—— 中国科学院植物研究所植被与环境变化重点实验室

个人简历

彭云峰，博士学位: 研究组：高寒生态格局与过程研究组; 民族：汉; 研究领域：寒草地生态系统与全球变化; 籍贯：河北怀来; 导师资格：硕士生导师; 出生年月： 1982.09; 职称：研究员; 毕业院校：中国农业大学; 入职时间：; 毕业时间：; 办公电话： 01062836632; 电子邮件： pengyf@ibcas.ac.cn

传真号码：

学习工作经历
科研项目
论文专著
所获奖励

学习经历

2002.09-2006.07: 河北农业大学，学士
2006.09-2012.12: 中国农业大学，硕博连读
2010.05-2012.05: 美国密苏里大学，联合培养博士

工作经历
2013.01-2015.01 中国科学院植物研究所，博士后
2015.01-2018.02 中国科学院植物研究所，助理研究员
2018.02-2024.03 中国科学院植物研究所，副研究员
2024.03-至今中国科学院植物研究所，研究员

任职经历

- 热融塌陷与未塌陷区土壤呼吸对增温的响应差异及其调控途径，国家自然科学基金面上项目，54万，主持人，2023.01-2026.12
  冻土生态系统碳氮磷循环关键过程对增温的响应机制，国家重点研发计划项目子课题，140万，负责人，2022.12-2027.11
  三江源高寒草甸退化机制和恢复的关键限制因子，中国科学院院先导专项子课题任务，700万，共同负责人，2020.11-2025.10
  三江源西样带草地生态系统类型、结构、生产力变化及驱动机制，科技部“第二次青藏高原综合考察” 子子子专题，61万，负责人，2019.11-2024.10
  高寒草原生态系统碳通量对不同氮水平的响应及其化学计量学机制，国家自然科学基金面上项目，58万，主持人，2018.01-2021.12

代表性论文（^#共同第一作者，*通讯作者）
2025
Liu Y, Yang YH, Deng Y, Peng YF*, 2025. Long-term ammonium nitrate addition strengthens soil microbial cross-trophic interactions in a Tibetan alpine steppe. Ecology, 106: e70057.
Yao ST, Gao XX, Wei B, Niu YP, Zhou HK, Lu GX, Yang YH, Peng YF*, 2025. Context-dependent effects of grassland degradation on soil nitrogen cycling processes. Communications Earth & Environment, 6: 221.
牛亚平, 高晓霞, 姚世庭, 杨元合, 彭云峰*, 2025. 退化高寒草地植物多样性和功能群组成与地上生产力的关系. 植物生态学报, 49: 83–92.
2024
Wang GQ^#, Peng YF^#, Chen LY, Abbott BW, Ciais P, Kang LY, Liu Y, Li QL, Peñuelas J, Qin SQ, Smith P, Song YT, Strauss J, Wang J, Wei B, Yu JC, Zhang DY, Yang YH*, 2024. Enhanced response of soil respiration to experimental warming upon thermokarst formation. Nature Geoscience, 17: 532-538.
Zhou LN, Liu Y, Men MX, Peng ZP, Peng YF*, 2024. Widespread cooling of topsoil under nitrogen enrichment and implication for soil carbon flux. Science of the Total Environment, 912: 169480.
2023
Liu Y, Men MX, Peng ZP, Chen HYH, Yang YH, Peng YF*, 2023. Spatially explicit estimate of nitrogen effects on soil respiration across the globe. Global Change Biology, 29: 3591–3600.
彭云峰, 常锦峰, 赵霞, 石岳, 白宇轩, 李秦鲁, 姚世庭, 马文红, 方精云, 杨元合*, 2023.中国草地生态系统固碳能力及其提升途径. 中国科学基金, 37: 587-602.
2022
Li QL, Liu Y, Kou D, Peng YF*, Yang YH*, 2022. Substantial non-growing season carbon dioxide loss across Tibetan alpine permafrost region. Global Change Biology, 28: 5200–5210.
Liu Y, Men MX, Peng ZP, Houx JH, Peng YF*, 2022. Nitrogen availability determines ecosystem productivity in response to climate warming. Ecology, 103: e3823.
吴赞, 彭云峰*, 杨贵彪, 李秦鲁, 刘洋, 马黎华, 杨元合, 蒋先军*, 2022. 青藏高原高寒草地退化对土壤及微生物化学计量特征的影响. 植物生态学报, 46: 461–472.
2021
刘洋, 彭云峰*, 门明新, 彭正萍, 杨元合, 2021. 青藏高原高寒草原根系动态对氮添加的响应及其调控因素. 应用生态学报, 32: 3119–3126.
2020
Peng YF, Chen HYH, Yang YH*, 2020. Global pattern and drivers of nitrogen saturation threshold of grassland productivity. Functional Ecology, 34: 1979–1990.
2019
Peng YF, Wang GQ, Li F, Yang GB, Fang K, Liu L, Qin SQ, Zhang DY, Zhou GY, Fang HJ, Liu XJ, Liu CY, Yang YH*, 2019. Unimodal response of soil methane consumption to increasing nitrogen additions. Environmental Science & Technology, 53: 4150–4160.
Peng YF*, Peng ZP, Zeng XT, Houx JH, 2019. Effects of nitrogen-phosphorus imbalance on plant biomass production: A global perspective. Plant and Soil, 436: 245–252.
2018
Peng YF, Wang, GQ, Li F, Zhou G Y, Yang GB, Fang K, Liu L, Qin SQ, Zhang DY, Yang YH*, 2018. Soil temperature dynamics modulate N₂O flux response to multiple nitrogen additions in an alpine steppe. Journal of Geophysical Research: Biogeosciences, 123: 3308–3319.
2017
Peng YF, Li F, Zhou GY, Fang K, Zhang DY, Li CB, Yang GB, Wang GQ, Wang J, Yang YH*, 2017. Linkages of plant stoichiometry to ecosystem production and carbon fluxes with increasing nitrogen inputs in an alpine steppe. Global Change Biology, 23: 5249–5259.
Peng YF, Guo DL, Yang YH*, 2017. Global patterns of root dynamics under nitrogen enrichment. Global Ecology and Biogeography, 26: 102–114.
Li F^#, Peng YF^#, Natali SM, Chen KL, Han TF, Yang GB, Ding JZ, Zhang DY, Wang GQ, Wang J, Yu JC, Liu FT, Yang YH*, 2017. Warming effects on permafrost ecosystem carbon fluxes are correlated with plant nutrients. Ecology, 98: 2851–2859.
Peng YF, Li F, Zhou GY, Fang K, Zhang DY, Li CB, Yang GB, Wang GQ, Wang J, Mohammat A, Yang YH*, 2017. Nonlinear response of soil respiration to increasing nitrogen additions in a Tibetan alpine steppe. Environmental Research Letters, 12: 024018.
2016及以前
Peng YF, Yang YH*, 2016. Allometric biomass partitioning under nitrogen enrichment: Evidence from manipulative experiments around the world. Scientific Reports, 6: 28918.
Peng YF, Zeng XT, Houx JH, Boardman DL, Li CJ, Fritschi FB*, 2016. Pre- and post-silking carbohydrate concentrations in maize ear-leaves and developing ears in response to nitrogen availability. Crop Science, 56: 1–10.
Peng YF, Li CJ, Fritschi FB*, 2014. Diurnal dynamics of maize leaf photosynthesis and carbohydrate concentrations in response to differential N availability. Environmental and Experimental Botany, 99: 18–27.
Peng YF, Yu P, Li XX, Li CJ*, 2013. Determination of the critical soil mineral nitrogen concentration for maximizing maize grain yield. Plant and Soil, 372: 41–51.
Peng YF, Li CJ, Fritschi FB*, 2013. Apoplastic infusion of sucrose into stem internodes during female flowering does not increase grain yield in maize plant grown under nitrogen limiting conditions. Physiologia Plantarum, 148: 470–480.
Peng YF, Li XX, Li CJ*, 2012. Temporal and spatial profiling of root growth revealed novel response of maize roots under various nitrogen supplies in the field. PLoS ONE, 7: e37726.
Peng YF^#, Yu P^#, Zhang Y, Sun G, Ning P, Li XX, Li CJ*, 2012. Temporal and spatial dynamics in root length density of field-grown maize and NPK in the soil profile. Field Crops Research, 115: 85–93.
Peng YF, Niu JF, Peng ZP, Zhang FS, Li CJ*, 2010. Shoot growth potential drives N uptake in maize plants and correlates with root growth in the soil. Field Crops Research, 115: 85–93.

学习经历

2002.09-2006.07: 河北农业大学，学士
2006.09-2012.12: 中国农业大学，硕博连读
2010.05-2012.05: 美国密苏里大学，联合培养博士

工作经历

2013.01-2015.01 中国科学院植物研究所，博士后
2015.01-2018.02 中国科学院植物研究所，助理研究员
2018.02-2024.03 中国科学院植物研究所，副研究员
2024.03-至今中国科学院植物研究所，研究员

任职情况

科研项目

热融塌陷与未塌陷区土壤呼吸对增温的响应差异及其调控途径，国家自然科学基金面上项目，54万，主持人，2023.01-2026.12
冻土生态系统碳氮磷循环关键过程对增温的响应机制，国家重点研发计划项目子课题，140万，负责人，2022.12-2027.11
三江源高寒草甸退化机制和恢复的关键限制因子，中国科学院院先导专项子课题任务，700万，共同负责人，2020.11-2025.10
三江源西样带草地生态系统类型、结构、生产力变化及驱动机制，科技部“第二次青藏高原综合考察” 子子子专题，61万，负责人，2019.11-2024.10
高寒草原生态系统碳通量对不同氮水平的响应及其化学计量学机制，国家自然科学基金面上项目，58万，主持人，2018.01-2021.12

论文专著

代表性论文（^#共同第一作者，*通讯作者）

2025

Liu Y, Yang YH, Deng Y, Peng YF*, 2025. Long-term ammonium nitrate addition strengthens soil microbial cross-trophic interactions in a Tibetan alpine steppe. Ecology, 106: e70057.

Yao ST, Gao XX, Wei B, Niu YP, Zhou HK, Lu GX, Yang YH, Peng YF*, 2025. Context-dependent effects of grassland degradation on soil nitrogen cycling processes. Communications Earth & Environment, 6: 221.

牛亚平, 高晓霞, 姚世庭, 杨元合, 彭云峰*, 2025. 退化高寒草地植物多样性和功能群组成与地上生产力的关系. 植物生态学报, 49: 83–92.

2024

Wang GQ^#, Peng YF^#, Chen LY, Abbott BW, Ciais P, Kang LY, Liu Y, Li QL, Peñuelas J, Qin SQ, Smith P, Song YT, Strauss J, Wang J, Wei B, Yu JC, Zhang DY, Yang YH*, 2024. Enhanced response of soil respiration to experimental warming upon thermokarst formation. Nature Geoscience, 17: 532-538.

Zhou LN, Liu Y, Men MX, Peng ZP, Peng YF*, 2024. Widespread cooling of topsoil under nitrogen enrichment and implication for soil carbon flux. Science of the Total Environment, 912: 169480.

2023

Liu Y, Men MX, Peng ZP, Chen HYH, Yang YH, Peng YF*, 2023. Spatially explicit estimate of nitrogen effects on soil respiration across the globe. Global Change Biology, 29: 3591–3600.

彭云峰, 常锦峰, 赵霞, 石岳, 白宇轩, 李秦鲁, 姚世庭, 马文红, 方精云, 杨元合*, 2023.中国草地生态系统固碳能力及其提升途径. 中国科学基金, 37: 587-602.

2022

Li QL, Liu Y, Kou D, Peng YF*, Yang YH*, 2022. Substantial non-growing season carbon dioxide loss across Tibetan alpine permafrost region. Global Change Biology, 28: 5200–5210.

Liu Y, Men MX, Peng ZP, Houx JH, Peng YF*, 2022. Nitrogen availability determines ecosystem productivity in response to climate warming. Ecology, 103: e3823.

吴赞, 彭云峰*, 杨贵彪, 李秦鲁, 刘洋, 马黎华, 杨元合, 蒋先军*, 2022. 青藏高原高寒草地退化对土壤及微生物化学计量特征的影响. 植物生态学报, 46: 461–472.

2021

刘洋, 彭云峰*, 门明新, 彭正萍, 杨元合, 2021. 青藏高原高寒草原根系动态对氮添加的响应及其调控因素. 应用生态学报, 32: 3119–3126.

2020

Peng YF, Chen HYH, Yang YH*, 2020. Global pattern and drivers of nitrogen saturation threshold of grassland productivity. Functional Ecology, 34: 1979–1990.

2019

Peng YF, Wang GQ, Li F, Yang GB, Fang K, Liu L, Qin SQ, Zhang DY, Zhou GY, Fang HJ, Liu XJ, Liu CY, Yang YH*, 2019. Unimodal response of soil methane consumption to increasing nitrogen additions. Environmental Science & Technology, 53: 4150–4160.

Peng YF*, Peng ZP, Zeng XT, Houx JH, 2019. Effects of nitrogen-phosphorus imbalance on plant biomass production: A global perspective. Plant and Soil, 436: 245–252.

2018

Peng YF, Wang, GQ, Li F, Zhou G Y, Yang GB, Fang K, Liu L, Qin SQ, Zhang DY, Yang YH*, 2018. Soil temperature dynamics modulate N₂O flux response to multiple nitrogen additions in an alpine steppe. Journal of Geophysical Research: Biogeosciences, 123: 3308–3319.

2017

Peng YF, Li F, Zhou GY, Fang K, Zhang DY, Li CB, Yang GB, Wang GQ, Wang J, Yang YH*, 2017. Linkages of plant stoichiometry to ecosystem production and carbon fluxes with increasing nitrogen inputs in an alpine steppe. Global Change Biology, 23: 5249–5259.

Peng YF, Guo DL, Yang YH*, 2017. Global patterns of root dynamics under nitrogen enrichment. Global Ecology and Biogeography, 26: 102–114.

Li F^#, Peng YF^#, Natali SM, Chen KL, Han TF, Yang GB, Ding JZ, Zhang DY, Wang GQ, Wang J, Yu JC, Liu FT, Yang YH*, 2017. Warming effects on permafrost ecosystem carbon fluxes are correlated with plant nutrients. Ecology, 98: 2851–2859.

Peng YF, Li F, Zhou GY, Fang K, Zhang DY, Li CB, Yang GB, Wang GQ, Wang J, Mohammat A, Yang YH*, 2017. Nonlinear response of soil respiration to increasing nitrogen additions in a Tibetan alpine steppe. Environmental Research Letters, 12: 024018.

2016及以前

Peng YF, Yang YH*, 2016. Allometric biomass partitioning under nitrogen enrichment: Evidence from manipulative experiments around the world. Scientific Reports, 6: 28918.

Peng YF, Zeng XT, Houx JH, Boardman DL, Li CJ, Fritschi FB*, 2016. Pre- and post-silking carbohydrate concentrations in maize ear-leaves and developing ears in response to nitrogen availability. Crop Science, 56: 1–10.

Peng YF, Li CJ, Fritschi FB*, 2014. Diurnal dynamics of maize leaf photosynthesis and carbohydrate concentrations in response to differential N availability. Environmental and Experimental Botany, 99: 18–27.

Peng YF, Yu P, Li XX, Li CJ*, 2013. Determination of the critical soil mineral nitrogen concentration for maximizing maize grain yield. Plant and Soil, 372: 41–51.

Peng YF, Li CJ, Fritschi FB*, 2013. Apoplastic infusion of sucrose into stem internodes during female flowering does not increase grain yield in maize plant grown under nitrogen limiting conditions. Physiologia Plantarum, 148: 470–480.

Peng YF, Li XX, Li CJ*, 2012. Temporal and spatial profiling of root growth revealed novel response of maize roots under various nitrogen supplies in the field. PLoS ONE, 7: e37726.

Peng YF^#, Yu P^#, Zhang Y, Sun G, Ning P, Li XX, Li CJ*, 2012. Temporal and spatial dynamics in root length density of field-grown maize and NPK in the soil profile. Field Crops Research, 115: 85–93.

Peng YF, Niu JF, Peng ZP, Zhang FS, Li CJ*, 2010. Shoot growth potential drives N uptake in maize plants and correlates with root growth in the soil. Field Crops Research, 115: 85–93.

所获奖励