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1)2017/12-至今 广西大学，林学院，副教授。2)2016/03-2021/03 广西大学，林学院，学术带头人。3)2010/07-2016/02 中国科学院华南植物园，助理研究员。4)2005/09-2010/06 中国科学院西双版纳热带植物园，理学博士。5)2001/09-2005/07 河南农业大学，农学学士。
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广西生态学学会常务理事学术期刊审稿：New Phytologist、Ecology、Tree Physiology、Forest Ecology and Management、Ecohydrology、Environmental and Experimental Botany、Agricultural and Water Management、Plant and Soil、Plant Biology、Ecohydrology、Functional Plant Biology、Plant Diversity、Plant Ecology、Plant Methods、Global Ecology and Conservation、Frontiers in Plant Science、AoB Plants、Journal of Sustainable Forestry、Forest Ecosystems、PeerJ、Annals of Forest Science、Scientific Reports、Acta Botanica Brasilica、Journal of Plant Research、Scientia Agricola、Journal of Plant Ecology、Tropical Conservation Science、Botanical Studies、植物生态学报、生态学报、生物多样性、植物科学学报、林业科学、热带亚热带植物学报、广西植物。
zyyjskc
《植物生理学》、《喀斯特植被生态学》、《高级植物生理学》、《保护生物学》、《植物生态学研究进展》、《仪器分析》。
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气候变化与树木水力安全；亚热带特色植物类群的生理生态适应。
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主持项目： 01) 国家自然科学基金地区基金项目：热带亚热带喀斯特树木的水力安全策略与生态表现的相关性研究，2021/01～2024/12。 02) 国家自然科学基金国际（地区）合作交流项目－NSFC-RGC青年****论坛：生态环境学科前沿与绿色发展，2019/09～2019/12。 03) 广西“八桂青年****”项目：植物生理生态，2019/06～2022/05。 04) 广西自然科学基金面上项目：气候干热化背景下热带亚热带森林群落动态的水力机制研究，2019/01～2020/12。 05) 广西自然科学基金青年基金项目：基于植物耐旱性解释广西两种典型森林群落物种多度的差异，2017/09～2020/09。 06) 广西大学科研基金项目：热带亚热带天然林和人工林群落木本植物的水力性状研究，2016/03～2021/03。 07) 国家自然科学基金面上项目：北热带和南亚热带典型森林群落木本植物的水力结构及其对季节性干旱的水力适应，2015/01～2018/12。 08) 国家自然科学基金青年基金：南亚热带森林不同演替阶段植物的水分关系和抗旱性，2012/01～2014/12。 09) 中国科学院退化生态系统植被恢复与管理重点实验室主任基金项目：南亚热带乡土树种的水力结构和抗旱性， 2011/07～2013/07。参与项目： 01) 国家自然科学基金国际（地区）合作研究项目－NSFC-DFG项目（中德）合作研究项目：从温带到热带生物群落的木本被子植物干旱引起水力失效的机制和频度，2019/01～2021/12。 02) 国家科技部重点研发计划项目“西南生态安全格局形成机制及演变机理”的子专题：西南生物多样性分布格局，2016/07～2020/12。 03) 广西重点研发计划项目：广西典型天然林长期监测研究，2016/09～2019/12。 04) 国家自然科学基金面上项目：潮间带红树植物水力结构和功能及其与气孔调控行为的关系，2017/01～2020/12。
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发表论文（*通讯作者；#共同第一作者）： 01) Yan CL, Ni MY, Cao KF, Zhu SD*. 2020. Leaf hydraulic safety margin and safety-efficiency tradeoff across angiosperm woody species. Biology Letters, http://dx.doi.org/10.1098/rsbl.2020.0456. 02) Tan FS, Song HQ, Fu PL, Chen YJ, Cao KF, Zhu SD*. 2020. Hydraulic safety margins of co-occurring woody plants in a tropical karst forest that experiences frequent extreme droughts. Agricultural and Forest Meteorology, 292-293:108107. 03) Chen ZC, Zhu SD, Zhang YT, Li S, Wan XC, Liu SR. 2020. Tradeoff between storage capacity and embolism resistance in the xylem of temperate broadleaf tree species. Tree Physiology, 40:1029～1042. 04)He PC, Gleason S, Wright I, Weng ES, Liu H, Zhu SD, Lu MZ, Luo Q, Li RH, Wu GL, Yan ER, Song YJ, Mi XC, Hao GY, Reich PB, Wang YP, Ellsworth DD, Ye Q. 2020. Growing-season temperature and precipitation are independent drivers of global variation in xylem hydraulic conductivity. Global Change Biology, 26:1833～1841. 05)Hua L, He PC, Goldstein G, Liu Hui, Yin D, Zhu SD, Ye Q. 2020. Linking vein properties to leaf biomechanics across 58 woody species from a subtropical forest. Plant Biology, 22: 212～220. 06)Siddiq Z, Tomlinson K, Zhu SD, Cao KF. 2019. Does fluctuation of meteorological conditions across years influence stand transpiration of Tectona grandis plantation? Ecohydrology, 12:e2116. 07)Fu PL, Zhu SD, Zhang JL, Finnegan PM, Jiang YJ, Lin H, Fan ZX, Cao KF. 2019. The contrasting leaf functional traits between a karst forest and a nearby non-karst forest in southwest China. Functional Plant Biology, 46:907～915. 08)Liu XR, Liu H, Gleason SM, Goldstein G, Zhu SD, He PC, Hou H, Li RH, Ye Q. 2019. Water transport from stem to stomata: the coordination of hydraulic and gas exchange traits across 33 subtropical woody species. Tree Physiology, 39:1665～1674. 09)Chen ZC, Li S, Zhu SD, Zhang YT, Wan XC, Liu SR. 2019. Prediction of the survival rate of temperate broadleaf tree species in arid limestone habitats with the stomatal safety margin. Tree Physiology, 39:1428～1437. 10)Zhu SD, Li RH, He PC, Siddiq Z, Cao KF, Ye Q. 2019. Large branch and leaf hydraulic safety margins in subtropical evergreen broadleaved forest. Tree Physiology, 39:1405～1415. 11)He PC, Wright I, Zhu SD, Onoda Y, Liu H, Li RH, Liu XR, Hua L, Oyanoghafo O, Ye Q. 2019. Leaf mechanical strength and photosynthetic capacity vary independently across 57 subtropical forest species with contrasting light requirements. New Phytologist, 223:607～618. 12)Siddiq Z, Zhang YJ, Zhu SD, Cao KF. 2019. Canopy water status and photosynthesis of tropical trees are associated with trunk sapwood hydraulic properties. Plant Physiology and Biochemistry, 139:724～730. 13)Liang XY, He PC, Liu H, Zhu SD, Uyehara IK, Hou H, Wu GL, Zhang H, You ZT, Xiao YY, Ye Q. 2019. Precipitation has dominant influences on the variation of plant hydraulics of the native Castanopsis fargesii (Fagaceae) in subtropical China. Agricultural and Forest Meteorology, 271:83～91. 14)Han TT, Lu HF, Ren H, Wang J, Song GM, Hui DF, Guo QF, Zhu SD. 2019. Are reproductive traits of dominant species associated with specific resource allocation strategies during forest succession in southern China? Ecological Indicators, 102:538～546. 15)Zhang H, John R, Zhu SD, Liu H, Xu QY, Qi W, Liu K, Chen HYH, Ye Q. 2018. Shifts in functional trait-species abundance relationships over secondary subalpine meadow succession in the Qinghai-Tibetan Plateau. Oecologia, 188:547～557. 16)Wu GL, Jiang SW, Liu H, Zhu SD, Zhou DD, Zhang Y, Luo Q, Li J. 2018. Early direct competition does not determine the community structure in a desert riparian forest. Scientific Reports, 8:4531. 17)Zhu SD, Chen YJ, Ye Q, He PC, Liu H, Li RH, Fu PL, Jiang GF, Cao KF. 2018. Leaf turgor loss point is correlated with drought tolerance and leaf carbon economics traits. Tree Physiology, 38:658～663. 18)Zhu SD, He PC, Li RH, Fu SL, Lin YB, Zhou LX, Cao KF, Ye Q. 2018. Drought tolerance traits predict survival ratio of native tree species planted in a subtropical degraded hilly area in South China. Forest Ecology and Management, 418:41～46. 19)Zhu SD, Chen YJ, Fu PL, Cao KF. 2017. Different hydraulic traits of woody plants from tropical forests with contrasting soil water availability. Tree Physiology, 37:1469～1477. 20)Zhang H#, Zhu SD#, John R, Li RH, Liu H, Ye Q. 2017. Habitat filtering and exclusion of weak competitors jointly explain fern species assemblage along a light and water gradient. Scientific Reports, 7:298. 21)Zhu SD, Liu H, Xu QY, Cao KF, Ye Q. 2016. Are leaves more vulnerable to cavitation than branches? Functional Ecology, 30:1740～1744. 22)Zhu SD, Li RH, Song J, He PC, Liu H, Berninger F, Ye Q. 2016. Different leaf cost-benefit strategies of ferns distributed in contrasting light habitats of sub-tropical forests. Annals of Botany, 117:497～506. 23)Li RH#, Zhu SD#, Chen HYH, John R, Zhou GY, Zhang DQ, Zhang QM, Ye Q. 2015. Are functional traits a good predictor of global change impacts on tree species abundance dynamics in a subtropical forest? Ecology Letters, 18:1181～1189. 24)Zhu SD, Chen YJ, Cao KF, Ye Q. 2015. Interspecific variation in branch and leaf traits among three Syzygium tree species from different successional tropical forests. Functional Plant Biology, 42:423～432. 25)Zhang W, Shen WJ, Zhu SD, Wan SQ, Luo YQ, Yan JH, Wang KY, liu L, Dai HT, Li PX, Dai KY, Zhang WX, Liu ZF, Wang FM, Kuang YW, Li ZA, Lin YB, Rao XQ, Li J, Zou B, Cai XA, Mo JM, Zhao P, Ye Q, Huang JG, Fu SL. 2015. CAN canopy addition of nitrogen better illustrate the effect of atmospheric nitrogen deposition on forest ecosystem? Scientific Reports, 5:11245. 26)Zhu SD, Song JJ, Li RH, Ye Q. 2013. Plant hydraulics and photosynthesis of 34 woody species from different successional stages of subtropical forests. Plant Cell and Environment, 36:879～891. 27)Fu PL, Jiang YJ, Wang AY, Brodribb TJ, Zhang JL, Zhu SD, Cao KF. 2012. Stem hydraulic traits and leaf water-stress tolerance are coordinated with the leaf phenology of angiosperm trees in an Asian tropical dry karst forest. Annals of Botany, 110:189～199. 28)Zhu SD, Cao KF. 2010. Contrasting cost-benefit strategy between lianas and trees in a tropical seasonal rain forest in southwestern China. Oecologia, 163:591～599. 29)Zhu SD, Cao KF. 2009. Hydraulic properties and photosynthetic rates in co-occurring lianas and trees in a seasonal tropical rainforest in southwestern China. Plant Ecology, 204:295～304. 30)Fan ZX, Brauning A, Cao KF, Zhu SD. 2009. Growth, climate responses of high-elevation conifers in the central Hengduan Mountains, southwestern China. Forest Ecology and Management, 258:306～313. 31)宋慧清, 倪鸣源, 朱师丹*. 2020. 乔木和木质藤本的水力结构：以热带季节性雨林崖豆藤属和买麻藤属为例. 植物生态学报, 44: 192～204. 32)谭凤森, 宋慧清, 李忠国, 张启伟, 朱师丹*. 2019. 桂西南喀斯特森林木本植物的水力安全研究. 植物生态学报, 43: 227～237. 33)田尚青, 朱师丹, 朱俊杰, 申智骅, 曹坤芳. 2016. 红树林植物叶片形态和解剖特征对叶肉导度、叶片导水率的影响. 植物科学学报, 34:909～919. 34)曹敬婷, 朱师丹, 文印, 曹坤芳. 2016. 润楠属广布种和狭域种幼苗生理生态特征. 植物科学学报, 34:790～797. 35)曹坤芳, 付培立, 陈亚军, 姜艳娟, 朱师丹. 2014. 热带岩溶植物生理生态适应性对于南方石漠化土地生态重建的启示. 中国科学: 生命科学, 44:238～247. 36)宋娟, 李荣华, 朱师丹, 叶清. 2013. 鼎湖山季风常绿阔叶林不同生境蕨类植物的叶片功能性状研究. 热带亚热带植物学报, 21:489～495. 37)陈亚军, 朱师丹, 曹坤芳. 2008. 两种光照下木质藤本和树木幼苗的生理生态学特征. 生态学报, 28:6034～6042.
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