Plant Diversity ›› 2023, Vol. 45 ›› Issue (03): 353-357.DOI: 10.1016/j.pld.2022.09.004
• Short communications • Previous Articles Next Articles
Qinfeng Guoa, Hong Qianb, Jian Zhangc
Received:
2022-05-04
Revised:
2022-09-13
Online:
2023-07-06
Contact:
Qinfeng Guo,E-mail:qinfeng.guo@usda.gov
Supported by:
Qinfeng Guoa, Hong Qianb, Jian Zhangc
通讯作者:
Qinfeng Guo,E-mail:qinfeng.guo@usda.gov
基金资助:
Qinfeng Guo, Hong Qian, Jian Zhang. Does regional species diversity resist biotic invasions?[J]. Plant Diversity, 2023, 45(03): 353-357.
Qinfeng Guo, Hong Qian, Jian Zhang. Does regional species diversity resist biotic invasions?[J]. Plant Diversity, 2023, 45(03): 353-357.
[1] Batt, R.D., Morley, J.W., Selden, R.L., et al., 2017. Gradual changes in range size accompany long-term trends in species richness. Ecol. Lett. 20, 1148-1157. [2] Beaury, E.M., Finn, J.T., Corbin, J.D., et al., 2019. Biotic resistance to invasion is ubiquitous across ecosystems of the United States. Ecol. Lett. 23, 476-482. [3] Brown, J.H., 1984. On the Relationship between Abundance and Distribution of Species. Am. Nat. 124, 255-279. [4] Brown, R.L., Peet, R.K., 2003. Diversity and invasibility of southern Appalachian plant communities. Ecology 84, 32-39. [5] Burns, K., 2016. Native-exotic richness relationships:a biogeographic approach using turnover in island plant populations. Ecology 97, 2932-2938. [6] Byrne, K.M., Lauenroth, W.K., McManus, L., 2010. Impacts of nonnative plant species on production and diversity in the front range of Colorado. Western N. Am. Nat. 70, 288-295. [7] Charkevicz, S., 1985-1996. Plantae vasculares orientis extremi Sovietici, vols. 1-8, Nauka, Leningrad, Russia. [8] Chen, H., Qian, H., Spyreas, G., et al., 2010. Native-exotic species richness relationships across spatial scales and biotic homogenization in wetland plant communities of Illinois, USA. Divers. Distrib. 16, 737-743. [9] Chen, S., Chen, Z., Huang, W., et al., 2021. Explaining the geographic pattern of plant invasion in 67 nature reserves in China. Frontiers Ecol. Evol. 9, 655313. [10] Eeley, H.A., Foley, R.A., 1999. Species richness, species range size and ecological specialisation among African primates:geographical patterns and conservation implications. Biodiv. Conser. 8, 1033-1056. [11] Grubov, V.I., 2001. Key to the vascular plants of Mongolia. Science Publishers, Enfield, New Hampshire. [12] Guo, Q., 2015. No consistent small-scale native-exotic relationships. Plant Ecol. 216, 1225-1230. [13] Guo, Q., 2022a. Scale dependency in native-exotic richness relationships revisited. Ecol. Evol. 12 e8549. [14] Guo, Q., Fei, S., Potter, K.M., et al., 2019. Tree diversity regulates forest pest invasion. Proc. Natl. Acad. Sci. U.S.A. 116, 7382-7386. [15] Guo, Q., H. Qian, J. Zhang, 2022b. On the relationship between species diversity and range size. J. Biogeogr. DOI:10.1111/jbi.14477. [16] Guo, Q., Qian, H., Ricklefs, R.E., et al., 2006. Distributions of exotic plants in eastern Asia and North America. Ecol. Lett. 9, 827-834. [17] Heberling, M.J., Jo, I., Kozhevnikov, A., et al., 2017. Biotic interchange in the Anthropocene:strong asymmetry in East Asian and eastern North American plant invasions. Global Ecol. Biogeogr. 26, 447-458. [18] Kartesz, J.T., 1999. A synonymized checklist and atlas with biological attributes for the vascular flora of the United States, Canada, and Greenland. In:Kartesz, T.T., Meacham, C.A. (Eds.), Synthesis of the North American flora, version 1.0. North Carolina Botanical Garden, Chapel Hill, North Carolina. [19] Krasnoborov, I., Peschkova, G.A., Malyschev, L., et al., 1988-1997. Flora of Siberiae, vols. 1-14, Nauka, Novosibirsk, Russia. [20] Lee, T.-B., 1980. Illustrated Flora of Korea. Hyangmunsa, Seoul, 990pp. Korea. [21] Lee, W.-T., 1996. Lineamenta florae Koreae. Academic Publishers, Seoul. [22] Legault, G., Bitters, M.E., Hastings, A., et al., 2020. Interspecific competition slows range expansion and shapes range boundaries. Proc. Natl. Acad. Sci. U.S.A. 117, 26854-26860. [23] Li, Y., Wilcove, D.S., 2005. Threats to vertebrate species in China and the United States. BioScience 55, 147-153. [24] MacArthur, R.H., Wilson, E.O., 1967. The theory of island biogeography. Princeton University Press, Princeton, New Jersey. [25] Peng, S., Kinlock, N.L., Gurevitch, J., et al., 2019. Correlation of native and exotic species richness:a global meta-analysis finds no invasion paradox across scales. Ecology 100, e02552. [26] Qian, H., 2002. A comparison of the taxonomic richness of temperate plants in East Asia and North America. Am. J. Bot. 89, 1818-1825. [27] Qian, H., Ricklefs, R.E., 2000. Large-scale processes and the Asian bias in species diversity of temperate plants. Nature 407, 180-182. [28] Rejmanek, M., 1996. Species richness and resistance to invasions. In:Orians, GH, Dirzo, R., Cushman, J.H. (Eds.), Biodiversity and Ecosystem Processes in Tropical Forests. Springer, Berlin, Germany, pp. 153-172. [29] Rejmanek, M., 2003. The rich get richer-responses. Front. Ecol. Environ. 1, 122-123. [30] Ri, J.-D., Hoang, H.-D., 1984. Dictionary of Plant Names. Goahakbaekgoasadzon-Tschulpansa, Pyongyang, North Korea. [31] Ricklefs, R.E., Guo, Q.F., Qian, H., 2008. Growth form and distribution of introduced plants in their native and non-native ranges in Eastern Asia and North America. Divers. Distrib. 14, 381-386. [32] SAS Institute, 2014. SAS 9.4 Output Delivery System:User's Guide. SAS institute. [33] Shea, K., Chesson, P., 2002. Community ecology theory as a framework for biological invasions. Trends Ecol. Evol. 17, 170-176. [34] Stohlgren, T.J., Barnett, D.T., Kartesz, J.T., 2003. The rich get richer:patterns of plant invasions in the United States. Front. Ecol. Environ. 1, 11-14. [35] Storch, D., Bohdalkova, E., Okie, J., 2018. The more-individuals hypothesis revisited:the role of community abundance in species richness regulation and the productivity-diversity relationship. Ecol. Lett. 21, 920-937. [36] Tomasetto, F., Duncan, R.P., Hulme, P.E., 2019. Resolving the invasion paradox:pervasive scale and study dependence in the native-alien species richness relationship. Ecol. Lett. 22, 1038-1046. [37] Tutin, T.G., Heywood, V.H., Burges, N.A., et al., 1964-1980. Flora Europaea, vols. 1-5 Cambridge University Press, Cambridge. [38] Williamson, M., 1996. Biological Invasions. Springer, New York. [39] Williamson, M., Fitter, A., 1996. The varying success of invaders. Ecology 77, 1661-1666. [40] Winter, M., Kuhn, I., La Sorte, F.A., et al., 2010. The role of non-native plants and vertebrates in defining patterns of compositional dissimilarity within and across continents. Global Ecol. Biogeogr. 19, 332-342. [41] Wu, Z., Raven, P.H., Hong, D., 1994-2003. Flora of China. Vols. 2-25, Science Press, Beijing and Missouri Botanical Garden Press, St. Louis, Missouri. |
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