研究方向:
全球变化与生态系统碳、氮循环
研究兴趣:
1) 土地利用变化的生态效应评估
2) 温室气体收支核算
3) 植被动态及其对气候变化的响应
教育及工作经历
2023 – 今 北京大学,城市规划与设计学院 助理教授/研究员、博士生导师
2021 – 2023 北京大学,博雅博士后
2016 – 2021 北京大学,自然地理学,博士
2012 – 2016 北京大学,生态学/经济学,学士
科研项目:
1. 三北防护林土壤有机质不同组分动态研究 国家自然科学基金面上项目 2025.1-2028.12 主持
2. 中国人工林碳储量和三种主要温室气体收支的估算与模拟 北京大学深圳研究生院引进人才科研启动项目 2024.1-2026.12 主持
3. 中国北方植树造林对土壤氮磷循环的影响 博士后创新人才支持计划 2021.7-2024.3主持
4. 应对未来全球变化的生态工程建设和维护对策 国家重点研发计划项目子课题 2019.11-2024.10 参研
5. 气候变化对生态系统生产力及碳固持服务的影响 国家重点研发计划项目子课题 2017.7-2022.6 参研
第一/通讯作者论文
11 Zhang Y., Hong S.*, Peñuelas J., Xu H., Wang K., Zhang Y., Lian X. & Piao S.* Weakened connection between spring leaf-out and autumn senescence in the Northern Hemisphere. Global Change Biology, 30: e17429, (2024). (* corresponding author)
10. Anniwaer N., Li X.*, Wang K., Xu H. & Hong S.* Shifts in the trends of vegetation greenness and photosynthesis in different parts of Tibetan Plateau over the past two decades. Agricultural and Forest Meteorology, 345, 109851 (2024). (* corresponding author)
9. Hong S., Cong N.*, Ding J.*, Piao S., Liu L., Peñuelas J., Chen A., Quine T., Zeng H. & Houlton B. Effects of afforestation on soil carbon and nitrogen accumulation depend on initial soil nitrogen status. Global Biogeochemical Cycles. e2022GB007490 (2023).
8. Hong S., Ding J.*, Kan F., Xu H., Chen S., Yao Y. & Piao S.* Asymmetry of carbon sequestrations by plant and soil after forestation regulated by soil nitrogen in a temperate region. Nature Communications, 14, 3196 (2023). [Behind the Paper] [文章报道]
7. Meng F.#, Hong S.#, Wang J., Chen A., Zhang Y., Zhang Y., Janssens I., Mao J., Myneni R., Peñuelas J. & Piao S.* Climate change increases carbon allocation to leaves in early leaf green-up. Ecology Letters, 26, 5 (2023). (# equal contribution) [文章报道]
6. Zhang Y., Hong S.*, Liu D.* & Piao S. Susceptibility of vegetation low-growth to climate extremes on Tibetan Plateau. Agricultural and Forest Meteorology, 331, 109323 (2023). (* corresponding author)
5. Hong S., Zhang Y., Yao Y., Meng F., Zhao Q. & Zhang Y.* Contrasting temperature effects on the velocity of early- versus late-stage vegetation green-up in the Northern Hemisphere. Global Change Biology, 28(23) (2022).
4. Hong S. & Chen A.* Contrasting responses of soil inorganic carbon to afforestation in acidic versus alkaline soils. Global Biogeochemical Cycles, 36, e2021GB007038 (2022).
3. Hong S.#, Yin G.#, Piao S.*, Dybzinski R., Cong N., Li X., Wang K., Peñuelas J., Zeng H. & Chen A.* Divergent responses of soil organic carbon to afforestation. Nature Sustainability, 3, 694–700 (2020). (# equal contribution) [文章报道]
2. Hong S., Gan P. & Chen A.* Environmental controls on soil pH in planted forest and its response to nitrogen deposition. Environmental Research, 172: 159-165 (2019).
1. Hong S., Piao S.*, Chen A.*, Liu Y., Liu L., Peng S., Sardans J., Sun Y., Peñuelas J. & Zeng H.* Afforestation neutralizes soil pH. Nature Communications, 9, 520 (2018). [文章报道]
合作论文 (selected)
10. Huang Y.#*, Song X.#, Wang Y., Canadell J., Luo Y., Ciais P., Chen A., Hong S., Wang Y., Tao F., Li W., Xu Y., Mirzaeitalarposhti R., Elbasiouny H., Savin I., Shchepashchenko D., Rossel R., Goll D., Chang J., Houlton B., Wu H., Yang F., Feng X., Chen Y., Liu Y., Niu S. & Zhang G.* Size, distribution and vulnerability of the global soil inorganic carbon. Science, 384, 233–239 (2024).
9. Meng F.*, Felton A., Mao J., Cong N., Smith W., Körner C., Hu Z., Hong S., Knott J., Yan T., Guo B., Deng Y., Leisz S., Dorji T., Wang S. & Chen A.* Consistent time allocation fraction to vegetation green-up versus senescence across northern ecosystems despite recent climate change. Science Advances, 10, eadn2487 (2024).
8. Yan Y., Piao S.*, Hammond W., Chen A.*, Hong S., Xu H., Munson S., Myneni R. & Craig A. Pulsed forest tree-mortality events obscured by broad-scale global greening trends. Nature Ecology & Evolution, https://doi.org/10.1038/s41559-024-02372-1 (2024).
7. Yao Y.*, Ciais P., Joetzjer E., Hong S., Li W., Zhu L. & Viovy N. Future drought‐induced tree mortality risk in Amazon rainforest. Earth’s Future, 12, e2023EF003740 (2024).
6. Piao Z., Li X.*, Xu H., Wang K., Tang S., Kan F. & Hong S. Threshold of climate extremes that impact vegetation productivity over the Tibetan Plateau. Science China Earth Sciences, https://doi.org/10.1007/s11430-023-1262-y (2024).
5. He M.*, Cui J.*, Zhang Q., Li L., Huang L. & Hong S. Unraveling the Role of Vegetation CO2 Physiological Forcing on Climate Zone Shifts in China. Geophysical Research Letters, 51, e2023GL107826 (2024).
4. Wang X.*, Gao Y., Jeong S., Ito A., Bastos A., Poulter B., Wang Y., Ciais P., Tian H., Yuan W., Chandra N., Chevallier F., Fan L., Hong S., Lauerwald R., Li W., Lin Z., Pan N., Patra P., Peng S., Ran L., Sang Y., Sitch S., Takashi M., Thompson R., Wang C., Wang K., Wang T., Xi Y., Xu L., Yan Y., Yun J., Zhang Y., Zhang Y., Zhang Z., Zheng B., Zhou F., Tao S., Canadell J. & Piao S. The Greenhouse Gas Budget of Terrestrial Ecosystems in East Asia Since 2000. Global Biogeochemical Cycles, 38, e2023GB007865 (2024).
3. Sun M., Li X.*, Xu H., Wang K., Anniwaer N. & Hong S. Drought thresholds that impact vegetation reveal the divergent responses of vegetation growth to drought across China. Global Change Biology, 00: e16998 (2023).
2. Wang X.*, Gao Y., Wang K., Sang Y., Wang Y., Zhang Y., Hong S., Zhang Y. & Yuan W. The greenhouse gas budget for China’s terrestrial ecosystems. National Science Review, 10, nwad274 (2023).
1. Zhang Y., Hong S., Liu Q.*, Huntingford C., Peñuelas J., Rossi S., Myneni R. & Piao S.* Autumn canopy senescence has slowed down with global warming since the 1980s in the Northern Hemisphere. Communications Earth & Environment, 4, 173 (2023).
学术服务
Journal of Plant Ecology 编委 2024-
期刊审稿:Global Change Biology, Science Bulletin, Journal of Applied Ecology, Agriculture and Forest Meteorology, Global and Planetary Change, Catena, Journal of Forestry Research等