外来入侵植物与地下生态系统相互影响的研究进展

摘要/Abstract

摘要： 摘要：生物入侵已成为世界性的生态、经济问题，是人类当前面临的巨大挑战。作为入侵生物中一个重要组分的外来入侵植物，其入侵不仅改变了入侵地地上植物群落的多样性，而且对入侵地的地下生态系统也产生了深刻影响。国内外的生态学家对于外来植物的入侵虽已提出多个机制假说，但真正机理还未明确。近年来兴起的外来入侵植物与入侵地土壤生态过程相互影响的研究为外来植物入侵机理的揭示提供了新思路。本文从两个方面综述了近年来对外来入侵植物与入侵地地下生态系统相互作用的研究结果：（1）入侵植物与入侵地土壤微生物的相互影响：外来入侵植物可通过破坏土著植物与土壤微生物间的共生关系、分泌化感物质影响入侵地微生物群落结构和功能、逃避原产地土传天敌、改变入侵地的微生物群落结构进而间接改变土壤养分循环等途径实现入侵；（2）入侵植物与入侵地土壤养分的相互影响：主要是入侵植物与入侵地土壤氮、磷、钾等几种大量元素及其他元素之间的相互作用。在综述国内外研究的基础上，探讨了外来入侵植物入侵机理研究中存在的问题及未来的研究方向，以期为外来植物入侵的预防、控制与生境恢复提供依据。

关键词: 春节催花牡丹, 春节催花牡丹, 生态因子, 光合特性

Abstract: Abstract: The invasion of non-indigenous plants threatens the integrity of natural ecosystem and annually causes serious economic losses worldwide. Though several hypotheses have been proposed to explain the plant invasion, the mechanistic bases of the invasiveness of alien plants and invisibility of invaded communities are not well understood. For decades, the interactions of exotic plants with components of native ecosystem have focused on aboveground flora and fauna and neglected the interactions with belowground soil microbes and nutrient availability. With the development of biological invasion research, people have found soil microorganisms and nutrient cycling are closely connected with aboveground plant community and feedback exists among them. In this paper, we review some of recent research and ideas about the interaction between invasive plant species and underground ecological processes, concerning two aspects: (1) the interaction between invasive plants and soil microorganisms, approaches employed by exotic plants to invade successfully: degrading mutualism between native plants and soil microbe, affecting the structure and function of microbial community through allelopathy, escaping native soil-borne enemy, indirectly changing nutrient cycling with altered microbial community and the invasion facilitated by indigenous microbe. (2) the interaction between exotic plants and soil nutrient such as nitrogen (N), phosphate(P), potassium(K) and other nutrient elements. We propose that information gathered from previous research would have important implications for the restoration of native ecosystem.

张桂花,,彭少麟,李光义,李勤奋. 外来入侵植物与地下生态系统相互影响的研究进展[J]. 中国农学通报, 2009, 25(14): 246-251.

Zhang Guihua,, Peng Shaolin, Li Guangyi, Li Qinfen. Recent advances in the interaction between invasive plants and belowground ecosystem[J]. Chinese Agricultural Science Bulletin, 2009, 25(14): 246-251.

参考文献

[1] 向言词,彭少麟,饶兴权.植物外来种对土壤理化特性的影响[J].广西植物,2003,23(3):253-258.
[2] Williamson M, Fitter A. The varying success of invaders [J]. Ecology, 1996, 77(6):1661-1666.
[3] Levine J M, Vila M, D’Antono C M, et al. Mechanisms underlying the impacts of exotic plant invasions[J]. Proceedings. Biological Sciences, 2003, 270(1517): 775-781.
[4] Bever J D. Soil community feedback and the coexistence of competitors: conceptual frameworks and empirical tests[J]. New Phytologist, 2003, 157(3):465-473.
[5] Reinhart K O, and Callaway R M. Soil biota and invasive plants [J]. New Phytologist, 2006, 170(3):445-457.
[6] 牛红榜,刘万学,万方浩.紫茎泽兰(Ageratina adenophora)入侵对土壤微生物群落和理化性质的影响[J].生态学报, 2007, 27(7):3051-3060.
[7] Wardle D A, Bardgett R D, Klironomos J N, et al. Ecological linkages between aboveground and belowground biota[J]. Science, 2004, 304(5677):1629-1633.
[8] Wolfe B E, Klironomos J N. Breaking new ground: soil communities and exotic plant invasion [J]. Bioscience, 2005, 55(6):477-488.
[9] van der Putten W H. Biotic interactions in plant-pathogen associations. New York: CAB International, 2001.285-305.
[10] Klironomos J N. Feedback with soil biota contributes to plant rarity and invasiveness in communities [J]. Nature, 2002, 417(6884): 67-70.
[11] Vogelsang K M, Bever J D, Griswold M, et al. The use of mycorrhizal fungi in erosion control applications. Final Report for Caltrans. Sacramento: California Department of Transportation Contract No.65A0070, 2004. 150.
[12] Hawkes C V, Belnap J, D’Antonio C, et al. Arbuscular mycorrhizal assemblages in native plant roots change in the presence of invasive exotic grasses[J]. Plant and soil, 2006, 281(1-2):369-380.
[13] Stinson K A, Campbell S A, Powell J R, et al. Invasive plant suppresses the growth of native tree seedlings by disrupting belowground mutualisms[J]. Plos Biology, 2006, 4(5): e 140.
[14] Wolfe B E, Rodgers V L, Stinson K A, et al. The invasive plant Alliaria petiolata (garlic mustard) inhibits ectomycorrhizal fungi in its introduced range[J]. Journal of Ecology, 2008, 96(4): 777-783.
[15] Marler M J, Zabinski C A, Callaway R M. Mycorrhizae indirectly enhance competitive effects of an invasive forb on a native bunchgrass[J]. Ecology, 1999, 80(4):1180-1186.
[16] Callaway R M, Mahall B E, Wicks C, et al. Soil fungi and the effects of an invasive forb on grass:neighbor identity matters[J]. Ecology, 2003, 84(1):129-135.
[17] Nijjer S, Rogers W E, Lee C A, et al. The effects of soil biota and fertilization on the success of Sapium sebiferum [J]. Applied Soil Ecology, 2008, 38(1):1-11.
[18] Bais H P, Vepachedu R, Gilroy S, et al. Allelopathy and exotic plants: from molecules and genes to species interactions [J]. Science, 2003, 301(5638): 1377-80.
[19] Vivanco J M, Bais H P, Stermitz F R, et al. Biogeographical variation in community response to root allelochemistry: novel weapons and exotic invasion [J]. Ecology Letters, 2004, 7(4): 285-292.
[20] Callaway R M, Ridenour W M. Novel weapons: invasive success and the evolution of increased competitive ability [J]. Frontiers in Ecology and the Environment, 2004, 2(8): 436 - 443.
[21] 沈荔花,郭琼霞,林文雄,等.加拿大一枝黄花对土壤微生物区系的影响[J].中国农学通报,2007,23(4):323-327.
[22] Reinhart K O, Packer A, Van der Putten W H , et al. Plant-soil biota interactions and spatial distribution of black cherry in its native and invasive ranges[J]. Ecology Letters, 2003, 6(12):1046-1050.
[23] Reinhart K O, Royo A A, Van der Putten W H, et al. Soil feedback and pathogen activity in Prunus serotina throughout its native range[J]. Journal of Ecology, 2005, 93(5):890-898.
[24] Reinhart K O, Callaway R M. Soil biota facilitate exotic Acer invasions in Europe and north America[J]. Ecological Applications, 2004, 14(6):1737-1745.
[25] Van der Putten W H, Kowalchuk G A, Brinkman E P, et al. Soil feedback of exotic savanna grass relates to pathogen absence and mycorrhizal selectivity [J]. Ecology, 2007, 88(4): 978-988.
[26] Beckstead J, Parker I M. Invasiveness of Ammophila arenaria: Release from soil-borne pathogens? [J].Ecology, 2003, 84(11): 2824-2831.
[27] Eppinga M B, Rietkerk M, Dekker S C, et al. Accumulation of local pathogens: a new hypothesis to explain exotic plant invasions[J]. Oikos, 2006, 114(1):168-176.
[28] Hawkes C V, Wren I F, Herman D J, et al. Plant invasion alters nitrogen cycling by modifying the soil nitrifying community[J]. Ecology Letters, 2005, 8(9):976-985.
[29] Ashton I W, Hyatt L A, Howe K M, et al. Invasive species accelerate decomposition and litter nitrogen loss in a mixed deciduous forest [J]. Ecological Applications, 2005, 15(4):1263-1272.
[30] Zou J W, Rogers W E, DeWalt S J, et al. The effect of Chinese tallow tree (Sapium sebiferum) ecotype on soil-plant system carbon and nitrogen processes [J]. Oecologia, 2006, 150(2): 272-281.
[31] Ehrenfeld J G. Effects of exotic plant invasions on soil nutrient cycling processes [J]. Ecosystems, 2003, 6(6):503-523.
[32] Ehrenfeld J G, Scott N. Invasive species and the soil: effects on organisms and ecosystem processes [J]. Ecological Applications, 2001, 11(5):1259-1260.
[33] 吴天马,丁晖,刘志磊,等.外来入侵植物紫茎泽兰对土壤养分的影响[J].生态与农村环境学报,2007,23(2):94-96.
[34] Howard T G, Gurevitch J, Hyatt L, et al. Forest invasibility in communities in southeastern New York [J]. Biological Invasions, 2004, 6(4): 393-410.
[35] 陈慧丽,李玉娟,李博,等.外来植物入侵对土壤生物多样性和生态系统过程的影响[J].生物多样性,2005,13(6):555-565.
[36] D’Antonio C M, Corbin J D. Models in ecosystem science. Princeton: Princeton University Press, 2003.363-384.
[37] Walker L R, Vitousek P M. An invader alters germination and growth of a native dominant tree in Hawaii [J]. Ecology, 1991, 72(4): 1449-1455.
[38] Rice S K, Westerman B, Federici R. Impacts of the exotic, nitrogen-fixing black locust (Robinia pseudoacacia) on nitrogen-cycling in a pine-oak ecosystem[J]. Plant Ecology, 2004, 174(1): 97-107.
[39] Wolf J J, Beattyand S W, Seastedt T R. Soil characteristics of Rocky Mountain National Park grasslands invaded by Melilotus officinalis and M. alba[J]. Journal of Biogeography, 2004, 31(3): 415-424.
[40] 刘彦随,陈百明.中国可持续发展问题与土地利用/覆盖变化研究[J].地理研究,2002,21(5):324-330.
[41] 胡克伟,肇雪松,关连珠,等.水稻土中硅磷元素的存在形态及其相互影响研究[J].土壤通报,2002,33(4):272-274.
[42] Suding K N, LeJeune K D, Seastedt T R. Competitive impacts and responses of an invasive weed: dependencies on nitrogen and phosphorus availability[J]. Oecologia, 2004, 141(3):526-535.
[43] Evans R D, Belnap J. Long-term consequences of disturbance on nitrogen dynamics in an arid ecosystem [J]. Ecology, 1999, 80(1):150-160.
[44] Brewer J S, Cralle S P. Phosphorus addition reduces invasion of longleaf pine savanna (Southeastern USA) by a non-indigenous grass (Imperata cylindrica) [J]. Plant Ecology, 2003, 167(2): 237-245.
[45] Barger N N, D’Antonio C M, Ghneim T, et al. Constraints to colonization and growth of the African grass, Melinis minutiflora in a Venezuelan savanna[J]. Plant Ecology, 2003, 167(1): 31-43.
[46] Collins A R. Implications of plant diversity and soil chemical properties for Cogongrass (Imperata cylindrical) invasion in northwest Florida. Ph.D. dissertation, 2005, University of Florida, Gainesville, FL, USA.
[47] Duda J J, Freeman D C, Emlen J M, et al. Differences in native soil ecology associated with invasion of the exotic annual chenopod, Halogeton glomeratus[J]. BiolFertilSoils, 2003, 38(2):72-77.
[48] Blank R B, Rene´ Sforza. Plant-soil relationships of the invasive annual grass Taeniatherum caput-medusae: a reciprocal transplant experiment[J]. Plant Soil, 2007, 298(1-2):7-19.
[49] Davis M A, Grime J P, Thompson K. Fluctuating resources in plant communities: a general theory of invasibility[J]. Journal of Ecology, 2000, 88(3): 528-534.
[50] Van der Putten W H, Klironomos J N,Wardle D A. Microbial ecology of biological invasions[J]. The ISME Journal, 2007, 1(1):28-37.
[51] 徐汝梅.生物入侵理论与实践.北京:科学出版社,2003:1-2.