姓 名: | 黄建辉 |
---|---|
职务/职称: | 研究员 |
联系电话: | (86)-010-62836279 |
电子邮件: | jhhuang@ibcas.ac.cn |
个人网页: | http://lvec.ibcas.ac.cn/rcdw/yjy/202002/t20200205_541739.html |
课 题 组: | 北方草地生态学与可持续发展研究团队 |
黄建辉,男,博士,研究员,博士生导师。 |
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。中国科学院植物研究所研究员,中国科学院大学兼职教授。曾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。迄今发表论著200余篇(部),SCI收录刊物论文90余篇。已培养硕士和博士16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] 中国科学院战略性先导专项A:“锡林郭勒典型草原恢复技术与近顶极群落构建”(2020-2025),子课题负责人 [2] 国家自然科学基金面上项目:“大气氮沉降对草甸草原生态系统氮素去向的影响研究”(2021-2024),主持人 [3] 国家自然科学基金面上项目:“长期氮添加对典型草原生态系统土壤有机碳稳定性影响机制的研究”(2019-2022),主持人 [4] 国家科技部生态修复专项:“京北农牧交错区劣质化草地改良技术与示范”(2016-2020),课题负责人 [5] 环境科学研究院委托项目:武陵山生物多样性保护优先区域中部地区高等植物多样性调查与评估(2019-2021),主持人 [6] 24、中国科学院前沿部署项目:“越冬微生物裹包青贮饲料加工与产业化示范”(2013-2015),专题负责人。 [7] 中国科学院战略性先导科技专项:“典型生态系统植物-土壤-微生物的元素化学计量关系”(2014-2018),专题负责人 [8] 国家自然科学基金面上项目:“氮素添加对豆科植物生长及其固氮能力影响的研究”(2017-2020),主持人 [9] 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; [10] 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; [11] 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; [12] 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); [13] 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); [14] 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; [15] 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” (2009-2013),子课题负责人; [16] 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; [17] 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): 2023 [1] Wang Y, G Niu, R Wang, K Rousk, A Li, M Hasi, C Wang, J Xue, G Yang, X Lü, Y Jiang, X Han*, J Huang*. 2023. Enhanced foliar 15N enrichment with increasing nitrogen addition rates: Role of plant species and nitrogen compounds. Global Change Biology, 29, 1591-1605 2022 [2] Niu G, Y Wang, G Dai, S Xie, Y Jin, J Yang, J Huang. 2022. Effects of 12-year nitrogen addition and mowing on plant-soil micronutrients in a typical steppe. Plants, 11, 3042. https://doi.org/10.3390/plants11223042 [3] Sun J, W Liu, Q Pan, B Zhang, Y Lv, J Huang, X Han. 2022. Positive legacies of severe droughts in the Inner Mongolia grassland. Science Advances, 8, eadd6249 [4] Niu G, L Liu, Y Wang, H Guan, Q Ning, T Liu, K Rousk, B Zhong, J Yang, X Lu, X Han, J Huang*. 2022. Effects of decadal nitrogen addition on carbon and nitrogen stocks in different organic matter fractions of typical steppe soils. Ecological Indicators, 144: 109471 https://doi.org/10.1016/j.ecolind.2022.109471 [5] Hu S, C Wang*, A Risch, Y Liu, Y Li, L Li, X Xu, N He, X Han, J Huang*. 2022. Hydrothermal conditions determine soil potential net N mineralization rates in arid and semi-arid grasslands. Functional Ecology, 36, 2626–2635. https://doi.org/10.1111/1365-2435.14167 [6] Zhang X*, Zhai P and Huang J*. 2022. Leaf carbon exchange of two dominant plant species impacted by water and nitrogen application in a semi-arid temperate steppe. Frontiers in Plant Science, 13:736009. doi: 10.3389/fpls.2022.736009 [7] Niu G, Y Wang, R Wang, Q Ning*, H Guan, J Yang, X Lu, X Han, and J Huang*. 2022. Intensity and duration of nitrogen addition jointly alter soil nutrient availability in a temperate grassland. Journal of Geophysical Research: Biogeosciences, 127, e2021JG006698. https://doi.org/10.1029/2021JG006698 [8] 张璞进,黄建辉,木兰,单玉梅,晔薷罕,温超,常虹,任婷婷,陈世苹,白永飞.2022. 氮水添加对放牧背景下荒漠草原生产力的影响研究. 生态学报, 42(13): 5458-5470. 2021 [9] Wang Y, M Hasi, D Bu, A Li, J Xue, C Wang, Q Tian, G Niu, Q Geng, L Wang, J Huang*. 2021. Nitrogen addition results in Medicago sativa switching nitrogen sources. Plant Ecology & Diversity, 14(3-4), 183-194. [10] Pan Q, AJ Symstad, Y Bai, J Huang, J Wu, S Naeem, D Chen, D Tian, Q Wang, X Han. 2021. Biodiversity–productivity relationships in a natural grassland community vary under diversity loss scenarios. Journal of Ecology, 10.1111/1365-2745.13797 [11] 耿倩倩, 王银柳, 牛国祥, 王楠楠, 哈斯木其尔, 李昂, 黄建辉*.2021. 长期氮添加对草甸草原生态系统氮库的影响, 应用生态学报, 32(8): 2783-2790. doi:10.13287/j.1001-9332.202108.005 [12] 王银柳, 耿倩倩, 黄建辉*, 王常慧, 李磊, 哈斯木其尔, 牛国祥.2021. 氮肥和种植密度对达乌里胡枝子的生长与生物固氮的影响 植物生态学报, 45(1): 13-22. doi:10.17521/cjpe.2020.0185 [13] Zhang P-J, H Qing, L-Q Zhao, L Zhang, J Yang, J–H Huang. 2021. Spatial pattern and association of shrub species in gravel hilly and rocky low mountain desert dominated by relict Helianthemum songaricum in China. Global Ecology and Conservation, 32: e01914 [14] Ning Q, S Hattenschwiler, X Lü, P Kardol, Y Zhang, C Wei, C Xu, J Huang, A Li, J Yang, J Wang, Y Peng, J Penuelas, J Sardans, J He, Z Xu, Y Gao, X Han. 2021. Carbon limitation overrides acidification in mediating soil microbial activity to nitrogen enrichment in a temperate grassland. Global Change Biology, 27: 5976–5988. DOI: 10.1111/gcb.15819 [15] Li A*, L Gao, S Chen, J Zhao, S Ujiyad, J Huang*, X Han, BA Bryant. 2021. Financial inclusion may limit sustainable development under economic globalization and climate change. Environmental Research Letters, 16: doi.org/10.1088/1748-9326/abf465 [16] Hasi M, X Zhang, G Niu, Y Wang, Q Geng, Q Quan, S Chen, X Han*, J Huang*. 2021. Soil moisture, temperature and nitrogen availability interactively regulate Carbon exchange in a meadow steppe ecosystem. Agricultural and Forest Meteorology, 304/305: doi.org/10.1016/j.agrformet.2021.108389 [17] Niu G, M Has, R Wang, Y Wang, Q Geng, S Hu, X Xu, J Yang, C Wang, X Han, J Huang*. 2021. Soil microbial community responses to long-term nitrogen addition at different soil depths in a typical steppe. Applied Soil Ecology, 167: doi.org/10.1016/j.apsoil.2021.104054 [18] Zhang X, M Hasi, A Li*, Y Tan, S Daryanto, L Wang, X Zhang, S Chen, J Huang*. 2021. Nitrogen addition amplified water effects on species composition shift and productivity increase. Journal of Plant Ecology, 14: 816-828, doi.org/10.1093/jpe/rtab034 [19] Wang N, L Li, M Dannenmann, Y Luo, X Xu, B Zhang, S Chen, K Dong, J Huang, X Xu, C Wang. 2021. Seasonality of gross ammonification and nitrification altered by precipitation in a semi-arid grassland of Northern China. Soil Biology and Biochemistry, 154, 108146, doi.org/10.1016/j.soilbio.2021.108146 [20] Niu G, R Wang, M Hasi, Y Wang, Q Geng, C Wang, Y Jiang, J Huang*. 2021. Availability of soil base cations and micronutrients along soil profile after 13-year nitrogen and water addition in a semi-arid grassland. Biogeochemistry ,152:223-236 [21] 木兰,张璞进,单玉梅,温超,晔薷罕,常虹,邱晓,孙海莲,任婷婷,陈世苹,白永飞,黄建辉. 2021.短期氮、水添加对放牧背景下荒漠草原短花针茅叶片属性的影响.生态学报,41(2):522-534 2020 [22] 晔薷罕,单玉梅,张璞进,温超,木兰,刘亚红,孙海莲,黄建辉*. 2020. 荒漠草原不同放牧强度背景下添加氮水对凋落物分解的影响. 生态学报, 40(8): 2775-2783. DOI:10.5846/stxb201902110245 [23] 温超,单玉梅,晔薷罕,张璞进,木兰,常虹,任婷婷,陈世苹,白永飞,黄建辉,孙海莲. 2020. 氮和水分添加对内蒙古荒漠草原放牧生态系统土壤呼吸的影响. 植物生态学报, 44 (1): 80–92 [24] 胡姝娅,刁华杰,王惠玲,薄元超,申颜,孙伟,董宽虎,黄建辉,王常慧. 2020. 北方农牧交错带温性盐碱化草地土壤呼吸对不同形态氮添加和刈割的响应. 植物生态学报, 44 (1): 70–79 [25] 李磊,王岩,胡姝娅,李阳,申颜,庾强,黄建辉,王常慧. 2020. 草甸草原土壤碳/氮矿化潜力及土壤微生物水分敏感性对极端干旱的响应. 应用生态学报, 31(3): 814-820 [26] Wang N, C Wang, M Dannenmann, K Butterbach-Bahl, J. Huang. 2020. Response of microbial community and net nitrogen turnover to modify climate change in alpine meadow. Applied Soil Ecology, 152. DOI: 10.1016/j.apsoil.2020.103553 [27] Wang N, L Li, B Zhang, S Chen, W Sun, Y Luo, K Dong, X Han, J Huang*, X Xu and C Wang*. 2020. Population turnover promotes fungal stability in a semi-arid grassland under precipitation shifts. Journal of Plant Ecology, 13: 499-509. https://doi.org/10.1093/jpe/rtaa038 2019 [28] Zhang B, MW Cadotte, S Chen, X Tan, C You, T Ren, M Chen, S Wang, W Li, C Chu, L Jiang, Y Bai, J Huang, X Han. 2019. Plants alter their vertical root distribution rather than biomass allocation in response to changing precipitation. Ecology, 100(11): doi:10.1002/ecy.2828 [29] 卜冬冬, 李昂, 王银柳, 王常慧, 黄建辉*. 2019. 氮素和植物生长促进剂对羊草生长及竞争力的影响. 应用生态学报, 30(8):2667-2674 [30] 李 阳, 徐小惠, 孙伟, 申颜, 任婷婷, 黄建辉, 王常慧. 2019. 不同形态和水平的氮添加对内蒙古草甸草原土壤净氮矿化潜力的影响. 植物生态学报, 43 (2): 174-184 [31] 李昂,王扬,薛建国,任婷婷,魏存争,田秋英,白文明,白永飞,黄建辉,姜勇,程玉臣,孙海莲,徐柱文,赵玉金,韩兴国.2019. 北方风沙区生态修复的科学原理、工程实践和恢复效果.生态学报, 39(20): 7452-7462 [32] 张晓琳,翟鹏辉,黄建辉. 2019. 降水和氮沉降对内蒙古半干旱草地羊草和大针茅叶片碳交换的影响. 草地学报, 27(4): 977-986 [33] 单玉梅,温超,常虹,张璞进,晔薷罕,木兰,王常慧, 黄建辉, 白永飞,孙海莲,陈海军. 2019. 不同放牧强度下荒漠草原土壤氮矿化季节性动态研究. 生态环境学报, 28(4): 723-731 [34] Zhang B, W Li, S Chen, X Tan, S Wang, M Chen, T Ren, J Xia, J Huang, X Han. 2019. Changing precipitation exerts greater influence on soil heterotrophic than autotrophic respiration in a semiarid steppe. Agricultural and Forest Meteorology, 271: 413–421 [35] Liu H, Wang F-F, Peng X-J, Huang J-H, Shen S-H. 2019. Global phosphoproteomic analysis reveals the defense and response mechanisms of Jatropha curcas seedling under chilling stress. International Journal of Molecular Sciences, 20. doi: 10.3390/ijms20010208. 2018 [36] Zhang X, M Liu, X Zhao, Y Li, W Zhao, A Li, S Chen, S Chen, X Han, J Huang*. 2018. Topography and grazing effects on storage of soil organic carbon and nitrogen in the northern China grasslands. Ecological Indicators, 93: 45-53 [37] Chen S, Wang W, Xu W, Wang Y, Wan H, Chen D, Tang Z, Tang X, Zhou G, Xie Z, Zhou D, Shangguan Z, Huang J, He J-S, Wang Y, Sheng J, Tang L, Li X, Dong M, Wu Y, Wang Q, Wang Z, Wu J, Chapin FS, III, Bai Y. 2018. Plant diversity enhances productivity and soil carbon storage. Proceedings of the National Academy of Sciences of the United States of America, 115: 4027-4032. [38] Li A, J Wu, X Zhang, J Xue , Z Liu, X Han, J Huang*. 2018. China’s new rural “separating three property rights” land reform results in grassland degradation: Evidence from Inner Mongolia. Land Use Policy, 71: 170-182 [39] Zhang X, Zhai P, Huang J, Zhao X, Dong K. 2018. Responses of ecosystem water use efficiency to spring snow and summer water addition with or without nitrogen addition in a temperate steppe. Plos One, 13. doi: 10.1371/journal.pone.0194198. [40] 张晓琳,翟鹏辉,黄建辉*. 2018. 降水和氮沉降对草地生态系统碳循环影响研究进展. 草地学报, 26(2): 284-288 [41] 哈斯木其尔,张学耀,牛国祥,王银柳,黄建辉*. 2018. 氮素添加对内蒙古草甸草原生态系统CO2交换的影响. 植物学报, 53 (1): 27–41 [42] 方精云, 景海春, 张文浩, 高树琴, 段子渊, 王竑晟, 钟瑾, 潘庆民, 赵凯, 白文明, 李凌浩, 白永飞, 蒋高明, 黄建辉, 黄振英. 2018. 论草牧业的理论体系及其实践. 科学通报, 63 (17 ):1619-1631 [43] 白永飞, 玉柱, 杨青川, 万宏伟, 黄建辉, 纪宝明, 李昂. 2018. 人工草地生产力和稳定性的调控机理研究: 问题、进展与展望. 科学通报, 63(5-6): 511-520 2017 [44] Zhang B, X Tan, S Wang, M Chen, S Chen, T Ren, J Xia, Y Bai, J Huang, X Han. 2017. Asymmetric sensitivity of ecosystem carbon and water processes in response to precipitation change in a semi-arid steppe. Functional Ecology, 31: 1301-1311 [45] Ren H, Z Xu, F Isbell, J Huang, X Han, S Wan, S CHEN, R Wang, De-Hui Zeng, Yong Jiang, Y Fang. 2017. Exacerbated nitrogen limitation ends transient stimulation of grassland productivity by increased precipitation. Ecological Monographs, 87(3): 457-469 [46] Song X, Zhu J, He N, Huang J, Tian J, Zhao X, Liu Y, Wang C. 2017. Asynchronous pulse responses of soil carbon and nitrogen mineralization to rewetting events at a short-term: Regulation by microbes. Scientific Reports, 7. doi: 10.1038/s41598-017-07744-1. [47] Li A*, Chen S*, Zhang XY, Huang JH. 2017. Political pressures increased vulnerability to climate hazards for nomadic livestock in Inner Mongolia, China. Scientific Reports, 7: 8256. [48] 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 [49] 王晶,王珊珊,乔鲜果,李昂,薛建国,哈斯木其尔,张学耀,黄建辉. 2016. 氮素添加对内蒙古退化草原生产力的短期影响. 植物学报, 40: 980-990 [50] Pan Q, D Tian, S Naeem, K Auerswald, JJ Elser, Y Bai, J Huang, Q Wang, H Wang, J Wu, X Han. 2016. Effects of functional diversity loss on ecosystem functions are influenced by compensation. Ecology, 97: 2293-2302 [51] Wang Z, Q Gu, F Deng, J Huang, J Megonigal, Q Yu, X Lu, L Li, S Chang, Y Zhang, J Feng, X Han. 2016. Methane emissions from the trunks of living trees on upland soils. New Phytologist, 211: 429-439 [52] 方精云, 白永飞, 李凌浩, 蒋高明, 黄建辉, 黄振英, 张文浩, 高树琴. 2016. 我国草原牧区可持续发展的科学基础与实践. 科学通报, 61(2):155-164 [53] 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. [54] Chen D, Pan Q, Bai Y*, Hu S, Huang J, Wang Q, Han X, Naeem S, Elser JJ, Wu J. 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. [55] 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 [56] Zhang X, Tan Y, Li A, Ren T, Chen S*, Wang L, Huang J*. 2015. Water and nitrogen availability co-control ecosystem CO2 exchange in a semiarid temperate steppe. Scientific Reports, 5: 15549. [57] Ren H*, Xu Z, Huang J*, Lu X, Zeng D, Yuan Z, Han X, Fang Y*. 2015. Increased precipitation induces a positive plant-soil feedback in a semi-arid grassland. Plant and Soil, 389: 211-223. [58] Yuan F, Wu Ji, Li A*, Rowe H, Bai Y, Huang J, Han X. 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. [59] Wu J, S Naeem, J Elser, Y Bai, J Huang, L Kang, Q Pan, Q Wang, S Hao, X Han. 2015. Testing biodiversity-ecosystem functioning relationship in the world’s largest grassland: overview of the IMGRE project. Landscape Ecology, 30: 1723-1736 [60] Ning Q, Q Gu, J Shen, X Lv, J Yang, X Zhang, J He, J Huang, H Wang, Z Xu, X Han. 2015. Effects of nitrogen deposition rates and frequencies on the abundance of soil nitrogen-related functional genes in temperate grassland of northern China. Journal of Soils and Sediments, 15: 694-704 2014 [61] 刘碧荣,王常慧*,黄建辉,王其兵,董宽虎.2014. 15N库稀释法和15N示踪法在草地生态系统氮转化过程研究中的应用——方法与进展. 草地学报, 22 (6): 1007-0435. [62] 白永飞; 黄建辉; 郑淑霞; 等.2014. 草地和荒漠生态系统服务功能的形成与调控机制. 植物生态学报, 38(2) : 93-102 [63] Zhang Y, Lu X, Isbell F, Stevens C, Han X, He N, Zhang G, Yu Q, Huang J, Han X. 2014. Rapid plant species loss at high rates and at low frequency of N addition in temperate steppe. Global Change Biology, 20: 3520-3529. [64] Wang J, Gu B, Huang J, Han X, Lin G, Zheng F, Li Y. 2014. Terrestrial Contributions to the Aquatic Food Web in the Middle Yangtze River. PLoS ONE, 9(7): e102473. doi:10.1371/journal.pone.0102473 [65] Zhang Y, Han X, He N, Long M, Huang J, Zhang G, Wang Q, Han X. 2014. Increase in ammonia volatilization from soil in response to N deposition in Inner Mongolia grasslands. Atmospheric Environment, 84: 156-162. 2013 [66] Zhang Y-H, He N-P, Zhang G-M, Huang J-H, Wang Q-B, Pan Q-M, Han X-G, 2013. Ammonia emissions from soil under sheep grazing in Inner Mongolian grasslands of China. Journal of Arid Land, 5(2): 155-165. [67] Ren H, Z Xu, W Zhang, L Jiang, J Huang*, S Chen, L Wang, X Han. 2013. Linking ethylene to nitrogen-dependent leaf longevity of grass species in a temperate steppe. Annals of Botany, 112: 1879-1885 [68] Zhang X, W Liu, M Schloter, G Zhang, Q Chen, J Huang, L Li, JJ Elser, X Han, 2013. Response of the abundance of key soil microbial nitrogen-cycling genes to multi-factorial global changes. PLoS ONE, 8(10): e76500. doi:10.1371/journal.pone.0076500 [69] 张云海,何念鹏,张光明,黄建辉,韩兴国. 2013. 氮沉降强度和频率对羊草叶绿素含量的影响.生态学报, 33(21): 6786-6794 [70] 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, 366: 107-118 2012 [71] Li A, J Wu, J Huang*, 2012. 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Dynamic Soil, Dynamic Plant Vol. 2 (1/2). 33-40 [6] 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 [7] 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 [8] 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 [9] 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 [10] 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 [11] 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 [12] 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 [13] 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 [14] 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 [15] 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 [16] 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 [17] 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 [18] 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 [19] 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 [20] 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 [21] 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 [22] 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 [23] 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 [24] 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) 发明专利: [1] 薛建国,郑延海,黄建辉。一种天然草地的裹包青贮方法。CN 105076693 B,2019 获奖及荣誉: [1] 1998年获中国科学院院长奖学金优秀奖。 |