Plant Diversity ›› 2020, Vol. 42 ›› Issue (03): 155-167.DOI: 10.1016/j.pld.2020.01.001
• Articles • Previous Articles Next Articles
Li Xuea, Linbo Jiab, Gi-soo Namc, Yongjiang Huangb, Shitao Zhanga, Yuqing Wangd, Zhuo Zhoub, Yongsheng Chene
Received:
2019-07-14
Revised:
2020-01-16
Online:
2020-07-15
Published:
2020-06-25
Contact:
Linbo Jia, Shitao Zhang
Supported by:
Li Xuea, Linbo Jiab, Gi-soo Namc, Yongjiang Huangb, Shitao Zhanga, Yuqing Wangd, Zhuo Zhoub, Yongsheng Chene
通讯作者:
Linbo Jia, Shitao Zhang
基金资助:
Li Xue, Linbo Jia, Gi-soo Nam, Yongjiang Huang, Shitao Zhang, Yuqing Wang, Zhuo Zhou, Yongsheng Chen. Involucre fossils of Carpinus, a northern temperate element, from the Miocene of China and the evolution of its species diversity in East Asia[J]. Plant Diversity, 2020, 42(03): 155-167.
Li Xue, Linbo Jia, Gi-soo Nam, Yongjiang Huang, Shitao Zhang, Yuqing Wang, Zhuo Zhou, Yongsheng Chen. Involucre fossils of Carpinus, a northern temperate element, from the Miocene of China and the evolution of its species diversity in East Asia[J]. Plant Diversity, 2020, 42(03): 155-167.
Ablaev, A.G., Sin, E.U., Vassiliev, I.G., et al., 1993. Miocene of the North Korea and the South Primorye (Beds with Engelhardia). Feb Ran, Vladivostok. Adair, K.T., Li, S., 1994. Seed plant species pools: the development of species richness in eastern Asia and North America. Chin. Biodivers. 2, 18-29. Bureau of Geology and Mineral Resources of Hebei Province, 1989. Regional Geology of Hebei Province, Beijing Municipality and Tianjin Municipality. Geology Press, Beijing. Chaney, R.W., 1963. Tertiary Floras of Japan: Miocene Floras. Geological Survey of Japan, Tokyo. Chen, Y.-S., Deng, T., Zhou, Z., et al., 2018. Is the East Asian flora ancient or not? Nat. Sci. Rev. 5, 920-932. Chen, Z.-D., Manchester, S.R., Sun, H.-Y., 1999. Phylogeny and evolution of the Betulaceae as inferred from DNA sequences, morphology, and paleobotany. Am. J. Bot. 86, 1168-1181. Chen, Z., 1994a. Phylogeny and phytogeography of the Betulaceae. Acta Phytotaxon. Sin. 32, 1-32. Chen, Z., 1994b. Phylogeny and phytogeography of the Betulaceae (Cont.). Acta Phytotaxon. Sin. 32, 101-153. Chin, S.W., Shaw, J., Haberle, R., et al., 2014. Diversification of almonds, peaches, plums and cherriesemolecular systematics and biogeographic history of Prunus(Rosaceae). Mol. Phylogenet. Evol. 76, 34-48. Chun, H.Y., 1982. Plant fossils from the tertiary pohang sedimentary basin, Korea. Korea Inst. Energ. Res. 14, 7-23. Crane, P.R., 1981. Betulaceous leaves and fruits from the British upper palaeocene. Bot. J. Linn. Soc. 83, 103-136. Dai, J., Sun, B., Xie, S., et al., 2013. A new species of Carpinus (Betulaceae) from the pliocene of yunnan province, China. Plant Systemat. Evol. 299, 643-658. Ellis, B., Daly, D.C., Hickey, L.J., et al., 2009. Manual of Leaf Architecture. Cornell University, New York. Endo, S., 1940. A Pleistocene Flora from Shiobara. Japan. Sci. Rep. Tohoku Imperial Univ., pp. 47-80 Endo, S., 1950. On the fossil Carpinus from Japan and Korea. Short Papers IGPS 2, 51-57. Forest, F., Savolainen, V., Chase, M.W., et al., 2005. Teasing apart molecular-versus fossil-based error estimates when dating phylogenetic trees: a case study in the birch family (Betulaceae). Syst. Bot. 30, 118-133. Grimm, G.W., Renner, S.S., 2013. Harvesting Betulaceae sequences from GenBank to generate a new chronogram for the family. Bot. J. Linn. Soc. 172, 465-477. Hinsinger, D.D., Basak, J., Gaudeul, M., et al., 2013. The phylogeny and biogeographic history of Ashes (Fraxinus, Oleaceae) highlight the roles of migration and vicariance in the diversification of temperate Trees. PloS One 8, e80431. Huang, J., 2017. The Middle Miocene Wenshan Flora, Yunnan, Southwestern China and its Palaeoenvironment Reconstruction. Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Menglun, p. 320. Huang, Y.-J., Jacques, F.M.B., Liu, Y.-S.C., et al., 2015. Rubus (rosaceae) diversity in the late pliocene of yunnan, southwestern China. Geobios 48, 439-448. Huzioka, K., 1943. On some fossil involucres of Ostrya and Carpinus from the Miocene deposits of hokkaido and tyosen. J. Geol. Soc. Jpn. 50, 285-291. Huzioka, K., 1972. The tertiary floras of Korea. J. Min. Coll. Akita Univ. Series A 5, 1-83. Jetz, W., McPherson, J.M., Guralnick, R.P., 2012. Integrating biodiversity distribution knowledge: toward a global map of life. Trends Ecol. Evol. 27, 151-159. Jia, L.B., 2018. The Early Miocene Maguan Flora from Yunnan, Paleovegetation and Floristic Evolution. Kunming Institute of Botany, Kunming, p. 253. Jia, L.B., Huang, Y.J., Sun, H., et al., 2017. First fossil of Pterolobium (leguminosae) from the middle Miocene yunnan, south China. Rev. Palaeobot. Palynol. 242, 21-32. Jia, L.B., Manchester, S.R., Huang, J., et al., 2019a. First fossil record of an East Asian endemic genus Sladenia (Sladeniaceae) from its modern range: implications for floristic evolution and conservation biology. J. Systemat. Evol. https://doi.org/10.1111/jse.12518. Jia, L.B., Manchester, S.R., Su, T., et al., 2015. First occurrence of Cedrelospermum(ulmaceae) in Asia and its biogeographic implications. J. Plant Res. 128, 747-761. Jia, L.B., Su, T., Huang, Y.J., et al., 2019b. First fossil record of Cedrelospermum(ulmaceae) from the qinghai-Tibetan plateau: implications for morphological evolution and biogeography. J. Systemat. Evol. 57, 94-104. Kiera, G., Kreft, H., Leeb, T.M., et al., 2009. A global assessment of endemism and species richness across island and mainland regions. Proc. Natl. Acad. Sci. U.S.A. 106, 9322-9327. Kim, J.-H., Nam, K.-S., 2017. Fossil involucres of Carpinus and their significances from the duho formation of Yeonil group, Korea. J. Geol. Soc. Korea 53, 759-772. Latham, R.E., Ricklefs, R.E., 1993. Continental comparisons of temperate-zone tree species diversity. Spec. Diver. Ecol. Comm.: Hist. Geogr. Perspect. 294-314. Lebreton-Anberrée, Li, S.H., Li, S.-F., et al., 2016. Lake geochemistry reveals marked environmental change in southwest China during the mid Miocene climatic optimum. Sci. Bull. 61, 897-910. Lebreton-Anberrée, J., Manchester, S.R., Huang, J., et al., 2015. First fossil fruits and leaves of Burretiodendron s.l. (Malvaceae s.l.) in Southeast Asia: implications for taxonomy, biogeography, and paleoclimate. Int. J. Plant Sci. 176, 682-696. Li, X.C., 2010. The Late Cenozoic Floras from Eastern Zhejiang Province and Their Paleoclimatic Reconstruction. Lanzhou University, Lanzou. Li, P.C., Cheng, S.H., 1979. Betulaceae. In: Kuang, K.Z., Li, P.C. (Eds.), Flora Republicae Popularis Sinicae. Science Press, Beijing, pp. 44-137. Li, P.C., Skvortsov, A.K., 1999. Betulaceae. In: Wu, Z.Y., Raven, P., Hong, D. (Eds.), Flora of China. Science Press/Missouri Botanical Garden Press, Beijing/St. Louis, pp. 286-313. Li, Y., Yang, Y., Yu, L., et al., 2018. Plastomes of nine hornbeams and phylogenetic implications. Ecol. Evol. 8, 8770-8778. Li, Z.Y., Shi, L., 2007. Plants of Mount Emei. Beijing science and technology press, Beijing. Liao, W., 2014. Integrated Study on Biodiversity of Mount Jinggangshan Regions in China. Science Press, Beijing. Lim, K.H., Jang, C.B., Kwon, J.R., et al., 1994. The Fossils of Chosen 3. Science Engineering Press, Pyongyang. Linnemann, U., Su, T., Kunzmann, L., et al., 2017. New U-Pb dates show a Paleogene origin for the modern Asian biodiversity hot spots. Geology 41, 3-6. Lu, L.-M., Mao, L.-F., Yang, T., et al., 2018. Evolutionary history of the angiosperm flora of China. Nature 554, 234-238. Lucas, S.G., Emry, R.J., 1996. Biochronological significance of amynodontidae(mammalia, perissodactyla) from the Paleogene of Kazakhstan. J. Paleontol. 70, 691-696. Manchester, S.R., Chen, Z.-D., 1998. A new genus of Coryloideae (Betulaceae) from the paleocene of north America. Int. J. Plant Sci. 159, 522-532. Myers, N., Mittermeier, R.A., Mittermeier, C.G., et al., 2000. Biodiversity hotspots for conservation priorities. Nature 403, 853-858. Naciri, Y., Christe, C., Betrisey, S., et al., 2019. Species delimitation in the East Asian species of the relict tree genus Zelkova (Ulmaceae): a complex history of diversification and admixture among species. Mol. Phylogenet. Evol. 134, 172-185. Ozaki, K., 1991. Late Miocene and pliocene floras in central honshu, Japan. Bull. Kanagawa Prefect. Mus. 1-188. Pigg, K.B., Manchester, S.R., Wehr, W.C., 2003. Corylus, Carpinus, and palaeocarpinus(Betulaceae) from the middle eocene klondike mountain and allenby formations of northwestern north America. Int. J. Plant Sci. 164, 807-822. Pimm, S.L., Jenkins, C.N., Abell, R., et al., 2014. The biodiversity of species and their rates of extinction, distribution, and protection. Science 344, 1246752. Qi, T., 1992. A new species of Gigantamynodon (amynodontidae) from yunnan, China. Vertebr. Palasiat. 30, 229-232. Qian, H., 2002. A comparison of the taxonomic richness of temperate plants in East Asia and North America. Am. J. Bot. 89, 1818-1825. Renner, S.S., Grimm, G.W., Schneeweiss, G.M., et al., 2008. Rooting and dating maples (Acer) with an uncorrelated-rates molecular clock: implications for north American/Asian disjunctions. Syst. Biol. 57, 795-808. Stults, D.Z., Axsmith, B.J., Haywick, D., 2002. Evidence of Carpinus (Betulaceae) in the late tertiary (bliocene) of Alabama. Am. J. Bot. 89, 1547-1549. Su, T., Liu, Y.S., Jacques, F., et al., 2013. The intensification of the East Asian winter monsoon contributed to the disappearance of Cedrus (Pinaceae) in southwestern China. Quat. Res. 80, 316-325. Sun, B.-N., Cong, P.-Y., Yan, D.-F., et al., 2003. Cuticular structure of two angiosperm fossils in Neogene from Tengchong, Yunnan Province and its paleoenvironmental significance. Acta Palaeontol. Sin. 42, 216-222. Sun, B., 1999. Fossil Plants from Shanwang Flora. Shandong Science and Technology Press, Jinan. Tang, C.Q., Matsui, T., Ohashi, H., et al., 2018. Identifying long-term stable refugia for relict plant species in East Asia. Nat. Commun. 9, 4488. Thome, R.F., 1999. Eastern Asia as a living museum for archaic angiosperms and other seed plants. Taiwania 44, 413-422. Tiffney, B.H., 1985. Perspectives on the origin of the floristic similarity between eastern Asia and eastern North America. J. Arnold Arbor 66, 73-94. Uemura, K., Doi, E., Takahashi, F., 1999. Plant megafossil assemblage from the kiwado formation (Oligocene) from ouchiyama-kami in yamaguchi pref., western honshu, Japan. Bull. Mine City Mus. Yamaguchi Prefect. JPN. 15, 1-59. Wang, Z., Fang, J., Tang, Z., et al., 2011. Patterns, determinants and models of woody plant diversity in China. Proc. Biol. Sci. 278, 2122-2132. Wu, Z.Y., Zhou, Z.K., Sun, H., et al., 2006. The Areal-Types of Seed Plants and Their Origin and Differentiation. Kunming. Xing, Y., Gandolfo, M.A., Onstein, R.E., et al., 2016. Testing the biases in the rich Cenozoic angiosperm macrofossil record. Int. J. Plant Sci. 177, 371-388. Yang, X.-Y., Wang, Z.-F., Luo, W.-C., et al., 2019a. Plastomes of Betulaceae and phylogenetic implications. J. Systemat. Evol. https://doi.org/10.1111/jse.12479. Yang, Y., Tian, K., He, S., 2008. Study on the Scientific Survey of Wenshan National Reserve in China. Science Press, Beijing. Yang, Z., Wang, G., Ma, Q., et al., 2019b. The complete chloroplast genomes of three Betulaceae species: implications for molecular phylogeny and historical biogeography. PeerJ 7, e6320. Yoo, K.O., Wen, J., 2002. Phylogeny and biogeography of Carpinus and subfamily Coryloideae (Betulaceae). Int. J. Plant Sci. 163, 641-650. Zhang, J.W., D'Rozario, A., Adams, J.M., et al., 2015. Sequoia maguanensis, a new Miocene relative of the coast redwood, Sequoia sempervirens, from China: implications for paleogeography and paleoclimate. Am. J. Bot. 102, 103-118. Zhang, C.-H., 1976. The Report to the Regional Geological Survey (1/200,000) of Wenshan/Maguan Scope (F-48-3, F-48-9). Geological Bureau of Yunnan Province: Yuxi. Zhang, Q.Y., Huang, J., Jia, L.B., et al., 2018. Miocene Ulmus fossil fruits from Southwest China and their evolutionary and biogeographic implications. Rev. Palaeobot. Palynol. 259, 198-206. |
[1] | Maryam Kazempour Larsary, Hassan Pourbabaei, Ali Salehi, Rasoul Yousefpour, Arshad Ali. Tree-based attributes of large trees more effectively regulate aboveground carbon stock than trait-based ones in temperate deciduous forests [J]. Plant Diversity, 2025, 47(04): 653-665. |
[2] | Fangdong Geng (耿方东), Miaoqing Liu (刘苗青), Luzhen Wang (王璐珍), Xuedong Zhang (张雪栋), Jiayu Ma (马佳雨), Hang Ye (叶航), Keith Woeste, Peng Zhao (赵鹏). Genomic introgression underlies environmental adaptation in three species of Chinese wingnuts, Pterocarya [J]. Plant Diversity, 2025, 47(03): 365-381. |
[3] | Tingting Deng, Qingqing Du, Yan Zhu, Simon A. Queenborough. Environmental drivers of herbaceous plant diversity in the understory community of a warm-temperate forest [J]. Plant Diversity, 2025, 47(02): 282-290. |
[4] | Jiagang Zhao, Shufeng Li, Jian Huang, Wenna Ding, Mengxiao Wu, Tao Su, Alexander Farnsworth, Paul J. Valdes, Linlin Chen, Yaowu Xing, Zhekun Zhou. Heterogeneous occurrence of evergreen broad-leaved forests in East Asia: Evidence from plant fossils [J]. Plant Diversity, 2025, 47(01): 1-12. |
[5] | Cindy Q. Tang, Min-Rui Du, Huan-Chong Wang, You-Cai Shi, Jia-Le Zeng, Shu-Li Xiao, Peng-Bin Han, Jian-Ran Wen, Shi-Qian Yao, Ming-Chun Peng, Chong-Yun Wang, Yong-Ping Li, Jordi López-Pujol. An unprotected vulnerable relict subtropical conifer—Keteleeria evelyniana: Its forests, populations, growth and endangerment by invasive alien plant species in China [J]. Plant Diversity, 2024, 46(05): 648-660. |
[6] | Hai-Yao Chen, Zhi-Rong Zhang, Xin Yao, Ji-Dong Ya, Xiao-Hua Jin, Lin Wang, Lu Lu, De-Zhu Li, Jun-Bo Yang, Wen-Bin Yu. Plastid phylogenomics provides new insights into the systematics, diversification, and biogeography of Cymbidium (Orchidaceae) [J]. Plant Diversity, 2024, 46(04): 448-461. |
[7] | Wen-Hao Zeng, Shi-Dan Zhu, Ying-Hua Luo, Wei Shi, Yong-Qiang Wang, Kun-Fang Cao. Aboveground biomass stocks of species-rich natural forests in southern China are influenced by stand structural attributes, species richness and precipitation [J]. Plant Diversity, 2024, 46(04): 530-536. |
[8] | Hong Qian, Zun Dai, Jian Wang. Strong evidence for latitudinal diversity gradient in mosses across the world [J]. Plant Diversity, 2024, 46(04): 537-541. |
[9] | Nian Zhou, Ke Miao, Changkun Liu, Linbo Jia, Jinjin Hu, Yongjiang Huang, Yunheng Ji. Historical biogeography and evolutionary diversification of Lilium (Liliaceae): New insights from plastome phylogenomics [J]. Plant Diversity, 2024, 46(02): 219-228. |
[10] | Xu Chen, Haining Lu, Zhengru Ren, Yuqiu Zhang, Ruoxuan Liu, Yunhai Zhang, Xingguo Han. Reproductive height determines the loss of clonal grasses with nitrogen enrichment in a temperate grassland [J]. Plant Diversity, 2024, 46(02): 256-264. |
[11] | Shi-Guang Wei, Lin Li, Kun-Dong Bai, Zhi-Feng Wen, Jing-Gang Zhou, Qin Lin. Community structure and species diversity dynamics of a subtropical evergreen broad-leaved forest in China: 2005 to 2020 [J]. Plant Diversity, 2024, 46(01): 70-77. |
[12] | Wei Wang, Kun Xin, Yujun Chen, Yuechao Chen, Zhongmao Jiang, Nong Sheng, Baowen Liao, Yanmei Xiong. Spatio-temporal variation of water salinity in mangroves revealed by continuous monitoring and its relationship to floristic diversity [J]. Plant Diversity, 2024, 46(01): 134-143. |
[13] | Lin Lin, Xiao-Long Jiang, Kai-Qi Guo, Amy Byrne, Min Deng. Climate change impacts the distribution of Quercus section Cyclobalanopsis (Fagaceae), a keystone lineage in East Asian evergreen broadleaved forests [J]. Plant Diversity, 2023, 45(05): 552-568. |
[14] | Cindy Q. Tang, Shi-Qian Yao, Peng-Bin Han, Jian-Ran Wen, Shuaifeng Li, Ming-Chun Peng, Chong-Yun Wang, Tetsuya Matsui, Yong-Ping Li, Shan Lu, Yuan He. Forest characteristics, population structure and growth trends of threatened relict Pseudotsuga forrestii in China [J]. Plant Diversity, 2023, 45(04): 422-433. |
[15] | Feng-Luan Liu, Ya-Lan Dai, Thi Nga Hoang, Vichai Puripunyavanich, Primlarp Wasuwat Chukiatman, Mi Qin, Yan-Rong Fu, Yu-Chu Chen, Dai-Ke Tian. Genetic diversity and inferred ancestry of Asian lotus (Nelumbo nucifera) germplasms in Thailand and Vietnam [J]. Plant Diversity, 2023, 45(01): 69-79. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||