Home > Archive>Volume 30, Issue 4, 2022 >575-591. DOI:10.11926/jtsb.4536
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Tropical Rain Forest of Yunnan (Southwestern China):Characteristics, Biogeographical Origin and Evolution
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    Abstract:

    The tropical rain forest (TRF) in Yunnan is similar to the rain forest of tropical Asia in floristic composition, forest profile, physiognomy and species richness, and is a particular type of the latter. It occurs at the northern margin of tropical Asia and is affected not only by the seasonal dryness of the monsoon climate, but also by the low temperature found at the relatively higher latitude and altitude. The flora of the TRF of Yunnan consists mainly of tropical floristic elements, which contribute more than 90% at the generic level and more than 80% at the specific level to its total flora. The dominant geographical elements are the tropical Asian distribution, which contributes about 40% of the genera and 70% of the species. Most of the dominant families, in terms of both numbers of species and tree importance values, are also similar to the Indo-Malesian rain forests. The formations of the TRF show clear floristic divergences between southwestern, southern and southeastern Yunnan because of the different floristic origins and evolutionary histories of these regions, although they are similar in ecological and physiognomic features. The TRF of Yunnan is maintained by the southwestern Asian monsoon. Uplift of the Himalayas triggered and strengthened the southwestern Asian monsoon climate, which created local wet habitats in tropical areas of Yunnan, and the tropical rain forest occurred locally. Based on the geological history and the palaeobotanical research in tropical Yunnan and adjacent regions, we suggest that a much drier climate prevailed in the later Tertiary or Quaternary periods, because there are drought-tolerant deciduous trees in the TRF and deciduous forests in the same areas as the TRF. The present TRF in Yunnan is an ecotone between tropical lowland and montane forests, and controlled mainly by local habitat factors.

    Reference
    [1] Zhu H. The tropical forests of southern China and conservation of biodiversity[J]. Bot Rev, 2017, 83(1):87-105. doi:10.1007/s12229-017-9177-2.
    [2] Zhu H. A biogeographical study on tropical flora of southern China[J]. Ecol Evol, 2017, 7(23):10398-10408. doi:10.1002/ece3.3561.
    [3] Richards P W. The Tropical Rain Forest[M]. London:Cambridge University Press, 1952:450.
    [4] Wang C W. A preliminary study of the vegetation of Yunnan[J]. Bull Fan Mem Inst Biol IX, 1939, 9(2):65-125.
    [5] Fedorov A A. The tropical rain forest of China[J]. Botanicheskii Zh S S S R, 1958, 43:1385-1480.
    [6] Fedorov A A. The flora of southwestern China and its significance to the knowledge of the plant world of Eurasia[J]. Komarov Chten, 1957, 10:20-50.
    [7] Cooperation Group of Parashorea chinensis. A rare and valuable new tree discovered in Yunnan:Parashorea chinensis[J]. Acta Phytotax Sin, 1977, 15(2):10-21. 望天树协作组.云南发现稀有珍贵树种——望天树[J]. 植物分类学报, 1977, 15(2):10-21.
    [8] Whitmore T C. Fleeting impressions of some Chinese rain forests[J]. Commw Fo Rev, 1982, 61(1):51-58.
    [9] Whitmore T C. Tropical Rain Forests of the Far East[M]. 2nd ed. Oxford:Clarendon Press, 1984:155-201.
    [10] Whitmore T C. An Introduction to Tropical Rain Forests[M]. Oxford:Clarendon Press, 1990:1-226.
    [11] Wu Z Y. Vegetation of China[M]. Beijing:Science Press, 1980:363-397. 吴征镒.中国植被[M].北京:科学出版社, 1980:363-397.
    [12] Wu Z Y. Vegetation of Yunnan[M]. Beijing:Science Press, 1987:97-143. 吴征镒.云南植被[M].北京:科学出版社, 1987:97-143.
    [13] Jin Z Z. Study on the basic characteristics of Yunnan tropical rain forest and monsoon rain forest[J]. J Yunan Univ, 1983(1/2):197-207. 金振洲.论云南热带雨林和季雨林的基本特征[J].云南大学学报, 1983(1/2):197-207.
    [14] Zhu H. The tropical rainforest vegetation in Xishuangbanna[J]. Chin Geogr Sci, 1992, 2(1):64-73. doi:10.1007/BF02664547.
    [15] Zhu H. Research of community ecology on Shorea chinensis forest in Xishuangbanna[J]. Acta Bot Yunnan, 1992, 14(3):237-258. 朱华.西双版纳望天树林的群落生态学研究[J].云南植物研究, 1992, 14(3):237-258.
    [16] Zhu H. A comparative study of phytosociology between Shorea chinensis forest of Xishuangbanna and other closer forest types[J]. Acta Bot Yunnan, 1993, 15(1):34-46. 朱华.望天树林与相近类型植被结构的比较研究[J].云南植物研究, 1993, 15(1):34-46.
    [17] Zhu H. Floristic plant geography on the dipterocarp forest of Xishuang-banna[J]. Acta Bot Yunnan, 1993, 15(3):233-252. 朱华.西双版纳龙脑香林植物区系研究[J].云南植物研究, 1993, 15(3):233-252.
    [18] Zhu H. The floristic characteristics of the tropical rainforest in Xishuangbanna[J]. Chin Geogr Sci, 1994, 4(1):174-185. doi:10.1007/BF02664300.
    [19] Zhu H. Floristic relationships between dipterocarp forest of Xishuang-banna and forests of tropical Asia and S China[J]. Acta Bot Yunnan, 1994, 16(2):97-106. 朱华.西双版纳龙脑香林与热带亚洲和中国热带北缘地区植物区系的关系[J].云南植物研究, 1994, 16(2):97-106.
    [20] Zhu H. Ecological and biogeographical studies on the tropical rain forest of south Yunnan, SW China with a special reference to its relation with rain forests of tropical Asia[J]. J Biogeogr, 1997, 24(5):647-662. doi:10.1111/j.1365-2699.1997.tb00075.x.
    [21] Zhu H. Biogeographical implications of some plant species from a tropical montane rain forest in southern Yunnan[J]. Chin Geogr Sci, 2004, 14(3):221-226. doi:10.1007/s11769-003-0051-2.
    [22] Zhu H. A tropical seasonal rain forest at its altitudinal and latitudinal limits in southern Yunnan, SW China[J]. Gard Bull Singapore, 2004, 56:55-72.
    [23] Zhu H. Forest vegetation of Xishuangbanna, south China[J]. For Stud China, 2006, 8(2):1-58. doi:10.1007/s11632-006-0014-7.
    [24] Zhu H. The tropical flora of southern Yunnan, China, and its biogeo-graphic affinities[J]. Ann Mo Bot Gard, 2008, 95(4):661-680. doi:10.3417/2006081.
    [25] ZHU H. Advances in biogeography of the tropical rain forest in southern Yunnan, southwestern China[J]. Trop Conserv Sci, 2008, 1(1):34-42. doi:10.1177/194008290800100103.
    [26] Zhu H, Roos M C. The tropical flora of S China and its affinity to Indo-Malesian flora[J]. Telopea, 2004, 10(2):639-648.
    [27] Zhu H, Wang H, Li B, et al. Biogeography and floristic affinities of the limestone flora in southern Yunnan, China[J]. Ann Mo Bot Gard, 2003, 90(3): 444-465. doi:10.2307/3298536.
    [28] Zhu H, Xu Z F, Wang H, et al. Tropical rain forest fragmentation and its ecological and species diversity changes in southern Yunnan[J]. Biodiv Conserv, 2004, 13(7):1355-1372. doi:10.1023/B:BIOC.0000019397.98407.c3.
    [29] Zhu H, Shi J P, Zhao C J. Species composition, physiognomy and plant diversity of the tropical montane evergreen broad-leaved forest in southern Yunnan[J]. Biodiv Conserv, 2005, 14(12):2855-2870. doi:10.1007/s10531-004-8220-x.
    [30] Zhu H, Wang H, Li B G, et al. Floristic composition and biogeo-graphy of tropical montane rain forest in southern Yunnan of China[J]. Gard Bull Singapore, 2006, 58:81-132.
    [31] Zhu H, Cao M, Hu H B. Geological history, flora, and vegetation of Xishuangbanna, southern Yunnan, China[J]. Biotropica, 2006, 38(3):310-317. doi:10.1111/j.1744-7429.2006.00147.x.
    [32] Cao M, Zhang J H, Feng Z L, et al. Tree species composition of a seasonal rain forest in Xishuangbanna, southwest China[J]. Trop Ecol, 1996, 37(2):183-192.
    [33] Cao M, Zhang J H. Tree species diversity of tropical forest vege-tation in Xishuangbanna, SW China[J]. Biodiv Conserv, 1997, 6(7):995-1006. doi:10.1023/A:1018367630923.
    [34] Lan G Y, Zhu H, Cao M, et al. Spatial dispersion patterns of trees in a tropical rainforest in Xishuangbanna, southwest China[J]. Ecol Res, 2009, 24(5):1117-1124. doi:10.1007/s11284-009-0590-9.
    [35] Lan G Y, Hu Y H, Cao M, et al. Topography related spatial distri-bution of dominant tree species in a tropical seasonal rain forest in China[J]. For Ecol Manag, 2011, 262(8):1507-1513. doi:10.1016/j. foreco.2011.06.052.
    [36] Zhu H, Wang H, Li B G, et al. Research on the tropical seasonal rainforest of Xishuangbanna, south Yunnan[J]. Guihaia, 1998, 18(4):371-384. 朱华,王洪,李保贵,等.西双版纳热带季节雨林的研究[J].广西植物, 1998, 18(4):371-384.
    [37] Zhu H, Wang H, Li B G, et al. Species diversity of primary tropical rain forest of south Yunnan of China with special reference to sampling area[J]. Chin Biodiv, 1998, 6(4):241-247. doi:10.3321/j.issn:1005-0094.1998.04.001. 朱华,王洪,李保贵,等.滇南热带雨林物种多样性的取样面积探讨[J].生物多样性, 1998, 6(4):241-247. doi:10.3321/j.issn:1005-0094.1998.04.001.
    [38] Zhu H, Xu Z F, Wang H, et al. Effects of fragmentation on the structure, species composition and diversity of tropical rain forest in Xishuangbanna, Yunnan[J]. Acta Phytoecol Sin, 2000, 24(5):560-568. 朱华,许再富,王洪,等.西双版纳片断热带雨林的结构、物种组成及其变化的研究[J].植物生态学报, 2000, 24(5):560-568.
    [39] Zhu H, Zhou H X. A comparative study on the tropical rain forests in Xishuangbanna and Hainan[J]. Acta Bot Yunnan, 2002, 24(1):1-13. doi:10.3969/j.issn.2095-0845.2002.01.001. 朱华,周虹霞.西双版纳热带雨林与海南热带雨林的比较研究[J].云南植物研究, 2002, 24(1):1-13. doi:10.3969/j.issn.2095-0845.2002. 01.001.
    [40] Zhu H. Tropical monsoon forest in Yunnan with comparison to the tropical rain forest[J]. Chin J Plant Ecol, 2011, 35(4):463-470. doi:10.3724/SP.J.1258.2011.00463. 朱华.云南热带季雨林及其与热带雨林植被的比较[J].植物生态学报, 2011, 35(4):463-470. doi:10.3724/SP.J.1258.2011.00463.
    [41] Zhu H. Ecology and biogeography of the limestone vegetation in southern Yunnan, SW China[M]. Kunming:Yunnan Science& Techno-logy Press, 2002:1-67.
    [42] Ashton P, Zhu H. The tropical-subtropical evergreen forest tran-sition in East Asia:An exploration[J]. Plant Diver, 2020, 42(4):255-280. doi:10.1016/j.pld.2020.04.001.
    [43] Zhu H, Ashton P. Ecotones in the tropical-subtropical vegetation transition at the tropical margin of southern China[J]. Chin Sci Bull, 2021, 66(28/29):3732-3743. doi:10.1360/TB-2021-0231. 朱华, Ashton P.中国热带-亚热带常绿阔叶林群落交错区[J].科学通报, 2021, 66(28/29):3732-3743. doi:10.1360/TB-2021-0231.
    [44] Zhu H. Geographical patterns of Yunnan seed plants may be influenced by the clockwise rotation of the simao-indochina geoblock[J]. Front Earth Sci, 2015, 3:53. doi:10.3389/feart.2015.00053.
    [45] Zhu H. Biogeographical divergence of the flora of Yunnan, south-western China initiated by the uplift of Himalaya and extrusion of Indochina block[J]. PLoS One, 2012, 7(9):e45601. doi:10.1371/journal.pone.0045601.
    [46] Zhu H. The floras of southern and tropical southeastern Yunnan have been shaped by divergent geological histories[J]. PLoS One, 2013, 8(5):e64213. doi:10.1371/journal.pone.0064213.
    [47] ZHU H, TAN Y H, YAN L C, et al. Flora of the savanna-like vegetation in hot dry valleys, southwestern China with implications to their origin and evolution[J]. Bot Rev, 2020, 86(3/4):281-297. doi:10.1007/s12229-020-09227-x.
    [48] Zhu H, Ashton P, Gu B J, et al. Tropical deciduous forest in Yunnan, southwestern China:Implications for geological and climatic histories from a little-known forest formation[J]. Plant Diver, 2021, 43:444-451. doi:10.1016/j.pld.2021.01.001.
    [49] Liu S Y, Zhu H, Yang J. A phylogenetic perspective on biogeo-graphical divergence of the flora in Yunnan, southwestern China[J]. Sci Rep, 2017, 7:43032. doi:10.1038/srep43032.
    [50] Zhu H. Origin and evolution of the flora of Yunnan[J]. Plant Sci J, 2018, 36(1):32-37. doi:10.11913/PSJ.2095-0837.2018.10032. 朱华.云南植物区系的起源与演化[J].植物科学学报, 2018, 36(1):32-37. doi:10.11913/PSJ.2095-0837.2018.10032.
    [51] Zhu H. A sketch for classification of tropical forest vegetation in Yunnan[J]. Guihaia, 2018, 38(8):984-1004. doi:10.11931/guihaia. gxzw201804027. 朱华.云南热带森林植被分类纲要[J].广西植物, 2018, 38(8):984-1004. doi:10.11931/guihaia.gxzw201804027.
    [52] Richards P W. The Tropical Rain Forest:An Ecological Study[M]. Cambridge:Cambridge University Press, 1996:1-600.
    [53] Ashton P. On the Forests of Tropical Asia[M]. Richmond:Kew Publishing, 2014:1-670.
    [54] Blasco F, Bellan M F, Aizpuru M. A vegetation map of tropical continental Asia at scale 1:5 million[J]. J Veg Sci, 1996, 7(5):623-634. doi:10.2307/3236374.
    [55] Lan G Y, Hu Y H, Cao M, et al. Establishment of Xishuangbanna tropical forest dynamics plot:Species compositions and spatial distri-bution patterns[J]. J Chin Plant Ecol, 2008, 32(2):287-298. doi:10. 3773/j.issn.1005-264x.2008.02.006. 兰国玉,胡跃华,曹敏,等.西双版纳热带森林动态监测样地——树种组成与空间分布格局[J].植物生态学报, 2008, 32(2):287-298. doi:10.3773/j.issn.1005-264x.2008.02.006.
    [56] Lan G Y, Zhu H, Cao M. Tree species diversity of a 20-ha plot in a tropical seasonal rainforest in Xishuangbanna, southwest China[J]. J For Res, 2012, 17(5):432-439. doi:10.1007/s10310-011-0309-y.
    [57] HUBBELL S P, FOSTER R B. Commonness and rarity in a neotropical forest:Implications for tropical tree conservation[M]//SOULE M E. Conservation Biology:Science of Scarcity and Diversity. Sunder-Land:Sinauer Press, 1986:205-231.
    [58] Whitmore T C. Canopy gaps and the two major groups of forest trees[J]. Ecology, 1989, 70(3):536-538. doi:10.2307/1940195.
    [59] Spicer M E, Mellor H, Carson W P. Seeing beyond the trees:A comparison of tropical and temperate plant growth forms and their vertical distribution[J]. Ecology, 2020, 101(4):e02974. doi:10.1002/ecy.2974.
    [60] Wu Z Y. The areal-types of Chinese genera of seed plants[J]. Acta Bot Yunnan, 1991(S4):1-139. 吴征镒.中国种子植物属的分布区类型[J].云南植物研究, 1991(S4):1-139.
    [61] Wu Z Y, Zhou Z K, Sun H, et al. The Areal-Types of Seed Plants and Their Origin and Differentiation[M]. Kunming:Yunnan Science and Technology Press, 2006:1-566. 吴征镒,周浙昆,孙航,等.种子植物分布区类型及其起源和分化[M].昆明:云南科技出版社, 2006:1-566.
    [62] Grubb P J, Lloyd J R, Pennington T D, et al. A comparison of montane and lowland rain forest in Ecuador:I. The forest structure, physiognomy, and floristics[J]. J Ecol, 1963, 51(3):567-601. doi:10. 2307/2257748.
    [63] Robbins R G. The biogeography of tropical rain forest in SE Asia[M]//Misra R, Gopal B. Proceedings of the Symposium in Recent Advances in Tropical Ecology. Varansi:International Society for Tropical Ecology, Banaras Hindu University, 1968:531-535.
    [64] Richards P W. The three-dimensional structure of tropical rain forests[M]//WHITMORE T C, CHADWICK A C. Tropical Rain Forest Ecology and Management. London:Blackwell, 1984:3-10.
    [65] Paijmans K. An analysis of four tropical rain forest sites in New Guinea[J]. J Ecol, 1970, 58(1):77-101. doi:10.2307/2258170.
    [66] Grubb P J. Interpretation of the'Massenerhebung'effect on tropical mountains[J]. Nature, 1971, 229(5279):44-45. doi:10.1038/229044a0.
    [67] Cain S A, DE Oliveira C G M. Manual of Vegetation Analysis[M]. New York:Harper& Brothers Publishers, 1959:255-284.
    [68] Proctor J, Anderson J M, Chai P, et al. Ecological studies in four contrasting lowland rain forests in Gunung Mulu National Park, Sarawak. I. Forest environment, structure, and floristics[J]. J Ecol, 1983, 71:237-360.
    [69] Proctor J, Haridasan K, Smith G W. How far north does lowland evergreen tropical rain forest go?[J]. Glob Ecol Biogeogr Lett, 1998, 7(2):141-146. doi:10.2307/2997817.
    [70] Kartawinata K. A review of natural vegetation studies in Malesia, with special reference to Indonesia[M]//Baas P, Kalkman K, Geesink R. The Plant Diversity of Malesia. Dordrecht:Springer, 1990:121-132. doi:10.1007/978-94-009-2107-8_12.
    [71] Kartawinata K, Abdulhadi R, Partomihardjo T. Compo-sition and structure of a lowland dipterocarp forest at Wanariset, East Kalimantan[J]. Malay For, 1981, 44:397-406.
    [72] Kochummen K M, LaFrankie J V Jr, Manokara N. Flori-stic composition of pasoh forest reserve, a lowland rain forest in Penin-sular Malaysia[J]. J Trop For Sci, 1990, 3(1):1-13.
    [73] Whitmore T C, Sidiyasa K. Composition and structure of a low-land rain forest at Toraut, northern Sulawesi[J]. Kew Bull, 1986, 41(3):747-757. doi:10.2307/4103127.
    [74] Hall J B, Swaine M D. Distribution and Ecology of Vascular Plants in a Tropical Rain Forest:Forest Vegetation in Ghana[M]. Media:Springer, 1981:1-54. doi:10.1007/978-94-009-8650-3.
    [75] Lee H S, Davies S J, LaFrankie J V, et al. Floristic and structural diversity of mixed dipterocarp forest in Lambir Hills National Park, Sarawak, Malaysia[J]. J Trop For Sci, 2002, 14(3):379-400.
    [76] Su J X, Wang W, Zhang L B, et al. Phylogenetic placement of two enigmatic genera, Borthwickia and Stixis, based on molecular and pollen data, and the description of a new family of Brassicales, Borthwi-ckiaceae[J]. Taxon, 2012, 61(3):601-611. doi:10.1002/tax.613009.
    [77] Zhang R P, Huang Y F, Zhu X Y. Ohashia, a new genus of Derris-like Millettioid legumes (Leguminosae, Papilionoideae) as revealed by molecular phylogenetic evidence[J]. Taxon, 2021. doi:10.1002/tax.12564.
    [78] Zhu H. A new biogeographical line between south Yunnan and south-east Yunnan[J]. Adv Earth Sci, 2011, 26(9):916-925. doi:10.11867/j. issn.1001-8166.2011.09.0916. 朱华.云南一条新的生物地理线[J].地球科学进展, 2011, 26(9):916-925. doi:10.11867/j.issn.1001-8166.2011.09.0916.
    [79] Zhang H D. Characteristics of the Guangdong flora[J]. Acta Sci Nat Univ Sunyateseni, 1962, 1962(1):1-34. 张宏达.广东植物区系的特点[J].中山大学学报(自然科学版), 1962, 1962(1):1-34.
    [80] Jain A K. When did India-Asia collide and make the Himalaya?[J]. Curr Sci, 2014, 106(2):254-266.
    [81] Tapponnier P, Lacassin R, Leloup P H, et al. The Ailao Shan/Red River metamorphic belt:Tertiary left-lateral shear between Indochina and south China[J]. Nature, 1990, 343(6257):431-437. doi:10.1038/343431a0.
    [82] Schärer U, Tapponnier P, Lacassin R, et al. Intraplate tectonics in Asia:A precise age for large-scale Miocene movement along the Ailao Shan-Red River shear zone, China[J]. Earth Planet Sci Lett, 1990, 97(1/2):65-77. doi:10.1016/0012-821X (90)90099-J.
    [83] Lee T Y, Lawver L A. Cenozoic plate reconstruction of Southeast Asia[J]. Tectonophysics, 1995, 251(1/2/3/4):85-138. doi:10.1016/0040-1951(95)00023-2.
    [84] Leloup P H, Laeassin R, Tapponnier P, et al. The Ailao Shan-Red River shear zone (Yunnan, China), Tertiary transform boundary of Indochina[J]. Tectonophysics, 1995, 251(1/2/3/4):3-84. doi:10.1016/0040-1951(95)00070-4.
    [85] Hall R. The plate tectonics of Cenozoic SE Asia and the distribution of land and sea[M]//Hall R, Holloway J D. Biogeography and Geological Evolution of SE Asia. Leiden:Backbuys Publishers, 1998:99-131.
    [86] Sato K, Liu Y Y, Wang Y B, et al. Paleomagnetic study of Creta-ceous rocks from Pu'er, western Yunnan, China:Evidence of internal deformation of the Indochina block[J]. Earth Planet Sci Lett, 2007, 258(1/2):1-15. doi:10.1016/j.epsl.2007.02.043.
    [87] Sato K, Liu Y Y, Zhu Z C, et al. Tertiary paleomagnetic data from northwestern Yunnan, China:Further evidence for large clockwise rotation of the Indochina block and its tectonic implications[J]. Earth Planet Sci Lett, 2001, 185(1/2):185-198. doi:10.1016/S0012-821X (00)00377-0.
    [88] Chen H H, Dobson J, Heller F, et al. Paleomagnetic evidence for clockwise rotation of the Simao region since the Cretaceous:A consequence of India-Asia collision[J]. Earth Planet Sc Lett, 1995, 134(1/2):203-217. doi:10.1016/0012-821X (95)00118-V.
    [89] Tang H, Li F S, Su T, et al. Early Oligocene vegetation and climate of southwestern China inferred from palynology[J]. Palaeogeogr Palaeocl Palaeoecol, 2020, 560:109988. doi:10.1016/j.palaeo.2020. 109988.
    [90] Ding W N, Ree R H, Spicer R A, et al. Ancient orogenic and monsoon-driven assembly of the world's richest temperate alpine flora[J]. Science, 2020, 369(6503):578-581. doi:10.1126/science.abb4484.
    [91] Zhu H. Floristic divergence of the evergreen broad-leaved forests in Yunnan, southwestern China[J]. Phytotaxa, 2019, 393(1):1-20. doi:10.11646/phytotaxa.393.1.1.
    [92] Raymo M E, Ruddimen W F. Tectonic forcing of late Cenozoic climate[J]. Nature, 1992, 359(6391):117-122. doi:10.1038/359117a0.
    [93] Shi Y F. Plateau uplift and environmental evolution[M]//Sun H L, Zheng D. Formation, Evolution and Development of Qinghai-Xizang (Tibetan) Plateau. Guangzhou:Guangdong Science and Technology Press, 1998:73-138. 施雅风.高原隆升与环境演化[M]//孙鸿烈,郑度.青藏高原形成演化与发展.广州:广东科技出版社, 1998:73-138.
    [94] Shi Y F, Li J J, Li B Y, et al. Uplift of the Qinghai-Xizang (Tibetan) plateau and east Asia environmental change during late Cenozoic[J]. Acta Geogr Sin, 1999, 54(1):10-21. doi:10.3321/j.issn:0375-5444. 1999.01.002. 施雅风,李吉均,李炳元,等.晚新生代青藏高原的隆升与东亚环境变化[J].地理学报, 1999, 54(1):10-21. doi:10.3321/j.issn:0375-5444.1999.01.002.
    [95] Liu D S, Zhang X S, Yan B Y. The impact of plateau uplifting on surrounding areas[M]//Sun H L, Zheng D. Formation, Evolution and Development of Qinghai-Xizang (Tibetan) Plateau. Guangzhou:Guangdong Science and Technology Press, 1998:179-230. 刘东升,张新时,袁宝印.高原隆起对周边地区的影响[M]//孙鸿烈,郑度.青藏高原形成演化与发展.广州:广东科技出版社, 1998:179-230.
    [96] Pan Y S. Plateau lithosphere structure, evolution, and dynamics[M]//Sun H L, Zheng D. Formation, Evolution and Development of Qinghai-Xizang (Tibetan) Plateau. Guangzhou:Guangdong Science and Technology Press, 1998:1-72. 潘浴生.高原岩石圈结构、演化和动力学[M]//孙鸿烈,郑度.青藏高原形成演化与发展.广州:广东科技出版社, 1998:1-72.
    [97] SU T, FARNSWORTH A, SPICER R A, et al. No high Tibetan Plateau until the neogene[J]. Sci Adv, 2019, 5(3):eaav2189. doi:10.1126/sciadv.aav2189.
    [98] Liu J, Su T, SPICER R A, et al. Biotic interchange through lowlands of Tibetan Plateau suture zones during Paleogene[J]. Palaeogeogr Palaeocl Palaeoecol, 2019, 524:33-40. doi:10.1016/j.palaeo.2019. 02.022.
    [99] Li S F, Valdes P J, Farnsworth A, et al. Orographic evolution of northern Tibet shaped vegetation and plant diversity in eastern Asia[J]. Sci Adv, 2021, 7(5):eabc7741. doi:10.1126/sciadv.abc7741.
    [100] Spicer R A, Farnsworth A, Su T. Cenozoic topography, mon-soons and biodiversity conservation within the Tibetan Region:An evolving story[J]. Plant Divers, 2020, 42(4):229-254. doi:10.1016/j. pld.2020.06.011.
    [101] Jacques F M B, Su T, Spicer R A, et al. Late Miocene south-western Chinese floristic diversity shaped by the southeastern uplift of the Tibetan Plateau[J]. Palaeogeogr Palaeocl Palaeoecol, 2014, 411:208-215. doi:10.1016/j.palaeo.2014.05.041.
    [102] Jacques F M B, Shi G L, Su T, et al. A tropical forest of the middle Miocene of Fujian (SE China) reveals Sino-Indian biogeographic affinities[J]. Rev Palaeobot Palynol, 2015, 216:76-91. doi:10.1016/j. revpalbo. 2015.02.001.
    [103] Shi G L, Li H M. A fossil fruit wing of Dipterocarpus from the middle Miocene of Fujian, China and its palaeoclimatic significance[J]. Rev Palaeobot Palynol, 2010, 162(4):599-606. doi:10.1016/j.revpalbo. 2010.08.001.
    [104] Wang B, Shi G l, Xu C p, et al. The mid-Miocene Zhangpu biota reveals an outstandingly rich rainforest biome in East Asia[J]. Sci Adv, 2021, 7(18):eabg0625. doi:10.1126/sciadv.abg0625.
    [105] Yunnan Geological Bureau. The Regional Geological Survey Report of the People's Republic of China[M]. Mengla, Menghai Regions, 1976. 云南省地质局.中华人民共和国区域地质调查报告[M].勐腊幅、勐海幅(内部资料), 1976.
    [106] Yunnan Bureau of Geology and Mineral Resources. Atlas of the Sedimentary Facies and Palaeogeography of Yunnan[M]. Kunming:Yunnan Science and Technology Press, 1995:1-228. 云南省地质矿产局.云南岩相古地理图集[M].昆明:云南科技出版社, 1995:1-228.
    [107] Sun X J. Palynofloristical investigation on the Late Cretaceous and Paleocene of China[J]. Acta Phytotax Sin, 1979, 17(3):8-13. 孙湘君.中国晚白垩世-古新世孢粉区系的研究[J].植物分类学报, 1979, 17(3):8-13.
    [108] Liu J L, TanG L Y, Qiao Y L, et al. Late Quaternary vegetation history at Menghai, Yunnan Province, southwest China[J]. J Biogeogr, 1986, 13(5):399-418. doi:10.2307/2844965.
    [109] Song Z C, Li H M, Zheng Y H, et al. Miocene floristic region of China[M]//Palaeobiogeographic Provinces of China. Beijing:Science Press, 1983:178-184. 宋之琛,李浩敏,郑亚惠,等.中国中新世植物区系[M]//中国古生物地理区系.北京:科学出版社, 1983:178-184.
    [110] Song Z C, Li H M, Zheng Y H, et al. Miocene phytogeographical area in eastern region of East Asia[J]. Strat Paleontol, 1984, 13:63-69. 宋之琛,李浩敏,郑亚惠,等.东亚东部地区中新世植物地理区[J].地层和古生物学, 1984, 13:63-69.
    [111] Wang W M. A palynological survey of neogene strata in Xiaolongtan Basin, Yunnan Province of South China[J]. Acta Bot Sin, 1996, 38(9):743-748. 王伟铭.云南开远小龙潭盆地晚第三纪孢粉植物群[J].植物学报, 1996, 38(9):743-748.
    [112] Editorial Group for Cenozoic Plants from China. Plant Fossils of China:Tertiary[M]. Beijing:Science Press, 1978:177-182. 《中国新生代植物》编写组.中国植物化石,第3册中国新生代植物[M].北京:科学出版社, 1978:177-182.
    [113] Penny D. A 40000 year palynological record from north-east Thailand; implications for biogeography and palaeo-environmental reconstruction[J]. Palaeogeogr Palaeocl Palaeoecol, 2001, 171(3/4):97-128. doi:10.1016/S0031-0182(01)00242-5.
    [114] Su Z L, Yin S H, Wu C J, et al. Analysis of genetic structure of the endangered species Pellacalyx yunnanensis(Rhizophoraceae) by RAPD[J]. Acta Bot Yunnan, 2005, 27(2):181-186. doi:10.3969/j.issn. 2095-0845.2005.02.008. 苏志龙,殷寿华,吴成军,等.濒危物种山红树居群遗传结构的RAPD分析[J].云南植物研究, 2005, 27(2):181-186. doi:10.3969/j.issn.2095-0845.2005.02.008.
    [115] Gu Y S, Pearsall D M, Xie S C, et al. Vegetation and fire history of a Chinese site in southern tropical Xishuangbanna derived from phytolith and charcoal records from Holocene sediments[J]. J Biogeogr, 2008, 35(2):325-341. doi:10.1111/j.1365-2699.2007.01763.x.
    [116] Wu Z Y. The tropical floristic affinity of the flora of China[J]. Chin Sci Bull, 1965(1):25-33. 吴征镒.中国植物区系的热带亲缘[J].科学通报, 1965(1):25-33.
    [117] Zhang H D. The origin and development of the cathaysian flora[J]. Acta Sci Nat Univ Sunyatseni, 1980(1):89-98. 张宏达.华夏植物区系的起源与发展[J].中山大学学报, 1980(1):89-98.
    [118] Kubitzki K, Krutzsch W. Origins of east and south east Asian plant diversity[M]//ZhAng A L, Wu S G. Floristic Characteristics and Diversity of East Asian Plants. Beijing:China Higher Education Press, 1996:56-70.
    [119] Axelrod D I, Shehbaz A I, Raven P H. History of the modern flora of China[M]//Zheng A L, Wu S G. Floristic Characteristics and Diversity of East Asian Plants. Beijing:China Higher Education& Springer Asia, 1996:43-55.
    [120] Zhang Z Y, Lu A M. Hamamelidaceae:Geographic distribution, fossil history and origin[J]. Acta Phytotax Sin, 1995, 33(4):313-339. 张志耘,路安民.金缕梅科:地理分布、化石历史和起源[J].植物分类学报, 1995, 33(4):313-339.
    [121] VAN Steenis C G G J. The mountain flora of the Malaysian tropics[J]. Endeavour, 1962, 1962:183-193.
    [122] van Steenis C G G J. Plant geography of the mountain flora of Mt Kinabalu[J]. Proc Royal Soc B:Biol Sci, 1964, 161(982):7-38. doi:10.1098/rspb.1964.0072.
    [123] Xue B N, Tan Y H, Thomas D C, et al. A new Annonaceae genus, Wuodendron, provides support for a post-boreotropical origin of the Asian-Neotropical disjunction in the tribe Miliuseae[J]. Taxon, 2018, 67(2):250-266. doi:10.12705/672.2.
    [124] Ashton P S. Dipterocarpaceae[M]//VAN Steenis C G G J. Flora Malesiana, Series I. Spermatophyta, Vol. 9. Hague, Netherlands:Martinus-Nijhoff Publications, 1982:237-552.
    [125] Feng X X, Tang B, Kodrul T M, et al. Winged fruits and associated leaves of Shorea(Dipterocarpaceae) from the Late Eocene of south China and their phytogeographic and paleoclimatic impli-cations[J]. Am J Bot, 2013, 100(3):574-581. doi:10.3732/ajb.1200397.
    [126] Prakash U. A survey of the fossil dicotyledonous woods from India and Far East[J]. J Palaeont, 1965, 39(5):815-827.
    [127] Morley J R. Palynological evidence for Tertiary plant dispersals in the SE Asian region in relation to plate tectonics and climate[M]//Hall R, Holloway J D. Biogeography and Geological Evolution of SE Asia. Leiden, The Netherlands:Backbuys Publishers, 1998:221-234.
    [128] Morley C K. A tectonic model for the Tertiary evolution of strike-slip faults and rift basins in SE Asia[J]. Tectonophysics, 2002, 347(4):189-215. doi:10.1016/S0040-1951(02)00061-6.
    [129] Zhu H, Ma Y X, Yan L C, et al. The relationship between geo-graphy and climate in the generic-level patterns of Chinese seed plants[J]. J Syst Evol, 2007, 45(2):134-166.
    [130] Li Y L, Zhu H, Yang J B. Systematic position of the genus Mastixia:Evidence from rbcL gene sequences[J]. Acta Bot Yunnan, 2002, 24(3):352-358. doi:10.3969/j.issn.2095-0845.2002.03.008. 李耀利,朱华,杨俊波.从rbcL序列探讨单室茱萸属的系统位置[J].云南植物研究, 2002, 24(3):352-358. doi:10.3969/j.issn.2095-0845. 2002.03.008.
    [131] Martinetto E. The first mastixioid fossil from Italy and its palaeo-biogeographic implications[J]. Rev Palaeobot Palynol, 2011, 167(3/4):222-229. doi:10.1016/j.revpalbo.2011.08.004.
    [132] Flenley J R. The Equatorial Rain Forest:A Geological History[M]. London:Butterworths, 1979.
    [133] Morley R J, Flenley J R. Late cainozoic vegetational and environmental changes in the Malay Archipelago[M]//WHITMORE T C. Biogeographical Evolution of the Malay Archipelago. Oxford:Clarendon Press, 1987:50-59.
    [134] Morley J R. Assembly and division of the south and southeast Asian flora in relation to tectonics and climate change[J]. J Trop Ecol, 2018, 34(4):209-234. doi:10.1017/S0266467418000202.
    [135] Kingdon-Ward F. A sketch of the botany and geography of north Burma. Iii[J]. J Bombay Nat Hist Soc, 1945, 45:133-148.
    [136] Mitchell A H G. Cretaceous-Cenozoic tectonic events in the western Myanmar (Burma)-Assam region[J]. J Geol Soc, 1993, 150(6):1089-1102. doi:10.1144/gsjgs.150.6.1089.
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朱华.云南热带雨林:特征、生物地理起源与演化[J].热带亚热带植物学报,2022,30(4):575~591

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  • Received:September 26,2021
  • Revised:December 08,2021
  • Online: July 27,2022
  • Published: July 31,2022
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