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个人简历
李平,研究生学历,博士学位
研 究 组 : 全球变化与生态系统响应研究组
民       族: 汉
研究领域: 半干旱草地生态系统碳水循环
籍       贯: 河北
导师资格:
出生年月: 1988.10
职       称: 副研究员
毕业院校: 中国科学院植物研究所
入职时间:

2024.1

毕业时间: 2020.7
办公电话: 010-62836148
电子邮件: liping@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

    2009.09-2013.06 河北农业大学,学士
    2013.09-2020.07 中国科学院大学,博士
    2018.10-2019.10 英国兰卡斯特大学,联合培养博士



    工作经历
    2020.07-2023.12 中国科学院植物研究所,特别研究助理(博士后)
    2024.01-2026.02 中国科学院植物研究所,助理研究员
    2026.02-至今 中国科学院植物研究所,副研究员

    任职经历


  • (1)饲草种质高效设计与利用全国重点实验室创新团队项目,关键饲草表型的高通量反演算法研发,2025/1/1-2027/12/31,30万元,在研,子任务负责人。


    (2)中国博士后科学基金面上项目,2021M703478,冬季增雪背景下不同物种融雪水获取能力的季节动态及调控机制,2022/1/1-2023/12/31,8万元,已结题,项目负责人。


    (3)国家自然科学基金青年科学基金项目,32101307,冬季增雪下不同物种水分供应和物候动态对草地群落结构和生产力稳定性的影响机制,2021/1/1-2024/12/31,30万元,已结题,项目负责人。


  • 第一或通讯文章:

    (1) Li, P., Jia, Z., Wu, Y., Jalaid, N., Zhao, X., Hu, T., Su, Y. & Liu, L.* (2026) Biophysical regulation of ecosystem carbon use efficiency in a temperate grassland through nitrogen use efficiency and canopy structure under deepened snow. Journal of Ecology, 114, e70229.

    (2) Li, P., Jia, Z., Wu, Y., Chang, P., Jalaid, N., Guo, L., Pan, S., Wang, S., Jiang, L., Hu, S. & Liu, L.* (2025) Deepened snow promotes temporal stability of semi‐arid grasslands via improving water acquisition‐and‐use strategies. Ecology, 106, e70105.

    (3) Yang, L.#, Li, P.#, Wu, Y., Jalaid, N., Liu, W., Liu, X., Peng, Z., Huang, J., Zhao, X., Jiang, L., Peng, Z., Yang, S., Huang, W., Su, Y., Liu, H. & Liu, L.* (2025) The soil organic carbon sequestration potential and formation efficiency of China’s temperate grasslands. Science Bulletin, 70, 3857-3869.

    (4) Li, P., Sayer, E.J., Jia, Z., Wu, Y., Deng, M., Wang, X., Liu, C., Wang, B., Wang, Y., Bai, Y. & Liu, L.* (2022) Deepened snow cover mitigates soil carbon loss from intensive land‐use in a semi‐arid temperate grassland. Functional Ecology, 36, 635-645.

    (5) Li, P., Sayer, E.J., Jia, Z., Liu, W., Wu, Y., Yang, S., Wang, C., Yang, L., Chen, D., Bai, Y. & Liu, L.* (2020) Deepened winter snow cover enhances net ecosystem exchange and stabilizes plant community composition and productivity in a temperate grassland. Global Change Biology, 26, 3015-3027.

    (6) Li, P., Liu, L.*, Wang, J., Wang, Z., Wang, X., Bai, Y. & Chen, S. (2018) Wind erosion enhanced by land use changes significantly reduces ecosystem carbon storage and carbon sequestration potentials in semiarid grasslands. Land Degradation & Development, 29, 3469-3478.

    (7) 刁励玮#李平#,刘卫星,邓美凤,徐姗, 乔春连,曾辉,刘玲莉*.2018)草地生态系统生物量在不同气候及多时间尺度上对氮添加和增雨处理的响应. 植物生态学报8, 818-830.

    其他代表性文章:

    (1) Wu, Y., Peñuelas, J., Naersige, J., Luo, J., Ge, H., Zhang, X., Chang, P., Li, P. & Liu, L.* (2026) Vegetation-Mediated Carbon Inputs and Erosion Protection Shape Soil Carbon Dynamics across Aridity Thresholds. Environmental Science & Technology, 60, 4803-4813

    (2) Ge, H., Wang, X., Deng, M., Hu, N., Chen, H., Li, J., Pan, S., Li, P., Guo, L., Wang, B., Wang, Z., Wu, J., Su, Y. & Liu, L.* (2026) Autumn nutrient resorption and twig storage shape spring phenology in woody species. Journal of Ecology, 114, e70390.

    (3) Luo, J., Peng, Y., Jia, Z., Wu, Y., Gao, Y., Jalaid, N., Zhang, X., Ge, H., Qing, B., Chen, H., Zhan, Y., Li, P. & Liu, L.* (2025) Moisture-microbial interaction amplifies N2O emission hot moments under deepened snow in grasslands. Global Change Biology, 31, e70254.

    (4) Gao, Y., Wu, Y., Chang, P., Li, P., Hu, S. & Liu, L.* (2025) Mycorrhizal Network and Symbiotic N-Fixer Jointly Enhance the Interplant Nitrogen Sharing. Ecology Letters, 28, e70204.

    (5) Wang, X., Li, J., Ge, H., Pan, S., Li, P., Guo, L., Yang, L., Peng, Z., Wang, B., Wang, Z., Wang, C. & Liu, L.* (2024) Plant traits mediate foliar uptake of deposited nitrogen by mature woody plants. Plant, Cell & Environment, 47, 4870-4885.

    (6) Liu, L.*, Sayer, E.J., Deng, M., Li, P., Liu, W., Wang, X., Yang, S., Huang, J., Luo, J., Su, Y., Grünzweig, J.M., Jiang, L., Hu, S. & Piao, S. (2023) The grassland carbon cycle: Mechanisms, responses to global changes, and potential contribution to carbon neutrality. Fundamental Research, 3, 209-218.

    (7) Deng, M., Li, P., Liu, W., Chang, P., Yang, L., Wang, Z., Wang, J. & Liu, L.* (2023) Deepened snow cover increases grassland soil carbon stocks by incorporating carbon inputs into deep soil layers. Global Change Biology, 29, 4686-4696.

    (8) Yang, L., Liu, W., Jia, Z., Li, P., Wu, Y., Chen, Y., Liu, C., Chang, P. & Liu, L.* (2022) Land-use change reduces soil nitrogen retention of both particulate and mineral-associated organic matter in a temperate grassland. Catena, 216, 106432.

    (9) Jia, Z., Li, P., Wu, Y., Chang, P., Deng, M., Liang, L., Yang, S., Wang, C., Wang, B., Yang, L., Wang, X., Wang, Z., Peng, Z., Guo, L., Ahirwal, J., Liu, W. & Liu, L.* (2022) Deepened snow loosens temporal coupling between plant and microbial N utilization and induces ecosystem N losses. Global Change Biology, 28, 4655-4667.

    (10) Wang, X., Wang, B., Wang, C., Wang, Z., Li, J., Jia, Z., Yang, S., Li, P., Wu, Y., Pan, S. & Liu, L.* (2021) Canopy processing of N deposition increases short‐term leaf N uptake and photosynthesis, but not long‐term N retention for aspen seedlings. New Phytologist, 229, 2601-2610.

    (11) Wang, B., Wang, Z., Wang, C., Wang, X., Li, J., Jia, Z., Li, P., Wu, J., Chen, M. & Liu, L.* (2021) Field evidence reveals conservative water use of poplar saplings under high aerosol conditions. Journal of Ecology, 109, 2190-2202.

    (12) Liu, W., Liu, L.*, Yang, X., Deng, M., Wang, Z., Wang, P., Yang, S., Li, P., Peng, Z., Yang, L. & Jiang, L.* (2021) Long‐term nitrogen input alters plant and soil bacterial, but not fungal beta diversity in a semiarid grassland. Global Change Biology, 27, 3939-3950.

    (13) Jia, Z., Li, P., Wu, Y., Yang, S., Wang, C., Wang, B., Yang, L., Wang, X., Li, J., Peng, Z., Guo, L., Liu, W. & Liu, L.* (2021) Deepened snow cover alters biotic and abiotic controls on nitrogen loss during non-growing season in temperate grasslands. Biology Fertility of Soils, 57, 165-177.

    (14) Deng, M., Liu, W., Li, P., Jiang, L., Li, S., Jia, Z., Yang, S., Guo, L., Wang, Z. & Liu, L.* (2021) Intraspecific trait variation drives grassland species richness and productivity under changing precipitation. Ecosphere, 12, e03707.

    (15) Deng, M., Li, P., Wang, Z., Guo, L., Wu, Y., Huang, J., Wang, X. & Liu, L.* (2021) Drought and salinization stress induced by stand development alters mineral element cycling in a larch plantation. Journal of Geophysical Research: Biogeosciences, 126, e2020JG005906.

    (16) Wang, J., Liu, W., Li, P., Jia, Z., Deng, M., Yang, S. & Liu, L.* (2020) Long‐term deepened snow cover alters litter layer turnover rate in temperate steppes. Functional Ecology, 34, 1113-1122.

    (17) Xu, S., Li, P., Sayer, E.J., Zhang, B., Wang, J., Qiao, C., Peng, Z., Diao, L., Chi, Y., Liu, W. & Liu, L.* (2018) Initial soil organic matter content influences the storage and turnover of litter, root and soil carbon in grasslands. Ecosystems, 21, 1377-1389.

    (18) Liu, W., Allison, S.D., Li, P., Wang, J., Chen, D., Wang, Z., Yang, S., Diao, L., Wang, B. & Liu, L.* (2018) The effects of increased snow depth on plant and microbial biomass and community composition along a precipitation gradient in temperate steppes. Soil Biology & Biochemistry, 124, 134-141.

    (19) Wang, J., Liu, L.*, Wang, X., Yang, S., Zhang, B., Li, P., Qiao, C., Deng, M. & Liu, W. (2017) High night‐time humidity and dissolved organic carbon content support rapid decomposition of standing litter in a semi‐arid landscape. Functional Ecology, 31, 1659-1668.

    (20) Liu, L.*, Wang, X., Lajeunesse, M.J., Miao, G., Piao, S., Wan, S., Wu, Y., Wang, Z., Yang, S., Li, P. & Deng, M. (2016) A cross‐biome synthesis of soil respiration and its determinants under simulated precipitation changes. Global Change Biology, 22, 1394-1405.

    (21) Deng, M., Liu, L.*, Sun, Z., Piao, S., Ma, Y., Chen, Y., Wang, J., Qiao, C., Wang, X. & Li, P. (2016) Increased phosphate uptake but not resorption alleviates phosphorus deficiency induced by nitrogen deposition in temperate Larix principis-rupprechtii plantations. New Phytologist, 212, 1019-1029.

  • (1) 2015年度第三届北京研究生生态学论坛优秀报告

    (2) 2019年度中国科学院地奥奖学金, 中国科学院大学

    (3) 2020年度中国科学院院长奖学金

    (4) 2020年度中国科学院大学优秀毕业生

    (5) 2020年度北京市优秀毕业生

    (6) 2024年度植物生态学大会优秀青年报告


学习经历

2009.09-2013.06 河北农业大学,学士
2013.09-2020.07 中国科学院大学,博士
2018.10-2019.10 英国兰卡斯特大学,联合培养博士

工作经历
2020.07-2023.12 中国科学院植物研究所,特别研究助理(博士后)
2024.01-2026.02 中国科学院植物研究所,助理研究员
2026.02-至今 中国科学院植物研究所,副研究员
任职情况

科研项目

(1)饲草种质高效设计与利用全国重点实验室创新团队项目,关键饲草表型的高通量反演算法研发,2025/1/1-2027/12/31,30万元,在研,子任务负责人。


(2)中国博士后科学基金面上项目,2021M703478,冬季增雪背景下不同物种融雪水获取能力的季节动态及调控机制,2022/1/1-2023/12/31,8万元,已结题,项目负责人。


(3)国家自然科学基金青年科学基金项目,32101307,冬季增雪下不同物种水分供应和物候动态对草地群落结构和生产力稳定性的影响机制,2021/1/1-2024/12/31,30万元,已结题,项目负责人。


论文专著

第一或通讯文章:

(1) Li, P., Jia, Z., Wu, Y., Jalaid, N., Zhao, X., Hu, T., Su, Y. & Liu, L.* (2026) Biophysical regulation of ecosystem carbon use efficiency in a temperate grassland through nitrogen use efficiency and canopy structure under deepened snow. Journal of Ecology, 114, e70229.

(2) Li, P., Jia, Z., Wu, Y., Chang, P., Jalaid, N., Guo, L., Pan, S., Wang, S., Jiang, L., Hu, S. & Liu, L.* (2025) Deepened snow promotes temporal stability of semi‐arid grasslands via improving water acquisition‐and‐use strategies. Ecology, 106, e70105.

(3) Yang, L.#, Li, P.#, Wu, Y., Jalaid, N., Liu, W., Liu, X., Peng, Z., Huang, J., Zhao, X., Jiang, L., Peng, Z., Yang, S., Huang, W., Su, Y., Liu, H. & Liu, L.* (2025) The soil organic carbon sequestration potential and formation efficiency of China’s temperate grasslands. Science Bulletin, 70, 3857-3869.

(4) Li, P., Sayer, E.J., Jia, Z., Wu, Y., Deng, M., Wang, X., Liu, C., Wang, B., Wang, Y., Bai, Y. & Liu, L.* (2022) Deepened snow cover mitigates soil carbon loss from intensive land‐use in a semi‐arid temperate grassland. Functional Ecology, 36, 635-645.

(5) Li, P., Sayer, E.J., Jia, Z., Liu, W., Wu, Y., Yang, S., Wang, C., Yang, L., Chen, D., Bai, Y. & Liu, L.* (2020) Deepened winter snow cover enhances net ecosystem exchange and stabilizes plant community composition and productivity in a temperate grassland. Global Change Biology, 26, 3015-3027.

(6) Li, P., Liu, L.*, Wang, J., Wang, Z., Wang, X., Bai, Y. & Chen, S. (2018) Wind erosion enhanced by land use changes significantly reduces ecosystem carbon storage and carbon sequestration potentials in semiarid grasslands. Land Degradation & Development, 29, 3469-3478.

(7) 刁励玮#李平#,刘卫星,邓美凤,徐姗, 乔春连,曾辉,刘玲莉*.2018)草地生态系统生物量在不同气候及多时间尺度上对氮添加和增雨处理的响应. 植物生态学报8, 818-830.

其他代表性文章:

(1) Wu, Y., Peñuelas, J., Naersige, J., Luo, J., Ge, H., Zhang, X., Chang, P., Li, P. & Liu, L.* (2026) Vegetation-Mediated Carbon Inputs and Erosion Protection Shape Soil Carbon Dynamics across Aridity Thresholds. Environmental Science & Technology, 60, 4803-4813

(2) Ge, H., Wang, X., Deng, M., Hu, N., Chen, H., Li, J., Pan, S., Li, P., Guo, L., Wang, B., Wang, Z., Wu, J., Su, Y. & Liu, L.* (2026) Autumn nutrient resorption and twig storage shape spring phenology in woody species. Journal of Ecology, 114, e70390.

(3) Luo, J., Peng, Y., Jia, Z., Wu, Y., Gao, Y., Jalaid, N., Zhang, X., Ge, H., Qing, B., Chen, H., Zhan, Y., Li, P. & Liu, L.* (2025) Moisture-microbial interaction amplifies N2O emission hot moments under deepened snow in grasslands. Global Change Biology, 31, e70254.

(4) Gao, Y., Wu, Y., Chang, P., Li, P., Hu, S. & Liu, L.* (2025) Mycorrhizal Network and Symbiotic N-Fixer Jointly Enhance the Interplant Nitrogen Sharing. Ecology Letters, 28, e70204.

(5) Wang, X., Li, J., Ge, H., Pan, S., Li, P., Guo, L., Yang, L., Peng, Z., Wang, B., Wang, Z., Wang, C. & Liu, L.* (2024) Plant traits mediate foliar uptake of deposited nitrogen by mature woody plants. Plant, Cell & Environment, 47, 4870-4885.

(6) Liu, L.*, Sayer, E.J., Deng, M., Li, P., Liu, W., Wang, X., Yang, S., Huang, J., Luo, J., Su, Y., Grünzweig, J.M., Jiang, L., Hu, S. & Piao, S. (2023) The grassland carbon cycle: Mechanisms, responses to global changes, and potential contribution to carbon neutrality. Fundamental Research, 3, 209-218.

(7) Deng, M., Li, P., Liu, W., Chang, P., Yang, L., Wang, Z., Wang, J. & Liu, L.* (2023) Deepened snow cover increases grassland soil carbon stocks by incorporating carbon inputs into deep soil layers. Global Change Biology, 29, 4686-4696.

(8) Yang, L., Liu, W., Jia, Z., Li, P., Wu, Y., Chen, Y., Liu, C., Chang, P. & Liu, L.* (2022) Land-use change reduces soil nitrogen retention of both particulate and mineral-associated organic matter in a temperate grassland. Catena, 216, 106432.

(9) Jia, Z., Li, P., Wu, Y., Chang, P., Deng, M., Liang, L., Yang, S., Wang, C., Wang, B., Yang, L., Wang, X., Wang, Z., Peng, Z., Guo, L., Ahirwal, J., Liu, W. & Liu, L.* (2022) Deepened snow loosens temporal coupling between plant and microbial N utilization and induces ecosystem N losses. Global Change Biology, 28, 4655-4667.

(10) Wang, X., Wang, B., Wang, C., Wang, Z., Li, J., Jia, Z., Yang, S., Li, P., Wu, Y., Pan, S. & Liu, L.* (2021) Canopy processing of N deposition increases short‐term leaf N uptake and photosynthesis, but not long‐term N retention for aspen seedlings. New Phytologist, 229, 2601-2610.

(11) Wang, B., Wang, Z., Wang, C., Wang, X., Li, J., Jia, Z., Li, P., Wu, J., Chen, M. & Liu, L.* (2021) Field evidence reveals conservative water use of poplar saplings under high aerosol conditions. Journal of Ecology, 109, 2190-2202.

(12) Liu, W., Liu, L.*, Yang, X., Deng, M., Wang, Z., Wang, P., Yang, S., Li, P., Peng, Z., Yang, L. & Jiang, L.* (2021) Long‐term nitrogen input alters plant and soil bacterial, but not fungal beta diversity in a semiarid grassland. Global Change Biology, 27, 3939-3950.

(13) Jia, Z., Li, P., Wu, Y., Yang, S., Wang, C., Wang, B., Yang, L., Wang, X., Li, J., Peng, Z., Guo, L., Liu, W. & Liu, L.* (2021) Deepened snow cover alters biotic and abiotic controls on nitrogen loss during non-growing season in temperate grasslands. Biology Fertility of Soils, 57, 165-177.

(14) Deng, M., Liu, W., Li, P., Jiang, L., Li, S., Jia, Z., Yang, S., Guo, L., Wang, Z. & Liu, L.* (2021) Intraspecific trait variation drives grassland species richness and productivity under changing precipitation. Ecosphere, 12, e03707.

(15) Deng, M., Li, P., Wang, Z., Guo, L., Wu, Y., Huang, J., Wang, X. & Liu, L.* (2021) Drought and salinization stress induced by stand development alters mineral element cycling in a larch plantation. Journal of Geophysical Research: Biogeosciences, 126, e2020JG005906.

(16) Wang, J., Liu, W., Li, P., Jia, Z., Deng, M., Yang, S. & Liu, L.* (2020) Long‐term deepened snow cover alters litter layer turnover rate in temperate steppes. Functional Ecology, 34, 1113-1122.

(17) Xu, S., Li, P., Sayer, E.J., Zhang, B., Wang, J., Qiao, C., Peng, Z., Diao, L., Chi, Y., Liu, W. & Liu, L.* (2018) Initial soil organic matter content influences the storage and turnover of litter, root and soil carbon in grasslands. Ecosystems, 21, 1377-1389.

(18) Liu, W., Allison, S.D., Li, P., Wang, J., Chen, D., Wang, Z., Yang, S., Diao, L., Wang, B. & Liu, L.* (2018) The effects of increased snow depth on plant and microbial biomass and community composition along a precipitation gradient in temperate steppes. Soil Biology & Biochemistry, 124, 134-141.

(19) Wang, J., Liu, L.*, Wang, X., Yang, S., Zhang, B., Li, P., Qiao, C., Deng, M. & Liu, W. (2017) High night‐time humidity and dissolved organic carbon content support rapid decomposition of standing litter in a semi‐arid landscape. Functional Ecology, 31, 1659-1668.

(20) Liu, L.*, Wang, X., Lajeunesse, M.J., Miao, G., Piao, S., Wan, S., Wu, Y., Wang, Z., Yang, S., Li, P. & Deng, M. (2016) A cross‐biome synthesis of soil respiration and its determinants under simulated precipitation changes. Global Change Biology, 22, 1394-1405.

(21) Deng, M., Liu, L.*, Sun, Z., Piao, S., Ma, Y., Chen, Y., Wang, J., Qiao, C., Wang, X. & Li, P. (2016) Increased phosphate uptake but not resorption alleviates phosphorus deficiency induced by nitrogen deposition in temperate Larix principis-rupprechtii plantations. New Phytologist, 212, 1019-1029.

所获奖励

(1) 2015年度第三届北京研究生生态学论坛优秀报告

(2) 2019年度中国科学院地奥奖学金, 中国科学院大学

(3) 2020年度中国科学院院长奖学金

(4) 2020年度中国科学院大学优秀毕业生

(5) 2020年度北京市优秀毕业生

(6) 2024年度植物生态学大会优秀青年报告