WU Zhenbin, QIU Dongru, HE Feng, FU Guiping, CHENG Shuiping, MA Jianmin. Effects of rehabilitation of submerged macrophytes on nutrient level of a eutrophic lake[J]. Chinese Journal of Applied Ecology, 2003, (8): 1351-1353.
[1] Anderson MR, Kalff J. 1988. Submerged aquatic macrophyte biomass in relation to sediment characteristics in ten temperate lakes. Freshwater Biol, 25:115~121 [2] Blindow I, Andersson G, Haregy A, et al. 1993. Long-term pattern of alternative stable states in two shallow eutrophic lakes. Fresh water Biol , 30:159~167 [3] China EPA(国家环保局)1989 Measuring and Analyzing Methods for Water and Wastewater. Beijing: China Environmental Science Press. (in Chinese) [4] Gliwicz ZM. 1992. Can ecological theory be used to improve water quality? Hydrobiologia, 243/244: 283~291 [5] Liu JK(刘建康),Xie P(谢平).1999.Unravelingthe enigma of the disappearance of water bloom from the East Lake of Wuhan.Resour Environ Yangtze Basin(长江流域资源与环境),8(3):312~319(in Chinese) [6] McQueen DJ, Johannes MRS, Post JR. 1989. Bottom-up and topdown impacts on freshwater pelagic community structure. Ecol Monog, 59(3): 289~309. [7] Moss B. 1990. Engineering and biological approaches to the restoration for eutrophication of shallow lakes in which aquatic plant communtities are important components. Hydrobiologia, 200/201: 367~377 [8] Phillips GL, Eminson D, Moss B. 1978. A mechanism to account for macrophyte decline in progressively eutrophicated freshwaters. Aqua Bot, 4:103~126. [9] Rattray MRC. 1991. Howad-Williams & J. M. A. Brown. Sediment and water as sources of nitrogen and phophorus for submerged rooted aquatic macrophytes. Aqua Bot, 40: 225~237 [10] Scheffer M. 1990. Multiplicity of stable states in freshwater systems. Hydrobiologia, 200/201: 475~487 [11] Scheffer M, van den Berg M, Breukelaar A, et al. 1994. Vegetated areas with clear water in turbid shallow lakes. Aqua Bot, 49: 193~196