赵慧，女，中国科学院、水利部成都山地灾害与环境研究所副研究员，硕士生导师；北京师范大学博士，美国俄克拉荷马大学访问学者；西藏自治区高层次柔性人才引进，四川省海外高层次留学人才；国际数字地球学会中国国家委员会数字湿地专业委员会委员，中国自然资源协会山地资源研究专业委员会委员。主持参与国家/省部项目20余项，发表高质量期刊文章40余篇，授权知识产权20余项，咨询报告中办采纳3份，参编著作3部。 

主要从事植被格局和功能领域的研究，重点聚焦于高寒植被对气候变化的响应、生态恢复过程中的服务功能权衡与协同、深度学习优化植被高分监测技术等方面。

西藏自治区高层次柔性人才引进，2019&2024&2026年。

获得西藏自治区科学技术进步奖一等奖，2018年，排名第5。

四川省海外高层次留学人才，2017年。

1. Wang, M., Zhao, H*, Wei, D., et al. 2026. Climate warming reshapes vegetation responses in China from temperature to precipitation. Giscience & Remote Sensing, 63(1). IF=6.9, Top

2. Yuan, Z., Zhao, H*. Wei, D., et al. 2026. Spatial identification of priority restoration-protection regions based on ecosystem services-climate-human framework on the Tibetan Plateau. Journal of Environmental Management, 400, 128812., IF=8.4, Top

3. Zhao, H.* Wang, J., Jin, H., et al. 2026. Mapping alpine grassland species with the VI-MDACvT model based on UAV hyperspectral imagery. Ecological Informatics 93, 103607. IF=7.3.

4. Yuan, Z., Liang Y. L., Zhao, H.*, et al. (2024) Trade-offs and synergies between ecosystem services on the Tibetan Plateau. Ecological Indicator. 158. IF=7.0, Top.

5. Zhao, H., Wei, D., Wang, X., et al. (2024) Three decadal large-scale ecological restoration projects across the Tibetan Plateau. Land Degradation & Development, 1–11. IF=3.6, 封面文章.

6. Liang Y. L., Zhao, H.*, Yuan, Z., et al. (2024) Ecological Restoration Projects Adapt Response of Net Primary Productivity of Alpine Grasslands to Climate Change across the Tibetan Plateau. Remote Sensing. 2024, 16, 702. IF=4.2

7. Wu, X., Zhao, H.*, Wang, M., Yuan, Q., et al. (2024) Evolution of Wetland Patterns and Key Driving Forces in China’s Drylands. Remote Sensing. 2024, 16, 702. IF=4.2

8. Da Wei^#, Hui Zhao^#, Xufeng Wang, et al. (2022) Reply to Ma and Zuo: Ecological restoration on the Tibetan Platean would benefit terrestrial CO2 uptake. Proceedings of the National Academy of Sciences. 118(50), e2116631119 (共同第一). IF=11.205

9. Enqin Liu, Hui Zhao*, Jing He, Xiangming Xiao. (2021) Identification of plant species in an alpine steppe of Northern Tibet using close-range hyperspectral imagery, Ecological Informatics. 61, IF=5.9 

10. Hui Zhao, Da Wei, Xiaodan Wang*, et al. (2020) Alpine Hummocks Drive Plant Diversity and Soil Fertile Islands on the Tibetan Plateau, Wetlands, 2020, IF=2.204

11. Da Wei ^#, Hui Zhao^#, Jianxin Zhang, et al. (2020) Human activities alter response of alpine grasslands on Tibetan Plateau to climate change, Journal of Environmental Management, 2020, 262(110335) (共同第一). IF=8.0, Top 

12. Hui Zhao, Baoshan Cui *, Junhong Bai, Huali Ren. Effects of the expressway on the Soil-Plant Systems in Longitudinal Range-Gorge Region. Science Bulletin, 2007, 52: 203-212. IF= 18.9

13. Hui Zhao, Jundi Wang, Yaohu Luo. et al. Classification Method and System of UAV Hyperspectral Vegetation Species based on Deep Learning. Patent number: US 18/640,627, 2025-01-23. 美国发明专利。

14. Hui Zhao, Xiaodan Wang, Yuling Liang. A Regional Extraction Method of Ecological Restoration Project in the Grassland Based on the High-resolution Remote Sensing Images, Patent number: AU 2021100848, 2021-02-10. 澳大利亚发明专利

15. Hui Zhao, Luo Y.H., Yang J., et al. Method for extracting ground objects from high-resolution images using combination of deep learning networks. Patent number N2037794, 2024-02-25, 荷兰发明专利

16. 赵慧，王俊迪，王小丹，等. 基于深度学习的无人机高光谱植被物种分类方法及系统,  授权号: 202410104064.X，2024-4-26, 中国发明专利