更新时间:2024-09-20 21:17
贺金生,男,北京大学城市与环境学院教授,博士生导师,生态学系副主任。973计划首席科学家,国家杰出青年基金获得者。主要从事化学计量生态学、草地生态系统碳循环、青藏高原高寒生态系统与全球变化等方面的研究。发表中英文论文100余篇,其中SCI论文60余篇。发表的杂志包括:New Phytologist,Oecologia,Ecology,Ecology Letters,Functional Ecology等。目前是国内外4个专业期刊的编委,其中包括重要国际刊物“Frontiers in Ecology and the Environment”和“Journal of 植物界 Research”。
1984.9~1988.7, 兰州大学生物系,获理学学士(植物学)
1988.9~1991.6,中国科学院植物研究所,获理学硕士学位(生态学)
1996.9~1998.8, 中国科学院植物研究所,获理学博士学位(生态学)
1999.7~2002.8, 哈佛大学进化与生物学系博士后(生物学)
2007.10~2008.1, 瑞士苏黎世大学,The Swiss National Science Foundation Research Fellow
1991.6~1999.11 中国科学院植物研究所,实习研究员,助理研究员,副研究员
2002.8~2008.7 北京大学生态学系,副教授
2007.1~北京大学生态学系副主任
2008.8~ 北京大学生态学系,教授
2009.3~ 西北高原生物研究所百人计划
《植物生态学报》编委,2004~
《生物多样性》编委,2009~
Journal of 植物界 Ecology (Oxford University Press,SCI), Associate editor, 2008~
Journal of Plant Research (Springer,SCI), Editorial Board Member, 2007~2014
Frontiers in Ecology and the Environment (ESA journal,SCI), Associate editor, 2007~2014
中国植物学会植物生态学专业委员会委员,2009~
中国植物学会学术委员会委员,2009~
1. 植物生理生态学
2. 生态系统生态学
3. 青藏高原生态学
4. 生物多样性的生态系统功能
1、生态系统生态学:主要围绕陆地生态系统的碳循环和氮循环, 采用实验的手段,研究全球气候变化影响下生态系统过程的反应。近期的研究重点是:降雨格局的改变和氮沉降如何影响温带草地、人工林C、N循环的主要过程。
2、植物功能属性:通过野外植物主要生态属性的测定,结合室内观叶植物的解剖结构的分析,在大尺度、多生态系统类型上探讨植物生态属性的变化规律和控制因子。
3、地下生态学:通过典型生态系统地下过程的调查,探讨生态系统地上和地下部分的关联,重点探讨植物地上部分得到的规律性是否可以应用到地下。
4、生物多样性的生态系统功能:结合实验途径和野外调查,研究生物多样性的生态系统功能,特别是在C, N经济(C, N economy)中的作用。主要的实验系统是草原生态系统。
1、国家重点基础研究发展规划(973计划):中国陆地生态系统碳循环及其驱动机制研究(2002-2007),专题主持
2、国家自然科学基金重大研究计划重点项目:我国温带草地碳库分布、动态与气候控制(2003-2006),专题主持
3、国家中华人民共和国国家自然科学基金委员会“创新群体”:环境生物地球化学研究(2004-2006)成员
4、国家自然科学基金重大研究计划面上项目(90411004):温带草地根系生态学的实验研究:个体、种群和功能属性的关联(2005-2007),主持
5、国家自然科学基金委面上项目(30670322):青藏高原极端环境条件下植物叶功能属性特征及环境的修饰作用(2007-2009),主持
6、中日韩A3前瞻计划项目(Asia 3 Foresight Program):Quantifying and predicting terrestrial carbon sinks in East Asia: toward a network of climate change research,A3 3+2(2007-2012),参加
7、国家科技支撑计划(2007BAC06B00):羌塘高原高寒草甸区生态稳定性维持技术研究与示范(专题)(2007.9-2010.12),主持
8、国家中华人民共和国国家自然科学基金委员会面上项目(30870381):我国主要温带草地优势植物叶片、根系和土壤C:N:P化学计量学的关联(2009-2011),主持
9、欧盟项目(BACCARA):Biodiversity And Climate Change,A Risk Analysis(2009-2011),专题3
10、科技部国际合作(Sino-EU 0916):Risk analysis of biodiversity change:a case study in a subtropical forest,China(2009-2012),主持
11、基金委创新群体项目(31021001):中国陆地植被的时空格局与生态功能(2011-2013),核心成员
12、"全球变化研究国家重大科学研究计划"项目(2010CB950600):中国陆地生态系统碳源汇特征及其全球意义(2010-2013),研究骨干
13、国家杰出青年科学基金(31025005):植物功能属性与化学计量生态学(2011-2014),主持
14、全球变化研究国家重大科学研究计划项目(2014CB954004)(973)“土壤系统碳动态、机制及其对全球变化的响应”(2014-2018),首席科学家
1998年,中科院地奥奖学金"一等奖, 博士论文"神农架林区地区米心水青冈林和锐齿槲栎林的格局和过程"
2003年,教育部自然科学一等奖:中国陆地生态系统碳循环与植被生产力的研究,第3完成人
2004年,国家自然科学二等奖:中国陆地生态系统生产力和碳循环的研究,第5完成人
2006年,北京大学“保洁”奖
2007年,Sino-Swiss Science and Technology Cooperation Research Fellowship, Swiss Federal Institute of Technology (ETH Zurich), Swiss National Science Foundation
2007年,北京大学优秀班主任三等奖
2010年,"国家杰出青年科学基金" 获得者
2014年,北京大学“保洁”奖
Jing X, Sanders NJ, Shi Y, Chu HY, Classen AT, Zhao K, Chen LT, Jiang YX, He J-S* 2015.The links between ecosystem multifunctionality and above- and belowground biodiversity are mediated by climate.Nature Communications6: 8159.
Song WM, Wang H, Wang GS, Chen LT, Jin ZN, 壮族 QL, He J-S*. 2015.甲烷 emissions from an alpine wetland on the Tibetan 高原: Neglected but vital contribution of non-growing season.Journal of Geophysical Research-Biogeosciences: doi:10.1002/2015JG003043.
Jin ZN, 壮族 QL, He J-S, Zhu XD, Song WM 2015.Net exchanges of 甲烷 and carbon dioxide on the Qinghai-Tibetan 高原 from 1979 to 2100.Environmental Research Letters: doi:10.1088/1748-9326/10/8/085007.
Niu KC, He J-S, Zhang ST, Lechowicz MJ 2015.Grazing increases functional richness but not functional divergence in Tibetan alpine meadow 植物界 communities.Biodiversity and Conservation: doi: 10.1007/s10531-015-0960-2.
Chen LT, Flynn DFB, Zhang XW, Gao XL, Lin L, Luo J, Zhao CM* 2015.Divergent patterns of foliar δ13C and δ15N in Quercus aquifolioides with an altitudinal transect on the Tibetan 高原: an integrated study based on multiple key 欧洲杰出建筑师论坛建筑奖 functional traits.Journal of 植物界 Ecology8: 303-312.
Chen LT, Flynn DFB, Jing X, Kühn P, Scholten T, He J-S 2015.A comparison of two methods for quantifying soil organic carbon of alpine grasslands on the Tibetan 高原PLoS ONE10: e0126372.
Mi ZR, Huang YY, Gan HJ,Zhou WJ, Flynn DFB,He J-S* 2015.Leaf P increase outpaces leaf N in an Inner Mongolia grassland over 27 years.Biology Letters 11: 20140981.
Ding S, Xu Y, Wang Y, He Y,Hou J, Chen L,He J-S 2015.Distributions of 丙三醇 dialkyl glycerol tetraethers in surface soils ofQinghai–Tibetan 高原: implications of GDGT-based proxies in cold and dryregions.Biogeosciences Discussion 12: 481-513.
Zhang ZJ,Yan YJ,Tian Y, LiJS,He J-S, Tang ZY* 2015.Distribution and conservation of orchid 物种 richness in China.Biological Conservation 181: 64-72.
Eichenberg D, Trogisch S,Huang YY,He J-S, Bruelheide H 2014.Shifts in community 欧洲杰出建筑师论坛建筑奖 functional traits are related to litter decompositionalong a secondary forest succession series in subtropical China.Journal of 植物界 Ecology DOI:10.1093/jpe/rtu021: .
Wang YH, Liu HY, Chung H,Yu LF, Mi ZR, Gen.G Y, Jing X, Wang SP, Zeng H, Cao GM, Zhao XQ,He J-S* 2014. Non-growing-season soilrespiration is controlled by freezing and thawing processes in the summermonsoon-dominated Tibetan alpine grassland.Global Biogeochemical Cycles28: 1081-1095.
Yang XX, Yang Y, Ji CJ,Feng T, Shi Y, Lin L, Ma JJ,He J-S*2014. Large-scale patterns of stomatal traits in Tibetan and Mongoliangrassland 物种Basic and Applied Ecology 15: 122-132.
Shi Y, Wang YH, Ma YL, MaWH, Liang CZ, Flynn DFB, Schmid B, Fang JY,He J-S* 2014. Field-based observations of regional-scale, temporalvariation in net primary production in Tibetan alpine grasslands.Biogeosciences11: 2003-2016.
Baumann F*, Schmidt K,Dörfer C,He J-S, Scholten T, Kühn P2014. Pedogenesis, permafrost, substrate and topography: Plot and landscapescale interrelations of weathering processes on the central-eastern Tibetan高原Geoderma 226-227: 300-316.
Geng Y, Wang L, Jin DM, LiuHY,He J-S* 2014. Alpine climatealters the relationships between leaf and root morphological traits but notchemical traits.Oecologia 175: 445-455.
Jing X, Wang YH, Chung H,Mi ZR, Wang SP, Zeng H,He J-S*2014. No 温度 acclimation of soil extracellular enzymes to experimentalwarming in an alpine grassland Ecosystem on the Tibetan Plateau.Biogeochemistry117: 39-54.
Chen LT, Niu KC, Wu Y, GengY, Mi ZR, Flynn DFB,He J-S* 2013.UV radiation is the primary factor driving the variation in leaf phenolicsacross Chinese grasslands.Ecology and Evolution 3: 4696-4710.
Jin DM, Ma JJ, Ma WH, LiangCZ, Shi Y andHe J-S* 2013. Legumesin Chinese natural grasslands: 物种, biomass, and distribution.Rangeland Ecology \u0026 Management 66: 648-656.
Du EZ, Zhou Z, Li P, Hu XY,Ma YC, Wang W, Zheng CY, Zhu JX,He J-S,Fang JY* 2013. NEECF: a project of nutrient enrichment experiments in China’sforests.Journal of 植物界 Ecology 6: 428-435.
HeJ-S*,Muraoka H, Son Y, Fang JY 2013. Carbon patterns and processes in East Asianecosystems: multi-scale approaches (Editorial).Journal of Plant Ecology6: 323-324.
Ma YL, Geng Y, Huang YY,Shi Y, Niklaus P, Schmid B,He J-S*2013. Effect of clear-cutting silviculture on soil respiration in a subtropicalforest of China.Journal of 植物界 Ecology 6: 335-348.
Yu LF, Wang H, Wang GS,Song WM, Huang Y, Li S-G, Liang NS, Tang YH,He J-S* 2013. A comparison of 甲烷 emission measurements usingeddy covariance and manual and automated chamber-based techniques in TibetanPlateau alpine wetland.Environmental Pollution 181: 81-90.
Liu C, Wang XP, Wu X, DaiS,He J-S, Yin WL* 2013. Relativeeffects of phylogeny, biological characters and environments on leaf traits inshrub biomes across central Inner Mongolia, China.Journal of 植物界 Ecology 6: 220-231.
Jin ZN*, 壮族 QL,He J-S, Luo TX, Shi Y 2013. Phenologyshift from 1989 to 2008 on the Tibetan Plateau: an analysis with aprocess-based soil physical model and remote sensing data.Climatic Change 119: 435-449.
Shi Y, Ma YL, Ma WH, LiangCZ, Zhao XQ, Fang JY,He J-S* 2013.Large scale patterns of forage yield and quality across Chinese grasslands.Chinese Science Bulletin 58: 1187-1199.
Dorfer C*,Kuhn P,Baumann F,He J-S,Scholten T 2013. Soil organiccarbon pools and stocks in permafrost-affected soils on the Tibetan 高原PLoS ONE 8: e57024.
Huang N*,He J-S, Niu Z 2013. Estimating thespatial pattern of soil respiration in Tibetan alpine grasslands using LandsatTM images and MODIS data.Ecological Indicators 26: 117-125.
HeJ-S 2012.Carbon cycling of Chinese forests: From carbon storage, 动力学 to models.Science China Life Science 55: 188-190.
Gen.G Y, Wang ZH, Liang CZ,Fang JY, Frank B, Kühn P, Scholten T,HeJ-S* 2012. Effect of geographical range size on 植物界 functional traits andthe relationships between plant, soil and climate in Chinese grasslands.Global Ecology and 生物地理学 21: 416–427.
Shi Y, Baumann F, Ma YL,Song C, Kuehn P, Scholten T,He J-S*.2012. Organic and inorganic carbon in the topsoil of the Mongolian and Tibetangrasslands: pattern, control and implications.Biogeosciences 9:2287–2299.
Geng Y,Wang YH,Yang K,WangSP,Zeng H,Baumann F, Kuehn P, Scholten T,HeJ-S* 2012. Soil Respiration in Tibetan Alpine Grasslands: BelowgroundBiomass and Soil Moisture, but Not Soil 温度, Best Explain theLarge-Scale Patterns.PLoS ONE 7: e34968.
Ma JJ, Ji CJ, Han M, ZhangTF, Yan XD, Hu D, Zeng H,He J-S*2012. Comparative analyses of leaf anatomical characteristics of dicotyledonous物种 in Tibetan and Inner Mongolian grasslands.Science China Life Sciences 42: 158-172.
Tao S*, Wang WT, Liu WX,Zuo Q, Wang XL, Wang R, Wang B, Shen GF, Yang YH,He J-S 2011. Polycyclic aromatic hydrocarbons and organochlorinepesticides in surface soils from the Qinghai-Tibetan 高原Journal of Environmental Monitoring 13: 175–181.
Chu ZY, Lu YJ, Chang J*,Wang M, Jiang H,He J-S, Peng CH*,Ge Y 2011. Leaf respiration/photosynthesis relationship and variation: aninvestigation of 39 woody and herbaceous species in east subtropical China.Trees-Structureand Function 25: 301-310.
Ma WH,He J-S*, Yang YH, Wang XP, Liang CZ, Anwar M, Zeng H, Fang JY,Schmid B 2010. Environmental factors co-vary with 植物界 diversity-productivityrelationships among Chinese grassland sites.Global Ecology and 生物地理学 19: 233–243.
HeJ-S*, WangX, Schmid B, Flynn DFB, Li XF, Reich PB, Fang JY 2010. Taxonomic identity,phylogeny, climate and soil fertility as drivers of leaf traits across Chinesegrassland biomes.Journal of 植物界 Research 123: 551-561.
Ma WH, Liu ZL, Wang ZH,Wang W, Liang CZ, Tang YH,He J-S,Fang JY* 2010. Climate change alters interannual variation of grasslandaboveground productivity: evidence from a 22-year measurement series in theInner Mongolian grassland.Journal of 植物界 Research 123:509-517.
Baumann F,He J-S,Schmidt K, Kühn P, Scholten T. 2009. Pedogenesis, permafrost, and soil moistureas controlling factors for soil nitrogen and carbon contents across the Tibetan高原Global Change Biology 15: 3001–3017
Yang YH, Fang JY, Smith P,Tang YH, Chen AP, Ji CJ, Hu HF, Rao S, Tan K,He J-S. 2009. Changes intopsoil carbon stock in the Tibetan grasslands between the 1980s and 2004.Global Change Biology 15: 2723–2729
He J-S, Wang XP, Flynn DF, WangL, Schmid B, Fang JY. 2009. Taxonomic, phylogenetic and environmental tradeoffsbetween leaf productivity and persistence.Ecology 90: 2779-2791
He J-S, Wang L, Flynn DFB, WangX, Ma W, Fang J. 2008. Leaf nitrogen: phosphorus stoichiometry across Chinesegrassland biomes.Oecologia155, 301-310
He J-S, Fang JY, Wang ZH, Guo DL,Flynn DFB, Geng Z. 2006. Stoichiometry and large-scale patterns of leaf carbonand nitrogen in the grassland biomes of China.Oecologia,149:115-122
He J-S, Wang ZH, Wang XP, SchmidB, Zuo W, Zhou M, Zheng CY, Wang MF, Fang JY, 2006. A test of the generality ofleaf trait relationships on the Tibetan 高原New Phytologist, 170: 835-848
Balvanera P, Pfisterer AB,Buchmann N,He J-S, Nakashizuka T, Raffaelli D, Schmid B. 2006.Quantifying the evidence for biodiversity effects on Ecosystem functioning andservices.Ecology Letters, 99:1146–1156
He J-S, Flynn DFB, Wolfe-BellinK, Fang J, Bazzaz FA. 2005. CO and nitrogen, but not populationdensity, alter the size and C/N ratio ofPhytolacca americana seeds.Functional Ecology, 19: 437-444
He J-S, Wolfe-Bellin KS, SchmidB, Bazzaz FA. 2005. Density may alter diversity-productivity relationships inexperimental 植物界 communities.Basicand Applied Ecology, 6: 505-517
He J-S, Wolfe-Bellin KS, BazzazFA. 2005. Leaf-level physiology, biomass, and reproduction ofPhytolaccaamericana under conditions of elevated CO and alteredtemperature regimes.International Journal of 植物界 Sciences, 166: 615-622
He J-S, Bazzaz FA. 2003.Density-dependent responses of reproductive allocation to elevated atmosphericCO inPhytolacca americana.New Phytologist, 157: 229-239
He J-S, Bazzaz FA, Schmid B.2002. Interactive effects of diversity, nutrients and elevated COon experimental 植物界 communities.Oikos,97: 337-348