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朱丹

职称:研究员

研究方向:全球环境变化,古环境陆地生态系统

通讯地址:

Email:zhudan@pku.edu.cn

个人简历 人才培养 科学研究 教研成果

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教育经历


2013/07-2017/01,法国气候与环境实验室 (Laboratoire des Sciences du Climat et de l'Environnement, LSCE),博士

2010/09-2013/07,8040威尼斯,8040威尼斯,环境科学,硕士

2006/09-2010/07,8040威尼斯,8040威尼斯,环境科学,学士


工作经历


2020/10-至今,8040威尼斯,8040威尼斯,预聘制助理教授/研究员

2019/02-2020/10,西班牙巴塞罗那自治大学,博士后

2017/02-2019/01,法国气候与环境实验室,博士后


博士生导师/方向


全球环境变化,古环境陆地生态系统


目前研究组招收硕士、博士和博士后,欢迎对全球环境变化、古环境陆地生态系统、寒冷区地表过程对气候变化的响应、地球系统模拟等研究方向感兴趣的同学加入研究组(联系方式:zhudan@pku.edu.cn)。也欢迎感兴趣的本科生联系我,可以做拔尖计划、本科生科研等。

主要研究兴趣和方向包括寒区地表过程对气候变化的响应和反馈、古气候环境下陆地生态系统动态演变等。主要通过开发和应用陆面过程模型和地球系统模型,结合多源观测数据和重建数据,探讨不同时期气候条件下植被动态、冻土碳循环、大型动物的分布及其与植被的相互作用等科学问题。


科研项目

国家自然科学基金优秀青年科学基金项目(海外):“全球变化与寒区地表过程” 2022.01-2024.12 主持

国家自然科学基金青年科学基金项目:“青藏高原冻土区土壤温度的时空变化及影响因素的识别和模拟” 2022.01-2024.12 主持

基础科学中心项目“青藏高原地球系统基础科学中心”:课题“高寒生态系统响应与反馈” 2020.01-2024.12 参与


Full publication list:

https://scholar.google.com/citations?hl=zh-CN&user=N5RNot0AAAAJ&view_op=list_works&sortby=pubdate

https://www.webofscience.com/wos/author/record/637194 


第一/通讯作者:


Gao, Y., Zhu, D.*, Wang, Z., Lin, Z., Zhang, Y., and Wang K. Projected Increasing Negative Impact of Extreme Events on Gross Primary Productivity During the 21st Century in CMIP6 Models. Earth's Future 2024.12 (11): e2024EF004798. https://doi.org/10.1029/2024EF004798 

Zhu, D.*, Wang, Y., Ciais, P., Chevallier, F., Peng, S., Zhang, Y., & Wang, X. Temperature dependence of spring carbon uptake in northern high latitudes during the past four decades. Global Change Biology. 2023. https://doi.org/10.1111/gcb.17043 

Wang, Z., Zhu, D.*, Wang, X., Zhang, Y., & Peng, S. Regressions underestimate the direct effect of soil moisture on land carbon sink variability. Global Change Biology. 2022. https://doi.org/10.1111/gcb.16422

Wang, Y., Wang, X.*, Wang, K., Chevallier, F., Zhu, D.*, Lian, J., He, Y., Tian, H., Li, J., Zhu, J., Jeong, S. and Canadell, J. G.: The size of the land carbon sink in China, Nature, 2022. https://www.nature.com/articles/s41586-021-04255-y

Zhu, D.*, Galbraith, E., Reyes-García, V., Ciais, P. Global hunter-gatherer population densities constrained by influence of seasonality on diet composition. Nature Ecology & Evolution, 2021.  https://www.nature.com/articles/s41559-021-01548-3

Chen, W., Ciais, P., Zhu, D.*, Ducharne, A., Viovy, N., Qiu, C. and Huang, C.*: Feedbacks of soil properties on vegetation during the Green Sahara period, Quaternary Science Reviews, 2020. https://www.sciencedirect.com/science/article/pii/S0277379120303516 

Li, P., Zhu, D.*, Wang, Y., & Liu, D. Elevation dependence of drought legacy effects on vegetation greenness over the Tibetan Plateau. Agricultural and Forest Meteorology, 2020. https://doi.org/10.1016/j.agrformet.2020.108190 

Zhu, D.*, Ciais, P., Krinner, G., Maignan, F., Jornet-puig, A., and Hugelius, G.: Controls of soil organic matter on soil thermal dynamics in the northern high latitudes. Nature Communications, 2019. https://www.nature.com/articles/s41467-019-11103-1

Zhu, D.*, Ciais, P., Chang, J., Krinner, G., Peng, S., Viovy, N., Peñuelas, J. and Zimov, S.: The large mean body size of mammalian herbivores explains the productivity paradox during the Last Glacial Maximum, Nature Ecology & Evolution, 2(4), 640–649, 2018. https://www.nature.com/articles/s41559-018-0481-y

Guimberteau, M.#*, Zhu, D.#*, Maignan, F., Huang, Y., Yue, C., Dantec-Nédélec, S., Ottlé, C., Jornet-Puig, A., Bastos, A., Laurent, P., Goll, D., Bowring, S., Chang, J., Guenet, B., Tifafi, M., Peng, S., Krinner, G., Ducharne, A., Wang, F., Wang, T., Wang, X., Wang, Y., Yin, Z., Lauerwald, R., Joetzjer, E., Qiu, C., Kim, H. and Ciais, P.: ORCHIDEE-MICT (v8.4.1), a land surface model for the high latitudes: model description and validation, Geoscientific Model Development 11(1), 121–163, 2018. https://gmd.copernicus.org/articles/11/121/2018/ (ESI highly cited paper)

Zhu, D.*, Peng, S., Ciais, P., Zech, R., Krinner, G., Zimov, S. and Grosse, G.: Simulating soil organic carbon in yedoma deposits during the last glacial maximum in a land surface model, Geophysical Research Letters 1-10, 2016. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2016GL068874

Zhu, D.*, Peng, S. S., Ciais, P., Viovy, N., Druel, A., Kageyama, M., Krinner, G., Peylin, P., Ottlé, C., Piao, S. L., Poulter, B., Schepaschenko, D. and Shvidenko, A.: Improving the dynamics of Northern Hemisphere high-latitude vegetation in the ORCHIDEE ecosystem model, Geoscientific Model Development 8(7), 2263–2283, 2015. https://gmd.copernicus.org/articles/8/2263/2015/gmd-8-2263-2015.html

Zhu, D., Tao, S.*, Wang, R., Shen, H., Huang, Y., Shen, G., … Liu, W. Temporal and spatial trends of residential energy consumption and air pollutant emissions in China. Applied Energy, 2013. https://doi.org/10.1016/j.apenergy.2013.01.040



合作作者(selected):


Qiu, C., Ciais, P., Zhu, D., Guenet, B., Chang, J., Chaudhary, N., … Westermann, S. A strong mitigation scenario maintains climate neutrality of northern peatlands. One Earth, (2022).

Qiu, C., Ciais, P., Zhu, D., Guenet, B., Peng, S., Petrescu, A. M. R., … Brewer, S. C. Large historical carbon emissions from cultivated northern peatlands. Science Advances, (2021).

Huang, Y., Ciais, P., Luo, Y., Zhu, D., Wang, Y., Qiu, C., Goll, D. S., Guenet, B., Makowski, D., De Graaf, I., Leifeld, J., Kwon, M. J., Hu, J. and Qu, L.: Tradeoff of CO2 and CH4 emissions from global peatlands under water-table drawdown, Nature Climate Change, (2021).

Gasser, T., Kechiar, M., Ciais, P., Burke, E. J., Kleinen, T., Zhu, D., Huang, Y., Ekici, A. and Obersteiner, M.: Path-dependent reductions in CO2 emission budgets caused by permafrost carbon release, Nature Geoscience, (2018).

Buermann, W., Forkel, M., O’Sullivan, M., Sitch, S., Friedlingstein, P., Haverd, V., Jain, K., Kato, E., Kautz, M., Lienert, S., Lombardozzi, D., Nabel, J. E. M. S., Tian, H., Wiltshire, A. J., Zhu, D., Smith, W. K. and Richardson, A. D.: Widespread seasonal compensation effects of spring warming on northern plant productivity, Nature, 562(7725), 110–114, (2018).

Braconnot, P., Zhu, D., O. Marti, J. Servonnat, Strengths and challenges for transient Mid- to Late Holocene simulations with dynamical vegetation. Climate of the Past 15, 997–1024 (2019).

Chen, W., Zhu, D., P. Ciais, C. Huang, N. Viovy, Response of vegetation cover to CO 2 and climate changes between Last Glacial Maximum and pre-industrial period in a dynamic global vegetation model. Quaternary Science Reviews 218, 1–13 (2019).

Qiu, C., Zhu, D., P. Ciais, B. Guenet, S. Peng, The role of northern peatlands in the global carbon cycle for the 21st century. Global Ecology and Biogeography 29, 956–973 (2020).

Qiu, C., Zhu, D., P. Ciais, B. Guenet, S. Peng, G. Krinner, A. Tootchi, A. Ducharne, A. Hastie, Modelling northern peatland area and carbon dynamics since the Holocene with the ORCHIDEE-PEAT land surface model. Geoscientific Model Development 12, 2961–2982 (2019).

Qiu, C., Zhu, D., Ciais, P., et al.: ORCHIDEE-PEAT, a model for northern peatland CO2, water, and energy fluxes on daily to annual scales, Geoscientific Model Development 11(2), 497–519, (2018).

Le Quéré, C, Andrew, R. M., P. Friedlingstein, S. Sitch, J. Pongratz, A. C. Manning, J. I. Korsbakken, G. P. Peters, J. G. Canadell, R. B. Jackson, T. A. Boden, P. P. Tans, O. D. Andrews, V. K. Arora, D. C. E. Bakker, L. Barbero, M. Becker, R. A. Betts, L. Bopp, F. Chevallier, L. P. Chini, P. Ciais, C. E. Cosca, J. Cross, K. Currie, T. Gasser, I. Harris, J. Hauck, V. Haverd, R. A. Houghton, C. W. Hunt, G. Hurtt, T. Ilyina, A. K. Jain, E. Kato, M. Kautz, R. F. Keeling, K. Klein Goldewijk, A. Körtzinger, P. Landschützer, N. Lefèvre, A. Lenton, S. Lienert, I. Lima, D. Lombardozzi, N. Metzl, F. Millero, P. M. S. Monteiro, D. R. Munro, J. E. M. S. Nabel, S. Nakaoka, Y. Nojiri, X. A. Padin, A. Peregon, B. Pfeil, D. Pierrot, B. Poulter, G. Rehder, J. Reimer, C. Rödenbeck, J. Schwinger, R. Séférian, I. Skjelvan, B. D. Stocker, H. Tian, B. Tilbrook, F. N. Tubiello, I. T. van der Laan-Luijkx, G. R. van der Werf, S. van Heuven, N. Viovy, N. Vuichard, A. P. Walker, A. J. Watson, A. J. Wiltshire, S. Zaehle, Zhu, D., Global Carbon Budget 2017. Earth System Science Data 10, 405–448 (2018).