生物入侵及其与全球变化的关系

摘要/Abstract

摘要： 生物入侵是一个影响深远的全球性问题,其对我国的生态系统、环境和社会经济的影响也日益明显。生物入侵不仅导致生态系统组成和结构的改变,而且能彻底改变生态系统的基本功能和性质,最终导致本地种的绝灭、群落多样性降低,并给社会经济造成重大损失。本文还分析了全球变化与当前生物入侵加剧的关系,由此提出加强对入侵种的预测和监控及立足于生态系统和整个社会来应对外来生物入侵的策略,以期对预防和控制我国外来生物入侵提供参考.

关键词: 耐药菌株, 小麦根际, 定殖动态

Abstract: Biological invasion has become an important element of global changes. It also has an obvious increasing impact on the evaded ecosystem, environment and social economy of China. Biological invasion not only leads to the conversion of the components and reconstructions of ecosystem, but also alters its basic functions and characteristcis, resulting in the extinction of native species and loss of community biodiversity, and causing significant damage to social economy as well. This paper also analysed the relation between global changes and the current quickened pace of biological invasion. Strategies were suggested to enhance the prediction and supervision of invasive species and cope with them based on the whole ecosystem and society, which will provide a powerful promotion in prediction and control of biological invasion.

Key words: Streptomycin resistance strain, Wheat rhizosphere, Colonizing dynamics

中图分类号:

S415.1

陈兵, 康乐. 生物入侵及其与全球变化的关系[J]. 生态学杂志, 2003, (1): 31-34.

CHEN Bing, KANG Le. Biological invasion and its relation with global changes[J]. cje, 2003, (1): 31-34.

参考文献

[1] 刘世骐.2001.森林昆虫和病原物的害与益[J] .中国森林病虫,1:30～33
[2] 宋玉双.2000.我国森林病虫害防治行业工作(1949～1999)大事记(1)[D] .森林病虫通讯,2:40～43.
[3] 何立平,等.2000.薇甘菊在深圳内伶仃岛外地区的分布及其危害[J] .广东林业科技,16(3):38～40.
[4] 康乐.1999.外来种入侵的生态学效应[A] .见:中国科学院.1999科学发展报告[C] .北京:科学出版社,126～110
[5] 强胜,曹学章.2001.外来杂草在我国的危害性及其管理对策[J] .生物多样性,9(2):188 195.
[6] Bergelson J, Crawley M. 1989. Can we expect mathematical models to guide biological control programmes: a comment based on case studies of weed control[J] . Com. Theor. Biol., 1:197～216.
[7] Braithwaite R W, et al. Alien vegetation and native biota in tropical Australia: the spread and impact of Mimosa pigra [J] . Biol.Conserv., 1989, 48:189～210.
[8] Burke M W, Grime J P. 1996. An experimental study of plant community invasibility[J] . Ecology, 77: 776～790.
[9] Canon R C. 1998. The implications of predicted climate change for insect pests in the UK, with emphasis on non-indigenous species[J] . Glob. Change Biol., 4: 785～796.
[10] Castello J D, et al. 1995. Pathogens, patterns, and processes in forest ecosystems[J] . Bioscience, 45:16～24.
[11] D'Antonio C M, Mahall B E. 1991. Root profiles and competition between the invasive, exotic perennial, Carpobortus edulis, and two native shrub species in California coastal scrub[J] . Amer. J.Bot., 78:885～894.
[12] D'Antonio C M, Vitousek P M. 1992. Biological invasion by exotic grasses, the grass/fire cycle, and global change [J] . Ann.Rev. Ecol. Syst ., 23:63～87.
[13] Dukes J S, Mooney H A. 1999. Does global change increase the success of biological invaders[J] ?. TREE, 14(4): 135～139.
[14] Elton C S. 1958. The Ecology of Invasions by Animals and Plants[M] . London: Methuen.
[15] Enserink M. 1999. Predicting invasions: Biological invaders sweep in[J] . Science, 285:1834～1836.
[16] Holway D A. 1999. Competitive mechanisms underlying the displacement of native ants by the invasive argentine ant[J] . Ecology,80(1):218～251.
[17] Human K G, Gordon D M. 1996. Exploitation and interference competition between the invasive Argentine ant, Linepithema humile, and native ant species[J] . Oecologia, 105:405～412.
[18] Jic Y, Li Z Y. 2001. Features of invasive species in China[J] .NASAP Newsletter, 5/6:16～22.
[19] Kaiser J. 1999. Fighting back:Stemming the tide of invading species[J] . Science, 285:1836～1841.
[20] Lee C E, Bell M A. 1999. Causes and consequences of recent freshwater invasions by saltwater animals [J] . TREE, 14 (7):284～288.
[21] Levine J M. 2000. Species diversity and biological invasions: relating local process to community pattern[J] . Science, 288:852～854.
[22] Lines J. 1995. The effects of climatic and land use changes on the insect vectors of human disease[A] . In: Harrington R, (eds). Insects in a Changing Environment [C] . Florida: Academic Press,158～175.
[23] Mack R N, et al. 2000. Biotic invasions: causes, epidemiology,global consequences, and control[J] . Ecol. Appl., 10 (3) :689～710.
[24] Millers E L, et al. 1993. Exotic species in the Great Lakes: A history of biotic crises and anthropogenic introductions[J] . J.Gt. Lakes Res., 19:1～54.
[25] Pimentel D, et al. 2000. Environmental and economic costs of non-indigenous species in the United States [J] . Bioscience, 50(1):53～64.
[26] Rahel F J. 2000. Homogenization of fish faunas across the United states[J] . Science, 288: 854～856.
[27] Office of Technology Assessment. 1993. Harmful non-indigenous species in the United States[R] . Washington DC:Office of Technology Assessment, US Congress.
[28] Rhymer J, Simberloff D. 1996. Extinction by hybridization and introgression[J] . Ann. Rev. Ecol. Syst., 27: 83～109.
[29] Roane M K, et al. 1986. Chestnut Blight, and other Endothia Disease, and the Genus Endothia [M] . American Phytopathological Society, St. Paul, Minnesota, USA.
[30] Ruesink J L, et al. 1995. Reducing the risks of nonindigenous species introductions[J] . Bioscience, 45 (7): 465～477.
[31] Savidge J A. 1987. Extinction of an island forest avi-fauna by an introduced snake[J] . Ecology, 68: 660～668.
[32] Stachowita J J, et al. 1999. Species diversity and invasion resistance in a marine ecosystem[J] . Science, 286:1577～1579.
[33] Sutherst R W. et al. 1995. Predicting insect distributions in a changed climate [A] . In: Harrington R, (eds). Insects in a Changing Environment [C] . Florida: Academic Press, 60～91.
[34] Thompson J D. 1991. The biology for an invasive plant[J] . Bioscience, 41:393～401.
[35] Venette R C, Hutchison W D. 1999. Assessing the risk of establishment by Pink Bollworm (Lepidoptera: Gelechiidae) in the Southeastern United States[J] . Environ. Entomol., 28 (3): 445～455.
[36] Vitousek P M, et al. 1997. Introduced species:a significant component of human-caused global change[J] . N. Z. J. Ecol., 21:1～16.
[37] Vitousek P M, et al. 1996. Biological invasions as global environmental changes[J] . Am. Sci., 84: 468～478.
[38] Vitousek P M, et al. 1987. Biological invasion by Myrica faya alters ecosystem development in Hawaii [J] . Science, 238: 802～804.
[39] Wallner W E. 1997. Global gypsy-the moth that gets around[A] . In: Britton K O, (eds). Exotic Pests of Eastern Forests[C] . Tennessee Exotic Pest Plant Council, USDA Forest Service, Nashville, TN. 663～70.
[40] White P S. 1997. Biodiversity and the exotic species threat[A] .In:Exotic Pests of Eastern Forests[C] . Tennessee Exotic Pest Plant Council, USDA Forest Service. Nashville. TN. 1～8