基本信息

严正兵  男  研究员 博导  中国科学院植物研究所
电子邮件: zbyan@ibcas.ac.cn
通信地址: 北京市海淀区香山南辛村20号
邮政编码: 100093

研究领域

主要从事植物功能生态与养分循环的研究工作。基于野外观测、控制实验、高光谱遥感和数据整合等多种手段,重点开展:(1) 植物生理性状的多尺度遥感监测和大尺度反演;(2) 植物生理性状的时空变异及其驱动机制;(3) 植物多维度多尺度功能性状对生态系统功能和养分循环过程的调控机理。

招生信息

招生:2025年招收博士生和硕士生各1名,方向:植物功能生态学、高光谱遥感、植物生理生态学、养分循环
博士后合作:2024-2025年招聘博士后1人,方向:植物功能生态学、高光谱遥感、植物生理生态学、养分循环
科研岗位:2024-2025年招聘助理研究员1人,方向:植物功能生态学、高光谱遥感、植物生理生态学、养分循环

招生专业
071300-生态学
招生方向
植物功能生态学,生态遥感,植物生理生态学,养分循环

教育背景

2012-09--2017-06   北京大学   生态学博士学位
2008-09--2012-07   中国农业大学   资源环境科学学士学位

工作经历

工作简历
2022-10~现在, 中国科学院植物研究所, 研究员
2019-06~2022-07,香港大学, 博士后
2017-07~2019-06,北京大学, 博士后
社会兼职
2024-04-04-今,植物生态学报, 编委
2024-02-28-今,Journal of Plant Ecology, 副编辑
2024-02-01-今,Forests, 编委
2023-11-30-今,中国植物学会植物生态专业委员会, 副秘书长
2019-07-01-今,草业科学, 青年编委

专利与奖励

   
奖励信息
(1) 《植物生态学报》“优秀审稿专家”, 其他, 2024
(2) 《植物生态学报》“优秀审稿专家”, , 其他, 2023
(3) 领跑者5000中国精品科技期刊顶尖学术论文, 部委级, 2019
(4) 北京大学优秀博士后, , 研究所(学校), 2018
(5) 北京大学校长奖学金, 研究所(学校), 2016

出版信息

发表论文 (#, 共同一作;*,通讯作者):

2024

[65] Yan ZB, Detto M, Guo ZF, Smith NG, Wang H, Albert LP, Xu XT, Lin ZY, Liu SW, Zhao YY, Chen SL, Bonebrake TC, Wu J*. 2024. Global photosynthetic capacity jointly determined by enzyme kinetics and eco-evo-environmental drivers. Fundamental Research, Doi: 10.1016/j.fmre.2023.12.011. 

[64] Ao ZR#, Hu XM#, Tao SL#*, Hu X, Wang GQ, (24 coauthors), Yan ZB, (32 coauthors), Fang JY. 2024. Pervasive land subsidence in China’s major cities. Science, 384: 301-306.

[63] Tian D*, Yan ZB, Schmid B, Kattge J, Fang JY, Stocker BD*. 2024. Environmental versus phylogenetic controls on leaf nitrogen and phosphorous concentrations of terrestrial plants. Nature Communications (Accepted).

[62] Zhao YY, Wang ZH, Yan ZB, Moon M, Yang DD, Meng L, Bucher SF, Wang J, Song GQ, Guo ZF, Su YJ, Wu J*. 2024. Exploring the role of biotic factors in regulating the spatial variability in land surface phenology across four temperate forest sites. New Phytologist, Doi: 10.1111/nph.19684.

[61] Wang J, Li YZ, Rahman MM, Li BH, Yan ZB, Song GQ, Zhao YY, Wu J*, Chu CJ*. Unraveling the Drivers and Impacts of Phenological Diversity in a Subtropical Forest: A Fine-Scale Analysis using PlanetScope CubeSats. New Phytologist, 10.1111/nph.19850.

[60] Liu SW, Wang ZH, Lin ZY, Zhao YY, Yan ZB, Zhang K, Visser M, Townsend PA, Wu J*. 2024. Spectra-phenology integration for high-resolution, accurate, and scalable mapping of foliar functional traits using time-series Sentinel-2 data. Remote Sensing of Environment, 305: 114082.

[59] Ouyang M, Tian D, Niklas KJ, Yan ZB, Han WX, Yu QS, Chen GP, Ji CJ, Tang ZY, Fang JY*. 2024. The scaling of elemental stoichiometry and growth rate over the course of bamboo ontogeny. New Phytologist, 241: 1088-1099.

[58] Yu QS, Hagedorn F, Peñuelas J, Sardans J, Tan XP, Yan ZB, He CQ, Ni XF, Feng YH, Zhu JL, Ji CJ, Tang ZY, Li MH, Fang JY*. 2024. Differential responses of soil phosphorus fractions to nitrogen and phosphorus fertilization: A global meta-analysis. Global Biogeochemical Cycles (Accepted).

[57] Fang WJ, Ouyang M, Cai Q, Ma SH, Yan ZB, Su HJ, Zhu JL, Ji CJ, Tang ZY, Fang JY*. 2024. Plant community structure and environmental factors regulate the N-P stoichiometry of soil and leaf for larch forests in Northern China. Journal of Forestry Research (Accepted). 

2023

[56] Yan ZB, Sardans J, Peñuelas J, Detto M, Smith NG, Wang H, Guo LL, Hughes AC, Guo ZF, Lee CKF, Liu LL, Jin Wu*. 2023. Global patterns and drivers of leaf photosynthetic capacity: the relative importance of environmental factors and evolutionary history. Global Ecology and Biogeography, 32: 668-682.

[55] Liu SW, Yan ZB*, Wang ZH, Serbin S, Visser M, Zeng Y, Ryu Y, Su YJ, Guo ZF, Song GQ, Wu QH, Zhang H, Cheng KH, Dong JL, Hau BCH, Zhao P, Yang X, Liu LL, Rogers A, Wu J*. 2023. Mapping foliar photosynthetic capacity in sub-tropical and tropical forests with UAS-based imaging spectroscopy: scaling from leaf to canopy. Remote Sensing of Environment, 293: 113612.

[54] Yan ZB*, Tian D, Huang HY, Sun YF, Hou XH, Han WX, Guo YL, Fang JY. 2023. Interactive effects of plant density and nitrogen availability on the biomass production and leaf stoichiometry of Arabidopsis thaliana. Journal of Plant Ecology, 16: rtac101.

[53] Yan ZB*, Tian D*, Han WX, Ji CJ, Hou XH, Guo YL, Fang JY. 2023. Weak transgenerational effects of ancestral nitrogen and phosphorus availabilities on offspring phenotypes in Arabidopsis thaliana. Journal of Plant Research, 136: 515-525.

[52] Gu YT, Zhao YY, Guo ZF, Meng L, Zhang K, Wang J, Lee CKF, Xie J, Wang YT, Yan ZB, Zhang H, Wu J*. 2023. The underappreciated importance of solar radiation in constraining spring phenology of temperate ecosystems in the Northern and Eastern United States. Remote Sensing of Environment, 294: 113617.

[51] An SQ, Yan ZB, Song Y, Fu Q, Ge FY, Wu ZH, An W, Han WX*. 2023. Decoupling of N and P aggravated upward along food chains in an urban river ecosystem. Chemosphere, 313: 137555.

[50] Lin QH, Tian D*, Zhao CT, Wang B, Yan ZB, Stocker BD, Li YE, Fang JY. 2023. Application of the rapid leaf ACi response (RACiR) technique: examples from evergreen broadleaved species. Photosynthesis Research, 155: 139-146.

[49] Zhao X*, Wu B, Xue JX, Shi Y, Zhao MY, Geng XQ, Yan ZB, Shen HH, Fang JY. 2023. Mapping Forage Biomass and Quality of the Inner Mongolia Grasslands by Combining Field Measurements and Sentinel-2 Observations. Remote Sensing, 15: 1973.

2022

[48] Guo ZF, Yan ZB, Majcher BM, Lee CKF, Zhao YY, Song GQ, Wang B, Wang X, Deng Y, Michaletz ST, Ryu Y, Ashton LA, Lam HM, Wong MS, Liu LL, Wu J*. 2022. Dynamic biotic controls of leaf thermoregulation across the diel timescale. Agricultural and Forest Meteorology, 315: 108827.

[47] Lin XW, Wu SB*, Chen B, Lin ZY, Yan ZB, Chen XZ, Yin GF, You DQ, Wen JG, Liu Q, Xiao Q, Liu QH, Lafortezza R. 2022. Estimating 10-m land surface albedo from Sentinel-2 satellite observations using a direct estimation approach with Google Earth Engine. ISPRS Journal of Photogrammetry and Remote Sensing, 194: 1-10.

[46] Wang ZQ#, Zhao MY#, Yan ZB, Yang YH, Niklas KJ, Huang H, Mipam TD, He XJ*, Hu HF*, Wright SJ. 2022. Global patterns and drivers of soil microbial biomass C, N, and P in terrestrial ecosystems. Catena, 211: 106037.

[45] Hou XF, Wu XJ, Ma CH, Tian D, Yan ZB, Li P*. 2022. Effect of the elevated ozone on greening tree species of urban: Alterations in C-N-P stoichiometry and nutrient stock allocation to leaves and fine roots. Urban Forestry & Urban Greening, 76: 127735.

[44] Ouyang M, Tian D*, Pan JM, Chen GP, Su HJ, Yan ZB, Yang QP, Ji CJ, Tang ZY, Fang JY. 2022. Moso bamboo (Phyllostachys edulis) invasion increases forest soil pH in subtropical China. Catena, 215: 106339.

[43] Ouyang M, Yang C, Tian D, Pan JM, Chen GP, Su HJ, Zhengbing Yan, Chengjun Ji, Zhiyao Tang, Jingyun Fang*. 2022. A field-based estimation of moso bamboo forest biomass in China. Forest Ecology and Management, 505: 119885.

[42] 严正兵, 刘树文, 吴锦*. 2022. 高光谱遥感技术在植物功能性状监测中的应用与展望. 植物生态学报, 46: 1151-1167.

[41] 苏艳军*, 严正兵, 吴锦, 刘玲莉. 2022. 生态遥感新方法及其在自然保护地天空地一体化监测中的应用. 植物生态学报, 46: 1125-1128.

2021

[40] Yan ZB, Guo ZF, Serbin SP, Song GQ, Zhao YY, Chen Y, Wu SB, Wang J, Wang X, Li J, Wang B, Wu YT, Su YJ, Wang H, Rogers A, Liu LL, Wu J*. 2021. Spectroscopy outperforms leaf trait relationships for predicting photosynthetic capacity across different forest types. New Phytologist, 232: 134-147.

[39] Wu SB, Wang J, Yan ZB, Song GQ, Chen Y, Ma Q, Deng MF, Wu YT, Zhao YY, Guo ZF, Yuan ZQ, Dai GH, Xu XT, Yang X, Su YJ, Liu LL, Wu J*. 2021. Monitoring tree-crown scale autumn leaf phenology in a temperate forest with an integration of PlanetScope and drone remote sensing observations. ISPRS Journal of Photogrammetry and Remote Sensing, 171: 36-48.

[38] Luo Y, Yan ZB, Liu SN, Chen JS, Li KH, Mohammat A, Han WX*. 2021. Variation in desert shrub foliar pH in relation to drought and salinity in Xinjiang, China. Journal of Vegetation Science, 32: e13031.

[37] Guo YP, Yan ZB, Zhang YW, Zhou GY, Xie ZQ, Tang ZY*. 2021. Environmental constraints on the inter-genus variation in the scaling relationship between leaf nitrogen and phosphorus concentrations. Journal of Plant Ecology, 14: 616-627.

[36] Liu SN, An SQ, Yan ZB, Ren JP, Lu XQ, Ge FY, Han WX*. 2021. Variation and potential influence factors of foliar pH in land-water ecozones of three small plateau lakes. Journal of Plant Ecology, 14: 504-514.

[35] Sun YY, Wang YP, Yan ZB, He LS, Ma SH, Feng YH, Su HJ, Chen GP, Feng YP, Ji CJ, Shen HH, Fang JY*. 2021. Above‑ and belowground biomass allocation and its regulation by plant density in six common grassland species in China. Journal of Plant Research, 135: 41-53.

[34] Xu LC, Xing AJ, Du EZ, Shen HH*, Yan ZB, Jiang L, Tian D, Hu HF, Fang JY. 2021. Effects of nitrogen addition on leaf nutrient stoichiometry in an old-growth boreal forest. Ecosphere, 12: e03335.

[33] Ely KS, Rogers A*, Agarwal DA, Ainsworth EA, Albert L, Ali A, (74 coauthors), Yan ZB, Yang DL. 2021. A reporting format for leaf-level gas exchange data and metadata. Ecological Informatics, 61: 101232.

[32] 田地, 严正兵, 方精云*. 2021. 植物生态化学计量特征及其主要假说. 植物生态学报, 45: 682-713.

2020

[31] He MS#, Yan ZB#, Cui XQ, Gong YM, Li KH, Han WX*. 2020. Scaling the leaf nutrient resorption efficiency: nitrogen vs phosphorus in global plants. Science of the Total Environment, 729: 138920.

[30] Guo YP, Yan ZB, Gheyret G, Zhou GY, Xie ZQ, Tang ZY*. 2020. The community-level scaling relationship between leaf nitrogen and phosphorus changes with plant growth, climate and nutrient limitation. Journal of Ecology, 108: 1276-1286.

[29] Ma SH, Eziz A, Tian D, Yan ZB, Cai Q, Jiang MW, Ji CJ, Fang JY*. 2020. Size-and age-dependent increases in tree stem carbon concentration: implications for forest carbon stock estimations. Journal of Plant Ecology, 13: 233-240.

[28] Wang J, Yang DL, Detto M, Nelson BW, Chen M, Guan KY, Wu SB, Yan ZB, Jin Wu*. 2020. Multi-scale integration of satellite remote sensing improves characterization of dry-season green-up in an Amazon tropical evergreen forest. Remote Sensing of Environment, 246, 111865.

[27] 彭庆文, 严正兵, 罗艳, 李凯辉, 韩文轩*. 2020. 新疆开都河大型水生植物的氮磷化学计量特征及其影响因素. 应用生态学报, 31: 2067-2075.

2019

[26] Yan ZB, Hou XH, Han WX, Ma SH, Shen HH, Guo YL, Fang JY*. 2019. Effects of nitrogen and phosphorus supplies on stoichiometry of six elements in leaves of Arabidopsis thaliana. Annals of Botany, 123: 441-450.

[25] Yan ZB, Eziz A, Tian D, Li XP, Hou XH, Peng HY, Han WX, Guo YL, Fang JY*. 2019. Biomass allocation in response to nitrogen and phosphorus availability: insight from experimental manipulations of Arabidopsis thaliana. Frontiers in Plant Science, 10: 598.

[24] Liu SN, Yan ZB, Chen YH, Zhang MX, Chen J, Han WX*. 2019. Foliar pH, an emerging plant functional trait: biogeography and variability across northern China. Global Ecology and Biogeography, 28: 386-397.

[23] Tian D, Yan ZB, Ma SH, Ding YH, Luo YK, Chen YH, Du EZ, Han WX, Kovacs ED, Shen HH, Hu HF, Schmid B, Fang JY*. 2019. Family-level leaf nitrogen and phosphorus stoichiometry of global terrestrial plants. Science China. Life sciences, 62: 1047-1057.

[22] Tian D, Kattge J, Chen YH, Han WX, Luo YK, He JS, Tang ZY, Ma SH, Yan ZB, Lin QH, Schmid B, Fang JY*. 2019. A global database of paired leaf nitrogen and phosphorus concentrations of terrestrial plants. Ecology, 100: e02812.

[21] Peng HY, Yan ZB, Chen YH, Zhao XJ, Han WX*. 2019. Effects of body size and root to shoot ratio on foliar nutrient resorption efficiency in Amaranthus mangostanus. American Journal of Botany, 106: 363-370.

[20] Zhang MX, Luo Y, Yan ZB, Chen J, Eziz A, Li KH, Han WX*. 2019. Resorptions of ten mineral elements in leaves of desert shrubs and their contrasting responses to aridity. Journal of Plant Ecology, 12: 358-366.

[19] Su HJ, Chen J, Wu Y, Chen JF, Guo XC, Yan ZB, Tian D, Fang JY, Xie P*. 2019. Morphological traits of submerged macrophytes reveal specific positive feedbacks to water clarity in freshwater ecosystems. Science of The Total Environment, 684: 578-586.

[18] 何茂松, 罗艳, 彭庆文, 严正兵, 杨思琪, 李凯辉, 韩文轩*. 2019. 新疆45种荒漠植物粗根碳、氮、磷计量特征及其与环境的关系. 生态学杂志, 38: 2603-2614.

2018

[17] Yan ZB, Li XY, Tian D, Han WX, Hou XH, Shen HH, Guo YL, Fang JY*. 2018. Nutrient addition affects scaling relationship of leaf nitrogen to phosphorus in Arabidopsis thaliana. Functional Ecology, 32: 2689-2698.

[16] Tian D, Yan ZB, Niklas KJ, Han WX, Kattge J, Reich PB, Luo YK, Chen YH, Tang ZY, Hu HF, Wright IJ, Schmid B, Fang JY*. 2018. Global leaf nitrogen and phosphorus stoichiometry and their scaling exponent. National Science Review, 5: 728-739.

[15] Ma SH, He F, Tian D, Zou DT, Yan ZB, Yang YL, Zhou TC, Huang KY, Shen HH, Fang JY*. 2018. Variations and determinants of carbon content in plants: a global synthesis. Biogeosciences, 15: 693-702.

[14] Tong YD*, Qiao Z, Wang XJ, Liu XY, Chen GY, Zhang W, Dong X, Yan ZB, Han WX, Wang R, Wang MZ, Lin Y*. 2018. Human activities altered water N:P ratios in the populated regions of China. Chemosphere, 210: 1070-1081.

[13] 田地, 严正兵, 方精云*. 2018. 植物化学计量学:一个方兴未艾的生态学研究方向. 自然杂志, 40: 235-241.

2017

[12] Yan ZB, Han WX, Tian D, Tang ZY, Fang JY*. 2017. An assessment on the uncertainty of nitrogen to phosphorus ratio as a threshold for nutrient limitation in plants. Annals of Botany, 120: 937-942.

[11] Eziz A*, Yan ZB, Tian D, Han WX, Tang ZY, Fang JY. 2017. Drought effect on plant biomass allocation: a meta-analysis. Ecology and Evolution, 7: 11002-11010.

[10] Cai Q, Ji CJ*, Yan ZB, Jiang XX, Fang JY. 2017. Anatomical responses of leaf and stem of Arabidopsis thaliana to nitrogen and phosphorus addition. Journal of Plant Research, 130: 1035-1045.

[9] Tian 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: 3461-3469.

2016

[8] Yan ZB, Han WX*, Peñuelas J, Sardans J, Elser JJ, Du EZ, Reich PB, Fang JY. 2016. Phosphorus accumulates faster than nitrogen globally in freshwater ecosystems under anthropogenic impacts. Ecology Letters, 19: 1237-1246.

[7] Yan ZB, Guan HY, Han WX, Han TS, Guo YL, Fang JY*. 2016. Reproductive organ and young tissues show constrained elemental composition in Arabidopsis thaliana. Annals of Botany, 117: 431-439.

[6] Yan ZB#, Li P#, Chen YH, Han WX, Fang JY*. 2016. Nutrient allocation strategies of woody plants: an approach from the scaling of nitrogen and phosphorus between twig stems and leaves. Scientific Reports, 6: 20099.

[5] Du EZ*, de Vries W, Han WX, Liu XJ, Yan ZB, Jiang Y*. 2016. Imbalanced phosphorus and nitrogen deposition in China’s forests. Atmospheric Chemistry and Physics, 16: 8571-8579.

[4] Peng HY, Chen YH, Yan ZB, Han WX*. 2016. Stage-dependent stoichiometric homeostasis and responses of nutrient resorption in Amaranthus mangostanus to nitrogen and phosphorus addition. Scientific Reports, 6: 37219.

2015

[3] Yan ZB, Kim NY, Han WX, Guo YL, Han TS, Du EZ, Fang JY*. 2015. Effects of nitrogen and phosphorus supply on growth rate, leaf stoichiometry, and nutrient resorption of Arabidopsis thaliana. Plant and Soil, 388: 147-155.

[2] Yao FY#, Chen YH#, Yan ZB, Li P, Han WX, Fang JY*. 2015. Biogeographic patterns of structural traits and C:N:P stoichiometry of tree twigs in China’s forests. PLoS ONE, 10: e0116391.

2013

[1] 严正兵#, 金南瑛#, 韩廷申, 方精云, 韩文轩*. 2013. 氮磷施肥对拟南芥叶片碳氮磷化学计量特征的影响. 植物生态学报, 37: 551-557.


科研活动

   
科研项目
( 1 ) 氮磷添加对拟南芥功能性状及其跨代间可塑性的影响, 负责人, 国家任务, 2020-01--2022-12
( 2 ) 氮磷添加对不同世代拟南芥表型和表观遗传变异的影响, 负责人, 其他任务, 2018-01--2019-12
( 3 ) 氮磷添加对拟南芥生长和化学计量的跨代间影响, 负责人, 其他任务, 2017-01--2019-12
( 4 ) Estimating leaf carboxylation capacity: comparison of trait-based and spectroscopy-based approaches, 负责人, 其他任务, 2020-01--2021-01

指导学生

现指导学生

董婷婷  硕士研究生  071300-生态学  

许卫颍  硕士研究生  071300-生态学  

吴沣槭  博士研究生  071300-生态学