C. Cameron, M. E. Wigham & A. D. Berrie, 1983. A quantitative study of the macroinvertebrate fauna of five biotopes in River Lambourn, Berkshire, England. Arch. Hydrobiol. 96: 271–292.
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Oertli, B. Spatial and temporal distribution of the zoobenthos community in a woodland pond (Switzerland). Hydrobiologia 300, 195–204 (1995). https://doi.org/10.1007/BF00024461
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DOI: https://doi.org/10.1007/BF00024461