A field experiment was conducted using ceramic plates as experimental substrates to describe the colonizing pattern of a stream invertebrate community after disturbance, and to ascertain the importance of colonizing ability for succession in a Japanese stream. We employed the simultaneous removal design in which plates were periodically set in place (1, 2, 4, 8, 16 and 32 days before sampling) and all plates were sampled on the last day of the experiment, to diminish the influence of seasonal change in stream invertebrates. Total abundance and taxon richness reached a plateau after 4–16 days of colonization. In contrast, the relative abundance of six common taxa and community structure changed throughout the 32 days of colonization. Differences in the colonizing ability of the stream invertebrates were evident. Taxa with high mobility, such as the mayflies Baetis thermicus, Paraleptophlebia japonica, Cinygmula sp. and Drunella sachalinensis, colonized faster than those with low mobility (e.g. the caddisfly species Brachycentrus americanus and the chironomid midge Diamesinae spp.). The abundance of the most common taxon, Baetis, decreased at late stages of colonization, possibly because of low periphyton biomass. Consequently, we concluded that a difference in colonization ability among taxa is an important factor causing succession in stream invertebrate communities in local habitats.
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References
Booth D. J. & Brosnan D. M. (1995) The role of recruitment dynamics in rocky shore and coral fish communities. Advances in Ecological Research 26: 309–385.
Ciborowski J. J. H. & Clifford H. F. (1985) Short-term colonizing pattern of lotic macroinvertebrates. Canadian Journal of Fisheries and Aquatic Sciences 41: 1626–1633.
Clements F. E. (1916) Plant Succession: Analysis of the Development of Vegetation. Publication No. 242. Carnegie Institute of Washington, Washington.
Doeg T. J., Lake P. S. & Marchant R. (1989) Colonization of experimentally disturbed patches by stream macroinvertebrates in the Acheron River, Victoria. Australian Journal of Ecology 14: 207–220.
Downes B. J. & Lake P. S. (1991) Different colonization patterns of two closely related stream insects (Austrosimulium spp.) following disturbance. Freshwater Biology 26: 295–306.
Hayashi F. (1991) Dynamic relations within and between populations of stream insect communities. Biological Science 43: 1–13 (in Japanese).
Kohler S. L. (1985) Identification of stream drift mechanisms: an experimental and observational approach. Ecology 66: 1749–1761.
Kohler S. L. (1992) Competition and the structure of a benthic stream community. Ecological Monographs 62: 165–188.
Lake P. S. (2000) Disturbance, patchiness, and diversity in streams. Journal of the North American Benthological Society 19: 573–592.
Lake P. S. & Doeg T. J. (1985) Macroinvertebrate colonization of stones in two upland southern Australian streams. Hydrobiologia 126: 199–211.
Mackay R. J. (1992) Colonization by lotic macroinvertebrates: a review of processes and patterns. Canadian Journal of Fisheries and Aquatic Sciences 49: 617–628.
Matthaei C. D., Uehlinger U. & Frutiger A. (1997) Response of benthic invertebrates to natural versus experimental disturbance in a Swiss prealpine river. Freshwater Biology 37: 61–77.
Matthaei C. D., Uehlinger U., Meyer E. & Frutiger A. (1996) Recolonization by benthic invertebrates after experimental disturbance in a Swiss prealpine river. Freshwater Biology 35: 23–248.
Merritt R. W. & Cummins K. W. (eds) (1996) An Introduction to the Aquatic Insects of North America, 3rd edn. Kendall/Hunt Publishing Co, Dubuque.
Miyake Y. & Nakano S. (2002) Effects of substratum stability on diversity of stream invertebrates during baseflow at two spatial scales. Freshwater Biology 47: 219–230.
Miyazaki T., Tanaka Y., Araya T. (1991) Discharge stability by large storage of groundwater in the Horonai basin of the Tarumae volcanic area. Transactions of the Meeting in Hokkaido Branch of Japanese Forestry Society 39: 181–184 (in Japanese).
Morin P. J. (1999) Community Ecology. Blackwell Science, Oxford.
Nakano S., Miyasaka H. & Kuhara N. (1999) Terrestrial–aquatic linkages: riparian arthropod alter trophic cascades in a stream food web. Ecology 80: 2435–2441.
Otto C. & Sjöström P. (1986) Behaviour of drifting insect larvae. Hydrobiologia 131: 77–86.
Pickett S. T. A. & White P. S. (eds) (1985) The Ecology of Natural Disturbance and Patch Dynamics. Academic Press, New York.
Resh V. H., Brown A. V., Covich A. P., Gurtz M. E., Li H. W., Minshall G. W., Reice S. R., Sheldon A. L., Wallace J. B. & Wissmar R. C. (1988) The role of disturbance in stream ecology. Journal of the North American Benthological Society 7: 433–455.
Sakuma T. (1987) Characterization of soil in the Tomakomai Experimental Forest: especially on the characteristics of the organic horizons and their alteration following the partial cutting. Research Bulletins of the Hokkaido University Forests 44: 749–760 (in Japanese with English summary).
Shaw D. W. & Minshall G. W. (1980) Colonization of an introduced substrate by stream macroinvertebrates. Oikos 34: 259–271.
Sheldon A. L. (1984) Colonization dynamics of aquatic insects. In: The Ecology of Aquatic Insects (ed. V. H. Resh & D. M. Rosenberg) pp. 401–429. Praeger Publishers, New York.
Sokal R. R. & Rohlf F. J. (1995) Biometry, 3rd edn. Freeman, New York.
Tanida K., Mitsuhashi H. & Fujitani T. (1999) A simple acrylate fiber sampler for stream periphyton. Japanese Journal of Limnology 60: 619–624 (in Japanese with English summary).
Tanida K., Yamashita K. & Rossiter A. (1985) A portable current meter for field use. Japanese Journal of Limnology 46: 219–221.
Townsend C. R. & Hildrew A. G. (1976) Field experiments on the drifting, colonization and continuous redistribution of stream benthos. Journal of Animal Ecology 45: 759–772.
UNESCO (1966) The SCOR–UNESCO working group on photosynethetic pigments. In: Monograph on Oceanographic Methodology, No.1, Report of SCOR–UNESCO working group 17. p 69. UNESCO, Paris.
Urabe H. & Nakano S. (1998) Contribution of woody debris to trout habitat modification in small stream in secondary deciduous forest, northern Japan. Ecological Research 13: 335–345.
Voelz N. J. & Ward J. V. (1996) Microdistributions of filter-feeding caddisflies (Insecta: Trichoptera) in a regulated Rocky Mountain river. Canadian Journal of Zoology 74: 654–666.
Walker L. A. & Chapin F. S. III (1987) Interactions among processes controlling successional change. Oikos 50: 131–135.
Wiley M. J. & Kohler S. L. (1981) An assessment of biological interactions in an epilithic stream community using time-lapse cinematography. Hydrobiologia 78: 183–188.
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Shigeru Nakano - deceased 27 March 2000.
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Miyake, Y., Hiura, T., Kuhara, N. et al. Succession in a stream invertebrate community: A transition in species dominance through colonization. Ecol Res 18, 493–501 (2003). https://doi.org/10.1046/j.1440-1703.2003.00573.x
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DOI: https://doi.org/10.1046/j.1440-1703.2003.00573.x