Shostell JM,Williams BS. Habitat complexity as a determinate of benthic macroinvertebrate community structure in cypress tree reservoirs. Hydrobiologia,2007,575(1): 389-399.
[12]
Xie ZC,Tang T,Ma K et al. Influence of environmental variables on macroinvertebrates in a macrophyte-dominated Chinese lake,with emphasis on the relationships between macrophyte heterogeneity and macroinvertebrate patterns. Journal of Freshwater Ecology,2005,20(3): 503-512.
[13]
Cyr H,Downing JA. The abundance of phytophilous invertebrates on diferent species of submerged macrophytes. Freshwater Biology,1988,20(3): 365-374.
[14]
Crowder LB,Cooper WE. Habitat structural complexity and the interaction between bluegills and their prey. Ecology, 1982,63(6): 1802-1813.
[15]
Wiggins GB. Larvae of the North America caddisfly Genera (Trichoptera). 2nd ed. Toronto and Buffalo,New York: University of Toronto Press,1996.
[16]
Nolte U,Hoffmann T. Life cycle of Pseudodiamesa branickii (Chironomidae) in a small upland stream. Aquatic Ecology, 1993,26(2/3/4): 309-314.
[17]
Nelson WG. Experimental studies of selective predation on amphipods: consequences for amphipod distribution and abundance. Journal of Experimental Marine Biology and Ecology,1979,38(3): 225-245.
[18]
Coen LD,Hech KL,Abele LG. Experiments on competition and predation among shrimps of seagrass meadows. Ecology, 1981,62(6): 1484-1494.
[19]
Soszka GJ. Ecological relations between invertebrates and submerged macrophytes in the lake littoral. Ekologia Polska, 1975,23(3): 393-415.
[20]
Cherry DS,Guthrie RK. Significance of detritus or detritus-associated invertebrates to fish production in a new impoundment. Journal of the Fisheries Research Board of Canada,1975,32(10): 1799-1804.
Post JR,Cucin D. Changes in the benthic community of a small precambrian lake following the introduction of yellow perch,Perca flavescens. Canadian Journal of Fisheies and Aquatic Science,1984,41(10): 1496-1501.
[26]
Casellato S,Caneva F. Composition and distribution of bottom oligochaete fauna of a north Italian eutrophic lake (Lake Ledro). Hydrobiologia,1994,278(1/2/3): 87-92.
[27]
Gallepp GW. Chironomid influence on phosphorus release in sediment-water microcosms. Ecology,1979,60 (3): 547-556.
[28]
Fukuhara H,Sakamoto M. Enhancement of inorganic nitrogen and phosphate release from lake sediment by tubificid worms and chironomid larvae. Oikos,1987,48(3): 312-320.
Diggins TP,Snyder R. Three decades of change in the benthic macroinvertebrate community and water quality in the Buffalo River area of concern,1964-1993. Journal of Great Lakes Research,2003,29(4): 652-663.
[33]
Milbirnk G. An improved enviromental index based on the relative abundance of oligochaete species. Hydrobiologia, 1983,102(2): 89-97.
[34]
Dévai G,Moldován J. An attempt to trace eutrophication in a shallow lake using chironomids. Hydrobiologia,1983,103 (1): 169-175.
Tews J,Brose U,Grimm V et al. Animal species diversity driven by habitat heterogeneity/diversity: the importance of keystone structures. Journal of Biogeography,2004,31(1): 79-92.
[45]
Kitagawa N. A classification of Japanese lakes based on hypolimnetic oxygen and benthonic fauna. Japanese Journal of Limnology,1978,39: 1-8.
[46]
Gilinsky E. The role of fish predation and spatial heterogeneity in determining benthic community structure. Ecology, 1984,65(2): 455-468.
