植物多样性 2018, 40(04) 172-180 DOI:   10.1016/j.pld.2018.07.007  ISSN: 2095-0845 CN: 53-1217/Q

本期目录 | 下期目录 | 过刊浏览 | 高级检索                                                            [打印本页]   [关闭]
研究论文
扩展功能
本文信息
Supporting info
PDF(3389KB)
[HTML全文]
参考文献[PDF]
参考文献
服务与反馈
把本文推荐给朋友
加入我的书架
加入引用管理器
引用本文
Email Alert
文章反馈
浏览反馈信息
本文关键词相关文章
China
Biodiversity
Conservation
Himalayas
Pollination
Pollinators
本文作者相关文章
PubMed
Pollination ecology in China from 1977 to 2017
Zongxin Rena, Yanhui Zhaoa, Huan Lianga,b, Zhibin Taoa,b, Hui Tanga,b, Haiping Zhangc, Hong Wanga
a Key Laboratory for Plant Biodiversity and Biogeography of East Asia, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, Yunnan 650201, China;
b Kunming College of Life Sciences, University of Chinese Academy of Sciences, Kunming, Yunnan 650201, China;
c School of Life Sciences, Yunnan University, Kunming, Yunnan 650091, China
摘要

China is one of most biodiverse countries in the world, containing at least 10% of all angiosperm species. Therefore, we should anticipate a diverse, pollinator fauna. China also has a long history of applied ethnobiology, including a sustainable agriculture based on apiculture and plant-pollinator interactions. However, the science of pollination ecology is a far younger sub-discipline in China, compared to in the West. Chinese studies in pollination ecology began in the 1970s. For this review, we compiled a complete reference database (>600 publications) of pollination studies in China. Using this database, we identified and analyzed gaps and limitations in research on the pollination systems of native and naturalized species. Specifically, we asked the following questions:1) What do we know about the pollination systems of native, Chinese species? 2) How does Chinese pollination ecology compare with the development of pollination research abroad and which aspects of research should be pursued by Chinese anthecologists in the near future? 3) What research on pollination in China will advance our understanding and contribute to our ongoing analyses of endemism and conservation? Subsequently, we segregated and identified prospective lines of future research that are unique to China and can only be done in China. This requires discussing priorities within a systematic approach.

关键词 China   Biodiversity   Conservation   Himalayas   Pollination   Pollinators  
Pollination ecology in China from 1977 to 2017
Zongxin Rena, Yanhui Zhaoa, Huan Lianga,b, Zhibin Taoa,b, Hui Tanga,b, Haiping Zhangc, Hong Wanga
a Key Laboratory for Plant Biodiversity and Biogeography of East Asia, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, Yunnan 650201, China;
b Kunming College of Life Sciences, University of Chinese Academy of Sciences, Kunming, Yunnan 650201, China;
c School of Life Sciences, Yunnan University, Kunming, Yunnan 650091, China
Abstract:

China is one of most biodiverse countries in the world, containing at least 10% of all angiosperm species. Therefore, we should anticipate a diverse, pollinator fauna. China also has a long history of applied ethnobiology, including a sustainable agriculture based on apiculture and plant-pollinator interactions. However, the science of pollination ecology is a far younger sub-discipline in China, compared to in the West. Chinese studies in pollination ecology began in the 1970s. For this review, we compiled a complete reference database (>600 publications) of pollination studies in China. Using this database, we identified and analyzed gaps and limitations in research on the pollination systems of native and naturalized species. Specifically, we asked the following questions:1) What do we know about the pollination systems of native, Chinese species? 2) How does Chinese pollination ecology compare with the development of pollination research abroad and which aspects of research should be pursued by Chinese anthecologists in the near future? 3) What research on pollination in China will advance our understanding and contribute to our ongoing analyses of endemism and conservation? Subsequently, we segregated and identified prospective lines of future research that are unique to China and can only be done in China. This requires discussing priorities within a systematic approach.

Keywords: China   Biodiversity   Conservation   Himalayas   Pollination   Pollinators  
收稿日期 2018-04-28 修回日期 2018-07-30 网络版发布日期  
DOI: 10.1016/j.pld.2018.07.007
基金项目:

This project was supported by the National Natural Science Foundation of China (No. 31300199 and 41561014) and the Youth Innovation Promotion Association, Chinese Academy of Sciences (2014355).

通讯作者: Zongxin Ren, Hong Wang
作者简介:
作者Email: renzongxin@mail.kib.ac.cn;wanghong@mail.kib.ac.cn

参考文献:

Allan, M., 1977. Darwin and His Flowers:the Key to Natural Selection. Taplinger Publishing Company, New York.
Armbruster, W.S., Shi, X.Q., Huang, S.Q., 2014. Do specialized flowers promote reproductive isolation? Realized pollination accuracy of three sympatric Pedicularis species. Ann. Bot. 113, 331-340.
Barrett, S.C.H., 2015. The evolution of plant reproductive ecology in China. J. Plant Ecol. 8, 101-108.
Bernhardt, P., Edens-Meier, R., Grimm, W., Ren, Z.X., Towle, B., 2017. Global collaborative research on the pollination biology of rare and threatened orchid species (Orchidaceae). Ann. Mo. Bot. Gard. 102 (2), 364-376.
Brown, M.J.F., Dicks, L.V., Paxton, R.J., Baldock, K.C.R., Barron, A.B., Chauzat, M.-P., Freitas, B.M., Goulson, D., Jepsen, S., Kremen, C., Li, J., Neumann, P., Pattemore, D.E., Potts, S.G., Schweiger, O., Seymour, C.L., Stout, J.C., 2016. A horizon scan of future threats and opportunities for pollinators and pollination. PeerJ 4, e2249.
Burkle, L.A., Marlin, J.C., Knight, T.M., 2013. Plant-pollinator interactions over 120 years:loss of species, co-occurrence and function. Science 339, 1611-1615.
Cardinal, S., Danforth, B.N., 2013. Bees diversified in the age of eudicots. Proc. Roy. Soc. Biol. Sci. 280, 20122686.
Corbet, S.A., Huang, S.Q., 2014. Buzz pollination in eight bumblebee-pollinated Pedicularis species:does it involve vibration-induced triboelectric charging of pollen grains? Ann. Bot. 114, 1665-1674.
Eaton, D.A.R., Fenster, C.B., Hereford, J., Huang, S.Q., Ree, R.H., 2012. Floral diversity and community structure in Pedicularis (Orobanchaceae). Ecology 93 (8), S182-S194.
Fang, Q., Chen, Y.-Z., Huang, S.Q., 2012. Generalist passerine pollination of a winterflowering fruit tree in central China. Ann. Bot. 109 (2), 379-384.
Fang, Q., Huang, S.Q., 2013. A directed network analysis of heterospecific pollen transfer in a biodiverse community. Ecology 94 (5), 1176-1185.
Georgian, E., Fang, Z., Emshwiller, E., Pidgeon, A., 2015. The pollination ecology of Rhododendron floccigerum Franchet (Ericaceae) in Weixi, Yunnan Province, China. J. Pollinat. Ecol. 16 (11), 72-81.
Goody, J., 1993. The Culture of Flowers. University of Cambridge, Woolmough Bookbinding Ltd. Northampton, England.
Grant, V., 1994. Modes and origins of mechanical and ethological isolation in angiosperms. Proc. Natl. Acad. Sci. U. S. A. 91, 3-10.
Grant, V., Grant, K.A., 1965. Flower Pollination in the Phlox Family. Columbia University Press, New York.
Gurevitch, J., Scheiner, S.M., Fox, G.A., 2006. The Ecology of Plants, second ed. Sinauer Associates Inc., Massachusetts USA.
Hahn, M., Brühl, C.A., 2016. The secret pollinators:an overview of moth pollination with a focus on Europe and North America. Arthropod Plant Interact. 10 (1), 21-28.
Holden, C., 2006. Report warns of looming pollination crisis in North America. Science 314 (5798), 397-397.
Hu, S.Y., 2005. Food plants of China. Chinese University Press, Hong Kong.
Huang, H.W., 2011. Plant diversity and conservation in China:planning a strategic bioresource for a sustainable future. Bot. J. Linn. Soc. 166 (3), 282-300.
Huang, S.Q., 2012. Pollination biology in China in the 21st century:getting a good start. Biodivers. Sci. 20, 239-240.
Huang, S.Q., Shi, X.Q., 2013. Floral isolation in Pedicularis:how do congeners with shared pollinators minimize reproductive interference? New Phytol. 199, 858-865.
Huang, Z.-H., Song, Y.-P., Huang, S.-Q., 2017. Evidence for passerine bird pollination in Rhododendron species. Aob Plants 9, plx062.
Ivri, Y., Dafni, A., 1977. Pollination ecology of Epipactis consimilis Don. (Orchidaceae) in Israel. New Phytol. 79 (1), 173-177.
Jin, X.H., Ren, Z.X., Xu, S.Z., Wang, H., Li, D.Z., Li, Z.Y., 2014. The evolution of floral deception in Epipactis veratrifolia (Orchidaceae):from indirect defense to pollination. BMC Plant Biol. 14 (1), 63.
Kantsa, A., Raguso, R.A., Dyer, A.G., Sgardelis, S.P., Olesen, J.M., Petanidou, T., 2017. Community-wide integration of floral colour and scent in a Mediterranean scrubland. Nat. Ecol. Evol. 1 (10), 1502-1510.
Kantsa, A., Raguso, R.A., Dyer, A.G., Olesen, J.M., Tscheulin, T., Petanidou, T., 2018. Disentangling the role of floral sensory stimuli in pollination networks. Nat. Commun. 9 (1), 1041.
Kerr, J.T., Pindar, A., Galpern, P., Packer, L., Potts, S.G., Roberts, S.M., Rasmont, P., Schweiger, O., Colla, S.R., Richardson, L.L., Wagner, D.L., Gall, L.F., Sikes, D.S., Pantoja, A., 2015. Climate change impacts on bumblebees converge across continents. Science 349 (6244), 177-180.
Klein, A.M., Vaissiere, B.E., Cane, J.H., Steffan-Dewenter, I., Cunningham, S.A., Kremen, C., Tscharntke, T., 2007. Importance of pollinators in changing landscapes for world crops. Proc. Roy. Soc. Biol. Sci. 274 (1608), 303-313.
Kremen, C., Williams, N.M., Bugg, R.L., Fay, J.P., Thorp, R.W., 2004. The area requirements of an ecosystem service:crop pollination by native bee communities in California. Ecol. Lett. 7 (11), 1109-1119.
Li, D.Z., Pritchard, H.W., 2009. The science and economics of ex situ plant conservation. Trends Plant Sci. 14 (11), 614-621.
Li, Q.J., Xu, Z.F., Kress, W.J., Xia, Y.M., Zhang, L., Deng, X.B., Gao, J.Y., Bai, Z.L., 2001. Flexible style that encourages outcrossing. Nature 410 (6827), 432-432.
Liang, H., Ren, Z.X., Tao, Z.B., Zhao, Y.H., Bernhardt, P., Wang, H., 2018. Impact of preand post-pollination barriers on pollen transfer and reproductive isolation among three sympatric Pedicularis species. Plant Biol. 20, 662-673.
Lopez-Pujol, J., Zhang, F.M., Ge, S., 2006. Plant biodiversity in China:richly varied, endangered, and in need of conservation. Biodivers. Conserv. 15 (12), 3983-4026.
Lunau, K., Konzmann, S., Winter, L., Kamphausen, V., Ren, Z.-X., 2017. Pollen and stamen mimicry:the alpine flora as a case study. Arthropod Plant Interact. 11(3), 427-447.
Lu, L.-M., Mao, L.-F., Yang, T., Ye, J.-F., Liu, B., Li, H.-L., Sun, M., Miller, J.T., Mathews, S., Hu, H.-H., Niu, Y.-T., Peng, D.-X., Chen, Y.-H., Smith, S.A., Chen, M., Xiang, K.-L., Le, C.-T., Dang, V.-C., Lu, A.-M., Soltis, P.S., Soltis, D.E., Li, J.-H., Chen, Z.-D., 2018. Evolutionary history of the angiosperm flora of China. Nature 554, 234.
Macgregor, C.J., Pocock, M.J.O., Fox, R., Evans, D.M., 2014. Pollination by nocturnal Lepidoptera, and the effects of light pollution:a review. Ecol. Entomol. 40 (3), 187-198.
Michener, C.D., 2000. The Bees of the World. Johns Hopkins University Press, Baltimore, Maryland.
Mitchell, R.J., Irwin, R.E., Flanagan, R.J., Karron, J.D., 2009. Ecology and evolution of plantepollinator interactions. Ann. Bot. 103, 1355-1363.
Mu, J., Griffin, J.N., Niklas, K.J., Sun, S.C., 2014. Domesticated honey bees evolutionarily reduce flower nectar volume in a Tibetan lotus. Ecology 95, 3161-3172.
Mu, J., Peng, Y., Xi, X., Wu, X., Li, G., Niklas, K.J., Sun, S.C., 2015. Artificial asymmetric warming reduces nectar yield in a Tibetan alpine species of Asteraceae. Ann. Bot. 116, 899-906.
Myers, N., Mittermeier, R.A., Mittermeier, C.G., da Fonseca, G.A.B., Kent, J., 2000. Biodiversity hotspots for conservation priorities. Nature 403 (6772), 853-858.
Ollerton, J., Winfree, R., Tarrant, S., 2011. How many flowering plants are pollinated by animals? Oikos 120 (3), 321-326.
Orford, K.A., Vaughan, I.P., Memmott, J., 2015. The forgotten flies:the importance of non-syrphid Diptera as pollinators. Proc. Roy. Soc. Biol. Sci. 282, 20142934.
Partap, U., Tang, Y., 2012. The human pollinators of fruit crops in Maoxian County, Sichuan, China. Mt. Res. Dev. 32 (2), 176-186.
Poisot, T., Stouffer, D.B., Ke fi, S., 2016. Describe, understand and predict:why do we need networks in ecology? Funct. Ecol. 30 (12), 1878-1882.
Potts, S.G., Biesmeijer, J.C., Kremen, C., Neumann, P., Schweiger, O., Kunin, W.E., 2010. Global pollinator declines:trends, impacts and drivers. Trends Ecol. Evol. 25 (6), 345-353.
Proctor, M., Yeo, P., Lack, A., 1996. The Natural History of Pollination. Timber Press, Portland, Oregon.
Ren, Z.X., Li, D.Z., Bernhardt, P., Wang, H., 2011. Flowers of Cypripedium fargesii(Orchidaceae) fool flat-footed flies (Platypezidae) by faking fungus-infected foliage. Proc. Natl. Acad. Sci. U. S. A. 108 (18), 7478-7480.
Ren, Z.X., Wang, H., Bernhardt, P., Camilo, G., Li, D.Z., 2014a. Which food-mimic floral traits and environmental factors influence fecundity in a rare orchid, Calanthe yaoshanensis? Bot. J. Linn. Soc. 176 (3), 421-433.
Ren, Z.X., Wang, H., Bernhardt, P., Li, D.Z., 2014b. Insect pollination and selfincompatibility in edible and/or medicinal crops in southwestern China, a global hotspot of biodiversity. Am. J. Bot. 101, 1700-1710.
Robart, B.W., Gladys, C., Frank, T., Kilpatrick, S., 2015. Phylogeny and biogeography of North American and Asian Pedicularis (Orobanchaceae). Syst. Bot. 40, 229-258.
Smith, K., Loh, E., Rostal, M., Zambrana-Torrelio, C., Mendiola, L., Daszak, P., 2014. Pathogens, Pests, and Economics:Drivers of Honey Bee Colony Declines and Losses. EcoHealth, pp. 1-12.
Stökl, J., Brodmann, J., Dafni, A., Ayasse, M., Hansson, B.S., 2011. Smells like aphids: orchid flowers mimic aphid alarm pheromones to attract hoverflies for pollination. Proc. Roy. Soc. Biol. Sci. 278 (1709), 1216-1222.
Stebbins, G.L., 1970. Adaptive radiation of reproductive characteristics in angiosperms. I. Pollination mechanisms. Annu. Rev. Ecol. Systemat. 1, 307-326.
Su, R., Dong, Y., Dong, K., He, S.Y., 2012. The toxic honey plant Camellia oleifera. J. Apicult. Res. 51 (3), 277-279.
Tang, G.D., Ou, J.H., Luo, Y.B., Zhuang, X.Y., Liu, Z.J., 2014. A review of orchid pollination studies in China. J. Systemat. Evol. 52 (4), 411-422.
Tang, M., Hardman, C.J., Ji, Y., Meng, G., Liu, S., Tan, M., Yang, S., Moss, E.D., Wang, J., Yang, C., Bruce, C., Nevard, T., Potts, S.G., Zhou, X., Yu, D.W., Gilbert, M., 2015. High-throughput monitoring of wild bee diversity and abundance via mitogenomics. Methods Ecol. Evol. 6 (9), 1034-1043.
Tang, Y., Xie, J.S., Chen, K.M., 2003. Hand Pollination of Pears and its Implications for Biodiversity Conservation and Environmental Protection:a Case Study from Hanyuan County, Sichuan Province, China. Unpublished report submitted to the International Centre for Integrated Mountain Development (ICIMOD). http://www.internationalpollinatorsinitiative.org/jsp/studies/studies.jsp. (Accessed 1 February 2014).
Tao, Z.B., Ren, Z.X., Wang, W.J., Bernhardt, P., Li, H.D., Wang, H., 2018. Nocturnal hawkmoth and moth pollination of Habenaria limprichtii Schltr. (Orchidaceae) in sub-alpine meadows of the Yulong Snow Mountain (Yunnan, China). Bot. J. Linn. Soc. 187 (3), 483-498.
Thomann, M., Imbert, E., Devaux, C., Cheptou, P.O., 2013. Flowering plants under global pollinator decline. Trends Plant Sci. 18, 353-359.
Tong, Z.Y., Huang, S.Q., 2016. Pre-and post-pollination interaction between six coflowering Pedicularis species via heterospecific pollen transfer. New Phytol. 211(4), 1452-1461.
Verhoeven, C., Ren, Z.X., Lunau, K., 2018. False-colour photography:a novel digital approach to visualize the bee view of flowers. J. Pollinat. Ecol. 23 (12), 102-118.
Whitehead, M.R., Lanfear, R., Mitchell, R.J., Karron, J.D., 2018. Plant mating systems often vary widely among populations. Front. Ecol. Evol. 6, 38.
Wang, H., Li, D.Z., 1998. A preliminary study of pollination biology of Pedicularis(Scrophulariaceae) in Northwest Yunnan, China. Acta Bot. Sin. 40, 204-210.
Williams, P., Tang, Y., Yao, J., Cameron, S., 2009. The bumblebees of Sichuan (Hymenoptera:Apidae, Bombini). Syst. Biodivers. 7 (2), 101-189.
Wu, Y.R., 1977. The pollinating bees on Camellia olifera with descriptions of 4 new species of the genus Andrena. Acta Entomol. Sin. 2, 199-204.
Wu, Z.Y., Raven, P.H., Hong, D.Y., 2013. Flora of China. In:Introduction, vol. 1. Science Press, Beijing, China and Missouri Botanical Garden Press, St. Louis, USA.
Xie, Z.H., Chen, X.M., Qiu, J.S., 2013. Reproductive failure of Camellia oleifera in the plateau region of China due to a shortage of legitimate pollinators. Int. J. Agric. Biol. 15, 458-464.
You, M.S., Xu, D.M., Cai, H.J., Vasseur, L., 2005. Practical importance for conservation of insect diversity in China. Biodivers. Conserv. 14 (3), 723-737.
Zhao, Y.H., Ren, Z.X., Lazaro, A., Wang, H., Bernhardt, P., Li, H.D., Li, D.Z., 2016. Floral traits influence pollen vectors' choices in higher elevation communities in the Himalaya-Hengduan Mountains. BMC Ecol. 16, 26.
Zhu, H.F., Wang, L.Y., 1997. Lepidoptera:Sphingidae. In:Sinica, C.o.F. (Ed.), Fauna Sinica:Insecta. Science Press, Beijing.
Zou, Y., Bianchi, F.J.J.A., Jauker, F., Xiao, H.J., Chen, J.H., Cresswell, J., Luo, S.D., Huang, J.K., Deng, X.Z., Hou, L.L., van der Werf, W., 2017. Landscape effects on pollinator communities and pollination services in small-holder agroecosystems. Agric. Ecosyst. Environ. 246, 109-116.

本刊中的类似文章
1.LIU Pei-Ying,ZHANG Sheng-Lin,ZHANG Xing-Guo.RESEARCH AND UTILIZATION OF AMORPHOPHS IN CHINA[J]. 植物多样性, 1998,20(10): 1-3
2.LI Heng, LONG Chun-Lin.A PRELIMINARY REVlSION OF ARACEAE OF CHINA[J]. 植物多样性, 1998,20(10): 1-3
3.Timo Maukonen.Global and Local Issues in (Agro) Biodiversity[J]. 植物多样性, 2001,23(13): 1-3
4.CHEN Ai- Guo DAO Zhi- Ling GUO Hui- Jun FU Yong-Neng.Development and Conservation of Agrodiversity by Small[J]. 植物多样性, 2001,23(13): 1-3
5.Hassan SHER,ZD.KHAN,AU.KHAN,F.HUSSAIN.Ethnobotanical Study on Some Plants in Village Tigdari,District Swat,Pakistan[J]. 植物多样性, 2004,26(15): 1-3
6.Hassan SHER,ZD.KHAN,AU.KHAN,Farrukh HUSSAIN.Insitu Protection Management and Conservation Study of Some Medicinal Plants[J]. 植物多样性, 2005,27(01): 27-36
7.Muhammad Waseem; M. Amin Ullah Shah; Rizwana Aleem Qureshi; Iqbal Muhammad; Rabia Afza; Saeeda Yousaf.Ethnopharmacological Survey of Plants Used for the Treatment of Stomach, Diabetes, and Ophthalmic Diseases in Sudhan Gali , Kashmir , Pakistan[J]. 植物多样性, 2006,28(05): 535-542
8.Anita JAIN, S. S. KATEWA, P. K. GALAV, Ambika NAG.Unrecorded Ethnomedicinal Uses of Biodiversity from Tadgarh-Raoli Wildlife Sanctuary, Rajasthan, India[J]. 植物多样性, 2007,29(03): 337-344
9. 季 慧1 , 2 , 管开云1 , 鲁元学1 .石蝴蝶属八种植物的染色体数目报道[J]. 植物多样性, 2008,30(03): 321-324
10. JONG Shung-Chang1, LIU Zi-Qiang2 .Legal Issues Surrounding the Genetic Resource Conservation and Use of Edible Ectomycorrhizal Mushrooms[J]. 植物多样性, 2009,31(S16): 103-109
11. Sourzat Pierre .The Truffle and Its Cultivation in France[J]. 植物多样性, 2009,31(S16): 72-80
12. DA Sa Ru-La , BAI Shu-Lan, SHAO Dong-Hua, HAN Sheng-Li .A Preliminary Report on the Larger Edible Ectomycorrhizal Mushrooms from Daqing Mountains of Inner Mongolia, China[J]. 植物多样性, 2009,31(S16): 10-14
13. Egli Simon, Ayer Fran􊉳ois .Thinning an Old-growth Forest Increased Diversity and Productivity of Mushrooms[J]. 植物多样性, 2009,31(S16): 62-68
14. WANG Yun1 , 2, LIU Pei-Gui1 .Achievements and Challenges of Rrsearch on Truffles in China[J]. 植物多样性, 2009,31(S16): 1-3
15. Li-Song WANG.Floristics of Higher Plants in China——Report from Catalogue of Life: Higher Plants in China Database[J]. 植物多样性, 2011,33(01): 69-74
16. HE Shan-An.Prospects for Chinese Botanical GardensFoundation items: Supported by Chinese Biodiversity Conservation and Green Development Foundation[J]. 植物多样性, 2011,33(01): 19-23
17. Judith A.WARNEMENT.Botanical Literature Goes Global: The Biodiversity Heritage Library[J]. 植物多样性, 2011,33(01): 39-45
18. David A.GALBRAITH1, Natalie E.IWANYCKI1, Brechann V.McGOEY1, Jamie McGREGOR2.The Evolving Role of Botanical Gardens and Natural Areas: A Floristic Case Study from Royal Botanical Gardens, Canada[J]. 植物多样性, 2011,33(01): 123-131
19. Peter H.RAVEN.Plant Conservation in the Future: New Challenges, New Opportunities[J]. 植物多样性, 2011,33(01): 1-9
20. Ma?té DELMAS.Saving Our Planet′s Flora, the Contribution of the French National Natural History Museum to the Implementation of the Global Strategy for Plant Conservation[J]. 植物多样性, 2011,33(01): 46-52
21. Xiang-Ying WEN1, Joachim GRATZFELD1, Sheng-Ji PEI2.Safeguarding China′s Botanical HeritageFoundation item: BGCI′S Program in China——BGCI′s integrated conservation programme in China[J]. 植物多样性, 2011,33(01): 80-84
22. Chang LIU, Hua YU, Shi-Lin CHEN .Framework for Sustainable Use of Medicinal Plants in China[J]. 植物多样性, 2011,33(01): 65-68
23. 骆洋1、2、5, 何延彪3, 李德铢1、2, 王雨华3、4, 伊廷双2, 王红1、2.中国植物志、Flora of China和维管植物新系统中科的比较[J]. 植物多样性, 2012,34(3): 231-238
24. 沐先运1, 谭运洪2, 张志翔1.中国南蛇藤属 (卫矛科) 一新记录种及其意义[J]. 植物多样性, 2012,34(4): 354-
25. Alan Hamilton1, Yildiz Aumeeruddy Thomas2.Maintaining Resources for Traditional Medicine: A Global Overview and a Case Study from Buganda (Uganda)[J]. 植物多样性, 2013,35(4): 407-423
26. 李德铢1、2, 杨红梅1、2、3, 张玉霄1、2.《中国植物志》(英文版)竹亚科青篱竹属和新小竹属的修订[J]. 植物多样性, 2013,35(5): 605-612
27. 王凡红1、2、3, 李德铢1、2, 薛春迎1、2, 卢金梅1、2.石松类和蕨类植物的主要分类系统的科属比较[J]. 植物多样性, 2013,35(6): 791-809
28. Alan C. Hamilton1*, Deborah Karamura2, Esezah Kakudidi3. History and conservation of wild and cultivated plant diversity in Uganda: forest species and banana varieties as case studies[J]. 植物多样性, 2016,38(01): 26-52
29. Richard T. Corlett. Plant diversity in a changing world: status, trends, and conservation needs[J]. 植物多样性, 2016,38(01): 11-18
30. Roy Turkington, William L. Harrower.An experimental approach to addressing ecological questions related to the conservation of plant biodiversity in China[J]. 植物多样性, 2016,38(01): 1-10
31. Sergei Volis.How to conserve threatened Chinese plant species with extremely small populations?[J]. 植物多样性, 2016,38(01): 53-62
32.Hai Zhu a, c, Yong-Jiang Huang a, d, **, Tao Su b, Zhe-Kun Zhou a, b, *.New fossil seeds of Eurya (Theaceae) from East Asia and theirpaleobiogeographic implications[J]. 植物多样性, 2016,38(03): 125-
33.Ze-huan Wang a, Xi-wen Li a, En-de Liu a, *, Fa-zhi Shangguan a, Xue-ke Chang b.Lysimachia septemfida (Primulaceae), a new species from Yunnan, China[J]. 植物多样性, 2016,38(04): 201-206
34.Yong-Jiang Huang a, *, Tao Su b, Zhe-Kun Zhou a, b.Late Pliocene diversity and distribution of Drynaria (Polypodiaceae) in western Yunnan explained by forest vegetation and humid climates[J]. 植物多样性, 2016,38(04): 194-200
35.Daike Tian, Yan Xiao, Yi Tong, Naifeng Fu, Qingqing Liu, Chun Li.Diversity and conservation of Chinese wild begonias[J]. 植物多样性, 2018,40(03): 75-90
36.Sergei Volis.Securing a future for China's plant biodiversity through an integrated conservation approach[J]. 植物多样性, 2018,40(03): 91-105
37.Gao Chen, Weibang Sun.The role of botanical gardens in scientific research, conservation, and citizen science[J]. 植物多样性, 2018,40(04): 181-188

文章评论

Copyright by 植物多样性