人才详细信息

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

简介

工作经历:

2025.03--今,      中国科学院青藏高原研究所,副研究员

2021.11--2025.02, 北京大学,访问学者/特聘副研究员

2019.11--2020.12, 德国亥姆霍兹基尔海洋研究中心(GEOMAR),博士后/访问学者

2016.11--2021.10, 中国科学院青藏高原研究所,博士后

教育背景:

2012.09--2016.06   中国地质大学(北京),古生物学与地层学,博士

2009.09--2012.06   太原科技大学,流体力学,硕士

2005.09--2009.06   淮海工学院(现江苏海洋大学),海洋技术,学士

研究方向

古气候与古海洋模拟:主要研究过去亚洲气候在构造-轨道时间尺度上的演化,以及重大地质事件时期(如晚奥陶-早志留世、白垩纪大洋缺氧时期、白垩纪末等)海洋生物地球化学循环、碳循环、海洋缺氧等变化及其与全球气候系统变化的联系。

职务

副研究员

承担项目

1. 国家自然科学基金面上项目,白垩纪时期亚洲沙漠带形成及其南北漂移机制的模拟研究,2024/01-2027/12,主持

2. 

白垩纪-古近纪之交生物大灭绝机制研究:模拟测试大火成岩省喷发和小行星撞击的影响?中国科学院重大科技基础设施:地球系统数值模拟装置重点课题,2023/04-2025/04,主持

3. 

国家自然科学基金青年项目,晚白垩世冈底斯山脉隆升对亚洲气候影响的数值模拟及对其古高程的约束, 2021/01-2023/12,主持

4. 

博士后面上基金,白垩东亚古气候模拟及其控制机制探索研究,2017/04-2021/10,主持

5. 

国家重点研发计划,晚奥陶早志留世全球大规模有机质堆积对地球宜居性的影响,2023/12-2028/11,骨干

6. 

国家自然科学基金重点项目,晚古生代-中生代羌塘盆地大陆-气候-洋流耦合对烃源岩-膏盐盖层形成的制约,2025/01-2029/12,骨干

代表论著

一作/通讯论文:

  1. Zhang J.*, Wang L.*, Flögel S., Hu Y., Wang C., 2024. Effects of the global warming and the protoplateau uplift on the East Asian climate during the mid-Cretaceous. Palaeogeography, Palaeoclimatology, Palaeoecology 637, 112007.
  2. Zhang J.*, Flögel S., Hu Y., Zhao A., Chu R., Wang C., 2023. Coastal Mountains Amplified the Impacts of Orbital Forcing on East Asian Climate in the Late Cretaceous. Geophysical Research Letters 20, e2023GL105932.
  3. Zhang J.*, Hu Y., Zhu C., Flögel S., Fang X., Sun J., 2023. Modeling the effects of global cooling and the Tethyan Seaway closure on North African and South Asian climates during the Middle Miocene Climate Transition. Palaeogeography,Palaeoclimatology,Palaeoecology 619, 111541.
  4. Zhang J.*, Liu Y., Fang X.*, Zhang T., Zhu C., Wang C., 2021. Elevation of the Gangdese Mountains and Their Impacts on Asian Climate during the Late Cretaceous - a Modeling Study. Frontiers in Earth Science 9(1270), 810931.
  5. Zhang J.*, Liu Y., Flögel S., Zhang T., Wang C., Fang X., 2021. Altitude of the East Asian Coastal Mountains and Their Influence on Asian Climate during Early Late Cretaceous. Journal of Geophysical Research: Atmospheres 126(22), e2020JD034413.
  6. Zhang J.*, Liu Y., Fang X., Wang C., Yang Y., 2019. Large dry-humid fluctuations in Asia during the Late Cretaceous due to orbital forcing: a modeling study. Palaeogeography,Palaeoclimatology,Palaeoecology 533, 109230.
  7. Zhang J., Li X.*, Wang R., Sun X., Cui X., 2012. Traffic bottleneck characteristics caused by the reduction of lanes in an optimal Velocity Model. Physica A 391(4): 2381-2389.
  8. Yang Y.*, Galy A. Zhang J.*, Lambert F., Zhang M., Zhang F., Fang X., 2023. Enhanced dust transport buffers land surface weatherability in a cooling world. Geochemical Perspectives Letters 26, 36-39.

其他合作论文:

  1. Li Z.,Hu Y.*, Fu Q., Bao X., Zhang J., Li X., Guo J., Lin Q., Yuan S., Lan J., Han J., Zhang S., Wei Q., Liu Y., Yang J., Nie J., Guo Z., 2025. Evolution of Terrestrial Aridity and Dryland Since Pangea. Paleoceanography and Paleoclimatology 40(1): e2024PA004886.
  2. Liu Y.*, Zhang J., Zuo, H., He Z., Guo J., Lin Q., Yu H., Lan J., Han J., Song Z., Yin Z., Zhao L., Hu Y., Guo Z., 2024. Spatial continuous modeling of early Cenozoic carbon cycle and climate. National Science Review 11(4), nwae061.
  3. Li Z., Hu Y.*, Zhang J., Li X., Guo J., Lan J., Lin Q., Yuan S., Wei M., Yin Z., Wei Q., Bao X., Han J., Yang J., Liu Y., Nie J., 2024. The Pacific-North American teleconnection in the Cenozoic. Global and Planetary Change 235, 104402.
  4. Wang W., Chu X., Zhang J., Cui Y., Chen X., Wang Y., Su S. 2024. The climatic pattern of East Asia shifted in response to cratonic thinning in the Early Cretaceous. Communications Earth & Environment 5(1): 728.
  5. Zhao A., Feng R., Brierley M., Zhang J., Hu Y.*, 2024. Aerosol uncertainties in tropical precipitation changes for the mid-Pliocene Warm Period. Climate of the Past 20, 1195-1211.
  6. Zhang T., Han W.*, Tian Q.*, Zhang J., Kemp D.B., Wang Z, Yan X., Mai L., Fang X., Ogg J., 2024. Tectonically Controlled Establishment of Modern-Like Precipitation Patterns in East and Central Asia during the Early Late Miocene. Journal of Geophysical Research: Atmospheres 129, 12, e2024JD041025.
  7. Wang L.*, Garzanti E., Cai F.*, Zhang J., Shen L., Nulay P., Siritongkham N., Ding L., Wang C., 2024. The underestimated role of tectonics in the mid-Cretaceous desertification in SE Asia. GSA Bulletin 136 (1-2): 418–432.
  8. Li J., Dong S., Zhao G., Cawood P. A., Johnston S. T., Zhang J., Xin Y., Wang J., 2024. Cretaceous coastal mountain building and potential impacts on climate change in East Asia. Science Advances 10(50): eads0587.
  9. Lin Q., Liu Y.*, Guo J., Li X., Lan J., Zuo H., Zhang M., Zhang J., Zhao Z., Yuan S., Bao X., Hu Y., 2024. Simulated dust activity in typical time periods of the past 250 million years, Fundamental Research. In press.
  10. Li X., Hu S., Hu Y.*, Cai W., Jin Y., Lu Z., Guo J., Lan J., Lin Q., Yuan S., Zhang J., Wei Q., Liu Y., Yang J., Nie J., 2024. Persistently active El Niño–Southern Oscillation since the Mesozoic. Proc Natl Acad Sci USA 45, e2404758121.
  11. Yuan S., Liu Y., Hu Y., Mei J., Han J., Bao X., Li X., Lin Q., Wei M., Li Z., Yin Z., Man K., Guo J., Liu Y., Sun Y., Wu J., Zhang J., Wei Q., Yang J., Nie J., 2024. Controlling factors for the global meridional overturning circulation: A lesson from the Paleozoic. Science Advances 10, 26, eadm7813.
  12. Zhang R.*, Jiang D., Zhang J., Zhang C., Yang Y., Jia Y., Wang N., 2023. Impact of the uplift of the Central Asian Orogenic Belt and NE Tibetan Plateau on the East Asian climate since the late Miocene. Palaeogeography, Palaeoclimatology, palaeoecology 615, 111451.
  13. Zhu C.*, Zhang Z.*, Zhu C., Zhang J., 2023. Potential role of mid-latitude seaway on early Paleogene Atlantic overturning circulation. Geophysical Research Letters, 2023, 50(10): e2023GL102794.
  14. Wang Z., Liu Y.*, Yin X., Zhang M., Zhang J., Qiao F., 2023. The Effect of an Exponentially Decaying Upper-ocean Vertical Mixing on the Pacific Tropical Sea Surface Temperature. Journal of Physical Oceanography 53, 2455–2473.
  15. Zhang S., Hu Y.*, Yang J., Li X., Kang W., Zhang J., Liu Y., Nie J., 2023. The Hadley circulation in the Pangea era. Science Bulletin 68(10), 1060-1068.
  16. Hu Y. *, Li X., Boos W., Guo J., Lan J., Lin Q., Han J., Zhang J., Bao X., Yuan S., Wei Q., Liu Y., Yang J., Nie J., Guo Z.*, 2023. Emergence of the modern global monsoon from the Pangea Megamonsoon set by palaeogeography. Nature Geosciences 16, 1041-1046.
  17. Lan J., Yang J.*, Hu Y., Li X., Guo J., Lin Q., Han J., Zhang J., Wang S., Nie J., 2023. Weak Equatorial Superrotation During the Past 250 Million years. Journal of the Atmospheric Sciences, 80(4), 1003-1023.
  18. Li X., Hu Y.*, Yang J., Wei M., Guo J., Lan J., Lin Q., Yuan S., Zhang J., Liu Y., Nie J., Xia Y., Hu S., 2023. Climate Variations in the Past 250 Million Years and Contributing Factors. Paleoceanography and Paleoclimatology 38, e2022PA004503.
  19. Bao X., Hu Y.*, Scotese C., Li X., Guo J., Lan J., Lin Q., Yuan S., Wei M., Li Z., Man K., Yin Z., Han J., Zhang J., Wei Q., Liu Y., Yang J., Nie J., 2023. Quantifying Climate Conditions for the Formation of Coals and Evaporites. National Science Review 10(6), nwad051.
  20. Wu Y., Liu Y.*, Zhou W., Zhang J., 2022. The Mid-Holocene East Asian Summer Monsoon Simulated by PMIP4-CMIP6 and PMIP3-CMIP5: Model Uncertainty and Its Possible Sources. Global and Planetary Change 219, 103986.
  21. Li X., Hu Y.*, Guo J., Lan J., Lin Q., Bao X., Yuan S., Wei M., Li Z., Man K., Yin Z., Han J., Zhang J., Liu Y., Yang J., Nie J., 2022. A high-resolution climate simulation dataset for the past 540 million years. Scientific Data 9, 371.
  22. Zhang M., Liu Y.*, Zhang J., Wen Q., 2021. AMOC and Climate Responses to Dust Reduction and Greening of Sahara during the Mid-Holocene, Journal of Climate, 2021, 34(12): 4893-4912.
  23. Yang Y.*, Galy A., Fang X.*, France-Lanord C., Wan S., Yang R., Zhang J., Zhang R., Yang S., Miao Y., Liu Y., Ye C., 2021. East Asian monsoon intensification promoted weathering of the magnesium-rich southern China upper crust and its global significance. Science China Earth Sciences 64: 1155-1170.
  24. Zhu C., Meng J.*, Hu Y., Wang C.*, Zhang J., 2019. East-Central Asian Climate Evolved With the Northward Migration of the High Proto-Tibetan Plateau. Geophysical Research Letters 46: 8397-8406.