Advances on Biomanipulation in Control of Eutrophic Lakes
LIU Jing1, QIN Yu-jie1, Qiu Yan-lun2, PAN Wei-bin1
1 College of Environmental Science and Engineering, South China University of Technology, Guangzhou 510640, China; 2. Environmental Protection Agency of Huangpu district of Guangzhou, Guangzhou 510700, China
The eutrophication situation of Lakes is very severe all over the world. Recently, a bioremediation technology(biomanipulation) was developed and hoped to solve the problem. Biomanipulation aimed to manipulating the food web to improve water quality and reduce algae, etc. The review introduced advances on biomanipulation in control of eutrophic lakes, and explained the function of piscivores, planktivore, zooplankton, submerged macrophyte and bacteria in eutrophic aquatic ecosystem. Aimed at great different results of biomanipulation applications at present, some suggestions were also put forward for the work of our country in this field,such as eutrophic lake must be dealt with a kind of measure and combinated techniques according to one's own characteristic, etc.
刘晶1, 秦玉洁1, 丘焱伦2, 潘伟斌1. 生物操纵理论与技术在富营养化湖泊治理中的应用[J]. , 2005, 24(2): 188-192.
LIU Jing1, QIN Yu-jie1, Qiu Yan-lun2, PAN Wei-bin1. Advances on Biomanipulation in Control of Eutrophic Lakes. , 2005, 24(2): 188-192.
[2] Jzrgensen S E. 1999. State-of-the-art of ecological modelling with emphasis on development of structural dynamic models[J]. Ecological Modelling Volume, 120:75-96.
[3] Pouria S, Andrade A, Barbosa J, et al. 1998. Fatal microcystin intoxication in haemodialysis unit in Caruaru,Brazil[J]. Lancet, 352:21-26.
[4] Gilroy D J, Kauffman K W, Hall R A, et al. 2000. Assessing Potential Health Risks from Microcystin Toxins in Blue-Green Algae Dietary Supplements[J]. Environ Health Perspect, 108(5):435-439.
[7] Sarvala J, Helminen H, Vesa S, et al. 1997/1998. Relations between planktivorous fish abundance, zooplankton and phytoplankton in three lakes of differing productivity[J].Hydrobiologia, 363:81-95.
[8] Bergman E, Hamrin S F, Romare P. 1999. The effects of cyprinid reduction on the fish community[J]. Hydrobiologia,404:65-75.
[9] El-Shabrawy G M, Dumont H J. 2003. Spatial and seasonal variation of the zooplankton in the coastal zone and main khors of Lake Nasser(Egypt). Hydrobiologia, 491:119-132.
[10] Jacobsen L, Perrow M R, Landkildehus F, et al. 1997. Interactions between piscivores, zooplanktivores and zooplankton in submerged macrophytes:preliminary observations from enclosure and pond experiments[J].Hydrobiologia, 342/343:197-205.
[11] Beklioglu M, Ince O, Tuzun I. 2003. Restoration of the eutrophic Lake Eymir, Turkey, by biomanipulation after a major external nutrient control[J]. Hydrobiologia,490:93-105.
[12] Skov C, Lousdal O, Johansen P H, Berg S. 2003. Piscivory of 0+ pike(Esox lucius L.) in a small eutrophic lake and its implication for biomanipulation.[J] Hydrobiologia, 506(1-3):481-487.
[13] Seda J, Hejzlar J, Kubecka J. 2000. Trophic structure of nine Czech reservoirs regularly stocked with piscivorous fish[J].Hydrobiologia, 429(1/3):141-149.
[14] Matthes M. 2004.Low genotypic diversity in a Daphnia pulex population in a biomanipulated lake:The lack of vertical and seasonal variability[J]. Hydrobiologia,526(1):33-42.
[15] Eva B, Lars-Anders H, Gunnar A. 1999. Biomanipulation in a theoretical and historical perspective[J]. Hydrobiologia,404:53-58.
[16] Hakanson L. 2004. Break-through in predictive modelling opens new possibilities for aquatic ecology and management A review[J]. Hydrobiologia, 518:135-157.
[17] Pechurkin N S, Shirobokova I M. 2003. System analysis of links interactions and development of ecosystems of different types[J].Advances in Space Research, 31(7):1667-1674.
[18] McQueen D J. 1990. Manipulating lake community structure where do we go from here[J]. Freshwater Biol, 23:613-620.
[19] Muylaert K, Van G K,Vloemans N, et al. 2002. Relationship between bacterial community composition and bottom-up versus top-down variables in four eutrophic shallow lakes[J].Applied and Environmental Microbiology, 68(10):4740-4750.
[20] Pogozhev P I,Gerasimova T N. 2001. The Effect of Zooplankton on Microalgae Blooming and Water Eutrophication[J]. Water Resources, 07/08:420-427.
[21] J.Gonzalez Emesto. 2000. Nutrient enrichment and zooplankton effects on the phytoplankton community in microcosms from El Andino reservoir(Venezuela)[J].Hydrobiologia, 434:81-96.
[22] Xie P. 1996. Experimental studies on the role of planktivor o usfish es in the elimination of Mierocystis bloom from Donghu Lake using enclonsure method[J]. Chin J Oceanal Limnol, 14(3):193-204.
[24] Crisman T L, Reaver I R. 1990.Applicability of planktonic biomanipulation:for managing eutrophication in the subtrophics[J]. Hydrobilogia, 200/201:177-185
[26] Scheffer M. 1990. Multiplicity of stable states in freshwater systems[J]. Hydrobiologia, 200/201:475-486.
[27] Scheffer M, H Hosper, M L Meijer, et al. 1993. Alternative equilibria in shallow lakes[J]. Trends in Ecology and Evolution, 8:275-279.
[28] Lougheed V L, Chow-Fraser P. 2001. Spatial variability in the response of lower trophic levels after carp exclusion from a freshwater marsh[J]. Journal of Aquatic Ecosystem Stress and Recovery, 9(1):21-34.
[29] KOmer S, Dugdale T. 2003. Is roach herbivory preventing recolonization of submerged macrophytes in a shallow lake[J]? Hydrobiologia, 506-509:497-501.
[30] Tonno I, Kunnap H, Noges T 2003. The role of zooplankton grazing in the formation of ‘clear water phase' in a shallow charophyte-dominated lake[J]. Hydrobiologia, 506(1-3):353-358.
[31] Degans H, Meester L D. 2002. Top-down control of natural phytoand bacterioplankton prey communities by Daphnia magna and by the natural zooplankton community of the hypertrophic Lake Blankaart[J]. Hydrobiologia, 479:39-49.
[32] Arvola L, Salonen K. 2001. Plankton community of a polyhumic lake with and without Daphnia longispina(Cladocera)[J]. Hydrobiologia, 445:141-150.
[34] Nakamura N, Nakano K, Sugiura N, Matsumura M. 2002.Characterization of an algae-lytic substance secreted by Bacillus cereus, an indigenous bacterial isolate from Lake Kasumigaura[J]. Water Science and Technology, 46(11-12):257-262.
[35] Brooks JL, Dodson S I.1965. Predation, body size and the composition of plankton[J]. Science, 150:28-35.
[36] Shapiro J, Lamarra V, Lynch M.1975. Biomanipulation:an ecosystem approach to lake restoration[A].In P L Brezonik&J L Fox(eds), Proceedings of a Symposium on Water Quality Management through Biological Control[C].University of Florida:Gainesville. 85-96.
[37] Carpenter S R, Kitchell J F, Hodgson J R. 1985. Cascading trophyc interactions and lake produstivity[J]. Bio Science,35:634-639.
[38] McQueen D J,Post J R,Mills E L. 1986.Trophic relationships in freshwater pelagic ecosystems[J]. Can J Fish Aquat Sci,35:1571-1581.