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人才详细信息

姓名:张原
性别:
学历:博士
专家类别:研究员
电话:
传真:
电子邮箱:yuan.zhang@itpcas.ac.cn
职称:研究员
通讯地址:北京市朝阳区林萃路16号院3号楼

简介

教育与工作经历

11/2023 – 至今, 中国科学院青藏高原研究所 聘期研究员

04/2020 – 05/2023, 法国气候与环境实验室博 士后

11/2016 – 03/2020, 法国索邦大学环境科学专业,获博士学位

09/2013 – 07/2016, 北京大学生态学专业,获硕士学位

09/2009 – 07/2013, 北京大学生态学专业,获学士学位

主要研究成果

长期从事气溶胶对陆地生态系统影响以及相关数值模拟的研究,提供了气溶胶散射辐射普遍增加光能利用效率的全球性证据,发现了气溶胶对光合作用过程影响机制的日变化规律;在ORCHIDEE陆面模型中研发了用于模拟气溶胶对植被和碳循环影响的模块,完善了气溶胶散射辐射效应对陆地生态系统影响研究的实验设计;揭示了气溶胶降温效应对陆地碳汇影响的纬向分布格局,定量阐明了工业革命以来近一半的陆地生态系统碳汇由人为气溶胶排放所贡献,并且指出这一贡献主要源自于气溶胶散射辐射增强对植被生产力的促进作用。

研究方向

气溶胶与陆地生态系统 陆地生态系统模型

承担项目

1.重点研发课题, 平流层地球工程对中国陆地生态系统的影响. 2024-2029,主持
2.欧盟Horizon 2020项目, Climate-Carbon Interactions in the Current Century. 2019-2013,参与
3.欧盟Horizon 2020项目, Coordinated Research in Earth Systems and Climate: Experiments, kNowledge, Dissemination and Outreach. 2015-2021,参与

获奖及荣誉

2020 国家优秀自费留学生奖学金

代表论著

第一(含共同第一)/通讯作者论文

  1. Ma, R., Zhang Y.*, Ciais, P., Xiao, J., Liang, S.* Stepwise calibration of age-dependent biomass in the Integrated Biosphere Simulator (IBIS v2.6) model. 2024. Journal of Advances in Modeling Earth Systems, 16, e2023MS004048. https://doi.org/10.1029/2023MS004048.
  2. Zhang, Y.*, Liang E Y, Wang T, et al. Research progresses on the impacts of volcanic eruptions on vegetation and terrestrial carbon cycle (in Chinese). 2024. Chin Sci Bull. doi: 10.1360/TB-2023-0247
  3. Zhang, Y.*, Narayanappa, D., Ciais, P., Li, W., Goll, D., Vuichard, N., De Kauwe, M. G., Li, L., and Maignan, F. 2022. Evaluating the vegetation–atmosphere coupling strength of ORCHIDEE land surface model (v7266), Geoscietific Model Development, 15, 9111–9125, https://doi.org/10.5194/gmd-15-9111-2022.
  4. Zhang, Y*, Ciais, P., Boucher, O., Maignan, F., Bastos, A., Goll, D., Lurton, T., Viovy, N., Bellouin, N., and Li, L., 2021. Disentangling the impacts of anthropogenic aerosols on terrestrial carbon cycle during 1850-2014. Earth's Future. 9, e2021EF002035. https://doi.org/10.1029/2021EF002035
  5. Zhang, Y.*, Boucher, O., Ciais, P., Li, L., and Bellouin, N.. 2021. How to reconstruct aerosol-induced diffuse radiation scenario for simulating GPP in land surface models? An evaluation of reconstruction methods with ORCHIDEE_DFv1.0_DFforc, Geoscietific Model Development., 14, 2029–2039, https://doi.org/10.5194/gmd-14-2029-2021.
  6. Zhang, Y.*, Bastos, A., Maignan, F., Goll, D., Boucher, O., Li, L., Cescatti, A., Vuichard, N., Chen, X., Ammann, C., Arain, M. A., Black, T. A., Chojnicki, B., Kato, T., Mammarella, I., Montagnani, L., Roupsard, O., Sanz, M. J., Siebicke, L., Urbaniak, M., Vaccari, F. P., Wohlfahrt, G., Woodgate, W., and Ciais, P. 2020. Modeling the impacts of diffuse light fraction on photosynthesis in ORCHIDEE (v5453) land surface model. Geoscietific Model Development., 13, 5401–5423, https://doi.org/10.5194/gmd-13-5401-2020.
  7. Zhang, Y.*, Goll, D., Bastos, A., Balkanski, Y., Boucher, O., Cescatti, A., Collier, M., Gasser, T., Ghattas, J., Li, L., Piao, S., Viovy, N., Zhu, D., and Ciais, P. 2019, Increased Global Land Carbon Sink Due to Aerosol-Induced Cooling. Global Biogeochemical Cycles. 33, 439–457, https://doi.org/10.1029/2018gb006051, 2019.
  8. Song, J., Liu, Z., Zhang, Y. (co-first author), Yan, T., Shen, Z., and Piao, S. 2018. Effects of wildfire on soil respiration and its heterotrophic and autotrophic components in a montane coniferous forest. Journal of Plant Ecology doi:10.1093/jpe/rty031
  9. Zhang, Y., Zhu, Z., Liu, Z., Zeng, Z., Ciais, P., Huang, M., Liu, Y., and Piao, S. 2016. Seasonal and interannual changes in vegetation activity of tropical forests in Southeast Asia. Agricultural and Forest Meteorology, 224: 1-10
  10. Zhang, Y., Yao, Y., Wang, X., Liu, Y., and Piao, S. 2016. Mapping spatial distribution of forest age in China. Earth and Space Science, 4: 108–116 
  11. Yin, G., Zhang, Y. (co-first author), Sun, Y., Wang, T., Zeng, Z., and Piao, S. 2015. MODIS Based Estimation of Forest Aboveground Biomass in China, PLoS ONE, 10(6): e0130143. DOI:10.1371/journal.pone.0130143


合著论文

  1. Xi, Y., Qiu, C.,Zhang, Y., Zhu, D., Peng, S., Hugelius, G., Chang, J., Salmon, E., and Ciais, P.: Assessment of a tiling energy budget approach in a land surface model, ORCHIDEE-MICT (r8205) (2024) Geoscietific Model Development, 17, 4727–4754, https://doi.org/10.5194/gmd-17-4727-2024.
  2. Chen, S., Liu, D., Zhang, Y., Zheng, R., & Wang, T. (2024). Data-constrained modeling of terrestrial gross primary production over the Tibetan Plateau for 2003–2019. Agricultural and forest meteorology, 355, 110129. https://doi.org/https://doi.org/10.1016/j.agrformet.2024.110129
  3. Liu, L., Ciais, P., Fabienne, M., Zhang, Y., Viovy, N., et al. Solar Radiation Triggers the Bimodal Leaf Phenology of Central African Evergreen Broadleaved Forests. 2024. Journal of Advances in Modeling Earth Systems, 16, e2023MS004014.
  4. Leng, Y., Li, W., Ciais, P., Sun, M., Zhu, L., Yue, C., Chang, J., Yao, Y., Zhang, Y., Zhou, J., Li, Z., Wang, X., Xi, Y., & Peng, S. 2024. Forest aging limits future carbon sink in China. One Earth, 7(5), 822-834. https://doi.org/10.1016/j.oneear.2024.04.011
  5. Tang, S., Vlug, A., Piao, S., Li, F., Wang, T., Krinner, G., Li, L., Wang, X., Wu, G., Li, Y., Zhang, Y., Lian, X., and Yao, T. 2023. Regional and tele-connected impacts of the Tibetan Plateau surface darkening. Nature Communication. 14, 32. https://doi.org/10.1038/s41467-022-35672-w
  6. Wang, C., Wang, X., Jin, Z., Muller, C., Pugh, T. A. M., Chen, A., Wang, T., Huang, L., Zhang, Y., Li, L., Piao, S. 2022. Occurrence of crop pests and diseases has largely increased in China since 1970. Nature Food 3, 57–65. https://doi.org/10.1038/s43016-021-00428-0
  7. Xu, H., Lian, X., Slette, I. J., Yang, H., Zhang, Y., Chen, A., Piao, S., 2022. Rising ecosystem water demand exacerbates the lengthening of tropical dry seasons. Nature Communication 13, 4093. https://doi.org/10.1038/s41467-022-31826-y
  8. Shi, X., Risi, C., Li, L., Wang, X., Pu, T., Zhang, G., Zhang, Y., Wang, Z., Kong, Y. 2022. Journal of Geophysical Research: Atmospheres, 127(22): e2022JD037048. 
  9. O'Sullivan, M., Zhang, Y., Bellouin, N., Harris, I., Mercado, L., Sitch, S., Ciais, P., and Friedlingstein, P. 2021. Aerosol-light interactions reduce the carbon budget imbalance. Environmental Research Letters. 16, 124072. https://doi.org/10.1088/1748-9326/ac3b77
  10. 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., and 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. https://doi.org/10.1029/2020GB006893
  11. Huang, L., Wang, X., Sang, Y., Tang, S., Jin, L., Yang, H., Ottle, C., Bernus, A., Wang, S., Wang, C., Zhang, Y. 2021. Earth and Space Science, 8, e2021EA001737. https://doi.org/10.1029/2021EA001737
  12. Zhao, H., Fu, Y. H., Wang, X., Zhang, Y., Liu, Y., Janssens, I. A. 2021. Diverging models introduce large uncertainty in future climate warming impact on spring phenology of temperate deciduous trees, Science of The Total Environment, 757, 143903. 
  13. Peng, S., Piao, S., Bousquet, P., Ciais, P., Li, B., Lin, X., Tao, S., Wang, Z., Zhang, Y., and Zhou, F. 2016. Inventory of anthropogenic methane emissions in mainland China from 1980 to 2010, Atmospheric Chemistry and Physics, 16, 14545–14562, https://doi.org/10.5194/acp-16-14545-2016.
  14. Wu, X., Lin, X., Zhang, Y., Gao, J., Guo, L., and Li, J. 2014 Impacts of climate change on ecosystem in Priority Areas of Biodiversity Conservation in China, Chinese Science Bulletin, 59(34):4668–4680 
  15. Sun Z., Liu L., Ma Y., Yin G., Zhao C., Zhang Y., and PiaoS. 2014. The effect of nitrogen addition on soil respiration from a nitrogen-limited forest soil, Agricultural and Forest Meteorology, 197: 103–110 
  16. Fu, YS. H., Piao, S., Op de Beeck, M., Cong, N., Zhao, H., Zhang, Y., Menzel, A., and Janssens, I. 2014. Recent spring phenology shifts in western Central Europe based on multiscale observations. Global Ecology and Biogeography. 23: 1255-1263 
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