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兰州大学草地农业科技学院导师教师师资介绍简介-贺金生
本站小编 Free考研考试/2021-07-15
国家****基金获得者,科技部全球变化国家重大科学计划(973)首席科学家。1988年毕业于兰州大学生物学系; 1998年在中国科学院植物研究所获得博士学位; 1999-2002年在哈佛大学进化生物学系从事博士后研究。2002年至今在北京大学生态学系工作。2009年入选中国科学院西北高原生物研究所“****”。 现任兰州大学草地农业生态系统国家重点实验室主任、草地农业科技学院教授。
主要从事草地生态系统碳循环、生物多样性、化学计量生态学等方面的教学和科研工作。主要的成绩包括:
1 系统研究了我国草地土壤有机碳和无机碳的变化规律和控制因子,阐明了我国草地优势植物以及土壤的C 、N、P化学计量特征及影响因素(GCB,Oecologia, Biogeosciences 等);
2 系统研究了中国草地优势植物功能属性特征,发现青藏高原极端环境下植物生态功能属性之间的关系遵循热带、温带地区的规律,证明植物生态属性之间存在趋同演化关系 (Ecology, New Phytol 等);
3 研究了青藏高原草地地上和地下地生物多样性和生态系统多功能性的关系,发现地下生物多样性和地上生物多样性一样,对生态系统功能有重要影响,未来的气候变化直接影响到生态系统多功能性(Nature Communications, GEB 等);
4 基于长期监测和实验的研究,发现青藏高原的温暖化会降低高寒草地的生产力稳定性(Nature Communications),而气候变化引起的物种组成的改变,引起了植物根系垂直分布的变化,这在草地生产力维持过程中起到关键的作用(PNAS);
5 在青藏高原海北高寒草地生态系统国家野外科学观测研究站,主持建立了国际先进的全球变化研究平台,包括“增温-降水”控制实验、高寒草地养分调控实验、高寒湿地温室气体排放监测系统及水位影响的实验。
先后主持科研项目20余项,包括科技部国家重大科学计划项目、国家自然科学基金重点项目、面上项目、****基金项目、中国科学院战略性先导科技专项课题等。2001年以来,先后在PNAS、Nature Communications、Ecology、Ecology Letters、New Phytologist等国际主流刊物发表SCI论文110 余篇,总计被SCI他人引用4900余次。
联系方式:jshe@pku.edu.cn,hejs@lzu.edu.cn
一、教育经历
1984.9-1988.7,兰州大学生物系, 获理学学士学位 (植物学)
1988.9-1991.6,中国科学院植物研究所, 获理学硕士学位 (植物学)
1995.9-1998.8,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)
二、主要科研工作经历
1991.6-1999.6,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
2007.1-2016.5,北京大学生态学系副主任
2007.10-2008.1,瑞士苏黎世大学环境研究所,联邦工学院植物研究所,Visiting Professor, The Swiss National Science Foundation Research Fellow
2008.8- ,北京大学生态学系,教授
2009.3-2012.5,中国科学院西北高原生物研究所“****”研究员
2010.9-2014.10 ,中国科学院高原生物适应与进化重点实验室副主任
2017.7-,北京大学新体制长聘教授(博雅****)
2018.1-,兰州大学草地农业生态系统国家重点实验室主任
2018.1-,兰州大学草地农业科技学院教授
三、主要学术任职
《植物生态学报》编委,2006-
《生物多样性》编委,2009-
Journal of Plant Research (Springer), Editorial Board Member, 2007-2010
Journal of Plant Ecology (Oxford University Press), Associate editor, 2007.10-
Frontiers in Ecology and the Environment (ESA journal), Associate editor, 2007.10- 2013.12
中国植物学会植物生态学专业委员会副主任, 2013-
北京大学地表过程分析与模拟教育部重点实验室副主任,2010-2017
北京生态学学会常务理事,2011-
中国科学院植物研究所植被与环境变化国家重点实验室学术委员会委员, 2011-
兰州大学草地农业生态系统国家重点实验室学术委员会委员, 2012-
北京师范大学、复旦大学生物多样性与生态工程教育部重点实验室学术委员会委员,2011-
青海省寒区恢复生态学重点实验室学术委员会副主任,2015-
中国科学院森林生态与管理重点实验室学术委员会委员, 2016-
中国科学院清原森林生态系统观测研究站学术委员会委员, 2017-
青海海北高寒草地生态系统国家野外科学观测研究站学术委员会副主任,2017-
重庆大学、西南大学三峡库区生态环境教育部重点实验室学术委员会委员,2017-
北京生态学学会副理事长, 2017-
四、课程教学
“生态学实验技术”( 本科生专业必修课, 主讲,2005-2007)
“普通生态学I:个体与种群”( 本科生专业必修课, 主讲,2005-)
“生态系统生态学:理论与方法”(研究生专业基础课,主讲,2004-)
五、主要在研项目
国家自然科学基金重点项目 (**), 高寒草地地上/地下生物多样性和生态系统多功能性对气候变化的响应机制,2017.1-2021.12,主持,289 万元
国家自然科学基金面上项目 (**), 气候变化对青藏高原高寒草甸植物开花物候和繁殖输出的影响,2016.1-2019.12,主持,直接经费70 万元
科技部国家重大科学计划“气候变化专项” (2014CB954004), 土壤系统碳动态、机制及其对全球变化的响应,2014.1-2018.8,首席科学家,2200 万元
国家自然科学基金委 “创新群体”成员 (**/**/),中国陆地植被的时空格局与生态功能,2011.1-2019.12,3期, 50万元/每期
六、主要已结题项目
国家自然科学基金面上项目(**),青藏高原高寒湿地温室气体排放对水位降低和氮沉降的响应,2013-2016,主持,82万元
中国科学院战略性先导科技专项子课题 (XDA**), 青藏高原草地生态系统固碳现状、速率、机制和潜力,2011.1-2015.12,主持, 900 万元
国家****科学基金 (**), 植物功能属性与化学计量生态学,2011.1-2014.12, 200 万元
国家科技支撑计划 (2007BAC06B00), 藏北高寒草甸区生态稳定性维持技术研究与示范. 2007-2010, 60 万元
国家重点基础研究发展规划 (973计划, 2010CB950602), 中国典型生态系统碳循环主要过程及碳源汇机制,2010.6-2014.12, 研究骨干, 120万元
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, 2007-2010, 参加
国家自然科学基金面上项目,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,39万元
国家自然科学基金委 “创新群体”成员: 环境生物地球化学研究. 成员,2004-2006
国家自然科学基金重大研究计划面上项目, 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,45万元
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,50万元
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), 研究骨干 (专题主持), 90万元
七、获得的奖项
2003年,获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;
2016年,西藏自治区科学技术奖,第10完成人。
八、获得的荣誉
1998年,中科院地奥奖学金'一等奖, 博士论文'神农架地区米心水青冈林和锐齿槲栎林的格局和过程';
2006年, 北京大学“保洁”奖;
2007年,瑞士科学基金委员会国际科技合作项目基金 (The Swiss National Science Foundation Research Fellow) ;
2007年,北京大学优秀班主任三等奖;
2010年,国家自然科学基金委****基金获得者;
2015年,北京大学“保洁”奖。
九、论著 (* 通讯作者)
4SCI论文
2017
107. Liu HY, Mi ZR, Lin L, Wang YH, Zhang ZH, Zhang FW, Wang H, Liu LL, Zhu B, Cao GM, Zhao XQ, Sanders NJ, Classen AT, Reich PB, He J-S*, 2017. Shifting plant species composition in response to climate change stabilizes grassland primary production. Proceedings of the National Academy of Sciences DOI: 10.1073/pnas. (in press)
106. Wang H, Liu HY, Wang YH, Xu W, Liu AR, Ma ZY, Mi ZR, Zhang ZH, Wang SP, He J-S*. 2017. Warm- and cold- season grazing affect soil respiration differently in alpine grasslands. Agriculture, Ecosystems and Environment 248: 136-143
105. Zhao K, Jing X, Sanders NJ, Chen LT, Shi Y, Flynn DFB, Wang YH, Chu HY, Liang WJ, He J-S*. 2017. On the controls of abundance for soil-dwelling organisms on the Tibetan Plateau. Ecosphere 8(7):e01901. 10.1002/ecs2.1901
104. Wang Y, Wang H, He J-S, and Feng X*. 2017. Iron-mediated soil carbon response to watertable decline in an alpine wetland. Nature Communications 8:15972, doi: 10.1038/ncomms15972
103. Zhang ZH, Zhu X, Wang SP*, Duan J, Chang X, Luo C, He J-S, Wilkes A. 2017. Nitrous oxide emissions from different land uses affected by managements on the Qinghai-Tibetan Plateau. Agricultural and Forest Meteorology 246: 133-141
102. Suonan J, Classen A, Zhang ZH, He J-S*. 2017. Asymmetric winter warming advanced plant phenology to a greater extent than symmetric warming in an alpine meadow. Functional Ecology DOI: 10.1111/1365-2435.12909
101. Yang T, Adams J, Shi Y, He J-S, Jing X, Chen LT, Tedersoo L, Chu HY*. 2017. Soil fungal diversity in natural grasslands of the Tibetan Plateau: associations with plant diversity and productivity. New Phytologist DOI: 10.1111/nph.14606
100. Ma ZY, Liu HY, Mi ZR, Zhang ZH, Wang YH, Xu W, Jiang L*, He J-S*. 2017. Climate warming reduces the temporal stability of plant community biomass production. Nature Communications 8, 15378, doi: 10.1038/ncomms15378
99. Geng Y, Ma WH, Wang L, Baumann F, Kühn P, Scholten T, He J-S*. 2017. Linking above‐ and belowground traits to soil and climate variables: an integrated database on China's grassland species. Ecology 98(5): 1471. DOI: 10.1002/ecy.1780
98. Li YT, Adams J, Shi Y, Wang H, He J-S, Haiyan Chu HY*. 2017. Distinct soil microbial communities at habitats of differing soil water balance on the Tibetan Plateau. Scientific Reports 7:46407. DOI: 10.1038/srep46407
97. Yang SZ, Liebner S, Winkel M, Alawi M, Horn F, D?rfer C, Ollivier J, He J-S, Huijun Jin, Kühn P, Schloter M, Scholten T, Wagner D. 2017. In-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands. Soil Biology and Biochemistry 111: 66-77
96. Niklaus PA*, Baruffol M, He J-S, Ma K, Schmid B. 2017. Can niche plasticity promote biodiversity–productivity relationships through increased complementarity? Ecology 98: 1104-1116
95. Geng Y, Baumann F, Song C, Zhang M, Shi Y, Kühn P, Scholten T, He J-S*. 2017, Increasing temperature reduces the coupling between available nitrogen and phosphorus in soils of Chinese grasslands. Scientific Reports 7: 43524
94. Scholten T, et al. 2017. On the combined effect of soil fertility and topography on tree growth in subtropical forest ecosystems—a study from SE China. Journal of Plant Ecology 10: 111-127
93. Ma KP, He J-S, Bruelheide H, Klein A-M, Liu XJ, Schmid B. 2017. Biodiversity–ecosystem functioning research in Chinese subtropical forests. Journal of Plant Ecology 10: 1-3
92. Huang YY, Ma YL, Zhao K, Niklaus PA, Schmid B, He J-S*, 2017. Positive effects of biodiversity on litterfall quantity and quality along a chronosequence in a subtropical forest. Journal of Plant Ecology 10: 28-35
91. Wang C, Ma YL, Trogisch S, Huang YY, Scherer-Lorenzen M, He J-S*, 2017. Soil respiration along a chronosequence in a subtropical evergreen broad-leaved forest. Journal of Plant Ecology 10: 36-46
90. Yan Y, Li Y, Wang W-J, He J-S, Yang R-H, Wu H-J, Wang X-L, Jiao L, Tang ZY, Yao Y-J. 2017. Range shifts in response to climate change of Ophiocordyceps sinensis, a fungus endemic to the Tibetan Plateau. Biological Conservation 206:143-150
89. Xiang XJ, He D, He J-S, Myrold D, Chu HY*. 2017. Ammonia-oxidizing bacteria rather than archaea respond to short-term urea amendment in an alpine grassland. Soil Biology and Biochemistry 107: 218-225
88. Bosch A, Schmidt K, He J-S, Doerfer C, Scholten T, 2017. Potential CO2 emissions from defrosting permafrost soils of the Qinghai-Tibet Plateau under different scenarios of climate change in 2050 and 2070. Catena 149: 221-231
87. Guo L, Cheng JM*, Luedeling E, Koerner SE, He J-S, Xu JC, Gang CC, Li W, Luo RM, Peng CH*. 2017. Critical climate periods for grassland productivity on China’s Loess Plateau. Agricultural and Forest Meteorology 233: 101-109
86. Chen LT, Jing X, Flynn DFB, Yue S, Kühn P, Scholten T, He J-S. 2017. Changes of carbon stocks in alpine grassland soils from 2002 to 2011 on the Tibetan Plateau and their climatic causes. Geoderma 288:166-174
85. Jia J, Feng XJ, He J-S, He HB, Lin L, Liu ZG, 2017. Comparing microbial carbon sequestration and priming in the subsoil versus topsoil of a Qinghai-Tibetan alpine grassland. Soil Biology and Biochemistry 104: 141-151
84. Zhu QA, Peng CH, Liu J, Jiang H, Fang X, Chen H, Niu Z, Gong P, Lin G, Wang M, Wang H, Yang Y, Chang J, Ge Y, Xiang W, Deng X, He J-S 2017. Climate-driven increase of natural wetland methane emissions offset by human-induced wetland reduction in China over the past three decades. Scientific Reports 6:38020, DOI: 10.1038/srep38020
73. Wang H, Yu LF, Zhang ZH, Liu W, Chen LT, Cao GM, Yue HW, Zhou J, Yang YF, Tang YH, He J-S*. 2017. Molecular mechanisms of water table lowering and nitrogen deposition in affecting greenhouse gas emissions from a Tibetan alpine wetland. Global Change Biology 23:815–829
2016
82. Shi Y, Adams JM, Ni YY, Yang T, Jing X, Chen LT, He J-S, Chu HY, 2016. The biogeography of soil archaeal communities on the eastern Tibetan Plateau. Scientific Reports 6:38893. DOI: 10.1038/srep38893
81. Dai GH, Zhu SS, Liu ZG, Chen LT, He J-S, Feng XJ. 2016. Distribution of fatty acids in the alpine grassland soils of the Qinghai-Tibetan Plateau. Science China Earth Science 59: 1329–1338, doi: 10.1007/s11430-016-5271-2
80. Ren F, Yang XX, Zhou HK, Zhu WY, Zhang ZH, Chen LT, Cao GM, He J-S*. 2016. Contrasting effects of N and P additions on soil respiration in an alpine grassland on the Tibetan Plateau. Scientific Reports 6:34786. DOI: 10.1038/srep34786
79. Zhu W, Wang JZ, Zhang ZH, Ren F, Chen LT, He J-S*. 2016. Changes in litter quality induced by nutrient addition alter litter decomposition in an alpine meadow on the Qinghai-Tibetan Plateau. Scientific Reports 6:34290. DOI: 10.1038/srep34290
78. Ren F, Song WM, Chen LT, Zhang ZH, Zhu W, Mi ZR, Yang XX, Li Y, Wang C, Cao GM and He J-S*. 2016. Phosphorus does not alleviate the negative effect of nitrogen enrichment on legume performance in an alpine grassland. Journal of Plant Ecology doi: 10.1093/jpe/rtw089
77. Niu KC, He J-S, Lechowicz MJ. 2016. Foliar phosphorus content predicts species relative abundance in P-limited Tibetan alpine meadows. Perspectives in Plant Ecology, Evolution and Systematics 22: 47-54
76. He D, Xiang XJ, He J-S, Wang C, Cao GM, Adams J, Chu HY*, 2016. Composition of the soil fungal community is more sensitive to phosphorus than nitrogen addition in the alpine meadow on the Qinghai-Tibetan Plateau. Biology and Fertility of Soils 52(8), 1059-1072. DOI 10.1007/s00374-016-1142-4
75. Lin L, Zhu B, Chen CR, Zhang ZH, Wang Q-B*, He J-S* 2016. Precipitation overrides warming in mediating soil nitrogen pools in an alpine grassland ecosystem on the Tibetan Plateau. Scientific Reports 6: 31438; DOI: 10.1038/srep31438
74. Xiang XJ, Gibbons SM, He J-S, Wang C, He D, Li Q, Ni YY, Chu HY. 2016. Rapid response of arbuscular mycorrhizal fungal communities to short-term fertilization in an alpine grassland on the Qinghai-Tibet Plateau. Peer J 4: e2226; DOI: 10.7717/peerj.2226
73. Zhang K, ShiY, Jing X, He J-S, Sun R, Yang Y, Shade A, Chu H. 2016 Effects of short-term warming and altered precipitation on soil microbial communities in alpine grassland of the Tibetan Plateau. Frontiers in Microbiology7:1032. doi: 10.3389/fmicb.2016.01032
72. Jing X, Yang XX, Ren F, Zhou KH, Zhu B*, He J-S*. 2016 Neutral effect of N addition and negative effect of P addition on soil extracellular enzymes in an alpine grassland ecosystem. Applied Soil Ecology 107: 205–213
71. Niu KC, He J-S, Lechowicz MJ. 2016. Grazing-induced shifts in community functional composition and soil nutrient availability in Tibetan alpine meadows. Journal of Applied Ecology doi: 10.1111/1365-2664.12727
70. Niu KC, He J-S, Zhang ST, Lechowicz MJ. 2016. Tradeoffs between forage quality and soil fertility: Lessons from Himalayan rangelands. Agriculture Ecosystems and Environment 234: 31-39
69. Zhang ZJ, He J-S, Li JS, Tang ZY. 2016. Distribution and conservation of threatened plants in China. Biological Conservation 192: 454-450
68. Bosch A, D?rfer C, He J-S, Schmidt K, Scholten T. 2016. Predicting soil respiration for the Qinghai-Tibet Plateau: An empirical comparison of regression models. Pedobiologia 59: 41–49
67. Trogisch S, He J-S, Andy Hector A, Scherer-Lorenzen M. 2016. Impact of species diversity, stand age and environmental factors on leaf litter decomposition in subtropical forests in China. Plant and Soil 400: 337–350
66. Trogisch S, Salmon Y, He J-S, Andy Hector A, Scherer-Lorenzen M. 2016. Spatio-temporal water uptake patterns of tree saplings are not altered by interspecific interaction in the early stage of a subtropical forest. Forest Ecology and Management 367: 52–61
2015
65. Zhang ZJ, He J-S, Li JS, Tang ZY. 2015. Distribution and conservation of threatened plants in China. Biological Conservation 192: 454-450
64. Niu KC, He J-S, Lechowicz MJ, 2015. The effects of grazing on foliar trait diversity and niche differentiation in Tibetan alpine meadows. Ecosphere 6(9): 150
63. 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 Communications 6: 8159. doi: 10.1038/ncomms9159
62. Jin Z, Zhuang Q, He J-S, Zhu X, Song WM. 2015. Net exchanges of methane and carbon dioxide on the Qinghai-Tibetan Plateau from 1979 to 2100. Environmental Research Letters 10: 085007. doi:10.1088/1748-9326/10/8/085007
61. Song WM, Wang H, Wang GS, Chen LT, Jin ZN, Zhuang QL, He J-S*. 2015. Methane emissions from an alpine wetland on the Tibetan Plateau: Neglected but vital contribution of non-growing season. Journal of Geophysical Research: Biogeosciences 120: 1475–1490. doi: 10.1002/2015JG003043
60. Niu KC, He J-S, Zhang ST, Lechowicz MJ. 2015. Grazing increases functional richness but not functional divergence in Tibetan alpine meadow plant communities. Biodiversity and Conservation doi: 10.1007/s10531-015-0960-2.
59. Ding S, Xu Y, Wang Y, He Y, Hou J, Chen L, He J-S. 2015. Distributions of glycerol dialkyl glycerol tetraethers in surface soils of Qinghai–Tibetan Plateau: implications of GDGT-based proxies in cold and dry regions. Biogeosciences 12: 3141–3151. doi: 10.5194/bg-12-3141-2015
58. Chen L, 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 Plateau. PLoS ONE 10(5): e**. doi: 10.1371/journal.pone.**
57. 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: **
56. Eichenberg D, Trogisch S, Huang YY, He J-S, Bruelheide H. 2015. Shifts in community leaf functional traits relate to litter decomposition during secondary forest succession. Journal of Plant Ecology 8(4): 401-410. doi: 10.1093/jpe/rtu021
55. Zhang ZJ, Yan YJ, Tian Y, Li JS, He J-S, Tang ZY. 2015. Distribution and conservation of orchid species richness in China. Biological Conservation 181: 64-72
2014
54. Wang YH, Liu HY, Chung H, Yu LF, Mi ZR, Geng Y, Jing X, Wang SP, Zeng H, Cao GM, Zhao XQ, He J-S*. 2014. Non-growing-season soil respiration is controlled by freezing and thawing processes in the summer-monsoon dominated Tibetan alpine grassland. Global Biogeochemical Cycles 28: 1081–1095
53. Geng Y, Wang L, Jin DM, Liu HY, He J-S*. 2014. Alpine climate alters the relationships between leaf and root morphological traits but not chemical traits. Oecologia 175: 445-455
52. Baumann F, Schmidt K, D?rfer C, He J-S, Scholten T, Kühn P. 2014. Pedogenesis, permafrost, substrate and topography: Plot and landscape scale interrelations of weathering processes on the central-eastern Tibetan Plateau. Geoderma 226-227: 300-316
51. 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 Mongolian grassland species. Basic and Applied Ecology 15: 122-132
50. Shi Y, Wang Y, Ma W, Liang C, Flynn DFB, Schmid B, Fang JY, He J-S*. 2014. Field-based observations of regional-scale, temporal variation in net primary production in Tibetan alpine grasslands. Biogeosciences 11: 2003-2016
49. Bruelheide H, Nadrowski K, Assmann T, Bauhus J, Both S, Buscot F, Chen X-Y, Ding BY, Durka W, Erfmeier A, Gutknecht JLM, Guo DL, Guo L-D, H?rdtle W, He J-S, Klein A-M. Kühn P, Liang Y, Liu XJ, Michalski S, Niklaus PA, Pei KQ, Scherer-Lorenzen M, Scholten T, Schuldt A, Seidler G, Trogisch S, von Oheimb G, Welk E, Wirth C, Wubet T, Yang XF, Yu MJ, Zhang SR, Zhou HZ, Fischer M, Ma KP, Schmid B, 2014. Designing forest biodiversity experiments: general considerations illustrated by a new large experiment in subtropical China. Methods in Ecology and Evolution 5: 74-89
48. Jing X, Wang YH, Chung H, Mi ZR, Wang SP, Zeng H, He J-S*. 2014. No temperature acclimation of soil extracellular enzymes to experimental warming in an alpine grassland ecosystem on the Tibetan Plateau. Biogeochemistry 117: 39-54
2013
47. Chen LT, Niu KC, Wu Y, Geng Y, Mi ZR, Flynn DFB, He J-S*, 2013. UV radiation is the primary factor driving the variation in leaf phenolics across Chinese grasslands. Ecology and Evolution 3: 4696-4710
46. Jin DM, Ma JJ, Ma WH, Liang CZ, Shi Y and He J-S*, 2013. Legumes in Chinese natural grasslands: Species, biomass, and distribution. Rangeland Ecology and Management 66:648–656
45. 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’s forests. Journal of Plant Ecology 6: 428-435
44. He J-S, Muraoka H, Son Y, Fang JY. 2013. Carbon patterns and processes in East Asian ecosystems: multi-scale approaches (Editorial). Journal of Plant Ecology 6: 323-324
43. 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 subtropical forest of China. Journal of Plant Ecology 6: 335-348
42. Yu LF, Wang H, Wang GS, Song WM, Huang Y, Li SG, Liang NS, Tang YH, and He J-S*. 2013. A comparison of methane emission measurements using eddy covariance and manual and automated chamber-based techniques in Tibetan Plateau alpine wetland. Environmental Pollution 181: 81-90
41. Wang S, Ni HG, Sun JL, Jing X, He J-S, and Hui Zeng. 2013. Polycyclic aromatic hydrocarbons in soils from the Tibetan Plateau, China: distribution and influence of environmental factors. Environmental Science: Processes and Impacts 15: 661-667
40. Jin ZN*, Zhuang QL, He J-S, Luo TX, Shi Y 2013. Phenology shift from 1989 to 2008 on the Tibetan Plateau: an analysis with a process-based soil physical model and remote sensing data. Climatic Change 119: 435-449
39. Liu C, Wang XP, Wu X, Dai S, He J-S, and Yin WL. 2013. Relative effects of phylogeny, biological characters and environments on leaf traits in shrub biomes across central Inner Mongolia, China. Journal of Plant Ecology 6: 220–231
38. Shi Y, Ma YL, Ma WH, Liang CZ, 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
37. D?rfer C, Kühn P, Baumann F, He J-S, Scholten T. 2013. Soil organic carbon pools and stocks in permafrost-affected soils on the Tibetan Plateau. PLoS ONE 8(2): e57024. doi: 10.1371/journal.pone.**
36. Huang N, He J-S, Niu Z. 2013. Estimating the spatial pattern of soil respiration in Tibetan alpine grasslands using Landsat TM images and MODIS data. Ecological Indicators 26: 117–125
2012及以前
35. 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 Tibetan grasslands: pattern, control and implications. Biogeosciences 9: 2287-2299
34. Geng Y, Wang YH, Yang K, Wang SP, Zeng H, Baumann F, Kuehn P, Scholten T, He J-S*. 2012. Soil respiration in Tibetan alpine grasslands: Belowground biomass and soil moisture, but not soil temperature, best explain the large-scale patterns. PLoS ONE 7(4): e34968. doi:10.1371/journal.pone.**
33. He J-S. 2012. Carbon cycling of Chinese forests: from carbon storage, dynamics to models. Science China Life Sciences 55: 188–190
32. Ma JJ, Ji CJ, Han M, Zhang TF, Yan XD, Hu D, Zeng H, He JS. 2012. Comparative analyses of leaf anatomical characteristics of dicotyledonous species in Tibetan and Inner Mongolian grasslands. Science China Life Sciences 55:68-79
31. Geng Y, Wang ZH, Liang CZ, Fang JY, Frank B, Kühn P, Scholten T, He J-S*. 2012. Effect of geographical range size on plant functional traits and the relationships between plant, soil and climate in Chinese grasslands. Global Ecology and Biogeography 21, 416–427
30. Chu ZY, Lu YJ, Chang J, Wang M, Jiang H, He J-S, Peng CH, Ge Y, Leaf respiration/photosynthesis relationship and variation: an investigation of 39 woody and herbaceous species in east subtropical China. Trees-Structure and Function 25: 301-310
29. 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 organochlorine pesticides in surface soils from the Qinghai-Tibetan plateau. Journal of Environmental Monitoring 13: 175–181
28. Ma WH, Liu ZL, Wang ZH, Wang W, Liang CZ, Tang YH, He J-S, Fang JY. 2010. Climate change alters interannual variation of grassland aboveground productivity: evidence from a 22-year measurement series in the Inner Mongolian grassland. Journal of Plant Research 123: 509-517
27. He J-S, Wang X, Schmid B, Flynn DFB, Li XF, Reich PB, Fang JY. 2010. Taxonomic identity, phylogeny, climate and soil fertility as drivers of leaf traits across Chinese grassland biomes. Journal of Plant Research 123: 551-561
26. 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 plant diversity-productivity relationships among Chinese grassland sites Global Ecology and Biogeography 19: 233–243
25. Tang YH, Wan SQ, He J-S, Zhao XQ. 2009. Looking into the impacts of global warming from the roof of the world. Journal of Plant Ecology 2: 169-171
24. Baumann F, He J-S, Schmidt K, Kühn P, Scholten T. 2009. Pedogenesis, permafrost, and soil moisture as controlling factors for soil nitrogen and carbon contents across the Tibetan Plateau. Global Change Biology 15: 3001–3017
23. Yang YH, Fang JY, Smith P, Tang YH, Chen AP, Ji CJ, Hu HF, Rao S, Tan K, He J-S. 2009. Changes in topsoil carbon stock in the Tibetan grasslands between the 1980s and 2004. Global Change Biology 15: 2723–2729
22. He J-S, Wang XP, Flynn DFB, Wang L, Schmid B, Fang JY. 2009. Taxonomic, phylogenetic and environmental tradeoffs between leaf productivity and persistence. Ecology 90: 2779-2791
21. He J-S, Wang L, Flynn DFB, Wang X, Ma W, Fang JY. 2008. Leaf nitrogen: phosphorus stoichiometry across Chinese grassland biomes. Oecologia 155: 301-310
20. Yang YH, Fang JY, Tang YH, Ji CJ, Zheng CY, He J-S, Zhu B. 2008. Storage, patterns and controls of soil organic carbon in the Tibetan grasslands. Global Change Biology 14: 1592-1599
19. Flynn D, Schmid B, He J-S, Wolfe-Bellin K, Bazzaz FA. 2008. Hierarchical reliability in experimental plant communities. Journal of Plant Ecology 1: 59-65.
18. Ma WH, Yang YH, He J-S, Zeng H, Fang JY. 2008. Above- and belowground biomass in relation to environmental factors in temperate grasslands, Inner Mongolia. Science in China 51: 263-270
17. Wolfe-Bellin KS, He J-S, and Bazzaz FA. 2006. Leaf-level physiology, biomass and reproduction of Phytolacca americana under conditions of elevated carbon dioxide and increased nocturnal temperature. International Journal of Plant Sciences 167: 1011-1020
16. Qian H, Wang S, He J-S, Zhang JL, Wang LS, Wang XL, Guo K. 2006. Phytogeographical Analysis of Seed Plant Genera in China. Annals of Botany 98: 1073–1084
15. 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 and services. Ecology Letters 99: 1146–1156
14. He J-S, Fang JY, Wang ZH, Flynn DFB, Geng Z. 2006. Stoichiometry and large-scale patterns of leaf carbon and nitrogen in the grassland biomes of China. Oecologia 149:115-122
13. He J-S, Wang ZH, Wang XP, Schmid B, Zuo W, Zhou M, Zheng CY, Wang MF, Fang JY, 2006. A test of the generality of leaf trait relationships on the Tibetan Plateau. New Phytologist 170: 835-848
12. Piao SL, Fang JY, He J-S. 2006. Variations in vegetation net primary production in the Qinghai-Xizang Plateau, China, from 1982 to 1999. Climatic Change 74: 253–267
11. Fang JY, Piao SL, Zhou L, He J-S, Wei FY, Myneni R, Tucker CJ, Tan K. 2005. Precipitation patterns alter growth of temperate vegetation, Geophysical Research Letters 32: L21411, doi: 10.1029/2005GL024231
10. He J-S, Wolfe-Bellin KS, Schmid B, Bazzaz FA. 2005. Density may alter diversity-productivity relationships in experimental plant communities. Basic and Applied Ecology 6: 505-517
9. He J-S, Flynn DFB, Wolfe-Bellin K, Fang J, Bazzaz FA. 2005. CO2 and nitrogen, but not population density, alter the size and C/N ratio of Phytolacca americana seeds. Functional Ecology 19: 437-444
8. He J-S, Wolfe-Bellin KS, Bazzaz FA. 2005. Leaf-level physiology, biomass, and reproduction of Phytolacca americana under conditions of elevated CO2 and altered temperature regimes. International Journal of Plant Sciences 166: 615-622
7. He J-S, Zhang QB, Bazzaz FA. 2005. Differential drought responses between saplings and adult trees in four co-occurring species of New England. Trees-Structure and Function 19: 442-450
6. He J-S, Wang ZQ, Fang JY, 2004. Issues and prospects of belowground ecology with special reference to global climate change. Chinese Science Bulletin 49: 1891-1899
5. Fang JY, Piao SL, He J-S, Ma WH. 2004. Increasing terrestrial vegetation activity in China, 1982-1999. Science in China (Series C), 47: 229-240.
4. He J-S, Bazzaz FA. 2003. Density-dependent responses of reproductive allocation to elevated atmospheric CO2 in Phytolacca americana. New Phytologist 157: 229-239
3. He J-S, Bazzaz FA, Schmid B. 2002. Interactive effects of diversity, nutrients and elevated CO2 on experimental plant communities. Oikos 97: 337-348
2. He J-S, Liu F, Chen WL, Chen LZ. 1999. History of disturbance and regeneration strategies of Fagus engleriana and Quercus aliena var. acuteserrata forests in Shennongjia, Hubei Province. Acta Botanica Sinica 41: 887-892
1. He J-S, Chen WL, Wang QB. 1998. Studies on the characteristics of element contents in the dominant plant species of the Three-Gorges Region in China. Acta Botanica Sinica 40: 453-460
4专著及章节
Pfisterer AB, Balvanera P, Buchmann N, He J-S, Nakashizuka T, Raffaelli D, Schmid B 2005. The role of biodiversity for ecosystem services: current knowledge. White Paper written for the Swiss Federal Office of the Environment and the Scientific Committee on Problems of the Environment (SCOPE). Swiss Biodiversity Forum, Bern.
刘鸿雁, 贺金生, 方精云. 2004. 全球生态学. 见李文华, 赵景柱主编. 生态学研究回顾与展望, 402-428. 北京: 气象出版社.
贺金生, 纪力强. 2000. 生物多样性的编目和监测. 见陈灵芝, 马克平主编. 生物多样性科学的理论与实践, 218-248. 上海: 上海科学技术出版社.
贺金生, 马克平. 1996. 物种多样性. 见蒋志刚, 马克平, 韩兴国主编. 保护生物学, 20-33. 杭州: 浙江科学技术出版社.
贺金生, 陈伟烈. 1995. 中国亚热带地区的退化生态系统: 类型、分布、结构特征及恢复途径. 见陈灵芝, 陈伟烈主编, 中国退化生态系统研究, 61-93. 北京: 中国科学技术出版社.
陈伟烈, 贺金生, 谢宗强, 黄汉东, 林成来, 周高尚. 1994. 植被. 见李振宇主编. 龙栖山植物, 79-127. 北京: 中国科学技术出版社.
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