李胜功 - 中国科学院大学 - 资源与环境学院

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李胜功博导收藏完善纠错
中国科学院大学资源与环境学院
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个人简介

招生专业 071300-生态学 071300-生态学招生方向生态系统生态学与全球变化生态环境恢复、调控与适应植物生态学教育背景 1997-10--2001-03 日本筑波大学生物学系理学博士 1986-09--1989-07 中国科学院沙漠研究所(现中国科学院寒区旱区环境与工程研究所) 自然地理专业硕士 1982-09--1986-07 内蒙古林学院(现内蒙古农业大学)沙漠治理系沙漠治理专业学习农学学士工作简历 2015-08~现在, 中国科学院大学资源与环境学院, 岗位教授 2013-05~现在, 中国科学院大学中丹学院, 岗位教授 2006-08~现在, 中国科学院地理科学与资源研究所, 研究员 2002-07~2006-07,日本科学技术振兴机构, 特别研究员 2001-04~2002-06,美国犹他大学生物学系, 博士后 1997-01~1997-09,中国科学院沙漠研究所(现中国科学院寒区旱区环境与工程研究所), 副研究员 1993-01~1996-12,中国科学院沙漠研究所(现中国科学院寒区旱区环境与工程研究所), 助理研究员 1989-08~1992-12,中国科学院沙漠研究所(现中国科学院寒区旱区环境与工程研究所), 实习研究员教授课程统计、建模与全球变化生物地理与宏系统生态学生态系统观测与实验的基本原理与方法生态学【地理资源所博士课程】生物地理与宏生态学全球变化（SDC）全球变化生态系统研究的基本原理与实验方法论著 1) 唐艳鸿、安黎哲、李胜功、沈妙根、曹人伊、高文龙、吴朝阳. 2017.《植物生理生态学》. Part IV, 第8章 (128-148pp). 于振良, 葛剑平, 于贵瑞, 张大勇, 方精云, 康乐, 傅伯杰, 焦念志等编著.《生态学的现状与发展趋势》，北京:高等教育出版社，785pp. 2) 廖宏，于贵瑞(首席作者)；方精云, 徐永福, 黄耀, 张小曳, 张华, 朴世龙, 牛书丽, 李胜功(贡献作者). 2015. 第三章: 温室气体和气溶胶的气候变化效应(51-92pp). 《第三次气候变化国家评估报告》编写委员会编. 2015. 《第三次气候变化国家评估报告》. 北京:科学出版社，903pp. 3) 李胜功, 郭学兵. 2013. 第2章第3节: 中国科学院中国生态系统研究网络(CERN) (p. 53–70). 李文华主编《中国当代生态学研究:全球变化生态学卷》. 北京:科学出版社. 330pp. 4) 李胜功*, 张雷明, 胡中民, 刘杏认, 方杰. 2010. 第8章生态系统的碳汇效应分析(p. 175–188). 刘卫东、陆大道、张雷、王礼茂、赵建安、李胜功、马丽、唐志鹏等著. 我国低碳经济发展框架与科学基础----实现2020年单位GDP碳排放降低40%-45%的路径研究. 北京:商务印书馆. 188pp. 5) 李胜功*. 2009. 第2章生态系统稳定同位素平衡原理及其在生物地球化学循环研究中的应用(p. 55–103): 于贵瑞等著. 人类活动与生态系统变化的前沿科学问题. 北京:高等教育出版社. 543pp. 6) 于贵瑞, 李胜功, 伏玉玲, 李轩然. 2009. 第10章中国陆地生态系统碳循环(p. 225–254). 孙鸿烈主编. 中国生态系统研究网络20年: 生态系统综合研究. 北京:科学出版社. 388pp. 7) 唐艳鸿, 李胜功. 2007. 光环境的时空不均一性与光合作用的响应(p.2-30). 邬建国, 葛剑平, 韩兴国,于振良, 张大勇编. 现代生态学讲座(III): 学科进展与热点论题. 北京: 高等教育出版社. 383pp. 8) Harazono Y, SG Li, JY Shen, ZY He, XM Liu, HL Zhao, K Takagi, M Komine. (eds). 1999. Micrometeorology of dune and vegetation at the semi-arid area at Naiman in Inner Mongolia, China. The Bulletin of the National Institute of Agro-Environmental Sciences 24:1–286. 9) 李胜功. 1996. 第3章第3节: 风沙环境对植被的影响 (p. 56–70). 刘新民, 赵哈林, 赵爱芬主编. 科尔沁沙地风沙环境与植被. 北京:科学出版社. 294pp. 10) 李胜功. 1996. 第5章第2节: 植物区系组成(p. 108–114). 刘新民, 赵哈林, 赵爱芬主编. 科尔沁沙地风沙环境与植被. 北京:科学出版社. 94pp. 11) 李胜功. 1996. 第5章第3节: 植物的生活型和生态型(p.114–119). 刘新民, 赵哈林, 赵爱芬主编. 科尔沁沙地风沙环境与植被. 北京:科学出版社. 294pp. 12) 李胜功. 1996. 第10章第4节: 科尔沁沙地植被演替(p. 261–271). 刘新民, 赵哈林, 赵爱芬主编. 科尔沁沙地风沙环境与植被. 北京:科学出版社. 294pp. 13) 李胜功. 1996. 附录: 科尔沁沙地植物名录(p. 274–294). 刘新民, 赵哈林, 赵爱芬主编. 科尔沁沙地风沙环境与植被. 北京:科学出版社. 294pp. 14) 常学礼, 李胜功, 赵学勇. 1994. 黄柳灌丛地上生物量特征及生长的研究(p. 201–208). 刘新民, 赵哈林主编. 科尔沁沙地生态环境综合整治研究论文集. 兰州:甘肃科学技术出版社. 302 pp. 15) 何宗颖, 申建友, 李胜功. 1994. 奈曼旗沙丘土壤热量特性(p. 141–148). 刘新民, 赵哈林主编. 科尔沁沙地生态环境综合整治研究论文集. 兰州:甘肃科学技术出版社. 302 pp. 16) 李胜功, 原园芳信, 何宗颖, 申建友. 1994. 内蒙古奈曼麦田微气象特性与热量平衡研究(p. 149–156). 刘新民, 赵哈林主编. 科尔沁沙地生态环境综合整治研究论文集. 兰州:甘肃科学技术出版社. 302 pp. 17) 李胜功, 申建友, 何宗颖. 1994. 利用全自动观测系统观测沙地微气候及数据解析(p. 294–302). 刘新民, 赵哈林主编. 科尔沁沙地生态环境综合整治研究论文集. 兰州:甘肃科学技术出版社. 302 pp. 18) 申建友, 李胜功, 何宗颖. 1994. 关于奈曼地区沙漠化过程与小气候变化特征的研究(p. 126–134). 刘新民, 赵哈林主编. 科尔沁沙地生态环境综合整治研究论文集. 兰州:甘肃科学技术出版社. 302 pp. 19) 申建友, 李胜功, 何宗颖. 1994. 奈曼沙漠化土地小气候研究(p. 135–140). 刘新民, 赵哈林主编. 科尔沁沙地生态环境综合整治研究论文集. 兰州:甘肃科学技术出版社. 302 pp. 20) 常学礼, 赵文智, 李胜功. 1993. 几种固沙植物的生物量动态与环境因子关系(p. 134–140). 赵桂久, 刘燕华, 赵名茶等主编. 生态环境综合整治和恢复技术研究(第1卷). 北京:北京科学技术出版社. 242pp. 4．译著 Li SG. 1994. Patterns and processes of desert communities (荒漠群落的格局与过程) (II). Journal of World Desert Research (世界沙漠研究), (2):19–23. [Translated and excerpted from Polis G. A. 1991. Desert communities: an overview of patterns and processes. In: Polis G.A. (Ed.) The Ecology of Desert Communities, pp. 1–26. The University of Arizona Press, Tucson. 460pp.] Li SG. 1994. Patterns and processes of desert communities (荒漠群落的格局与过程) (I). Journal of World Desert Research (世界沙漠研究), (1):21–23. [Translated and excerpted from Polis G. A. 1991. Desert communities: an overview of patterns and processes. In: Polis G.A. (Ed.) The Ecology of Desert Communities, pp. 1–26. The University of Arizona Press, Tucson. 460pp.] Li SG. 1990: Reclamation along the coast of Eastern Mediterranean of Sinai Peninsular in Egypt (埃及西奈半岛东地中海沿岸的垦荒). Journal of World Desert Research (世界沙漠研究), (3):25–28. [Translated and excerpted from J. Applied Geography and Development, 1988, 32:95–109.] 科研项目（ 1 ）暖温带落叶阔叶混交林区域森林固碳现状、速率和潜力研究, 主持, 国家级, 2011-01--2015-12 （ 2 ）典型森林土壤碳氮循环关键过程对可利用氮响应的同位素示踪研究, 主持, 国家级, 2012-01--2016-12 （ 3 ）多尺度生态系统演变与未来情景模型模拟技术, 主持, 国家级, 2013-01--2017-12 （ 4 ）北半球陆地生态系统碳循环及关键地表过程对气候变化的响应和适应, 参与, 国家级, 2015-01--2019-12 （ 5 ）亚热带人工林优势植物快速周转器官分解对氮、磷添加的响应及机理解析, 主持, 国家级, 2016-01--2019-12 （ 6 ）人工林类型与结构对物质循环过程的影响, 主持, 国家级, 2016-07--2020-12 （ 7 ）亚热带人工针叶林植物-土壤反馈对外源养分添加的响应机制, 主持, 国家级, 2019-01--2023-12 （ 8 ）沙化土地绿色发展途径与对策, 主持, 部委级, 2019-01--2023-12 （ 9 ）蒙古高原草地生态系统生产力和承载力对全球变化的响应, 主持, 国家级, 2020-01--2024-12 （ 10 ）草畜平衡时空格局及资源空间优化配置, 主持, 国家级, 2019-11--2022-10

研究领域

生态系统生态学与全球变化 1）陆地生态系统碳、水通量； 2）生态过程对全球变化的响应； 3）土壤碳氮耦合过程； 4）植物-土壤反馈。

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外文期刊 (*为通讯作者) 1) Ma N, Guo Q, Li Y, Li SG*. 2021. Overview of the measures and techniques used to protect traffic lines against shifting sands in China. Journal of Resources and Ecology 12(1): 124-135, DOI: 10.5814/j.issn.1674-764x.2021.01.012 2) Cheng KL, Hu ZM*, Li SG*, Guo Q, Hao YB, Yuan WP. 2021. Improvement of predicting ecosystem productivity by modifying carbon-water-nitrogen coupling processes in a temperate grassland. Journal of Plant Ecology, rtaa072, https://doi.org/10.1093/jpe/rtaa072 3) Chen L, Xiang WH*, Ouyang S, Wu HL, Xia Q, Ma JN, Zeng YL, Lei PF, Xiao WF, Li SG, Kuzyakov Y. [Chen Liang, Wenhua Xiang, Shuai Ouyang, Huili Wu, Qi Xia, Jiani Ma, Yelin Zeng, Pifeng Lei, Wenfa Xiao, Shenggong Li, Yakov Kuzyakov]. 2021. Tight coupling of fungal community composition with soil quality in a Chinese fir plantation chronosequence. Land Degradation & Development. https://doi.org/10.1002/ldr.3771 4) Wu GN, Hu ZM*, Keenan TF, Li SG*, Zhao W, Cao RC, Li YZ, Guo Q, Sun XM. 2020. Incorporating spatial variations in parameters for improvements of an evapotranspiration model. Journal of Geophysical Research: Biogeosciences, JGRG21716, DOI: 10.1029/2019JG005504. 5) Jiang L, Wang HM, Li SG, Fu XL, Dai XQ, Yan H, Kou L*. 2021. Mycorrhizal and environmental controls over root trait-decomposition linkage of woody trees. New Phytologist, 229(4): 284–295, doi: 10.1111/nph.16844 6) Guo CY, Zhang LM, Li SG, Li QK, Dai GH. 2020. Comparison of soil greenhouse gas fluxes during the spring freeze–thaw period and the growing season in a temperate broadleaved Korean pine forest, Changbai Mountains, China. Forests, 11(11), 1135; https://doi.org/10.3390/f11111135 7) Wu GN, Cai XT, Keenan TF, Li SG*, Luo XZ, Fisher JB, Cao RC, Li F, Purdy AJ, Zhao W, Sun XM, Hu ZM*. 2020. Evaluating three evapotranspiration estimates from model of different complexity over China using the ILAMB benchmarking system. Journal of Hydrology, 590: 125553, https://doi.org/10.1016/j.jhydrol.2020.125553 8) Xia Q, Chen L, Xiang WH*, Ouyang S, Wu HL, Lei PF, Xiao WF, Li SG, Zeng LX, Kuzyakov Y. 2020. Increase of soil nitrogen availability and recycling with stand age of Chinese-fir plantations. Forest Ecology and Management, 480: 118643, https://doi.org/10.1016/j.foreco.2020.118643. January 2021 9) Yu Z*, Zhao HR, Lu SR, Zhou GY, Fang JY, Yu GR, Tang XL, Wang WT, Yan JH, Wang GX, Ma KP, Li SG, Du S, Han SJ, Ma YX, Zhang DQ, Liu JX, Liu SZ, Chu GW, Zhang QM, Li YL. 2020. Mapping forest type and age in China's plantations. Science of the Total Environment 744: 140790, https://doi.org/10.1016/j.scitotenv.2020.140790. 10) Hao GC, Hu ZM*, Di K, Li SG. 2020. Rainfall pulse response of carbon exchange to the timing of natural intra-annual rainfall in a temperate grass ecosystem. Ecological Indicators, 118, 106730, https://doi.org/10.1016/j.ecolind.2020.106730 11) He NP, Li Y, Liu CC, Xu L, Li MX, Zhang JH, He JS, Tang ZY, Han XG, Ye Q, Xiao CW, Yu Q, Liu SR, Sun W, Niu SL, Li SG, Sack L, Yu GR. 2020. Plant trait networks: improved resolution of the dimensionality of adaptation. Trends in Ecology and Evolution, 35(10): 908-918. http://dx.doi.org/10.1016/j.tree.2020.06.003. 2020 Jun 25. Epub 2020 Jun 25, October 2020. 12) Kou L**, Jiang L, Hättenschwiler S, Zhang MM, Niu SL, Fu XL, Dai XQ, Yan H, Li SG*, Wang HM*. 2020. Diversity-decomposition relationships in forests worldwide. eLife, 9: e55813, DOI: https://doi.org/10.7554/eLife.55813. 13) Han JY, Guo CY, Ye S, Zhang LM*, Li SG*, Wang HM, Yu GR. 2020. Effects of diffuse photosynthetically active radiation on gross primary productivity in a subtropical coniferous plantation vary in different timescales. Ecological Indicators, 115 106403, https://doi.org/10.1016/j.ecolind.2020.106403 14) Wu HL, Xiang WH*, Chen L, Ouyang S, Xiao WF, Li SG, Forrester DI, Lei PF, Zeng YL, Deng XW, Zeng LX, Kuzyakov Y. 2020. Soil phosphorus bioavailability and recycling increased with stand age in Chinese fir plantations. Ecosystems, 23: 973–988, DOI: https://doi.org/10.1007/s10021-019-00450-1 15) Wu HL, Xiang WH*, Ouyang S, Xiao WF, Li SG, Chen L, Lei PF, Deng XW, Zeng YL, Zeng LX, Peng CH. 2020. Tree growth rate and soil nutrient status determine the shift in nutrient-use strategy of Chinese fir plantations along a chronosequence. Forest Ecology and Management, 460: 117896, DOI: https://doi.org/10.1016/j.foreco.2020.117896 16) Hao GC, Hu ZM, Guo Q, Di K, Li SG. 2019. Median to strong rainfall intensity favors carbon sink in a temperate grassland ecosystem in China. Sustainability, 11(22), 6376. https://doi.org/10.3390/su11226376. 17) Zhao W, Hu ZM*, Guo Q, Wu GN, Chen RR, Li SG. 2019. Contributions of climatic factors to inter-annual variability of vegetation index in northern China grasslands. Journal of Climate, 33: 175-183, https://doi.org/10.1175/JCLI-D-18-0587.1 18) Jiang L, Kou L*, Li SG*. 2019. Decomposition of leaf mixtures and absorptive-root mixtures synchronously changes with deposition of nitrogen and phosphorus. Soil Biology and Biochemistry, 138: 107602, https://doi.org/10.1016/j.soilbio.2019.107602. 19) Han JY, Ye S, Guo CY, Zhang LM*, Li SG, Wang HM. 2019. Cloudy sky conditions promote net ecosystem CO2 exchange in a subtropical coniferous plantation across seasons. Journal of Resources and Ecology 10(2): 137-146, DOI: 10.5814/j.issn.1674-764x.2019.02.004 www.jorae.cn. 20) Zhao W, Hu ZM*, Guo Q, Wu GN, Chen RR, Li SG. 2019. Contributions of climatic factors to inter-annual variability of vegetation index in northern China grasslands. Journal of Climate, https://doi.org/10.1175/JCLI-D-18-0587.1 21) Jiang L, Kou L*, Li SG*. 2019. Decomposition of leaf mixtures and absorptive-root mixtures synchronously changes with deposition of nitrogen and phosphorus. Soil Biology and Biochemistry, https://doi.org/10.1016/j.soilbio.2019.107602. 22) Zhou GY, Xu S, Ciais P, Manzoni S, Fang JY, Yu GR, Tang XL, Zhou P, Wang WT, Yan JH, Wang GX, Ma KP, Li SG, Du S, Han SJ, Ma YX, Zhang DQ, Liu JX, Liu SZ, Chu GW, Zhang QM, Li YL, Huang WJ, Ren H, Lu XK, Chen XZ. 2019. Climate and litter C/N ratio constrain soil organic carbon accumulation. National Science Review, 6(4): 746–757, https://doi.org/10.1093/nsr/nwz045. 23) Liu JX, Fang X, Tang XL, Wang WT, Zhou GY, Xu S, Huang WJ, Wang GX, Yan JH, Ma KP, Du S, Li SG, Han SJ, Ma YX. 2019. Patterns and controlling factors of plant nitrogen and phosphorus stoichiometry across China’s forests. Biogeochemistry, 143(2), 191-205. https://doi.org/10.1007/s10533-019-00556-7). 24) Liu QC, Cao Z, Liu XJ, Liu LT, Dai T, Han J, Duan HB, Wang C, Wang HM, Liu J, Cai GT, Mao RC, Wang GS, Tan J, Li SG, Liu G*. 2019. Product and metal stocks accumulation of China’s megacities: Patterns, drivers, and implications. Environmental Science and Technology, 53(8), 4128-4139, DOI: 10.1021/acs.est.9b00387. 25) Qiao N, Wang J, Xu XL, Shen YX, Long YE, Hu YH, Schaefer D, Li SG, Wang HM, Kuzyakov Y. 2019. Priming alters soil carbon dynamics during forest succession. Biology and Fertility of Soils, 55(4), 339-350, https://doi.org/10.1007/s00374-019-01351-0 26) Yan H, Kou L*, Wang HM, Fu XL, Dai XQ, Li SG. 2019. Contrasting root foraging strategies of two subtropical coniferous forests under an increased diversity of understory species. Plant and Soil, 436(1-2): 427-438, https://doi.org/10.1007/s11104-019-03936-y. 27) Ouyang S, Xiang WH*, Wang XP, Xiao WF, Chen L, Li SG, Sun H, Deng XW, Forrester DI, Zeng LX, Lei PF, Lei XD, Gou MM, Peng CH. 2019. Effects of stand age, richness and density on productivity in subtropical forests in China. Journal of Ecology, 107(5), 2266-2277. https://doi.org/10.1111/1365-2745.13194 28) He NP*, Liu CC, Piao SL, Sack L, Xu L, Luo YQ, He JS, Han XG, Zhou GS, Zhou XH, Lin Y, Yu Q, Liu SR, Sun W, Niu SL, Li SG, Zhang JH, Yu GR*. 2019. Ecosystem Traits—Linking Functional Traits to Macroecology. Trends in Ecology and Evolution, 34(3): 200-210, https://doi.org/10.1016/j.tree.2018.11.004 29) Kou L, Zhang XY, Wang HM, Yang H, Zhao W, Li SG*(通讯作者). 2019. Nitrogen additions inhibit nitrification in acidic soils in a subtropical pine plantation: effects of soil pH and compositional shifts in microbial groups. Journal of Forestry Research, 30: 669-678, https://doi.org/10.1007/s11676-018-0645-2. First Online: 11 April 2018 30) Kou L*, Li SG*, Wang HM, Fu XL, Dai XQ. 2019. Unaltered phenology but increased production of ectomycorrhizal roots of Pinus elliottii under four-year nitrogen addition. New Phytologist, 221: 2228–2238, doi: 10.1111/nph.15542 31) Han JY, Zhang LM*, Li SG*, Wen XF, Li QK, Wang HM. 2019. Effects of sky conditions on net ecosystem productivity of a subtropical coniferous plantation vary from half-hourly to daily timescales. Science of the Total Environment, 651(2): 3002-3014, https://doi.org/10.1016/j.scitotenv.2017.12.080. 32) Kou L*, Li SG*, Wang HM, Fu XL, Dai XQ. 2019. Unaltered phenology but increased production of ectomycorrhizal roots of Pinus elliottii under four-year nitrogen addition. New Phytologist, 221(4): 2228–2238, doi: 10.1111/nph.15542 33) Jiang L, Kou L*, Li SG*. 2018. Alterations of early-stage decomposition of leaves and absorptive roots by deposition of nitrogen and phosphorus have contrasting mechanisms. Soil Biology and Biochemistry, 127: 213-222, https://doi.org/10.1016/j.soilbio.2018.09.037 34) Hu ZM, Guo Q*, Li SG*, Piao SL, Knapp AK, Ciais P, Li XR, Yu GR. 2018. Shifts in the dynamics of productivity signal ecosystem state transitions at the biome-scale. Ecology Letters, 21(10): 1457-1466, DOI: 10.1111/ele.13126 35) Wang J, Wen XF*, Zhang XY, Li SG. 2018. Trade-offs between water loss and carbon gain in a subtropical primary forest on Karst soils in China. Biogeosciences, 15: 4193-4203, https://doi.org/10.5194/bg-15-4193-2018. (SCI) 36) Tang XL, Zhao X, Bai YF, Tang ZY, Wang WT, Zhao YC, Wan HW, Xie ZQ, Shi XZ, Wu BF, Wang GX, Yan JH, Ma KP, Du S, Li SG, Han SJ, Ma YX, Hu HF, He NP, Yang YH, Han WX, He HL, Yu GR, Fang JY*, Zhou GY*. 2018. Carbon pools in China’s terrestrial ecosystems: new estimates based on an intensive field survey. 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2018-05-03-今,中国生态学会第十届理事会, 理事 2015-08-01-今,中国科学院大学资源与环境学院生态系统生态学教研室, 副主任 2015-01-12-今,资源科学, 编委 2014-12-01-今,Journal of Resources and Ecology , 编委 2014-03-01-今,Journal of Forest Research, 编委 2013-10-18-2018-04-30,中国生态学会第九届理事会, 理事 2013-05-01-今,中国沙漠, 编委 2012-04-01-今,全球变化项目(GCP)GCP北京办公室, 主任 2010-12-01-2017-12-30,亚洲通量网(AsiaFLUX)执行委员, 副主席 2009-12-30-2014-12-30,Journal of Resources and Ecology, 执行副主编 2009-07-31-2014-07-31,国际长期生态研究网络(ILTER)东亚太平洋区域网(ILTER-EAP)科学委员会, 主席 2009-07-31-2014-07-31,ILTER科学委员会, 委员 2009-07-01-2013-10-19,中国生态学会第八届理事会, 理事 2009-03-23-2014-06-30,中国生态系统研究网络(CERN)领导小组办公室, 副主任 2007-12-31-2014-12-31,Sciences in Cold and Arid Regions, 编委 2007-12-31-2014-07-31,中国生态系统研究网络（CERN）综合中心, 常务副主任 2007-12-31-2018-12-31,中国科学院生态系统网络观测与模拟重点实验室, 副主任 2007-07-01-2010-12-03,亚洲通量网(AsiaFLUX)执行委员会, 委员

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