Plant Diversity ›› 2023, Vol. 45 ›› Issue (01): 20-26.DOI: 10.1016/j.pld.2022.05.006
• Articles • Previous Articles Next Articles
Li-Guo Zhanga, Xiao-Qian Lib, Wei-Tao Jina, Yu-Juan Liua, Yao Zhaoa, Jun Ronga, Xiao-Guo Xianga
Received:
2022-01-27
Revised:
2022-05-21
Online:
2023-02-23
Contact:
Xiao-Guo Xiang,E-mail:xiangxg2010@163.com
Supported by:
Li-Guo Zhanga, Xiao-Qian Lib, Wei-Tao Jina, Yu-Juan Liua, Yao Zhaoa, Jun Ronga, Xiao-Guo Xianga
通讯作者:
Xiao-Guo Xiang,E-mail:xiangxg2010@163.com
基金资助:
Li-Guo Zhang, Xiao-Qian Li, Wei-Tao Jin, Yu-Juan Liu, Yao Zhao, Jun Rong, Xiao-Guo Xiang. Asymmetric migration dynamics of the tropical Asian and Australasian floras[J]. Plant Diversity, 2023, 45(01): 20-26.
Li-Guo Zhang, Xiao-Qian Li, Wei-Tao Jin, Yu-Juan Liu, Yao Zhao, Jun Rong, Xiao-Guo Xiang. Asymmetric migration dynamics of the tropical Asian and Australasian floras[J]. Plant Diversity, 2023, 45(01): 20-26.
[1] Ali, J.R., Heaney, L.R., 2021. Wallace's line, Wallacea, and associated divides and areas:history of a tortuous tangle of ideas and labels. Biol. Rev. Camb. Phil. Soc. 96, 922-942 [2] Byrne, M., Steane, D.A., Joseph, L., et al., 2011. Decline of a biome:evolution, contraction, fragmentation, extinction and invasion of the Australian mesic zone biota. J. Biogeogr. 38, 1635-1656 [3] Carrillo, J.D., Faurby, S., Silvestro, D., et al., 2020. Disproportionate extinction of South American mammals drove the asymmetry of the Great American biotic interchange. Proc. Natl. Acad. Sci. U.S.A. 117, 26281-26287 [4] Crayn, D.M., Costion, C., Harrington, M.G., 2015. The Sahul-Sunda floristic exchange:dated molecular phylogenies document Cenozoic intercontinental dispersal dynamics. J. Biogeogr. 42, 11-24 [5] Crisp, M.D., Cook, L.G., 2013. How was the Australian flora assembled over the last 65 million years? A molecular phylogenetic perspective. Annu. Rev. Ecol. Evol. Syst. 44, 303-324 [6] de Boer, A.J., Duffels, J.P., 1996. Historical biogeography of the cicadas of Wallacea, new Guinea and the west pacific:a geotectonic explanation. Palaeogeogr. Palaeoclimat. Palaeoecol. 124, 153-177 [7] de Bruyn, M.D., Stelbrink, B., Morley, R.J., et al., 2014. Borneo and Indochina are major evolutionary hotspots for Southeast Asian biodiversity. Syst. Biol. 63, 879-901 [8] Donoghue, M.J., Smith, S.A., 2004. Patterns in the assembly of temperate forests around the Northern Hemisphere. Philos. Trans. R. Soc. Lond. B Biol. Sci. 359, 1633-1644 [9] Drummond, A.J., Suchard, M.A., Xie, D., et al., 2012. Bayesian phylogenetics with BEAUti and the BEAST 1.7. Mol. Biol. Evol. 29, 1969-1973 [10] Gorog, A.J., Sinaga, M.H., Engstrom, M.D., 2004. Vicariance or dispersal? Historical biogeography of three Sunda shelf murine rodents (Maxomys surifer, Leopoldamys sabanus and Maxomys whiteheadi). Biol. J. Linn. Soc. 81, 91-109 [11] Grudinski, M., Wanntorp, L., Pannell, C.M., et al., 2014. West to east dispersal in a widespread animal-dispersed woody angiosperm genus (Aglaia, Meliaceae) across the Indo-Australian Archipelago. J. Biogeogr. 41, 1149-1159 [12] Hall, R., 1998. The plate tectonics of Cenozoic SE Asia and the distribution of land, in:Hall, R., Holloway, J.D. (eds.), Biogeography and Geological Evolution of SE Asia. The Netherlands:Backhuys Publishers, Leiden, pp. 99-131 [13] Hall, T.A., 1999. BioEdit:a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucleic Acids Symp. Ser. 41, 95-98 [14] Hall, R., 2002. Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific:computerbased reconstructions, model and animations. J. Asian Earth Sci. 20, 353-434 [15] Hall, R., 2011. Australia-SE Asia collision:plate tectonics and crustal flow. Geol. Soc. Spec. Publ. 355, 75-109 [16] Hall, R., 2012. Sundaland and Wallacea:geology, plate tectonics and palaeogeography. In:Gower, D.J., Johnson, K.G., Richardson, B.R. (Eds.), et al., Biotic evolution and environmental change in Southeast Asia. The Systematics Association, Cambridge University Press, pp. 32-78 [17] Hall, R., 2013. The palaeogeography of Sundaland and Wallacea since the late jurassic. J. Limnol. 72, 1-17 [18] Hooker, J.D.S., 1859. On the Flora of Australia, its Origin, Affinities and Distribution; Being an Introductory Essay to the Flora of Tasmania. Lovell Reeve, London [19] James, N.A., Matteson, D.S., 2014. ecp:an R package for nonparametric multiple change point analysis of multivariate data. J. Stat. Software 62, 1-25 [20] Jaramillo, C., 2018. Evolution of the Isthmus of Panama:biological, palaeoceanographic and palaeoclimatological implications, in:Hoorn, C.P.A., Antonelli, A. (eds.), Mountains, Climate and Biodiversity, John Wiley and Sons, New Jersey, pp. 323-338 [21] Jiang, D.C., Sebastian, K., Zhang, Y.P., et al., 2019. Asymmetric biotic interchange across the Bering land bridge between Eurasia and North America. Natl. Sci. Rev. 6, 739-745 [22] Klaus, S., Morley, R.J., Plath, M., et al., 2016. Biotic interchange between the Indian subcontinent and mainland Asia through time. Nat. Commun. 7, 12132 [23] Lieberma, B.S., 2005. Geobiology and paleobiogeography:tracking the coevolution of the Earth and its biota. Palaeogeogr. Palaeoclimat. Palaeoecol. 219, 23-33 [24] Liu, B., Le, C.T., Barrett, R.L., et al., 2018. Historical biogeography of Loranthaceae (Santalales):diversification agrees with emergence of tropical forests and radiation of songbirds. Mol. Phylogenet. Evol. 124, 199-212 [25] Lohman, D.J., de Bruyn, M., Page, T., et al., 2011. Biogeography of the Indo-Australian archipelago. Annu. Rev. Ecol. Evol. Syst. 42, 205-226 [26] Lomolino, M.V., Riddle, B.R., Brown, J.H., 2006. Biogeography (3th edition). Sinauer Associates, Inc. Publishers, Sunderland (Massachusetts) [27] Maddison, W.P., Maddison, D.R., 2014. Mesquite:a modular system for evolutionary analysis. Version 3.01.[online]. Available at:http://mesquiteproject.org [28] Manchester, S.R., Tiffney, B.H., 2001. Integration of paleobotanical and neobotanical data in the assessment of phytogeographic history of Holarctic angiosperm clades. Int. J. Plant Sci. 162, S19-S27 [29] Manchester, S.R., Chen, Z.D., Lu, A.M., et al., 2009. Eastern Asian endemic seed plant genera and their paleogeographic history throughout the Northern Hemisphere. J. Systemat. Evol. 47, 1-42 [30] Metcalfe, I., 1998. Palaeozoic and Mesozoic geological evolution of the SE Asian region:multidisciplinary constraints and implications for biogeography, in:Hall, R., Holloway, J.D. (eds.), Biogeography and Geological Evolution of SE Asia. Backhuys Publishers, Leiden, pp. 25-41 [31] Miller, K.G., Browning, J.V., Schmelz, W.J., et al., 2020. Cenozoic sea-level and cryospheric evolution from deep-sea geochemical and continental margin records. Sci. Adv. 6, eaaz1346 [32] Mittermeier, R.A., Fonseca, P., Gil, R., et al., 2005. Hotspots Revisited:Earth's Biologically Richest and Most Endangered Terrestrial Ecoregions. Cermex [33] Pagel, M., Meade, A., Barker, D., 2004. Bayesian estimation of ancestral character states on phylogenies. Syst. Biol. 53, 673-684 [34] Parmar, G., Dang, V.C., Rabarijaona, R.N., et al., 2021. Phylogeny, character evolution and taxonomic revision of Causonis, a segregate genus from Cayratia (Vitaceae). Taxon 70, 1188-1218 [35] Peng, D.X., Dang, V.C., Habib, S., et al., 2021. Historical biogeography of Tetrastigma (Vitaceae):insights into floristic exchange patterns between Asia and Australia. Cladistics 37, 803-815 [36] Phoon, S.N., 2015. Systematics and Biogeography of Elaeocarpus (Elaeocarpaceae). Doctoral Dissertation, James Cook University [37] Rambaut, A., Drummond, A.J., 2007. Tracer v1.5[online]. Available online at:http://beast.bio.ed.ac.uk/Tracer (accessed November 30, 2009) [38] Raven, P.H., Axelrod, D.I., 1974. Angiosperm biogeography and past continental movements. Ann. Mo. Bot. Gard. 61, 539-673 [39] Richardso, J.E., Costion, C.M., Muellner, A.N., 2012. The Malesian floristic interchange:plant migration patterns across Wallace's Line, in:Gower, D., John K., Richardson, J., Rosen, B., Ruber, L., Williams, S. (Eds.), Biotic Evolution and Environmental Change in Southeast Asia, Cambridge University Press, Cambridge, pp. 138-163 [40] Schwartz, T., Nylinder, S., Ramadugu, C., et al., 2016. The origin of oranges:a multi-locus phylogeny of Rutaceae subfamily Aurantioideae. Syst. Bot. 40, 1053-1062 [41] Sniderman, J.M.K., Jordan, G.J., 2011. Extent and timing of floristic exchange between Australian and Asian rain forests. J. Biogeogr. 38, 1445-1455 [42] Sniderman, J.M.K., Pillans, B., O'Sullivan, P.B., et al., 2007. Climate and vegetation in southeastern Australia respond to Southern Hemisphere insolation forcing in the late Pliocene-early Pleistocene. Geology 35, 41-44 [43] Stelbrink, B., Albrecht, C., Hall, R., et al., 2012. The biogeography of Sulawesi revisited:is there evidence for a vicariant origin of taxa on Wallace's "anomalous island"? Evolution 66, 2252-2271 [44] Szekely, G.J., Rizzo, M.L., 2005. Hierarchical clustering via joint between-within distances:extending Ward's minimum variance method. J. Classif. 22, 151-183 [45] Thornhill, A.H., Mishler, B.D., Knerr, N.J., et al., 2016. Continental-scale spatial phylogenetics of Australian angiosperms provides insights into ecology, evolution and conservation. J. Biogeogr. 43, 2085-2098 [46] Tiffney, B.H., 1985. Perspectives on the origin of the ?oristic similarity between Eastern Asia and eastern North America. J. Arnold Arbor. 66, 73-94 [47] Truswell, E., Kershaw, A., Sluiter, I., 1987. The Australian-south-east Asian connection:evidence from the palaeobotanical record, Biogeographical evolution of the Malay Archipelago, in:Whitmore, T.C. (ed.), Biogeographical Evolution of the Malay Archipelago, Oxford University Press, New York, pp. 32-49 [48] Vermeij, G.J. 1991. When biotas meet:understanding biotic interchange. Science 253, 1099-1104 [49] Wallace, A.R., 1857. On the natural history of the Aru Islands. Ann. Mag. Nat. Hist. 20, 473-485 [50] Wen, J., Ickert-Bond, S.M., 2009. Evolution of the madrean-tethyan disjunctions and the North and South American amphitropical disjunctions in plants. J. Systemat. Evol. 47, 331-348 [51] Wolfe, J.A., Toshimasa, T., 1980. The Miocene Seldovia Point Flora from the Kenai Group, Alaska. United States Government Printing Office, Washington [52] Wu, Z.Y., Sun, H., Zhou, Z.H., et al., 2011. Floristics of Seed Plants from China. Science Press, Beijing [53] Wu, X.K., Liu, X.Y., Kodrul, T., et al., 2019. Dacrycarpus pattern shedding new light on the early floristic exchange between Asia and Australia. Natl. Sci. Rev. 6, 1086-1090 [54] Xiang, Q.Y., Soltis, D.E., Soltis, P.S., et al., 2000. Timing the eastern Asian-eastern North American floristic disjunction:molecular clock corroborates paleontological estimates. Mol. Phylogenet. Evol. 15, 462-472 [55] Yap, J.-Y. S., Rossetto, M., Costion, C., et al., 2018. Filters of floristic exchange:how traits and climate shape the rain forest invasion of Sahul from Sunda. J. Biogeogr. 45, 838-847 [56] Yap, J.-Y.S., van der Merwe, M., Ford, A.J., et al., 2020. Biotic exchange leaves detectable genomic patterns in the Australian rain forest flora. Biotropica 52, 627-635 [57] Yu, Y., Harris, A.J., Blair, C., et al., 2015. RASP (reconstruct ancestral state in phylogenies):a tool for historical biogeography. Mol. Phylogenet. Evol. 87, 46-49 [58] Zachos, J., Pagani, M., Sloan, L., et al., 2001. Trends, rhythms, and aberrations in global climate 65 Ma to present. Science 292, 686-693 |
[1] | Ibrokhimjon Ergashov, Ziyoviddin Yusupov, Alireza Dolatyari, Mina Khorasani, İsmail Eker, Nazgul Turdumatova, Georgy Lazkov, Farruhbek Rasulov, Hang Sun, Tao Deng, Komiljon Tojibaev. New insights into the molecular phylogeny and biogeographical history of Allium subgenus Melanocrommyum (Amaryllidaceae) based on plastome and nuclear sequences [J]. Plant Diversity, 2025, 47(04): 561-575. |
[2] | Lang Li (李朗), Bing Liu (刘冰), Yu Song (宋钰), Hong-Hu Meng (孟宏虎), Xiu-Qin Ci (慈秀芹), John G. Conran, Rogier P.J. de Kok, Pedro Luís Rodrigues de Moraes, Jun-Wei Ye (叶俊伟), Yun-Hong Tan (谭运洪), Zhi-Fang Liu (刘志芳), Marlien van der Merwe, Henk van der Werff, Yong Yang (杨永), Jens G. Rohwer, Jie Li (李捷). Global advances in phylogeny, taxonomy and biogeography of Lauraceae [J]. Plant Diversity, 2025, 47(03): 341-364. |
[3] | Kai Chen, Yan-Chun Liu, Yue Huang, Xu-Kun Wu, Hai-Ying Ma, Hua Peng, De-Zhu Li, Peng-Fei Ma. Reassessing the phylogenetic relationships of Pseudosorghum and Saccharinae (Poaceae) using plastome and nuclear ribosomal sequences [J]. Plant Diversity, 2025, 47(03): 382-393. |
[4] | Xiaoyan Hu, Jinyu Zhang, Bo Wang. Seed size distributions of fleshy-fruited species are more right-skewed compared to that of dry-fruited species [J]. Plant Diversity, 2025, 47(03): 522-525. |
[5] | Min-Fei Jin, Xiang-Hai Cai, Gao Chen. Seed dispersal by deception: A game between mimetic seeds and their bird dispersers [J]. Plant Diversity, 2025, 47(02): 169-177. |
[6] | Zengke Zhang, Wensheng Chen, Zengyan Li, Wentao Ren, Ling Mou, Junyong Zheng, Tian Zhang, Hantang Qin, Liyi Zhou, Bile Sai, Hang Ci, Yongchuan Yang, Shekhar R. Biswas, Enrong Yan. The island rule-like patterns of plant size variation in a young land-bridge archipelago: Roles of environmental circumstance and biotic competition [J]. Plant Diversity, 2025, 47(02): 300-310. |
[7] | Wei Gu, Ting Zhang, Shui-Yin Liu, Qin Tian, Chen-Xuan Yang, Qing Lu, Xiao-Gang Fu, Heather R. Kates, Gregory W. Stull, Pamela S. Soltis, Douglas E. Soltis, Ryan A. Folk, Robert P. Guralnick, De-Zhu Li, Ting-Shuang Yi. Phylogenomics, reticulation, and biogeographical history of Elaeagnaceae [J]. Plant Diversity, 2024, 46(06): 683-697. |
[8] | Liang Zhang, Zhen-Long Liang, Xue-Ping Fan, Ngan Thi Lu, Xin-Mao Zhou, Hong-Jin Wei, Li-Bing Zhang. The Indo-Burma biodiversity hotspot for ferns: Updated phylogeny, hidden diversity, and biogeography of the java fern genus Leptochilus (Polypodiaceae) [J]. Plant Diversity, 2024, 46(06): 698-712. |
[9] | Yanwei Guan, Yongru Wu, Zheng Cao, Zhifeng Wu, Fangyuan Yu, Haibin Yu, Tiejun Wang. Island biogeography theory and the habitat heterogeneity jointly explain global patterns of Rhododendron diversity [J]. Plant Diversity, 2024, 46(05): 565-574. |
[10] | Tao Zhou, Xiaodan Chen, Jordi López-Pujol, Guoqing Bai, Sonia Herrando-Moraira, Neus Nualart, Xiao Zhang, Yuemei Zhao, Guifang Zhao. Genetically-and environmentally-dependent processes drive interspecific and intraspecific divergence in the Chinese relict endemic genus Dipteronia [J]. Plant Diversity, 2024, 46(05): 585-599. |
[11] | Tana Wuyun, Lu Zhang, Tiina Tosens, Bin Liu, Kristiina Mark, José ángel Morales-Sánchez, Jesamine Jöneva Rikisahedew, Vivian Kuusk, ülo Niinemets. Extremely thin but very robust: Surprising cryptogam trait combinations at the end of the leaf economics spectrum [J]. Plant Diversity, 2024, 46(05): 621-629. |
[12] | Yajun Wang, Hanchen Wang, Chao Ye, Zhiping Wang, Chongbo Ma, Dongliang Lin, Xiaohua Jin. Progress in systematics and biogeography of Orchidaceae [J]. Plant Diversity, 2024, 46(04): 425-434. |
[13] | Hui Feng, Achyut Kumar Banerjee, Wuxia Guo, Yang Yuan, Fuyuan Duan, Wei Lun Ng, Xuming Zhao, Yuting Liu, Chunmei Li, Ying Liu, Linfeng Li, Yelin Huang. Origin and evolution of a new tetraploid mangrove species in an intertidal zone [J]. Plant Diversity, 2024, 46(04): 476-490. |
[14] | Yanjun Du, Rongchen Zhang, Xinran Tang, Xinyang Wang, Lingfeng Mao, Guoke Chen, Jiangshan Lai, Keping Ma. The mid-domain effect in flowering phenology [J]. Plant Diversity, 2024, 46(04): 502-509. |
[15] | Haibin Yu, Man Yang, Zixin Lu, Weitao Wang, Fangyuan Yu, Yonghua Zhang, Xue Yin, Hongjun Yu, Junjie Hu, David C. Deane. A phylogenetic approach identifies patterns of beta diversity and floristic subregions of the Qinghai-Tibet Plateau [J]. Plant Diversity, 2024, 46(01): 59-69. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||