宋春桥

 

宋春桥

男,1986年生,研究员,博士生导师

电   话:025-86882293

E-mailcqsong@niglas.ac.cn

传   真:025-57714759

中国科学院大学个人主页:http://people.ucas.edu.cn/~chunqiao 

研究领域及方向:湖泊流域水文遥感,资源环境遥感,地表水与全球变化

简历: 

  宋春桥,男,1986年生,湖南衡阳人。2008年毕业于武汉大学,先后在中国科学院地理科学与资源研究所 (2011)、香港中文大学 (2014) 获得硕士与博士学位;自201410月在美国加州大学洛杉矶分校 (UCLA) 从事博士后研究。入选“引才计划青年项目后回国,201712月起任中国科学院南京地理与湖泊研究所研究员。 

  主要从事湖泊-流域水文遥感、全球变化与环境遥感、高山亚洲环境等方向的研究。研究工作主要包括:综合多遥感平台监测青藏高原湖泊水文动态,并较为系统地解析了高原湖泊-气候-冰川多圈层相互影响过程;作为主要完成人发展全球高分辨率湖泊遥感自动提取算法集,建设多时相高精度全球湖泊空间与属性数据库,阐述我国不同类型水体(湖泊-水库、咸水与淡水湖泊)过去30年变化时空特征;集成遥感与模型手段量化21世纪以来全球内流区水储量变化及关键水文要素的变化信号,提出全球内流湖盆区水循环过程影响海平面上升速率的年代际尺度变化的观点。已发表学术论文近80篇,包括以第一或通讯作者在Nature Geoscience, PNAS, RSE, ISPRS JP&RS, Earth’s Future, ES&T, WRR, JoHSCI杂志的论文30余篇;Elsevier专著《Comprehensive Geographic Information Systems》(第二卷)的共同主编。主持或参与国际(USGSNASA)、国内(国家重点研发计划、国家自然科学基金委、中国科学院先导A计划等)科研计划多项。 

代表性论著:

1. Zhu J, Song C*, Wang J, et al. China's inland water dynamics: the significance of water body types [J]. Proceedings of the National Academy of Sciences, 2020, 117(25): 13876-13878. (一区,IF= 9.412*通讯作者,下同) 

2. Ke L, Song C*, Yong B, et al. Which heterogeneous glacier melting patterns can be robustly observed from space? A multi-scale assessment in southeastern Tibetan Plateau[J]. Remote Sensing of Environment, 2020, 242: 111777. (一区,IF= 9.085) 

3. Zhan S, Song C*, Wang J, et al. A global assessment of terrestrial evapotranspiration increase due to surface water area change[J]. Earth's Future, 2019, 7(3): 266-282. (一区,IF= 6.141) 

4. Wang J*#, Song C#, Reager J T, et al. Recent global decline in endorheic basin water storages[J]. Nature Geoscience, 2018, 11(12): 926-932. (# 共同一作). (一区,IF= 13.566) 

5. Song C*, Ke L, Pan H, et al. Long-term surface water changes and driving cause in Xiong’an, China: From dense Landsat time series images and synthetic analysis[J]. Science Bulletin, 2018, 63(11): 708-716. (一区,IF= 9.511) 

6. Song C, Ye Q*, Cheng X. Shifts in water-level variation of Namco in the central Tibetan Plateau from ICESat and CryoSat-2 altimetry and station observations[J]. Science Bulletin, 2015, 60(14): 1287-1297. (一区,IF= 9.511) 

7. Song C, Huang B*, Richards K, et al. Accelerated lake expansion on the Tibetan Plateau in the 2000s: Induced by glacial melting or other processes?[J]. Water Resources Research, 2014, 50(4): 3170-3186. (一区,IF= 4.309) 

8. Song C, Huang B*, Ke L, et al. Remote sensing of alpine lake water environment changes on the Tibetan Plateau and surroundings: A review[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 2014, 92: 26-37. (一区,IF= 7.319) 

9. Ke L, Song C*. Remotely sensed surface temperature variation of an inland saline lake over the central Qinghai–Tibet Plateau[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 2014, 98: 157-167. (一区,IF= 7.319) 

10. Song C, Huang B*, Ke L. Modeling and analysis of lake water storage changes on the Tibetan Plateau using multi-mission satellite data[J]. Remote Sensing of Environment, 2013, 135: 25-35. (一区,IF= 9.085)