生物多样性 ›› 2010, Vol. 18 ›› Issue (6): 622-630. DOI: 10.3724/SP.J.2010.622
所属专题: 外来物种入侵:机制、影响与防控; 物种形成与系统进化; 生物入侵
收稿日期:
2010-06-19
接受日期:
2010-07-27
出版日期:
2010-11-20
发布日期:
2011-01-31
通讯作者:
冯玉龙
作者简介:
*E-mail: fyl@xtbg.ac.cn基金资助:
Yanbao Lei, Haifeng Xiao, Yulong Feng*()
Received:
2010-06-19
Accepted:
2010-07-27
Online:
2010-11-20
Published:
2011-01-31
Contact:
Yulong Feng
摘要:
越来越多的证据表明, 入侵植物能通过杂交和基因渐渗等对本地种造成遗传侵蚀, 甚至产生新的“基因型”来影响本地种的遗传多样性; 通过生境片断化, 改变本地种种群内和种群间的基因交流, 造成近亲繁殖和遗传漂变, 间接影响本地种的遗传多样性。另一方面, 本地种能对入侵植物做出适应性进化响应, 以减小或消除入侵植物的危害。本地种在与入侵植物的互作过程中产生了一系列的适应进化、物种形成以及灭绝事件, 且这些事件不仅局限于地上生态系统, 土壤生物多样性同样受到影响, 甚至也能发生进化响应。为更全面地了解外来植物入侵的生态后果和本地生物的适应潜力, 本文综述了外来植物入侵对本地(地上和地下)生物(遗传)多样性的影响以及本地生物的进化响应, 讨论了外来植物入侵导致的遗传和进化变化与其入侵性的关系, 并提出了一些值得研究的课题, 如土著种与外来种的协同进化、植物―土壤反馈调节途径和全球变化其他组分与生物入侵的关系等。
类延宝, 肖海峰, 冯玉龙 (2010) 外来植物入侵对生物多样性的影响及本地生物的进化响应. 生物多样性, 18, 622-630. DOI: 10.3724/SP.J.2010.622.
Yanbao Lei, Haifeng Xiao, Yulong Feng (2010) Impacts of alien plant invasions on biodiversity and evolutionary responses of native species. Biodiversity Science, 18, 622-630. DOI: 10.3724/SP.J.2010.622.
[1] |
Abbott RJ (1992) Plant invasions, interspecific hybridization and the evolution of new plant taxa. Trends in Ecology and Evolution, 7, 401-405.
DOI URL PMID |
[2] |
Anttila CK, King RA, Ferris C, Ayres DR, Strong DR (2000) Reciprocal hybrid formation of Spartina in San Francisco Bay. Molecular Ecology, 9, 765-770.
DOI URL PMID |
[3] |
Aplet GH (1990) Alteration of earthworm community biomass by the alien Myrica faya in Hawai’i. Oecologia, 82, 414-416.
DOI URL PMID |
[4] | Batten KM, Scow KM, Davies KF, Harrison SP (2006) Two invasive plants alter soil microbial community composition in serpentine grasslands. Biological Invasions, 8, 217-230. |
[5] | Belnap J, Phillips SL (2001) Soil biota in an ungrazed grassland: response to annual grass (Bromus tectorum) invasion. Ecological Applications, 11, 1261-1275. |
[6] | Biederman LA, Boutton T (2009) Biodiversity and trophic structure of soil nematode communities are altered following woody plant invasion of grassland. Soil Biology and Biochemistry, 41, 1943-1950. |
[7] | Bonkowski M (2004) Protozoa and plant growth: the microbial loop in soil revisited. New Phytologist, 162, 617-631. |
[8] | Bonkowski M, Cheng W, Griffiths BS, Alphei J, Scheu S (2000) Microbial-faunal interactions in the rhizosphere and effects on plant growth. European Journal of Soil Biology, 36, 135-147. |
[9] | Bossdorf O, Lipowsky A, Prati D (2008) Selection of preadapted populations allowed Senecio inaequidens to invade Central Europe. Diversity and Distributions, 14, 676-685. |
[10] |
Bradley BA, Blumenthal DM, Wilcove DS, Ziska LH (2010) Predicting plant invasions in an era of global change. Trends in Ecology and Evolution, 25, 310-318.
DOI URL PMID |
[11] | Callaway RM, Ridenour WM (2004) Novel weapons: invasive success and the evolution of increased competitive ability. Frontiers in Ecology and the Environment, 2, 436-443. |
[12] |
Callaway RM, Thelen GC, Rodriguez A, Holben WE (2004) Soil biota and exotic plant invasion. Nature, 427, 731-733.
DOI URL PMID |
[13] | Callaway RM, Ridenour WM, Laboski T, Weir T, Vivanco JM (2005) Natural selection for resistance to the allelopathic effects of invasive plants. Journal of Ecology, 93, 576-583. |
[14] | Carroll SP, Boyd C (1992) Host race radiation in the soapberry bug: natural history with the history. Evolution, 46, 1052-1069. |
[15] |
Carroll SP, Dingle H (1996) The biology of post-invasion events. Biological Conservation, 78, 207-214.
DOI URL |
[16] |
Castillo JM, Ayres DR, Leira-Doce P, Bailey J, Blum M, Strong DR, Luque T, Figueroa E (2010) The production of hybrids with high ecological amplitude between exotic Spartina densiflora and native S. maritima in the Iberian Peninsula. Diversity and Distributions, 16, 547-558.
DOI URL |
[17] |
Chen HL (陈慧丽), Li YJ (李玉娟), Li B (李博), Chen JK (陈家宽), Wu JH (吴纪华) (2005) Impacts of exotic plant invasions on soil biodiversity and ecosystem processes. Biodiversity Science (生物多样性), 13, 555-565. (in Chinese with English abstract)
DOI URL |
[18] |
Chen HL, Li B, Fang CM, Chen JK, Wu JH (2007) Exotic plant influences soil nematode communities through litter input. Soil Biology and Biochemistry, 39, 1782-1793.
DOI URL |
[19] | Chen YF (陈毅峰), Yan YZ (严云志) (2005) Evolutionary biology of invasions. Acta Hydrobiologica Sinica (水生生物学报), 29, 220-224. (in Chinese with English abstract) |
[20] |
D’Antonio CM, Kark S (2002) Impacts and extent of biotic invasions in terrestrial ecosystems. Trends in Ecology and Evolution, 17, 202-204.
DOI URL |
[21] |
Dennis N (2004) Expanding trade with China creates ecological backlash. Science, 306, 968-969.
DOI URL PMID |
[22] |
Dong M (董梅), Lu JZ (陆建忠), Zhang WJ (张文驹), Chen JK (陈家宽), Li B (李博) (2006) Canada goldenrod (Salodago canadensis): an invasive alien weed rapidly spreading in China. Acta Phytotaxonomica Sinica (植物分类学报), 44, 72-85. (in Chinese with English abstract)
DOI URL |
[23] |
Duda JJ, Freeman DC, Emlen JM, Belnap J, Kitchen SG, Zak JC, Sobek E, Tracy M, Montante J (2003) Differences in native soil ecology associated with invasion of the exotic annual chenopod, Halogeton glomeratus. Biology and Fertility of Soils, 38, 72-77.
DOI URL |
[24] | Feng YL, Lei YB, Wang RF, Callaway RM, Valiente-Banuet A, Inderjit, Li YP, Zheng YL (2009) Evolutionary tradeoffs for nitrogen allocation to photosynthesis versus cell walls in an invasive plant. Proceedings of the National Academy of Sciences, USA, 106, 1853-1856. |
[25] | Feng YL (冯玉龙), Liao ZY (廖志勇), Zhang R (张茹), Zheng YL (郑玉龙), Li YP (李扬苹), Lei YB (类延宝) (2009) Adaptive evolution in response to environmental gradients and enemy release in invasive alien plant species. Biodiversity Science (生物多样性), 17, 340-352. (in Chinese with English abstract) |
[26] |
Fitzpatrick BM, Johnson JR, Kump DK, Smith JJ, Voss SR, Shaffer HB (2010) Rapid spread of invasive genes into a threatened native species. Proceedings of the National Academy of Sciences, USA, 107, 3606-3610.
DOI URL |
[27] | French K, Major RE (2001) Effect of an exotic Acacia (Fabaceae) on ant assemblages in South African fynbos. Austral Ecology, 26, 303-310. |
[28] | Griffiths BS (1994) Microbial-feeding nematodes and protozoa in soil: their effect on microbial activity and nitrogen mineralization in decomposition hotspots and the rhizosphere. Plant and Soil, 164, 25-33. |
[29] |
He JS (贺金生), Wang ZQ (王政权), Fang JY (方精云) (2004) Issues and prospects of belowground ecology with special reference to global climate change. Chinese Science Bulletin (科学通报), 49, 1226-1233. (in Chinese)
DOI URL |
[30] |
Hierro JL, Maron JL, Callaway RM (2005) A biogeographical approach to plant invasions: the importance of studying exotics in their introduced and native range. Journal of Ecology, 93, 5-15.
DOI URL |
[31] |
Kiesecker JM, Blaustein AR (1997) Population differences in responses of red-legged frogs ( Rana aurora) to introduced bullfrogs. Ecology, 78, 1752-1760.
DOI URL |
[32] |
Kourtev PS, Ehrenfeld JG, Häggblom M (2002) Exotic plant species alter the microbial community structure and function in soil. Ecology, 83, 3152-3166.
DOI URL |
[33] |
Kourtev PS, Huang WZ, Ehrenfeld JG (1999) Differences in earthworm densities and nitrogen dynamics in soils under exotic and native plant species. Biological Invasions, 1, 237-245.
DOI URL |
[34] |
Kulmatiski A, Beard KH, Stevens JR, Cobbold SM (2008) Plant-soil feedbacks: a meta-analytical review. Ecology Letters, 11, 980-992.
DOI URL PMID |
[35] |
Lambdon PW (2008) Is invasiveness a legacy of evolution? Phylogenetic pattern in the alien flora of Mediterranean islands. Journal of Ecology, 96, 46-57.
DOI URL PMID |
[36] |
Lau JA (2006) Evolutionary responses of native plants to novel community members. Evolution, 60, 56-63.
URL PMID |
[37] |
Levine JM, Vilà M, D’Antonio CM, Dukes JS, Grigulis K, Lavorel S (2003) Mechanisms underlying the impacts of exotic plant invasions. Proceedings of the Royal Society of London-Series B: Biological Series, 270, 775-781.
DOI URL PMID |
[38] |
Levine JM, Pachepsky E, Kendall BE, Yelenik SG, Lambers JHR (2006) Plant-soil feedbacks and invasive spread. Ecology Letters, 9, 1005-1014.
DOI URL PMID |
[39] | Li B (李博), Hsu PS (徐炳声), Chen JK (陈家宽) (2001) Perspectives on general trends of plant invasions with special reference to alien weed flora of Shanghai. Biodiversity Science (生物多样性), 9, 446-457. (in Chinese with English abstract) |
[40] |
Li WH, Zhang CB, Jiang HB, Xin GR, Yang ZY (2006) Changes in soil microbial community associated with invasion of the exotic weed, Mikania micrantha H.B.K. Plant Soil, 281, 309-324.
DOI URL |
[41] |
Liu C (刘潮), Feng YL (冯玉龙), Tian YH (田耀华) (2007) Effects of Eupitorium adenophorum Sprengel invasion on soil enzyme activities and physical and chemical factors. Bulletin of Botanical Research (植物研究), 27, 729-735. (in Chinese with English abstract)
DOI URL |
[42] | MacDougall AS, Gilbert B, Levine JM (2009) Plant invasions and the niche. Journal of Ecology, 97, 609-615. |
[43] | Mack RN, Simberloff D, Lonsdale WM, Evans H, Clout M, Bazzaz FA (2000) Biotic invasions: causes, epidemiology, global consequences, and control. Ecological Applications, 10, 689-710. |
[44] | Mangla S, Inderjit, Callaway RM (2008) Exotic invasive plant accumulates native soil pathogens which inhibit native plants. Journal of Ecology, 96, 58-67. |
[45] | Maron JL, Vilà M, Bommarco R, Elmendorf S, Beardsley P (2004) Rapid evolution of an invasive plant. Ecological Monographs, 74, 261-280. |
[46] |
Maron JL, Elmendorf SC, Vilà M (2007) Contrasting plant physiological adaptation to climate in the native and introduced range of Hypericum perforatum. Evolution, 61, 1912-1924.
DOI URL PMID |
[47] | McMillan M, Wilcove D (1994) Gone but not forgotten: why have species protected by the Endangered Species Act become extinct? Endangered Species UPDATE, 11, 5-6. |
[48] | Mealor BA, Hild AL (2007) Post-invasion evolution of native plant populations: a test of biological resilience. Oikos, 116, 1493-1500. |
[49] |
Miller JR (2010) Survival of mutations arising during invasions. Evolutionary Applications, 3, 109-121.
URL PMID |
[50] |
Mitchell A, Romano GH, Groisman B, Yona A, Dekel E, Kupiec M, Dahan O, Pilpel Y (2009) Adaptive prediction of environmental changes by microorganisms. Nature, 460, 220-224.
URL PMID |
[51] | Mooney HA, Cleland EE (2001) The evolutionary impact of invasive species. Proceedings of the National Academy of Sciences, USA, 98, 5446-5451. |
[52] | Niu HB (牛红榜), Liu WX (刘万学), Wan FH (万方浩) (2007 a) Invasive effects of Ageratina adenophora Sprengel (Asteraceae) on soil microbial communities and physical properties. Acta Ecologica Sinica (生态学报), 27, 3051-3060. (in Chinese with English abstract) |
[53] |
Niu HB (牛红榜), Liu WX (刘万学), Wan FH (万方浩), Liu B (刘波) (2007b) Screening, identification, and antagonism assessment of dominant bacteria in Ageratina adenophora Sprengel rhizosphere soil. Chinese Journal of Applied Ecology (应用生态学报), 18, 2795-2800. (in Chinese with English abstract)
URL PMID |
[54] | Phillips BL, Shine R (2004) Adapting to an invasive species: toxic cane toads induce morphological change in Australian snakes. Proceedings of the National Academy of Sciences, USA, 101, 17150-17155. |
[55] | Prentis PJ, Wilson JRU, Dormontt EE, Richardson DM, Lowe AJ (2008) Adaptive evolution in invasive species. Trends in Plant Science, 13, 288-294. |
[56] | Ratsirarson H, Roberson HG, Picker MD, van Noort S (2002) Indigenous forests versus exotic eucalypt and pine plantations: a comparison of leaf-litter invertebrate communities. African Entomology, 10, 93-99. |
[57] | Rhymer JM, Simberloff D (1996) Extinction by hybridization and introgression. Annual Review of Ecology and Systematics, 27, 83-109. |
[58] |
Ridley CE, Ellstrand NC (2010) Rapid evolution of morphology and adaptive life history in the invasive California wild radish ( Raphanus sativus) and the implications for management. Evolutionary Applications, 3, 64-76.
DOI URL PMID |
[59] | Roane TM, Pepper IL (1999) Microbial responses to environmentally toxic cadmium. Microbial Ecology, 38, 358-364. |
[60] | Saggar S, McIntosh PD, Hedley CB, Knicher H (1999) Changes in soil microbial biomass, metabolic quotient, and organic matter turnover under Hieracium (H. pilosella L.). Biology and Fertility of Soils, 30, 232-238. |
[61] |
Sala OE, Chapin FS, Armesto JJ, Berlow E, Bloomfield J, Dirzo R, Huber-Sanwald E, Huenneke LF, Jackson RB, Kinzig A, Leemans R, Lodge DM, Mooney HA, Oesterheld M, Poff NL, Sykes MT, Walker BH, Walker M, Wall DH (2000) Global biodiversity scenarios for the year 2100. Science, 287, 1770-1774.
URL PMID |
[62] | Samways MJ, Caldwell PM, Osborn R (1996) Ground-living invertebrate assemblages in native, planted and invasive vegetation in South Africa. Agriculture, Ecosystems and Environment, 59, 19-32. |
[63] | Shao YH (邵元虎), Fu SL (傅声雷) (2007) The diversity and functions of soil nematodes. Biodiversity Science (生物多样性), 15, 116-123. (in Chinese with English abstract) |
[64] | Simberloff D (2009) The role of propagule pressure in biological invasions. Annual Review of Ecology Evolution and Systematics, 40, 81-102. |
[65] | Snow AA, Culley TM, Campbell LG, Sweeney PM, Hegde SG, Ellstand NC (2010) Long-term persistence of crop alleles in weedy populations of wild radish ( Raphamus raphanistrum). New Phytologist, 186, 537-548. |
[66] | Stinson KA, Campbell SA, Powell JR, Wolfe BE, Callaway RM, Thelen GC, Hallett SG, Prati D, Klironomos JN (2006) Invasive plant suppresses the growth of native tree seedlings by disrupting belowground mutualisms. PLoS Biology, 4, e 140. |
[67] | Vogelsang KM, Reynolds HL, Bever JD (2006) Mycorrhizal fungal identity and richness determine the diversity and productivity of a tallgrass prairie system. New Phytologist, 172, 554-562. |
[68] | Wan FH (万方浩), Guo JY (郭建英), Wang DH (王德辉) (2002) Alien invasive species in China: their damages and management strategies. Biodiversity Science (生物多样性), 10, 119-125. (in Chinese with English abstract) |
[69] | Wardle DA, Bardgett RD, Klironomos JN, Setälä H, van der Putten WH, Wall DH (2004) Ecological linkages between aboveground and belowground biota. Science, 304, 1629-1633. |
[70] |
Weidenhamer JD, Callaway RM (2010) Direct and indirect effects of invasive plants on soil chemistry and ecosystem function. Journal of Chemical Ecology, 36, 59-69.
URL PMID |
[71] | Whitney KD, Gabler CA (2008) Rapid evolution in introduced species, ‘invasive traits’ and recipient communities: challenges for predicting invasive potential. Diversity and Distributions, 14, 569-580. |
[72] | Wolfe BE, Klironomos JN (2005) Breaking new ground: soil communities and exotic plant invasion. BioScience, 55, 477-487. |
[73] | Xiang YC (向言词), Peng SL (彭少麟), Zhou HC (周厚诚), Fang W (方炜) (2001) Biological invasion and its impacts. Ecological Science (生态科学), 20, 69-72. (in Chinese with English abstract) |
[74] |
Zou JW, Rogers WE, DeWalt SJ, Siemann E (2006) The effect of Chinese tallow tree ( Sapium sebiferum) ecotype on soil-plant system carbon and nitrogen processes. Oecologia, 150, 272-281.
URL PMID |
[75] | Zuo P (左平), Liu CA (刘长安), Zhao SH (赵书河), Wang CH (王春红), Liang YB (梁玉波) (2009) Distribution of Spartina plantations along the China’s coast. Acta Oceanologica Sinica (海洋学报), 31, 101-111. (in Chinese with English abstract) |
[1] | 韩丽霞, 王永健, 刘宣. 外来物种入侵与本土物种分布区扩张的异同[J]. 生物多样性, 2024, 32(1): 23396-. |
[2] | 李庆多, 栗冬梅. 全球蝙蝠巴尔通体流行状况分析[J]. 生物多样性, 2023, 31(9): 23166-. |
[3] | 冯晨, 张洁, 黄宏文. 统筹植物就地保护与迁地保护的解决方案: 植物并地保护(parallel situ conservation)[J]. 生物多样性, 2023, 31(9): 23184-. |
[4] | 齐海玲, 樊鹏振, 王跃华, 刘杰. 中国北方六省区胡桃的遗传多样性和群体结构[J]. 生物多样性, 2023, 31(8): 23120-. |
[5] | 熊飞, 刘红艳, 翟东东, 段辛斌, 田辉伍, 陈大庆. 基于基因组重测序的长江上游瓦氏黄颡鱼群体遗传结构[J]. 生物多样性, 2023, 31(4): 22391-. |
[6] | 蒲佳佳, 杨平俊, 戴洋, 陶可欣, 高磊, 杜予州, 曹俊, 俞晓平, 杨倩倩. 长江下游外来生物福寿螺的种类及其种群遗传结构[J]. 生物多样性, 2023, 31(3): 22346-. |
[7] | 何艺玥, 刘玉莹, 张富斌, 秦强, 曾燏, 吕振宇, 杨坤. 梯级水利工程背景下的嘉陵江干流蛇鮈群体遗传多样性和遗传结构[J]. 生物多样性, 2023, 31(11): 23160-. |
[8] | 魏博, 刘林山, 谷昌军, 于海彬, 张镱锂, 张炳华, 崔伯豪, 宫殿清, 土艳丽. 紫茎泽兰在中国的气候生态位稳定且其分布范围仍有进一步扩展的趋势[J]. 生物多样性, 2022, 30(8): 21443-. |
[9] | 孙维悦, 舒江平, 顾钰峰, 莫日根高娃, 杜夏瑾, 刘保东, 严岳鸿. 基于保护基因组学揭示荷叶铁线蕨的濒危机制[J]. 生物多样性, 2022, 30(7): 21508-. |
[10] | 陶克涛, 白东义, 图格琴, 赵若阳, 安塔娜, 铁木齐尔·阿尔腾齐米克, 宝音德力格尔, 哈斯, 芒来, 韩海格. 基于基因组SNPs对东亚家马不同群体遗传多样性的评估[J]. 生物多样性, 2022, 30(5): 21031-. |
[11] | 崔静, 徐明芳, 章群, 李瑶, 曾晓舒, 李莎. 基于3种线粒体标记探讨中日沿海角木叶鲽遗传多样性差异[J]. 生物多样性, 2022, 30(5): 21485-. |
[12] | 刘艳杰, 黄伟, 杨强, 郑玉龙, 黎绍鹏, 吴昊, 鞠瑞亭, 孙燕, 丁建清. 近十年植物入侵生态学重要研究进展[J]. 生物多样性, 2022, 30(10): 22438-. |
[13] | 孙军, 宋煜尧, 施义锋, 翟键, 燕文卓. 近十年中国海洋生物多样性研究进展[J]. 生物多样性, 2022, 30(10): 22526-. |
[14] | 栗冬梅, 杨卫红, 李庆多, 韩茜, 宋秀平, 潘虹, 冯云. 巴尔通体在滇西南蝙蝠中高度流行并具有丰富的遗传变异特征[J]. 生物多样性, 2021, 29(9): 1245-1255. |
[15] | 严靖, 闫小玲, 李惠茹, 杜诚, 马金双. 华东地区归化植物的组成特征、引入时间及时空分布[J]. 生物多样性, 2021, 29(4): 428-438. |
阅读次数 | ||||||
全文 |
|
|||||
摘要 |
|
|||||
备案号:京ICP备16067583号-7
Copyright © 2022 版权所有 《生物多样性》编辑部
地址: 北京香山南辛村20号, 邮编:100093
电话: 010-62836137, 62836665 E-mail: biodiversity@ibcas.ac.cn