1964年12月出生于江苏省启东市，1986年在南京大学获理学学士学位，分别于1989年和1997年在中国科学院植物研究所获硕士和博士学位。1994年5月至1995年2月在美国Colorado State University进行访问研究。现任植被与环境变化国家重点实验室副主任，中国科学院植物研究所东乌珠穆沁草原生态系统管理研究站站长，中国科学院大学教授。迄今发表论著110余篇（部），SCI收录刊物论文50余篇。已培养硕士和博士9名；正在指导博士生和硕士生3名。

主要研究工作:

主要从事生态系统养分循环的研究，研究内容包括生态系统的生产力、凋落物分解、有机N的矿化以及C、N间的相互作用及上述生态系统过程对全球变化（N沉降增加和降水量与降水格局变化）的响应和稳定同位素技术在上述研究中的应用等。

主持和参加的科研项目：

[1]中国科学院战略先导科技专项“华北暖温性草地固碳现状、速率、机制和潜力”（2011-2015），专题负责人；

[2]国家自然科学基金面上项目：“氮素和水分添加对典型草原植物凋落物分解的影响”（2011-2013），课题负责人；

[3]国家基金委重点研究项目：“内蒙古典型草原生物多样性与生态系统功能关系的控制实验研究”（2009-2012），主要参加人员；

[4]国家科技部973项目：“中国主要陆地生态系统服务功能与生态安全”，子课题负责人（2009-2013）；

[5]国家基金委创新研究群体项目：“北方草地全球变化生态学”，主要学术骨干（2009-2011）；

[6]国家科技部973项目：“北方草地与农牧交错带生态系统维持与适应性管理的科学基础”（2007-2011），子课题负责人；

[7]中国科学院重大创新方向项目：“锡林郭勒草地适应性管理与可持续发展试验示范研究”（2006-2009），课题负责人；

[8]中国科学院创新方向性项目：“岛屿生态学的实证研究”（2002-2005），主持人

研究论文（注*为通讯作者，§为共同第一作者）：

2018

[1]Zhang XY, Liu MZ, Zhao X, Li YQ, Zhao W, Li A*, Chen S, Chen SP, Han XG, Huang JH*. 2018. Topography and grazing effects on storage of soil organic carbon and nitrogen in the northern China grasslands. Ecol. Indic., 93:45-53.

[2]Li A*, Wu JG, Zhang XY, Xue JG, Liu ZF, Han XG, Huang JG*. 2018. China’s new rural “separating three property rights” land reform results in grassland degradation: Evidence from Inner Mongolia. Land Use Pol., 71: 170-182.

[3]Wang CH*, Wang NN, Zhu JX, Liu Y, Xu XF, Niu SL, Yu GR, Han XG, He NP*. 2018. Soil gross N ammonification and nitrification from tropical to temperate forests in eastern China. Funct. Ecol., 32: 83-94

2017

[4]Li A*, Chen S*, Zhang XY, Huang JH. 2017. Political pressures increased vulnerability to climate hazards for nomadic livestock in Inner Mongolia, China. Sci. Rep., 7: 8256.

[5]Zhang XL, Tan YL, Zhang BW, Li A, Daryanto S, Wang LX, Huang JH*. 2017.The impacts of precipitation increase and nitrogen addition on soil respiration in a semiarid temperate steppe. Ecosphere, 8: e01655.

2016

[6]Zhang Yunhai, Stevens Carly J., Lv Xiaotao*, He Nianpeng, Huang Jianhui, Han Xingguo*. 2016. Fewer new species colonize at low frequency N addition in a temperate grassland. Functional Ecology, 30: 1247-1256.

[7]Chen Dima, Pan Qingmin, Bai Yongfei*, Hu Shuijin, Huang Jianhui, Wang Qibing, Han Xingguo, Naeem Shahid, Elser James J., Wu Jianguo. 2016. Effects of plant functional group loss on soil biota and net ecosystem exchange: A plant removal experiment in the Mongolian grassland. Journal of Ecology, 104: 734-743.

[8]黄建辉*, 薛建国, 郑延海, 玉柱, 李昂. 2016. 现代草产品加工原理与技术发展. 科学通报, 61: 213-223.

2015

[9]Zhang Xiaolin, Tan Yulian, Li Ang, Ren Tingting, Chen Shiping, Wang Lixin, Huang Jianhui*. 2015. Water and nitrogen availability co-control ecosystem CO2 exchange in a semiarid temperate steppe. Scientific Report, 5: 15549.

[10]Ren Haiyan*, Xu Zhuwen, Huang Jianhui, Lu Xiaotao, Zeng Dehui, Yuan Zhiyou, Han Xingguo, Fang Yunting*. 2015. Increased precipitation induces a positive plant-soil feedback in a semi-arid grassland. Plant and Soil, 389: 211-223.

[11]Yuan Fei, Wu Jianguo, Li Ang*, Helen Rowe, Bai Yongfei, Huang Jianhui, Han Xingguo. 2015. Spatial patterns of soil nutrients, plant diversity, and aboveground biomass in the Inner Mongolia grassland: Before and after a biodiversity removal experiment. Landscape Ecology, 30(9): 1737-1750.

2014

[12]Zhang Yunhai, Han Xu, He Nianpeng, Long Min, Huang Jianhui, Zhang Guangming, Wang Qibing, Han Xingguo. 2014. Increase in ammonia volatilization from soil in response to N deposition in Inner Mongolia grasslands. Atmospheric Environment, 84: 156-162.

2013

[13]Tan Y, J Chen, L Yan, J Huang*, L Wang, S Chen. 2013. Mass loss and nutrient dynamics during litter decomposition under three mixing treatments in a typical steppe in Inner Mongolia.Plant and Soil DOI 10.1007/s11104-012-1401-6

2012

[14]Li A, J Wu, J Huang*, 2012. Distinguishing between human-induced and climate-driven vegetation changes: a critical application of RESTREND in Inner Mongolia. Landscape Ecology27: 969-982

2011

[15]Yan L, S Chen, J Huang, G Lin. 2011. Increasing water and nitrogen availability enhanced net ecosystem CO2 assimilation of a temperate semiarid steppe.Plant and Soil 349: 227-240

[16]Yan L, S Chen, J Huang, G Lin. 2011. Water regulated effects of photosynthetic substrate supply on soil respiration in a semiarid steppe. Global Change Biology 17(5): 1990-2001

[17]Ren H, Z Xu,J Huang*, C Clark, S Chen, X Han. 2011. Nitrogen and water addition reduce leaf longevity of steppe species.Annals of Botany107: 145-155

2010及以前

[18]Yan L, S Chen, J Huang, G Lin. 2010.Differential responses of auto- and heterotrophic soil respiration to water and nitrogen addition in a semiarid temperate steppe. Global Change Biology 16: 2345-2357

[19]Liu P, J Huang*, Osbert J Sun, X Han. 2010. Separating effects of N addition on litter decomposition and nutrient release in an Inner Mongolia grassland ecosystem. Oecologia 162: 771-780

[20]Bai Y, J Wu, CM Clark, S Naeem, Q Pan, J Huang, L Zhang, X Han. 2010. Tradeoffs and thresholds in the effects of nitrogen addition on biodiversity and ecosystem functioning: evidence from Inner Mongolia grasslands. Global Change Biology 16: 358-372

[21]Wang J, J Huang*, J Wu, X Han, G Lin. 2010. Ecological consequences of the Three Gorges Dam: insularization affects foraging behavior and dynamics of rodent populations. Frontiers in Ecology and the Environment8: 13-19

[22]Wilske B, N Lu, L Wei , S Chen, T Zha, C Liu, W Xu, A Noormets, J Huang, Y Wei, J Chen, Z Zhang, J Ni, G Sun, K Guo, S McNulty, R John, X Han, G Lin, J Chen, 2009. Poplar plantation has the potential to alter the water balance in semiarid Inner Mongolia. Journal of Environmental Management 90: 2762-2770

[23]Liu P, J Huang*, X Han, Osbert J. Sun. 2009. Litter decomposition in semi-arid grassland of Inner Mongolia, China.Rangeland Ecology and Management 62: 305-313

[24]Liu H, X Han, L Li, J Huang, H Liu, X Li. 2009. Grazing Density Effects on Cover, Species Composition, and Nitrogen Fixation of Biological Soil Crust in an Inner Mongolia Steppe. Rangeland Ecology and Management 62: 321-327

[25]Chen S, G Lin, J Huang, GD Jenerette. 2009. Dependence of carbon sequestration on the differential responses of ecosystem photosynthesis and respiration to rain pulses in a semiarid steppe. Global Change Biology 15: 2450–2461

[26]Chen S, J Chen, G Lin, W Zhang, H Miao, L Wei, J Huang, X Han. 2009. Energy balance and partition in Inner Mongolia steppe ecosystems with different land use types. Agricultural and Forest Meteorology 149: 1800-1809.

[27]Han X, K Owens, B Wu, J Wu, J Huang. 2009. The grasslands of Inner Mongolia: a special feature. Rangeland Ecology and Management 62: 303-304

[28]Zhou L, J Huang, F Lu, X Han. 2009. Effects of prescribed burning and seasonal and interannual climate variation on nitrogen mineralization in a typical steppe in Inner Mongolia. Soil Biology and Biochemistry 41: 796-803

[29]Sun S, J Huang*, X Han, G Lin. 2008. Comparisons in water relations of plants between newly formed riparian and non-riparian habitats along the bank of Three Gorges Reservoir, China. Trees - Structure and Function22: 717-728

[30]Chen L, NFY Tam, J Huang, X Zeng, X Meng, C Zhong, YS Wong, G Lin. 2008. Comparison of ecophysiological characteristics between introduced and indigenous mangrove species in China. Estuarine, Coastal and Shelf Science79: 644-652

[31]Bai Y, J Wu, Q Xing, Q Pan, J Huang, D Yang, X Han. 2008. Primary production and rain use efficiency across a precipitation gradient on the Mongolia Plateau. Ecology 89: 2140-2153

[32]Chen S, Y Bai,G Lin, J Huang, X Han. 2007. Isotopic carbon composition and related characters of dominant species along an environmental gradient in Inner Mongolia, China. Journal of Arid Environments 71: 12-28

[33]Chen S, Y Bai, G Lin, J Huang, X Han. 2007. Variations in 13C values among major plant community types in the Xilin River Basin, Inner Mongolia, China. Australian Journal of Botany55: 48-54

[34]Sun P, Q-Y Tian, M-G Zhao, X-Y Dai, J-H Huang, L-H Li, W-H Zhang. 2007. Aluminum-induced ethylene production is associated with inhibition of root elongation in Lotus japonicus L. Plant and Cell Physiology 48: 1229-1235

[35]Bai Y, J Wu, Q Pan, J Huang, Q Wang, F Li, A Buyantuyev, X Han. 2007. Positive linear relationship between productivity and diversity: evidence from the Eurasian Steppe. Journal of Applied Ecology44: 1023-1034

[36]Wang L, Mou PP, J Huang*, J Wang. 2007. Spatial variation of nitrogen availability in a subtropical evergreen broadleaved forest of southwestern China. Plant and Soil 295: 137-150

[37]Liu P, OJ Sun, J Huang*, L Li, X Han. 2007. Non-additive effects of litter mixtures on decomposition and correlation with initial litter N and P concentrations in grassland plant species of northern China. Biology and Fertility of Soils 44: 211-216

[38]Zhou Z, OJ Sun, J Huang, P Liu, X Han. 2007. Soil carbon and nitrogen stores and storage potential as affected by land-use in an agro-pastoral ecotone of northern China. Biogeochemistry 82: 127-138

[39]Zhou Z, OJ Sun, J Huang, Y Gao, X Han. 2006. Land-use affects the relationship between species diversity and productivity at the local scale in a semi-arid steppe ecosystem.FunctionalEcology 20: 753-762

[40]Liu P, J Huang, X Han, OJ Sun, Z Zhou. 2006. Differential responses of litter decomposition to increased soil nutrients and water between two contrasting grassland plant species of Inner Mongolia, China. AppliedSoilEcology34: 266-275

[41]Niu, S.L., Y.F. Zhang, Z.Y. Yuan, W.X. Liu,J.H. Huang, S.Q. Wan. 2006. Effects of interspecific competition and nitrogen seasonality on the photosynthetic characteristics of C3 and C4 grasses. Environmental and Experimental Botany 57: 270-277

[42]Liu H S, L H Li, X G Han, J H Huang, J X Sun, H Y Wang. 2006.Respiratory substrate availability plays a crucial role in the response of soil respiration to environmental factors. Applied Soil Ecology 32: 284-292

[43]黄建辉，林光辉，韩兴国．2005．不同生境间红树科植物水分利用效率的比较研究．植物生态学报29（4）：530-536

[44]Niu S, Z Yuan, W Liu, Y Zhang, L Zhang, J Huang, S Wan. 2005. Photosynthetic responses of C3 and C4 species to seasonal water variability and competition.Journal of Experimental Botany 56: 2867-2876

[45]Yuan Z, L Li, X Han, J Huang, S Wan. 2005. Foliar nitrogen dynamics and nitrogen resorption of a sandy shrub Salix gordejevii in northern China. Plant and Soil 278: 183-193

[46]Yuan Z, L Li, J Huang, X Han, S Wan. 2005. Effect of nitrogen supply on the nitrogen use efficiency of an annual herb, Helianthus annuus L. Journal of Integrative Plant Biology 47: 539-548

[47]Yuan Z, L Li, X Han, J Huang, G Jiang, S Wan, W Zhang, Q Chen. 2005. Soil characteristics and nitrogen resorption in Stipa krylovii native to northern China. Plant and Soil273: 257-268

[48]Yuan Z, L Li, X Han, J Huang, G Jiang, S Wan, W Zhang, Q Chen. 2005. Nitrogen resorption from senescing leaves in 28 plant species in a semi-arid region of northern China. Journal of Arid Environments 63: 191-202

[49]孙双峰, 黄建辉, 林光辉, 赵威, 韩兴国. 2005. 稳定同位素技术在植物水分利用研究中的应用. 生态学报25: 2362-2371

[50]孙伟，林光辉，陈世苹，黄建辉．2005．稳定同位素技术与Keeling曲线法在陆地生态系统碳/水交换研究中的应用．植物生态学报29（5）：851-862

[51]Wang J, G Lin, J Huang, X Han. 2004. Applications of stable isotopes to study plant-animal relationships in terrestrial ecosystems. ChineseScienceBulletin 49(22): 2339-2347

[52]侯继华，黄建辉，马克平．2004．东灵山辽东栎主要树种种群11年动态变化．植物生态学报28（5）：609-615

[53]杨景成，黄建辉，韩兴国，潘庆民．2004．西双版纳不同热带生态系统土壤有机质的光谱学特性．植物生态学报28（5）：623-629

[54]杨晶，黄建辉，詹学明，李鑫，杜丽华，李凌浩．2004．农牧交错区不同植物群落土壤呼吸的日动态观测与测定方法比较．植物生态学报28（3）：318-325

[55]Wu J, Huang J, Han X, X Gao, F He, M Jiang, Z Jiang, RB Primack, Z Shen. 2004. The Three Gorges Dam: an ecological perspective. Frontiers in Ecology and the Environment 2(5): 241-248

[56]Li G, X Han, J Huang. 2004. Forest and Degraded Vegetation in the Ailao Mountain, Yunnan Province. Acta Botanica Sinica 46: 194-201

[57]Yang J, J Huang, Q Pan, J Tang, X Han. 2004. Long-term impacts of land-use change on dynamics of tropical soil carbon and nitrogen. Journal of Environmental Science 16: 256-261

[58]杨景成，韩兴国，黄建辉，潘庆民．2003．土壤有机质对农田管理措施的动态响应．生态学报23：787-796

[59]杨景成，韩兴国，黄建辉，潘庆民．2003．土地利用变化对陆地生态系统碳贮量的影响．应用生态学报14：1385-1390

[60]Wu J, J Huang, X Han. 2003. Response to Three-Gorges Dam: Risk to Ancient Fish. Science 302: 1149-1150

[61]Wu J, J Huang, X Han, Z Xie, X Gao. 2003. Three-Gorges Dam--Experiment in Habitat Fragmentation? Science 300(5623): 1239-1240

[62]黄建辉，韩兴国，杨亲二，白永飞．2003．外来种入侵的生物学与生态学基础的若干问题．生物多样性11（3）：240-247

[63]Wang L-X, J Wang, J-H Huang. 2003. Comparison of major nutrient release patterns of Quercus liaotungensis leaf litter decomposition in different climatic zones. Acta Botanica Sinica 45(4): 399-407

[64]Su B, X Han, C Qu, J Huang. 2002. Effects of species composition and species diversity on soil properties in warm temperate forest ecosystems of Dongling Mountainous region, Beijing. Ekologia (Bratislava) 21(2): 119-128

[65]Huang J-H, X-G Han, L-Z Chen. 1998. Studies on litter decomposition processes in a temperate forest ecosystem. I. Change of organic matter in oak (Quercus liaotungensis Koidz.) twigs. Ecological Research 13(2): 163-170

[66]Dai X-B, L-Z Chen, J-H Huang. 1990. The restoration of the destroyed forest vegetation in Yunmeng Mountain, Beijing. Vegetatio 87: 145-150

著作专著：

[1]黄建辉，吴冬秀，韦文珊．2009．中国陆地生态系统生物多样性．见：孙鸿烈主编，生态系统综合研究．北京：科学出版社．282-309

[2]Huang J, Y Bai, Y Jiang. 2009. Chapter 9, Xilingol Grassland, Inner Mongolia. In: Squires CR, X Lu, Q Lu, T Wang, Y Yang (eds). Rangeland degradation and recovery in China’s pastoral lands. Oxfordshire: CAB International. 120-135

[3]Wang L, J Wang, J Huang*. 2008. Net Nitrogen mineralization and nitrification in three subtropical forests of southwestern China. Dynamic Soil, Dynamic Plant Vol. 2 (1/2). 33-40

[4]林光辉，黄建辉，陈世苹．2005．生态学中的稳定同位素技术．见：陈吉泉、李博、马志军、赵斌主编，生态学家面临的挑战：问题与途径．北京：高等教育出版社．103-144

[5]黄建辉．2005．常绿阔叶林次生林类型．见：孙鸿烈主编，中国生态系统．北京：科学出版社．258-279

[6]黄建辉．2005．生物地球化学循环研究进展．见：孙鸿烈主编，中国生态系统．北京：科学出版社．1291-1299

[7]黄建辉．2005．寒温带、中温带森林生态系统主要营养元素循环．见：孙鸿烈主编，中国生态系统．北京：科学出版社．1360-1394

[8]黄建辉．2005．暖温带森林生态系统主要营养元素循环．见：孙鸿烈主编，中国生态系统．北京：科学出版社．1394-1426

[9]袁志友，李凌浩，黄建辉．2003．植物养分利用效率研究进展（1）植物养分利用效率的概念与原理．见：李承森主编，植物科学进展 Vol. 5．北京：高等教育出版社．187-200

[10]袁志友，李凌浩，黄建辉．2003．植物养分利用效率研究进展（2）不同尺度上的植物养分利用效率．见：李承森主编，植物科学进展 Vol. 5．北京：高等教育出版社．201-214

[11]黄建辉，韩兴国，马克平．2002．物种在生态系统功能过程中的作用．见：邬建国，韩兴国，黄建辉主编，现代生态学讲座（II）：基础研究与环境问题．北京：中国科学技术出版社．26-39

[12]黄建辉，马克平．2001．物种多样性在生态系统中的功能．见：陈灵芝主编，生态系统多样性的理论、方法和现状．杭州：上海科学技术出版社．34-65

[13]黄建辉，韩兴国．1999．土壤生物在有机质分解过程中的作用研究进展．见：李承森主编，植物科学进展 Vol. 2．北京：高等教育出版社．132-141

[14]黄建辉，韩兴国．1999．全球N循环．见：韩兴国，李凌浩，黄建辉主编，生物地球化学．北京：高等教育出版社．197-244

[15]黄建辉，马克平．1999．物种多样性在生态系统中的功能．见：陈灵芝主编，生态系统多样性的理论、方法和现状．杭州：浙江科学技术出版社．34-65

[16]黄建辉，陈灵芝，韩兴国．1998．森林生态系统中凋落物分解的研究进展．见：李承森主编，植物科学进展 Vol. 1．北京：高等教育出版社．218-236

[17]苏波，韩兴国，黄建辉，朱伟兴．1998．稳定性15N同位素在自然生态系统氮素循环研究中的应用．见：李承森主编，植物科学进展Vol. 1．北京：高等教育出版社．208-217

[18]黄建辉，江洪，孔繁志．1997．东灵山地区落叶阔叶林乔木层营养元素积累量特征研究．见：陈灵芝主编，暖温带森林生态系统的结构与功能研究．北京：科学出版社．265-271

[19]黄建辉，韩兴国，许广山．1997．中国主要森林土壤类型及其化学特性和营养元素特征．见：陈灵芝，黄建辉，严昌荣主编，中国森林生态系统养分循环．北京：中国气象出版社．1-30

[20]黄建辉，韩兴国．1997．温带地区主要森林类型营养元素循环规律研究．见：陈灵芝，黄建辉，严昌荣主编，中国森林生态系统养分循环．北京：中国气象出版社．81-117

[21]黄建辉．1995．生态系统内的物种多样性对稳定性的影响．见：钱迎倩，马克平主编，生物多样性的原理和方法．北京：中国科学技术出版社．178-191

[22]Huang JH. 1992. The vegetation in the Dongling mountain region and its quantitative classification. In H Jiang (ed.) Vegetation: Structure, function and dynamics. Beijing: Science Press. 68-75

参编专著：

[1]陈灵芝（主编），黄建辉（副主编）．1997．暖温带森林生态系统结构与功能．北京：科学出版社（44万字）

[2]陈灵芝，黄建辉，严昌荣．1997．中国森林生态系统养分循环．北京：气象出版社（40万字）

[3]韩兴国，李凌浩，黄建辉．1999．生物地球化学概论，，北京：高教出版社（52万字）

[4]邬建国，韩兴国，黄建辉．2002．现代生态学讲座（II）：基础研究与环境问题．北京：中国科学技术出版社（40万字）

获奖及荣誉：

[1]1998年获中国科学院院长奖学金优秀奖。