陈修治（双聘）

个人经历

教育背景

2004/09 - 2008/07，中南大学，学士（保送研究生）

2008/09 - 2013/07，中国科学院大学，硕博士（连读生）

工作经历

2013/07 – 2019/06，中国科学院华南植物园，助理研究员、副研究员

2017/07 – 2019/06，法国气候与环境科学实验室，博士后（合作导师：Philippe Ciais）

2019/07 – 2022/03，中山大学，大气科学学院，副教授

2022/04 –至今，中山大学，大气科学学院，教授

2025/11 –至今，中山大学，生态学院（双聘），教授

荣誉和奖励

2016年，入选珠江科技新星人才计划

2016年，入选广东特支计划青年拔尖人才计划

2017年，获中科院广州分院优秀青年科技工作者

2022年，入选国家农业部神农英才计划

2022年，入选国家中组部青年拔尖人才计划

科研项目

1. 国家级高层次青年人才计划，热带亚热带森林物候及碳汇能力对气候变化的响应机制，2023年1月-2025年12月，主持;

2. 国家农业部神农英才计划，热带亚热带作物物候模型，2023年1月-2025年12月，主持;

3. 广东省科技创新平台建设项目，广东省陆地-海洋生态系统碳中和科学数据中心，2024年1月-2026年12月；

4. 国家重点研发计划项目，南岭山地生态系统恢复与生态安全保障技术-南岭山地生物多样性影响生态系统服务功能的机制，2025年1月-2028年12月，主持；

代表性论著

2026年

• Xue, M.M.#, Yang, X.Q.#, Chen, X*, Ciais, P., Zhou, L.M., Reich, P.B., Xiao, J.F., Li, X., Xiao, X.M., Green, J.K., Chen, J.M., Liu, J., Shang, J.L., Luo, X.Z., Tian, J., Liu, H., Zhu, P., Yan, K., Fu, X.Y., Han, L.S., Yuan, W.P., Wu, C.Y.* (2026). Climate Change drives leaf longevity divergence across pantropical moist forest biomes. Nature Communications, accepted.

2025年

• Lin, S.#, Chen, X#, Xia, J., Xin, Q., Fu, Z., He, B., Liu, Q., Piao, S., & Yuan, W.* (2025). Global vegetation production may decrease in this century due to rising atmospheric dryness.Nature Ecology & Evolution, 9, 2279-2289.

• Yuan, W*, Tian, J.（学生）,  Wang, M.（学生）, Wang, S., Xu, W., Wang, Y., Fu, Z., Girardin, M.P., Green, J.K., Zhou, S., Shang, J.L., He, B., Huang, M., Lu, H., Piao, S., Qing, Y., Xue, M., Song, C., Su, Y., Sadok, W., Zhang, Y., &Chen, X.*(2025). Impacts of rising atmospheric dryness on terrestrial ecosystem carbon cycle.Nature Reviews Earth & Environment,6, 712-727.

• Wang, F.（学生）,  Xue, M.（学生）, Zhou, L., Doughty, C.E., Ciais, P., Reich, P.B, Shang, J., Chen J.M., Liu, J., Green, J.K., Hao, D., Tao, S., Su, Y., Liu, L., Xia, J., Wang, H., Yu, K., Zhu, Z., Zhu, P., Li, X., Liu, H., Zeng, Y., Yan, K., Liu, L., Lafortezza, R., Su, Y., Meng, Y., Yang, X., Fu, Y.H., Yuan, W., &Chen, X.*(2025). Contrasting age-dependent leaf acclimation strategies driving vegetation greening across deciduous broadleaf forests in the middle to high latitudes.Nature Plants, 11, 1748-1758.

• Yang, X.（学生）, Sun, Q., Han, L., Yuan, W., Tian, J., Liu, L., Zheng, W., Wang, M., Wang, Y., & Chen, X.* (2025). Remote sensing of young leaf photosynthetic capacity in tropical and subtropical evergreen broadleaved forests.Earth System Science Data, 17, 3293-3314.

2024年

• Tian, J.（学生）, Yang, X., Yuan, W., Lin, S., Han, L., Zheng, Y., Xiao, X., Liu, L., Wang, M., Zheng, W., Fan, L., Yan, K., & Chen, X.* (2024). A leaf-age-dependent light use efficiency (LA-LUE) model for remote sensing the gross primary productivity seasonality over pantropical evergreen broadleaved forests.Global Change Biology, 15, 2601-2622. 

• Liu, L.（学生）, Ciais, P, Maignan, F., Zhang, Y.,  Viovy, N., Peaucelle, M., Kearsley, E., Hufkens, K., Bauters, M., Chapman, C., Fu, Z., Lin, S., Lu, H., Ren, J., Yang, X., He, X., & Chen, X*.. (2024). Solar radiation triggers the bimodal leaf phenology of central African evergreen broadleaved forests. Journal of Advances in Modeling Earth Systems, 16(7), e2023MS004014.

• Liu, X., Feng, Y., Zhao, X., Cui, Z., Liu, P.,Chen, X.*, Zhang, Q., & Liu, J. (2024). Climatic drivers of litterfall production and its components in two subtropical forests in South China: a 14-year observation.Agricultural and Forest Meteorology, 344, 109798.

2023年

• Su, Y., Zhang, C. (学生), Ciais, P., Zeng, Z., Cescatti, A., Shang, J., Chen, J.M., Liu, J., Wang, Y.-P., Yuan, W., Peng, S., Lee, X., Zhu, Z., Fan, L., Liu, X., Liu, L., Lafortezza, R., Li, Y., Ren, J., Yang, X.,& Chen, X.*. (2023). Asymmetric influence of forest cover gain and loss on land surface temperature. Nature Climate Change, 13, 823-831.

• Yang, X. (学生), Chen, X.*, Ren, J., Yuan, W., Liu, L., Liu, J., Chen, D., Xiao, Y., Song, Q., Du, Y., Wu, S., Fan, L., Dai, X., Wang, Y., & Su, Y. (2023). A grid dataset of leaf age-dependent LAI seasonality product (LAD-LAI) over tropical and subtropical evergreen broadleaved forests. (2023). Earth System Science Data, 15, 2601-2622. 

• Chen, Y. (学生), Chen, X.*, Xue, M., Yang, C., Zheng, W., Cao, J., Yan, W., & Yuan, W. (2023). Revisiting the hydrological basis of the Budyko framework with the hydrologically similar groups principle. Hydrology and Earth System Sciences, 27, 1929-1943.

2022年

• Liu, L. (学生), Chen, X.*, Ciais, P., Yuan, W., Maignan, F., Wu, J., Piao, S., Wang, Y., Wigneron, J., Fan, L., Gentine, P., Yang, X., Gong, F., Liu, H., Wang, C., Tang, X., Yang, H., Ye, Q., He, B., Shang, J. and Su, Y. (2022). Tropical tall forests are more sensitive and vulnerable to drought than short forests. Global Change Biology, 28(4), 1583-1595. 

• Gong, F. (学生), Chen, X.*, Yuan, W., Su, Y., Yang, X., Liu, L., Sun, Q., Wu, J., Dai, Y., Shang, J. (2022). Partitioning of three phenology rhythms in American tropical and subtropical forests using remotely sensed solar-induced chlorophyll fluorescence and field litterfall observations. International Journal of Applied Earth Observation and Geoinformation, 107,102698.

• Liu, L. (学生), Gong, F., Chen, X.*, Su, Y., Fan, L., Wu, S., Yang, X., Zhang, J., Yuan, W., Ciais, P., Zhou, C. (2022). Bidirectional drought‐related canopy dynamics across pantropical forests: a satellite‐based statistical analysis. Remote Sensing in Ecology and Conservation, 72-91.

2021年

• Yang, X. (学生), Wu, J., Chen, X.*, Ciais, P., Maignan, F., Yuan, W., Piao, S., Yang, S., Gong, F., Su, Y., Dai, Y., Liu, L., Zhang, H., Bonal, D., Liu, H., Chen, G., Lu, H., Wu, S., Fan, L., Gentine, P., Wright, S. J. (2021). A comprehensive framework for seasonal controls of leaf abscission and productivity in evergreen, broadleaved tropical and subtropical forests. The Innovation, 2(4), 100154.

• Li, Q. (学生), Chen, X. *, Yuan, W., Lu, H., Shen, R., Wu, S., Gong, Fa., Dai, Y., Sun, Q., Zhang, C., Su, Y. (2021) Remote sensing of seasonal climatic constraints on leaf phenology across pantropical evergreen forest biome. Earth's Future, 9(9), e2021EF002160.

• Chen, X.*, Ciais, P., Maignan, F., Zhang, Y., Bastos, A., Liu, L., Bacour, C., Fan, L., Gentine, P., Goll, D., Green, J., Kim, H., Li, L., Liu, Y., Peng, S., Tang, H., Viovy, N., Wigneron, J., Wu, J., Yuan, W., Zhang, H. (2021). Vapor pressure deficit and sunlight explain seasonality of leaf phenology and photosynthesis across Amazonian evergreen broadleaved forest. Global Biogeochemical Cycles, 35, e2020GB006893.

• Wu, J., Su, Y., Chen, X., Liu, L., Yang, X., Gong, F., Zhang, H., Xiong, X., Zhang, D. (2021). Leaf shedding of pan-Asian tropical evergreen forests depends on the synchrony of seasonal variations of rainfall and incoming solar radiation. Agricultural and Forest Meteorology, 311, 108691.

• Chen, X., Liu, L. (学生), Su, Y.*, Yuan, W., Liu, X., Liu, Z., Zhou, G. (2021). Quantitative association between the water yield impacts of forest cover changes and the biophysical effects of forest cover on temperatures. Journal of Hydrology, 600. 126529.

• Su, Y., Zhang, C.(学生), Chen, X.*, Liu, L., Ciais, P., Peng, J., Wu, S., Wu, J., Shang, J., Wang, Y., Yuan, W., Yang, Y., Wu, Z., Lafortezza, R. (2021). Aerodynamic resistance and Bowen ratio explain the biophysical effects of forest cover on understory air and soil temperatures at the global scale. Agricultural and Forest Meteorology, 308, 108615.

2020年及以前

• Chen, X*., Maignan, F., Viovy, N., Goll, D., Wu, J., Bastos, A., Yue, C., Peng, S., Conceição, A., Liu, L., Ciais, P. (2020) Novel representation of leaf phenology improves simulation of Amazonian evergreen forest photosynthesis in a land surface model. Journal of Advances in Modeling Earth Systems, 12(1), e2018MS001565.

• Su, Y., Liu, L. (学生), Liao, J., Wu, J., Ciais, P., Liao, J. He, X., Liu, X., Chen, X.*, Yuan, W. & Zhou, G. (2020).​​​​​ Urban vegetation cooling/warming on local air temperature: a synthetic analysis of global site observations. Agricultural and Forest Meteorology, 280, 107765.

• Su, Y., Liu, L. (学生), Wu, J., Chen, X.*, Shang, J., Ciais, P., Zhou., G., Lafortezza, R., Wang, Y., Yuan, W., Zhang, H., Huang, G., Huang, N. (2019). Quantifying the biophysical effects of forests on local air temperature using a novel three-layered energy balance model. Environment International, 132, 105080.

• Liu, L. (学生), Liao, J., Chen, X.*, Zhou, G., Su, Y., Xiang, Z., & Xiong, X. (2017). The Microwave Temperature Vegetation Drought Index (MTVDI) based on AMSR-E brightness temperatures for long-term drought assessment across China (2003–2010). Remote Sensing of Environment, 199, 302-320.

• Chen, X., Su, Y., Liao, J., Shang, J., Dong, T., Wang, C., Liu, W., Zhou, G.*, & Liu, L. (2016). Detecting significant decreasing trends of land surface soil moisture in eastern China during the past three decades (1979–2010). Journal of Geophysical Research: Atmospheres, 121(10), 5177-5192.

• Chen, X., Wei, X., Sun, G., Zhou, P., & Zhou, G.* (2016). Correspondence: Reply to/Space-time asymmetry undermines water yield assessment/'. Nature Communications, 7, 11604.

• Zhou, G.*, Wei, X.#, Chen, X.#, Zhou, P., Liu, X., Xiao, Y., Su, G., Scott, D.F., Zhou, S., Han, L. & Su, Y. (2015). Global pattern for the effect of climate and land cover on water yield. Nature Communications, 6, 5918.

• Chen, X., Liu, X., Zhou, G.*, Han, L., Liu, W., & Liao, J. (2015). 50-year evapotranspiration declining and potential causations in subtropical Guangdong province, southern China. Catena, 128, 185-194.

• Chen, X. Z.*, Li, Y., Su, Y. X., Han, L. S., Liao, J. S., & Yang, S. B. (2014). Mapping global surface roughness using AMSR-E passive microwave remote sensing. Geoderma, 235, 308-315.

• Chen, X. Z., Chen, S. S., Zhong, R. F.*, Su, Y. X., Liao, J. S., Li, D., Han, L., Li, Y. & Li, X. (2012). A semi-empirical inversion model for assessing surface soil moisture using AMSR-E brightness temperatures. Journal of Hydrology, 456, 1-11.