[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 |