朱彪
近期热点
资料介绍
个人简历
教育经历 2005-2010,University of California at Santa Cruz, Ph.D. (Environmental Studies)2002-2005,北京大学,理学硕士 (生态学)1998-2002,北京大学,理学学士 (环境学)1995-1998,安徽省桐城中学,高中工作经历 2014-现在,助理教授(研究员),北京大学2012-2014,博士后,Lawrence Berkeley National Laboratory2011-2012,博士后,Cornell University2010-2011,博士后,University of California at Santa Cruz博士生导师/方向 全球变化生态学,土壤生态学,生态系统生态学硕士生导师/方向 全球变化生态学,土壤生态学,生态系统生态学社会服务工作 北京市民盟青年工作委员会,委员,2019-现在民盟中央青年工作委员会,委员,2018-现在荣誉与奖励 北京大学青年教师教学基本功比赛,理工科类二等奖,2018北京大学黄廷方/信和青年杰出学者奖,2018杂志编辑 Soil Biology & Biochemistry, Associate Chief Editor (2020-present), Subject Editor (2017-2020)Plant and Soil, Consulting editor, 2019-presentSoil Ecology Letters, Editorial board member, 2018-present植物生态学报(Chinese Journal of Plant Ecology),编委会成员,2018-presentPeerJ, Editorial board member (Ecology section), 2017-presentRhizosphere, Editorial board member, 2016-present教材编撰 刘鸿雁,唐志尧,朱彪. 2018. 野外生态学实习指导,北京大学出版社。研究生和本科生课程全球变化生态学(研究生/本科生)野外生态学(本科生)生态学与环境变化(本科生,参与)生态学基础与应用(本科生,参与)生态学实验技术(本科生,参与)生态学技术与方法(研究生,参与)访问学者、博士后、研究生和本科生博士后:袁霞(2018年进站),孙丽娟(2018年进站),沈亚文(2018年进站),张秋芳(2020年进站)博士生:冯继广(2017级),陈迎(2017级),韩孟光(2018级),秦文宽(2019级),敖古凯麟(2020级)硕士生:韩云凤(2018级),干大勇(2018级),李瑞(2019级),赵红阳(2019级),付粱晨(2019级),周岱瑒(2020级)本科生:姜姗汝(2017级),李雨欣(2017级)毕业生访问学者:雷锋杰(2017-18),吉林农业大学;包秀霞(2019-20),呼和浩特民族学院博士后:井新(2015-17);侯彦会(2016-19);陈俊刚(2017-20);徐天乐(2017-20)博士生:陈笑(2015-20)硕士生:肖雯(2015-18);丁宗巨/唐茂(2016-19);何可宜(2017-20)本科生:桂汉成/王先达(2018);李瑞(2019);于家乐/徐浩/秦艳伟(2020)研究兴趣主要从事全球变化生态学和土壤生态学的研究。通过生态系统生态学、生物地球化学、稳定同位素生态学、气候变化科学等多学科手段,结合野外调查取样与定位实验、温室和生长箱的控制实验、以及室内分析与模型模拟等方法,研究中国重要森林和草地生态系统的地下碳循环过程(根系分泌物和周转、土壤有机质分解和形成、养分循环等)对全球变化(比如温度升高、降水格局改变、氮沉降增加和土地利用变化)的响应和反馈,为我国制定应对全球变化的政策与实践提供理论支持。(1) Plant-soil interactions (particularly rhizosphere carbon and nutrient cycling) and global change; (2) Plant traits (particularly root and fungal traits) and ecosystem processes; (3) Deep soil carbon dynamics (in alpine grassland ecosystems) and climate change; and (4) Nutrient regulation of carbon cycling in tropical forests.科研课题2020-23,基金委面上项目,“高寒草甸表层和深层土壤有机碳动态对增温和根系碳输入的响应和机制” 31971528,主持2017-20,基金委面上项目,“木本植物对土壤碳氮矿化的根际激发效应及其影响机制”31670525,主持2017-19,基金委优秀青年基金项目,“地下生态学”31622013,主持2017-21,国家重点研发计划项目,课题“全球变化野外控制实验的技术和方法”2017YFC0503903,主持研究领域
研究方向:生态学近期论文
发表论文清单(*通讯作者) Google scholar 2020Chen Y, Feng JG, Yuan X, Zhu B*. 2020. Effects of warming on carbon and nitrogen cycling in alpine grassland ecosystems on the Tibetan Plateau: A meta-analysis. Geoderma 370:114363Chen Y, Liu X, Hou YH, Zhou SR, Zhu B*. 2020. Particulate organic carbon is more vulnerable to nitrogen addition than mineral associated organic carbon in soil of an alpine meadow. Plant and Soil (in press)Chen JG, Xiao W, Zheng CY, Zhu B*. 2020. Nitrogen addition has contrasting effects on particulate and mineral-associated soil organic carbon in a subtropical forest. Soil Biology & Biochemistry 142:107708Han MG, Zhu B*. 2020. Changes in soil greenhouse gas fluxes by land use change from primary forest. Global Change Biology 26:2656-2667Hou YH, He KY, Chen Y, Zhao JX, Hu HF, Zhu B*. 2020. Changes of soil organic matter stability along altitudinal gradients in Tibetan alpine grassland. Plant and Soil (in press)Jing X, Chen X, Fang JY, Ji CJ, Shen HH, Zheng CY, Zhu B*. 2020. Soil microbial carbon and nutrient constraints are driven more by ecosystem type and soil depth than by nutrient addition in forest ecosystems. Soil Biology & Biochemistry 141:107657Zhang S, Yu ZG, Lin JJ*, Zhu B*. 2020. Responses of soil carbon decomposition to drying-rewetting cycles: a meta-analysis. Geoderma 361:114069Jia YF, Kuzyakov Y, Wang GA*, Tan WB, Zhu B, Feng XJ. 2020. Temperature sensitivity of decomposition of soil organic matter fractions increases with their turnover time. Land Degradation & Development 31:632-645Ma SH, Chen GP, Tian D, Du EZ, Xiao W, Jiang L, Zhou Z, Zhu JL, He HB, Zhu B, Fang JY*. 2020. Effects of seven-year nitrogen and phosphorus additions on soil microbial community structures and residues in a tropical forest in Hainan Island, China. Geoderma 361:114034孙昭安, 陈清, 朱彪, 曹慧*, 孟凡乔*. 2020. 我国农田化肥氮对冬小麦氮素吸收的贡献和土壤氮库消耗的补偿. 植物营养与肥料学报 26:413-430孙昭安, 赵诣, 朱彪, 陈清, 曹慧, 何敏毅, 孟凡乔*. 2020. 玉米根际效应对石灰性土壤无机碳与有机碳释放的影响. 土壤学报 (in press)朱彪*, 陈迎. 2020. 陆地生态系统野外增温控制实验的技术与方法. 植物生态学报 (in press)冯继广, 朱彪*. 2020. 氮磷添加对树木生长和森林生产力影响的研究进展. 植物生态学报 (in press)何可宜, 沈亚文, 冯继广, 韩孟光, 朱彪*. 2020. 改变植物残体输入对樟子松人工林土壤呼吸及其温度敏感性的影响. 北京大学学报自然科学版 (in press)2019Chen X, Hao BH, Jing X, He JS, Ma WH, Zhu B*. 2019. Minor responses of soil microbial biomass, community structure and enzyme activities to nitrogen and phosphorus addition in three grassland ecosystems. Plant and Soil 444:21-37Ding ZJ, Tang M, Chen X, Yin LM, Gui HC, Zhu B*. 2019. Measuring rhizosphere effects of two tree species in a temperate forest: A comprehensive method comparison. Rhizosphere 10:100153Feng JG, Zhu B*. 2019. A global meta-analysis of soil respiration and its components in response to phosphorus addition. Soil Biology & Biochemistry 135:38-47Hou YH, Chen Y, Chen X, He KY, Zhu B*. 2019. Changes in soil organic matter stability with depth in two alpine ecosystems on the Tibetan Plateau. Geoderma 351:153-162Tang M, Cheng WX, Zeng H, Zhu B*. 2019. Light intensity controls rhizosphere respiration rate and rhizosphere priming effect of soybean and sunflower. Rhizosphere 9:97-105Tang M, Keck DC, Cheng WX, Zeng H, Zhu B*. 2019. Linking rhizosphere respiration rate of three grassland species with root nitrogen concentration. Geoderma 346:84-90Tan WB, Xi BD*, Wang GA, He XS, Gao RT, Jiang J, Zhu B*. 2019. Microbial-accessibility-dependent electron shuttling of in situ solid-phase organic matter in soils. Geoderma 338:1-4Chen LY, Liu L, Qin SQ, Yang GB, Fang K, Zhu B, Kuzyakov Y, Chen PD, Xu YP, Yang YH*. 2019. Regulation of priming effect by soil organic matter stability over a broad geographic scale. Nature Communications 10:5112Sun ZA, Wu SX, Zhang YW, Meng FQ, Zhu B, Chen Q*. 2019. Effects of nitrogen fertilization on pot-grown wheat photosynthate partitioning within intensively farmed soil determined by 13C pulse labelling. Journal of Plant Nutrition and Soil Science 182:896-907Sun ZA, Wu SX, Zhu B, Zhang YW, Bol R, Chen Q, Meng FQ*. 2019. Variation of 13C and 15N enrichments in different plant components of labeled winter wheat (Triticum aestivum L.). PeerJ 7:e7738Zhao JF, Peng SS, Chen MP, Wang GZ, Cui YB, Liao LG, Feng JG, Zhu B, Liu WJ, Yang LY*, Tan ZH*. 2019. Tropical forest soils serve as substantial and persistent methane sinks. Scientific Reports 9:16799Zhao Y, Shao S, Schaeffer SM, Bao XL, Zhang W, Zhu B, He HB*, Zhang XD*. 2019. Methodological clarification for estimating the input of plant-derived carbon in soils under elevated CO2 based on a 13C-enriched CO2 labeling experiment. Plant and Soil 440:569-5802018Castanha C, Zhu B*, Hicks Pries CE, Georgiou K, Torn MS. 2018. The effects of heating, rhizosphere, and depth on root litter decomposition are mediated by soil moisture. Biogeochemistry 137:267-279Chen X, Ding ZJ, Tang M, Zhu B*. 2018. Greater variations of rhizosphere effects within mycorrhizal group than between mycorrhizal group in a temperate forest. Soil Biology & Biochemistry 126:237-246Feng JG, Wang JS, Song YJ, Zhu B*. 2018. Patterns of soil respiration and its temperature sensitivity in grassland ecosystems across China. Biogeosciences 15:5329-5341Jing X, Chen X, Xiao W, Lin L, Wang C, He JS, Zhu B*. 2018. Soil enzymatic responses to multiple environmental drivers in the Tibetan grasslands: Insights from two manipulative field experiments and a meta-analysis. Pedobiologia 71:50-58Xiao W, Chen X, Jing X, Zhu B*. 2018. A meta-analysis of soil extracellular enzyme activities in response to global change. Soil Biology & Biochemistry 123:21-32Yin LM, Dijkstra FA, Wang P*, Zhu B*, Cheng WX. 2018. Rhizosphere priming effects on soil carbon and nitrogen dynamics among tree species with and without intraspecific competition. New Phytologist 218:1036-1048Hicks Pries CE*, Sulman BN, West C, O`Neill C, Poppleton E, Porras RC, Castanha C, Zhu B, Wiedemeier DB, Torn MS. 2018. Root litter decomposition slows with soil depth. Soil Biology & Biochemistry 125:103-114Liu 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 PR, He JS*. 2018. Shifting plant species composition in response to climate change stabilizes grassland primary production. Proceedings of the National Academy of Sciences of the United States of America 115:4051-4056Jiang L*, Tian D, Ma SH, Zhou XL, Xu LC, Zhu JX, Jing X, Zheng CY, Shen HH, Zhou Z, Li YD, Zhu B, Fang JY. 2018. The response of tree growth to nitrogen and phosphorus additions in a tropical montane rainforest. Science of the Total Environment 618:1064-1070谭正洪,曾继业,刘曙光,彭书时,朱彪,徐湘涛,陈德祥,三枝信子. 2018. Forest-CEW: 一个模拟森林“能-碳-水”过程的生态系统模型. 海南大学学报自然科学版 36(3):285-2922017Jing X, Chen X, Tang M, Ding ZJ, Jiang L, Li P, Ma SH, Tian D, Xu LC, Zhu JX, Ji CJ, Shen HH, Zheng CY, Fang JY, Zhu B*. 2017. Nitrogen deposition has minor effect on soil extracellular enzyme activities in six Chinese forests. Science of the Total Environment 607-608:806-815Tan WB, Wang GA, Huang CH, Gao RT, Xi BD*, Zhu B*. 2017. Physico-chemical protection, rather than biochemical composition, governs the responses of soil organic carbon decomposition to nitrogen addition in a temperate agroecosystem. Science of the Total Environment 598:282-288Tian D, Jiang L, Ma SH, Fang WJ, Schmid B, Xu LC, Zhu JX, Li P, Losapio G, Jing X, Zheng CY, Shen HH, Zhu B, Fang JY*. 2017. Effects of nitrogen deposition on soil microbial communities in temperate and subtropical forests in China. Science of the Total Environment 607-608:1367-1375Tian D, Li P, Fang WJ, Xu J, Luo YK, Yan ZB, Zhu B, Wang JJ, Xu XN, Fang JY*. 2017. Growth responses of trees and understory plants to nitrogen fertilization in a subtropical forest in China. Biogeosciences 14:3461-3469Zhu JX, Zhou XL, Fang WJ, Xiong XY, Zhu B, Ji CJ, Fang JY*. 2017. Plant debris and its contribution to ecosystem carbon storage in successional Larix gmelinii forests in northeastern China. Forests 8, 191; doi: 10.3390/f80601912016Jing X, Yang XX, Ren F, Zhou HK, Zhu B*, He JS*. 2016. Neutral effect of nitrogen addition and negative effect of phosphorus addition on topsoil extracellular enzymatic activities in an alpine grassland ecosystem. Applied Soil Ecology 107:205-213Lin L, Zhu B, Chen CR, Zhang ZH, Wang QB*, He JS*. 2016. Precipitation overrides warming in mediating soil nitrogen pools in an alpine grassland ecosystem on the Tibetan Plateau. Scientific Reports 6:31438Hu XK, Liu LL, Zhu B, Du EZ, Hu XY, Li P, Zhou Z, Ji CJ, Zhu JL, Shen HH, Fang JY*. 2016. Asynchronous responses of soil carbon dioxide, nitrous oxide emissions and net nitrogen mineralization to enhanced fine root input. Soil Biology & Biochemistry 92:67-78吴鹏,王襄平*, 张新平,朱彪,周海城,方精云. 2016. 东北地区森林凋落叶分解速率与气候、林型、林分光照的关系. 生态学报 38(8):2223-22322015Zhu B, Panke-Buisse K, Kao-Kniffin J*. 2015. Nitrogen fertilization has minimal influence on rhizosphere effects of smooth crabgrass (Digitaria ischaemum) and bermudagrass (Cynodon dactylon). Journal of Plant Ecology 8:390-400Pang XY#, Zhu B#, Lü XT, Cheng WX*. 2015. Labile substrate availability controls temperature sensitivity of organic carbon decomposition at different soil depths. Biogeochemistry 126:85-98 [# Equal contributions]Lin JJ#, Zhu B#, Cheng WX*. 2015. Decadally cycling soil carbon is more sensitive to warming than faster-cycling soil carbon. Global Change Biology 21:4602-4612 [# Equal contributions]Liu BT, Li HB, Zhu B, Koide RT, Eissenstat DM, Guo DL*. 2015. Complementarity in nutrient foraging strategies of absorptive fine roots and arbuscular mycorrhizal fungi across 14 coexisting subtropical tree species. New Phytologist 208:125-136Torn MS*, Chabbi A, Crill P, Hanson PJ, Janssens IA, Luo Y, Pries CH, Rumpel C, Schmidt MWI, Six J, Schrumpf M, Zhu B. 2015. A call for international soil experiment networks for studying, predicting, and managing global change impacts. SOIL 1:575-582Before 2015Zhu B*, Gutknecht JLM, Herman DJ, Keck DC, Firestone MK, Cheng WX. 2014. Rhizosphere priming effects on soil carbon and nitrogen mineralization. Soil Biology & Biochemistry 76:183-192Ma YC, Zhu B, Sun ZZ, Yang Y, Piao SL*. 2014. The effects of simulated nitrogen deposition on extracellular enzyme activities of litter and soil among different-aged stands of larch. Journal of Plant Ecology 7:240-249Torn MS*, Kleber M, Zavaleta ES, Zhu B, Field CB, Trumbore SE. 2013. A dual isotope approach to isolate soil carbon pools of different turnover times. Biogeosciences 10:8067-8081Kao-Kniffin J*, Zhu B. 2013. A microbial link between elevated CO2 and methane emissions that is plant species-specific. Microbial Ecology 66:621-629Yang YH*, Ji CJ, Robinson D, Zhu B, Fang HJ, Shen HH, Fang JY. 2013. Vegetation and soil 15N natural abundance in alpine grasslands on the Tibetan Plateau: patterns and implications. Ecosystems 16:1013-1024Zhu B*, Cheng WX. 2013. Impacts of drying-wetting cycles on rhizosphere respiration and soil organic matter decomposition. Soil Biology & Biochemistry 63:89-96Pang XY, Bao WK*, Zhu B, Cheng WX. 2013. Responses of soil respiration and its temperature sensitivity to thinning in a pine plantation. Agricultural and Forest Meteorology 171-172:57-64Pausch J*, Zhu B, Kuzyakov Y, Cheng WX. 2013. Plant inter-species effects on rhizosphere priming of soil organic matter decomposition. Soil Biology & Biochemistry 57:91-99Shen ZH*, Fei SL, Feng JM, Liu YN, Liu ZL, Tang ZY, Wang XP, Wu SP, Zheng CY, Zhu B, Fang JY. 2012. Geographical patterns of community-based tree species richness in Chinese mountain forests: the effects of contemporary climate and regional history. Ecography 35:1134-1146Piao SL*, Tan K, Nan HJ, Ciais P, Fang JY, Wang T, Vuichard N, Zhu B. 2012. Impacts of climate and CO2 changes on the vegetation growth and carbon balance of Qinghai-Tibetan grasslands over the past five decades. Global and Planetary Change 98-99:73-80Piao SL*, Ito A, Li SG, Huang Y, Ciais P, Wang XH, Peng SS, Nan SJ, Zhao C, Ahlström A, Andres RJ, Chevallier F, Fang JY, Hartmann J, Huntingford C, Jeong S, Levis S, Levy PE, Li JS, Lomas MR, Mao JF, Mayorga E, Mohammat A, Muraoka H, Peng CH, Peylin P, Poulter B, Shen ZH, Shi X, Sitch S, Tao S, Tian HQ, Wu XP, Xu M, Yu GR, Viovy N, Zaehle S, Zeng N, Zhu B. 2012. The carbon budget of terrestrial ecosystems in East Asia over the last two decades. Biogeosciences 9:3571-3586Zhu B*, Cheng WX. 2012. Nodulated soybean enhances rhizosphere priming effects on soil organic matter decomposition more than non-nodulated soybean. Soil Biology & Biochemistry 51:56-65姚凡云*,朱彪,杜恩在. 2012. 15N自然丰度法在陆地生态系统氮循环研究中的应用. 植物生态学报 36(4):346-352Zhu B*, Cheng WX. 2011. Rhizosphere priming effect increases the temperature sensitivity of soil organic matter decomposition. Global Change Biology 17:2172-2183Zhu B*, Cheng WX. 2011. Constant and diurnally-varying temperature regimes lead to different temperature sensitivities of soil organic carbon decomposition. Soil Biology & Biochemistry 43:866-869Zhu B*, Cheng WX. 2011. 13C isotope fractionation during rhizosphere respiration of C3 and C4 plants. Plant and Soil 342:277-287Piao SL*, Wang XH, Ciais P, Zhu B, Wang T, Liu J. 2011. Changes in satellite-derived vegetation growth trend in temperate and boreal Eurasia from 1982 to 2006. Global Change Biology 17:3228-3239Wang Y, Fang JY*, Kato T, Guo ZD, Zhu B, Mo WH, Tang YH. 2011. Inventory-based estimation of aboveground net primary production in Japan’s forests from 1980 to 2005. Biogeosciences 8:2099-2106Zhu B, Wang XP, Fang JY*, Piao SL, Shen HH, Zhao SQ, Peng CH. 2010. Altitudinal changes in carbon storage of temperate forests on Mt Changbai, Northeast China. Journal of Plant Research 123:439-452Piao SL*, Friedlingstein P, Ciais P, Peylin P, Zhu B, Reichstein M. 2009. Footprint of temperature changes in the temperate and boreal forest carbon balance. Geophysical Research Letters 36, L07404, doi:10.1029/2009GL037381Peng CH*, Zhou XL, Zhao SQ, Wang XP, Zhu B, Piao SL, Fang JY. 2009. Quantifying the response of forest carbon balance to future climate change in Northeastern China: Model validation and prediction. Global and Planetary Change 66:179-194Wang XP, Fang JY*, Zhu B. 2008. Forest biomass and root-shoot allocation in northeast China. Forest Ecology and Management 255:4007-4020Yang YH, Fang JY*, Tang YH, Ji CJ, Zheng CY, He JS, Zhu B. 2008. Storage, patterns, and controls of soil organic carbon in the Tibetan grasslands. Global Change Biology 14:1592-1599张新平,王襄平,朱彪,宗占江,彭长辉,方精云*. 2008. 我国东北主要森林类型的凋落物产量及其影响因素. 植物生态学报 32(5):1031-1040Fang JY*, Liu GH, Zhu B, Wang XK, Liu SH. 2007. Carbon budgets of three temperate forest ecosystems in Dongling Mt., Beijing, China. Science in China Series D: Earth Sciences 50:92-101Wang XP, Fang JY*, Tang ZY, Zhu B. 2006. Climatic control of primary forest structure and DBH-height allometry in Northeast China. Forest Ecology and Management 234:264-274Piao SL, Fang JY*, Zhou LM, Ciais P, Zhu B. 2006. Variations in satellite-derived phenology in China`s temperate vegetation. Global Change Biology 12:672-685方精云*,刘国华,朱彪,王效科,刘绍辉. 2006. 北京东灵山三种温带森林生态系统的碳循环. 中国科学D 辑(地球科学) 36(6):533-543Piao SL, Fang JY*, Zhu B, Tan K. 2005. Forest biomass carbon stocks in China over the past 2 decades: estimation based on integrated inventory and satellite data. Journal of Geophysical Research - Biogeosciences 110, G01006, doi:10.1029/2005JG000014Piao SL, Fang JY*, Zhou LM, Zhu B, Tan K, Tao S. 2005. Changes in vegetation net primary productivity from 1982 to 1999 in China. Global Biogeochemical Cycles 19, GB2027, doi:10.1029/2004GB002274Piao SL, Fang JY*, Liu HY, Zhu B. 2005. NDVI-indicated decline in desertification in China in the past two decades. Geophysical Research Letters 32, L06402, doi:10.1029/2004GL021764杨元合*,饶胜,胡会峰,陈安平,吉成均,朱彪,左闻韵,李轩然,沈海花,王志恒,唐艳鸿,方精云. 2004. 青藏高原高寒草地植物物种丰富度及其与环境因子和生物量的关系. 生物多样性 12(1):200-205吴晓莆*,朱彪,赵淑清,朴世龙,方精云. 2004. 东北地区阔叶红松林的群落结构及其物种多样性比较. 生物多样性 12(1):174-181赵淑清*,方精云,宗占江,朱彪,沈海花. 2004. 长白山北坡植物群落组成、结构及物种多样性的垂直分布. 生物多样性 12(1):164-173方精云*,李意德,朱彪,刘国华,周光益. 2004. 海南岛尖峰岭山地雨林的群落结构、物种多样性以及在世界雨林中的地位. 生物多样性 12(1):29-43朱彪*,陈安平,刘增力,方精云. 2004. 南岭东西段植物群落物种组成及其树种多样性垂直格局的比较. 生物多样性 12(1):53-62朱彪*,陈安平,刘增力,李光照,方精云. 2004. 广西猫儿山植物群落物种组成、群落结构及树种多样性的垂直分布格局. 生物多样性 12(1):44-52学术任职 中国生态学学会青年工作委员会,副主任,2018-现在北京大学地表过程分析与模拟教育部重点实验室,副主任,2018-现在Secretary of Asian Ecology Section, Ecological Society of America, 2017-2019 相关热点