人才详细信息

姓名:张 林
性别:
学历:博士
专家类别:研究员
电话:010-84097094
传真:010-8409 7079
电子邮箱:zhanglin@itpcas.ac.cn
职称:研究员
通讯地址:北京市朝阳区林萃路16号院3号楼

简介

张林,1979年生,中国科学院青藏高原研究所研究员。主要从事高山植物生态适应性与气候变化、植物功能属性与植物地理等方面的研究。首次在大尺度上全面分析了森林冠层平均叶寿命的地理分布格局,揭示了叶寿命对森林植被分区的指示意义;阐明了藏东南色季拉山高山植被垂直样带杜鹃灌丛叶功能性状的变化规律,为诠释藏东南林线地带多形成常绿植被提供了有力证据。近年来承担国家自然科学基金、国家科技基础专项子课题、中科院先导专项等课题。在Journal of Biogeography、Agricultural and Forest Meteorology、Ecological Indicators、植物生态学报、地理学报等国内外刊物发表论文60余篇。

教育背景:

1997.09–2001.07,云南大学生命科学与化学学院,学士

2001.09–2007.07,中国科学院地理科学与资源研究所,博士

工作经历:

2007.07–2010.06,中国科学院青藏高原研究所,博士后

2010.07–2019.05,中国科学院青藏高原研究所,副研究员

2019.06至今,中国科学院青藏高原研究所,研究员

研究方向

高山植物生态适应性与气候变化、植物功能属性与植物地理

职务

社会任职

承担项目

1.第二次青藏高原综合考察研究森林和灌丛生态系统与资源管理专题:喜马拉雅山-冈底斯山片区灌丛考察(2020-2024),第二负责人

2.西藏自治区科技重点研发项目“小叶杜鹃、香柏人工种植关键技术研究与示范”课题“小叶杜鹃、香柏等野生植物生长的生物与非生物限制因子研究”(XZ202101ZY0005G, 2021-2023),主持

3.西藏生态安全屏障生态监测网络定日生态监测站项目(2018-2027),主持

4.科技基础性工作专项“我国主要灌丛植物群落调查”子课题:西藏自治区灌丛植物群落调查(2015–2020),主持

5.国家自然科学基金面上项目:西藏干旱半干旱区变色锦鸡儿灌丛树轮宽度对生产力长期变化的指示(2015-2018),主持

6.中国科学院战略性先导科技专项“生态系统固碳现状、速率、机制和潜力” 专题:西藏自治区灌丛碳汇研究(2011–2015),主持

7.国家自然科学青年基金:藏东南高山常绿灌木及草本植物叶寿命指数对气候变化敏感性的比较研究(2010–2012),主持

8.第45批中国博士后科学基金面上项目:叶寿命与常绿森林植被地理分布的内在联系机理(2010–2012),主持

获奖及荣誉

代表论著

第一作者及通讯作者:

1.        Guo Y#, Zhang L#, Yang L, Shen W, Pan Y, Wright IJ, Luo Y, Luo T*. 2022. Enhanced leaf turnover and nitrogen recycling sustain CO2 fertilization effect on tree-ring growth. Nature Ecology & Evolution. https://doi.org/10.1038/s41559-022-01811-1(#contributed equally)

2.        Deng Z, Zhao J, Wang Z, Li R, Guo Y, Luo T, Zhang L*. 2022. Stochastic processes drive plant community assembly in alpine grassland during the restoration period. Diversity, 14, 832. https://doi.org/10.3390/d14100832

3.        Zhao W, Luo T, Wei H, Alamu, Zhang L*. 2022. Relative Impact of Climate Change and Grazing on NDVI Changes in Grassland in the Mt. Qomolangma Nature Reserve and Adjacent Regions during 2000–2018. Diversity, 14, 171. https://doi.org/10.3390/d14030171

4.        Zhang L*, Yang L, Guo Y, Shen W, Cui GS. 2022. Leaf longevity in a timberline tree species Juniperus saltuaria in the Sergymla Mountains, southeastern Tibet. Journal of Resources Ecology, 13(1): 34-40.

5.        Cui GS, Zhang L*, Shen W, Guo Y, Liang EY. 2021. Intensity, frequency and rate of insect herbivory for an alpine Rhododendron shrub: elevational patterns and leaf age effects. Alpine Botany, doi:10.1007/s00035-021-00274-7

6.        Zhang L*, Yang L, Shen W. 2020. Dramatic altitudinal variations in leaf mass per area of two plant growth forms at extreme heights. Ecological Indicators, 110. doi.org/10.1016/j.ecolind.2019.105890

7.        Zhang L, Zhang SR, Li QJ*, Quan C. 2020. Reduced stomatal frequency with rising elevation for Kobresia royleana on the Tibetan Plateau. Global Ecology and Conservation, 24, e01326. doi.org/10.1016/j.gecco.2020.e01326

8.        Zhang L*, Cui GS, Shen W, Liu XS. 2016. Cover as a simple predictor of biomass for two shrubs in Tibet. Ecological Indicators, 64: 266-271.

9.        Zhang L*, Luo TX, Liu XS, Wang Y. 2012. Altitudinal variation in leaf construction cost and energy content of Bergenia purpurascens. Acta Oecologica, 43: 72-79.

10.    Wang Z, Zhang L*. 2012. Leaf shape alters the coefficients of leaf area estimation models for Saussurea stoliczkai in central Tibet. Photosynthetica, 50(3): 337-342.

11.    Zhang L*, Pan L. 2011. Allometric models for leaf area estimation across different leaf age groups of evergreen broadleaved trees in a subtropical forest. Photosynthetica, 49(2): 219-226.

12.    Zhang L, Luo TX*, Zhu HZ, Daly C, Deng KM. 2010. Leaf lifespan as a simple predictor of evergreen forest zonation in China. Journal of Biogeography, 37(1): 27-36.

13.    Zhang L*, Liu XS. 2010. Non-destructive leaf area estimation for Bergenia purpurascens across timberline ecotone, southeast Tibet. Annales Botanici Fennici, 47(5): 346-352.

14.    Zhang L*, Luo TX, Liu XS, Kong GQ. 2010. Altitudinal variations in seedling and sapling density and age structure of timberline tree species in the Sergyemla Mountains, southeast Tibet. Acta Ecologica Sinica, 30: 76-80.

15. 杨柳,崔光帅,夏晨曦,阿拉姆,孙建,王金牛,罗栋梁,张林*. 2023. 高寒灌丛对气候变暖的生态响应及适应性研究进展. 草业科学(已录用)

16. 崔光帅, 罗天祥, 梁尔源, 张林*.2022.干旱半干旱区灌丛对草本植物的促进作用研究进展. 植物生态学报, doi:10.1752/cjpe.2021.0382

17. 赵旺林, 罗天祥, 张林*. 2019.  气候变化与放牧对西藏典型高寒荒漠草地植被指数变化的相对影响. 生态学报, 39(22): 8494-8503.

18. 崔光帅, 张林*, 沈维, 刘新圣, 王媛韬. 2017. 西藏雅鲁藏布江流域中段砂生槐灌丛生物量分配及碳密度研究. 植物生态学报, 41(1): 53-61.

19. 王媛韬, 张林*, 沈维, 刘新圣, 罗天祥. 2017. 藏东南色季拉山林线过渡带生长季低温事件的海拔分布特征. 山地学报, 35(3): 308-315.

20. 金远亮, 王忠, 张林*. 2015. 西藏当雄县高寒草地NDVI的海拔分异特征及其指示. 自然资源学报, 30(6): 929-937.

21. 张林*, 阎恩荣, 魏海霞, 刘新圣, 沈维. 2014. 藏东南色季拉山林线过渡带7个灌木的叶氮回收潜力. 植物生态学报, 38(12): 1325-1332.

22. 俞洁辉,刘新圣,罗天祥,张林*. 2012. 念青唐古拉山北麓草甸海拔分布上限土壤温湿度的季节变化. 地理学报, 67(9): 1246-1254.

23. 胡梦瑶,张林*,罗天祥,沈维. 2012. 西藏紫花针茅叶功能性状沿降水梯度的变化. 植物生态学报, 36 (2): 136-143.

24. 张林*,金冬梅. 2010. 针叶树种叶面积的主要测定方法. 北京:第八届全国生物多样性保护与持续利用研讨会论文集. 46-50.

25. 张林*,王礼茂. 2010. 三北防护林体系森林碳密度及碳贮量动态.干旱区资源与环境,24(8): 136-140.

26. 张林*,王礼茂,王睿博. 2009. 长江中上游防护林体系森林植被碳贮量及固碳潜力估算. 长江流域资源与环境,18(2): 104-108.

27. 张林,罗天祥*,邓坤枚,李文华. 2008. 云南松比叶面积和叶干物质含量随冠层高度的垂直变化规律. 北京林业大学学报,30(1): 42-46.

28. 潘璐,张林*. 2011. 古田山自然保护区四个常绿阔叶树种叶面积的估算模型. 浙江林业科技, 31(1): 23-27.

29. 张林,黄永,罗天祥*,戴强,邓坤枚. 2005. 林分各器官生物量随年龄的变化规律研究. 以杉木、马尾松人工林为例. 中国科学院研究生院学报,22(2): 170-177.

30. 张林,罗天祥*,邓坤枚,戴强,黄永,蒋正富,陶明友,曾开益. 2004. 广西黄冕林场次生常绿阔叶林的生第一性产力. 应用生态学报,15(11): 2029-2033.

31. 张林,罗天祥*. 2004. 植物叶寿命及其相关叶性状的生态学研究进展. 植物生态学报,28(6): 844-852.

其他合作论文:

1.        Shi N, Wang C, Wang JN*, Wu N, Niyati N, Zhang L, Wang L, Sun J, Du WT, Wei YQ, Chen W, Wu Y. 2022. Biogeographic patterns and richness of the Meconopsis species and their influence factors across the Pan-Himalaya and adjacent regions. Diversity, 14, 661. https://doi.org/10.3390/d14080661.

2.        Shen W, Zhang L, Luo TX*. 2022. Causes for the increase of early-season freezing events under a warmer climate at alpine treelines in southeast Tibet. Agricultrual and Forest Meteorology, 316, 108863.

3.        Qiu YL, Zhang L, Zhang LB, Zhou XM, Zhang L*. 2022. Athyrium aberrans (Athyriaceae), a new species of the lady ferns from southeastern Xizang, China, based on morphological and molecular evidence. Phytotaxa, 533(3) 165-172

4.        Fan XP, Zhang L, Zhang LB, Zhang L*. 2021. Selliguea wusugongii (Polypodiaceae), a new fern species from southeastern Xizang, China based on morphological and molecular evidence. Phytotaxa, 480(1) 57-68.

5.        Fu T, Liang E, Lu X*, Gao S, Zhang L, Zhu H, Rossi S, Camarero JJ. 2020. Tree growth responses and resilience after the 1950-Zayu-Medog earthquake, southeast Tibetan Plateau. Dendrochronologia 62: 125724. doi.org/10.1016/j.dendro.2020.125724

6.        Rita A, Zhang L, Li X, Bhakta RB, Pugnaire FI, Luo TX. 2018. Leaf δ13C as an indicator of water availability along elevation gradients in the dry Himalayas. Ecological Indicators, 94: 266-273.

7.        Rita A, Zhang L, Li X, Bhakta RB, Pugnaire FI, Luo T. 2018. Water shortage drives interactions between cushion and beneficiary species along elevation gradients in dry Himalayas. Journal of Geophysical Research: Biogeosciences, 123(1): 226-238.

8.        Shen W*, Zhang L, Guo Y, Luo TX. 2018. Causes for treeline stability under climate warming: Evidence from seed and seedling transplant experiments in southeast Tibet. Forest Ecology and Management, 408: 45-53.

9.        Luo TX*, Liu XS, Zhang L, Li X, Pan Y, Wright IJ. 2018. Summer solstice marks a seasonal shift in temperature sensitivity of stem growth and nitrogen-use efficiency in cold-limited forests. Agricultural and Forest Meteorology, 248: 469-478.

10.    Zhang Q, Liu Q, Yin H, Zhao C, Zhang L, Zhou G, Yin C, Lu Z, Xiong G, Li Y, Li J, Xu W, Tang Z*, Xie Z*.2018. C:N:P stoichiometry of Ericaceae species in shrubland biomes across Southern China: Influences of climate, soil and species identity. Journal of Plant Ecology, 12:346-357.

11.    Liu XS*, Nie Y, Luo TX, Yu JH, Shen W, Zhang L. 2016. Seasonal shift in climatic limiting factors on tree transpiration: evidence from sap flow observations at alpine treelines in Southeast Tibet. Frontiers in Plant Science. http://dx.doi.org/10.3389/fpls.2016.01018

12.    Pugnaire FI*, Zhang L, Li RC, Luo TX. 2015. No evidence of facilitation collapse in the Tibetan Plateau. Journal of Vegetation Science, 26: 233-242.

13.    Shen W, Zhang L, Liu XS, Luo TX*. 2014. Seed-based treeline seedlings are vulnerable to freezing events in the early growing season under a warmer climate: evidence from a reciprocal transplant experiment in the Sergyemla Mountains, southeast Tibet. Agricultural and Forest Meteorology, 187: 83-92.

14.    Kong GQ, Luo TX*, Liu XS, Zhang L, Liang EY. 2012. Annual ring widths are good predictors of changes in net primary productivity of alpine Rhododendron shrubs in the Sergyemla Mountains, southeast Tibet. Plant Ecology, 213(11): 1843-1855.

15.    Luo TX*, Zhang L, Zhu HZ, Daly C, Li MC, Luo J. 2009. Correlations between net primary productivity and foliar carbon isotope ratio across a Tibetan ecosystem transect. Ecography, 32: 526-538.

16. 芦晓明, 付婷, 杜琪琪, 张林, 王亚锋, 梁尔源. 2019. 藏东南亚高山暗针叶林干扰迹地森林更新调查. 科学通报, 64: 2907-2914

17. 沈维*, 张林, 罗天祥. 2017. 高山林线变化的更新受限机制研究进展. 生态学报, 37(9): 2858-2868.

18. 刘新圣*张林,孔高强,罗天祥. 2011. 藏东南色季拉山急尖长苞冷杉林线地带地上生物量随海拔的变化特征. 山地学报, 29(3): 362-368.

19. 邓坤枚,罗天祥*张林,王学云,李长会. 2005. 云南松林的根系生物量及其分布规律的研究. 应用生态学报, 16(1): 21-24.

20. 陈飞宇,罗天祥*张林,邓坤枚,田晓娅. 2005. 江西九连山常绿阔叶林主要树种叶建成消耗的比较. 生态学报,26: 2485-2493.

21. 全成*张林. 2005. 黑龙江嘉荫地区古近纪早期古气候分析. 地质论评,51(1):10-15.