| 姓名: | 易永红 | |
| 性别: | 女 | |
职称: |
研究员 | |
籍贯: |
湖北 | |
邮箱: |
yonghong_yi@tongji.edu.cn | |
简介: |
上海海外高层次人才。先后在蒙大拿大学、美国国家宇航局(NASA)喷气推进实验室和加州大学洛杉矶分校从事研究工作。长期从事陆面水-碳循环过程遥感算法和模型研究,主要创新性成果包括改进了大尺度冻土模型中的水文和碳循环耦合过程,采用多源遥感数据刻画地表非均匀性对环北极冻土分布和碳循环的影响等。在地学领域知名刊物上发表SCI论文近30篇,近5年共发表SCI文章15篇,平均影响因子6.50。获得了多项NASA资助,和领域内知名国际会议口头报告多次邀请,也是NASA高寒野外计划雷达冻土模型的主要负责人之一。 |
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工作经历: · 2021.10-: 同济大学测绘与地理信息学院,研究员 · 2020.4-2021.9: 加州大学洛杉矶分校地球系统科学与技术研究所,助理研究员 · 2018.4-2020.3: NASA 喷气推进实验室(JPL) ,项目研究员 · 2009.9-2018.3: 美国蒙大拿大学,林业系,研究科学家 · 2008.9-2009.8: 曼尼托巴大学(加拿大)土木工程系,博士后 教育背景: · 2005-2008 清华大学,博士(水利工程) · 2002-2005 北京大学,硕士(地图学与地理信息系统) · 1998-2002 武汉大学,学士(水文学与水资源工程) 主要研究方向: · 全球变化与生态系统响应 · 陆面生态系统水、碳过程模拟 · 冻土遥感与过程模拟 · 陆面参数遥感反演 学术兼职: · Science Team Member: NASA Arctic Boreal Vulnerability Experiment (ABoVE), 2019-至今. · 项目评审委员: NSF Polar Programs (2016), NASA Water Resources Earth Science Applications (2014), NASA Interdisciplinary Research in Earth Science (2013). · 期刊编辑及会议召集: Guest Editor (Frontiers in Big Data; Frontiers in Earth Sciences); Review Editor (Frontiers in Remote Sensing), Session convener (2021 Regional Conference on Permafrost). · 期刊评审: Nature Geoscience, The Cryosphere, Water Resources Research, Journal of Geophysical Research, Remote Sensing of Environment, Global Change Biology, IEEE Transactions on Geoscience and Remote Sensing 等. 近年来主要科研项目: · 上海海外高层次人才项目,2021.10- 2026.10, 200万元 · NASA Terrestrial Hydrology Program,极地高分辨率土壤水分多源遥感数据融合算法研究), 2021.4-2024.3 ,60万美元,专题负责人 · NASA Terrestrial Ecology program, 雷达-土壤过程耦合模型开发及冻土过程研究),2019.04-2022.03,78万美元,专题负责人 · NASA NPP Program (Senior Fellow), 土壤水分对高寒区土壤冻融过程和非生长期呼吸量的模拟研究),2018.4-2020.3,18万美元,主持 · 四川大学水力学与山区河流开发保护重点实验室开放基金,基于多源遥感数据和过程模型研究青藏高原冻土退化对生态水文过程的影响, 2015.5-2017.4, 8万,主持 招收方向: 目前有几个国际合作方面(JPL/USC/UAF)的项目,研究方向包括环北极土壤冻融过程和生态系统水、碳交换季节性的关联模型和数据集成研究,以及结合模型和最新遥感数据研究环北极和青藏地区冻土生态水文过程等,欢迎对交叉研究感兴趣的同学加入本课题组攻读博士和硕士学位。也欢迎具有模型和定量遥感基础、深度学习方面背景的博士后及以上层次的学者同我联系相应合作研究机会。 近期主要SCI论文: 1. Yi, Y., Chen, R. H., Kimball, J. S., Moghaddam, M., Xu, X., Euskirchen, E. S., et al. Potential Satellite Monitoring of Surface Organic Soil Properties in Arctic Tundra From SMAP. Water Resources Research, 58(4), 2022. 2. Byrne, B., Liu, J., Yi, Y., Chatterjee, A., Basu, S., Cheng, R., Doughty, R., et al. Multi-year observations reveal a larger than expected autumn respiration signal across northeast Eurasia, Biogeosciences Discuss., https://doi.org/10.5194/bg-2022-40, 2022. 3. Bakian-Dogaheh, K., Chen, R., Yi, Y., Kimball, J. S., Moghaddam, M., & Tabatabaeenejad, A. A model to characterize soil moisture and organic matter profiles in the permafrost active layer in support of radar remote sensing in Alaskan Arctic tundra. Environmental Research Letters, 17(2), 025011, 2022. 4. Yi, Y., Chen, R.H., Moghaddam M., Kimball J.S., Jones, B.A., Jandt, R., Miller,E. Miller, C., Sensitivity of multi-frequency polarimetric SAR data to Arctic tundra post-fire recovery. IEEE Trans. Geosci. Remote Sensing, 2021. 5. Kim, J., Kim, Y., Zona, D., Oechel, Park, S., Lee, B., Yi, Y., Erb, A., Schaaf, C. Carbon response of tundra ecosystems to advancing greenup and snowmelt in Alaska. Nature Communications, 12(1), 6879, 2021. 6. Yi, Y., Kimball, J.S., Watts, J., Natali, S., Zona, D., Liu, J., Ueyama, M., Kobayashi, H., Oechel, W., and Miller, C.E.: Investigating the sensitivity of soil heterotrophic respiration to recent snow cover changes in Alaska using a satellite-based permafrost carbon model. Biogeosciences, 17, 5861-5882, 2020. 7. Jiang, H., Zhang, G., Yi, Y.*, Chen, D., Zhang, W., Yang, K., Miller, C.E.: Progress and challenges in studying regional permafrost in the Tibetan Plateau using satellite remote sensing and models. Frontiers in Earth Science, 8:560403, 2020. 8. Zheng, G., Yang, Y., Yang, D., Dafflon, B., Yi, Y., Zhang, S., Chen, D., Gao, B., Wang, T., Shi, R., and Wu, Q. Remote sensing spatiotemporal patterns of frozen soil and the environmental controls over the Tibetan Plateau during 2002–2016. Remote Sensing of Environment, 247, 111927, 2020. 9. Jiang, H., Yi, Y., Zhang, W., Yang, K., Chen, D.: Investigating the sensitivity of soil freeze/thaw dynamics to environmental conditions at different scales in the Central Tibetan Plateau. Science of the Total Environment. 734, 129261, 2020. 10. Yi, Y., Kimball, J.S., Chen, R.H., Moghaddam, M., and Miller, C.E.: Sensitivity of active-layer freezing process to snow cover in Arctic Alaska, The Cryosphere, 13, 197-218, 2019. 11. He, M., Kimball, J.S., Yi, Y., Mu, Q., Running, S.W., Guang, K., Maneta, M.: Satellite data-driven modeling of field scale evapotranspiration in croplands using the MOD16 algorithm framework. Remote Sensing of Environment, 230, 2019. 12. He, M., Kimball, J.S., Yi, Y. et al. Impacts of the 2017 flash drought in the US Northern plains informed by satellite-based evapotranspiration and solar-induced fluorescence. Environ. Res. Lett., 14, 074019, 2019. 13. Yi, Y., Kimball, J.S., Chen, R., Moghaddam, M., Reichle, R.H., Mishra, U., Zona, D., Oechel, W.: Characterizing permafrost soil active layer dynamics and sensitivity to landscape spatial heterogeneity in Alaska. The Cryosphere, 12, 145-161, 2018. 14. Jiang, H., Zhang, W., Yi, Y. et al.: The impacts of soil freeze/thaw dynamics on soil water transfer and spring phenology in the Tibetan Plateau. Arctic, Antarctic and Alpine Research, 50(1), e1439155, 2018. 15. Zhang, W., Yi, Y., Song, K., Kimball, J.S.: Hydrological sensitivity of alpine wetlands to climate warming in the eastern Tibetan Plateau. Remote Sensing, 8, 336, 2016. 16. Yi, Y., Kimball, J. S., Rawlins, M. A., Moghaddam, M., Euskirchen, E. S.: The role of snow cover affecting boreal-arctic soil freeze-thaw and carbon dynamics, Biogeosciences, 12, 5811-5829, 2015. 个人文章列表:https://www.researchgate.net/profile/Yonghong-Yi- |
