个人简介

谢静现任中山大学地理科学与规划学院“百人计划”副教授,研究生导师。毕业于瑞士苏黎世大学(Universität Zürich),获自然科学博士学位(Dr. sc. nat. ),师从著名地理学家Michael Schaepman教授和瑞士遥感协会主席著名光谱遥感专家Mathias Kneubühler高级研究员。而后在英国格拉斯哥大学和香港大学从事博士后研究员工作。过往研究主要关注全球气候和环境变化背景下的陆地植被物候和生产力及其驱动因子环境梯度变化的对地遥感观测研究,研究工作主要体现在自然环境和城乡环境中植被生态及相关环境要素和气候变化的关系和反馈等。

欢迎研究同行交流合作和对相关研究感兴趣的同学攻读研究生。研究方向和兴趣包括但不限于:
(1)植被生态遥感,主要关注植被物候和生产力,如山地植被物候、城乡植被物候、全球变化等;
(2)遥感与地理信息实践应用,如地理环境梯度、城市热环境、城乡土地利用分类等;
(3)人文地理和规划与遥感、地理信息技术结合,如人才流动与迁移、人口与宜居环境、国土空间规划等。

Email:xiej95@mail.sysu.edu.cn.

 

工作经历

2021至今, 中山大学,地理科学与规划学院, 副教授(Associate Professor)

2019至2021, 香港大学,建筑学院,博士后研究员(Post-Doctoral Fellow)

2018至2019, 格拉斯哥大学,地理与地球科学学院,博士后研究员(Post-Doctoral Research Associate)

2013至2018, 苏黎世大学,地理系,教学助理(Teaching Assistant)

2013至2018, 苏黎世大学,遥感实验室,研究助理(Research Assistant)

 

学历背景

2013至2018, 苏黎世大学, 遥感科学与技术, 自然科学博士(Dr. sc. nat. of Natural Sciences in Earth Observation)

2010至2013, 中国科学院大学, 地图学与地理信息系统, 理学硕士(M.Phil. in Cartography and Geographic Information Systems)

2007至2010, 西北大学, 金融学, 经济学学士(B.A. in Finance)

2006至2010, 西北大学, 资源环境与城乡规划管理, 理学学士(B.S. in Resources and Environment and Urban Planning)

 

讲授课程

城市规划法规(大五)
城市管理与法规(大四)
城市管理学(大四)
景观生态与生态规划(大三)
国土空间规划的遥感技术应用(大三)

 

社会任职

担任Remote Sensing of Environment, Journal of Geophysical Research, Science of the Total Environment,   Sustainable Cities and Society, Cities, Journal of Cleaner Production, International Journal of Digital Earth, GIScience & Remote Sensing, Energy & Buildings, Urban Climate, Climate Dynamics, Scientific Reports, Geography and Sustainability, Remote Sensing, Geo-spatial Information Science, Journal of Environmental Management, Remote Sensing Applications: Society and Environment等三十多个期刊审稿人。

 

科研项目/课题

[8] 智慧中原地理信息技术河南省协同创新中心、时空感知与智能处理自然资源部重点实验室联合基金项目,开放基金,232207,“基于城市形态视角分析植被覆盖缓减地表热环境的作用”,2024-5至2025-4,在研,主持。
[7] 国家自然科学基金,青年项目,42301208,“城市快速扩展区地表热环境变化对植被物候的影响——以粤港澳大湾区为例”,2024-1至2026-12,在研,主持。
[6] 中央高校基本科研业务费专项,中山大学基本科研业务费-青年教师培育项目,23qnpy15, “植被物候与地理环境梯度分异”,2023-1至2023-12,结题,主持。
[5] 黄河中下游数字地理技术教育部重点实验室,开放基金,GTYR202212,“城市局地气候影响下植被缓解热岛效应的作用:郑州案例”,2022-1至2024-12,结题, 主持。
[4] 广州科技局,广州市基础与应用基础研究项目,SL2022A04J01793,“局地气候区视角下植被绿度对城市地表热岛效应的缓解作用机制探讨——广州为例”,2023-4至2026-3,结题, 主持。
[3] BBSRC funded Sustainable Tropical Agricultural Systems project, RCUK-CIAT Newton-Caldas F und Sustainable Tropical Agricultural Systems Programme, No grant number, further details here ht tps://colombiagrasslands.com/, Advancing sustainable forage-based livestock production systems us ing multi-source remote sensing and social science approaches, 2018-08 至 2019-03, 参与
[2] Swiss-Belgian consortium on behalf of ESA, ESA Prodex, Airborne Prism Experiment – a next generation imaging spectrometer for the Earth system (APEX Data Processing), 2013至2018, 参与
[1] University of Zurich, Doctoral Program, Geography/Earth System Science, Academic Record No. 1379441720190605150549, Remote sensing based monitoring of snow-vegetation relationships in the European Alps, 2013至2018, 主持

 

论文专著

Google Scholar: https://scholar.google.com/citations?hl=en&pli=1&user=SF85E3gAAAAJ
ResearchGate: https://www.researchgate.net/profile/Jing-Xie-60
Web Of Science: https://webofscience.clarivate.cn/wos/author/record/AAX-1302-2021

部分论文 (* 通讯作者):
[12] Siyu Zhou; Minmin Li; Jing Xie*. 2024. Evaluating urban-rural gradients and urban forms in metropolitan areas: a local climate zone approach with future spatial simulation. Sustainable Cities and Society.   DOI: 10.1016/j.scs.2024.105636.
[11] Quan Gao; Nan Wei; Qian Zhang; Siyu Zhou; Jing Xie*. 2024. Visualising the academic mobility of Nobel laureates. Environment and Planning B: Urban Analytics and City Science. https://doi.org/10.1177/23998083241264075.
[10] Jing Xie*, Xinwei Li, Lamuel Chi Hay Chung, Christopher John Webster. 2024. Effects of land surface temperatures on vegetation phenology along urban-rural local climate zone gradients. Landscape Ecology. DOI: 10.1007/s10980-024-01856-6.
[9] Jing Xie, Siyu Zhou, Lamuel Chi Hay Chung, Ting On Chan. 2024. Evaluating land-surface warming and cooling environments across urban–rural local climate zone gradients in subtropical megacities. Building and Environment. DOI: 10.1016/j.buildenv.2024.111232.
[8] Yeran Sun, Jing Xie*, Yu Wang, Ting On Chan, Zhao-Yong Sun. 2023. Mapping local-scale working population density and daytime population density using points-of-interest and nighttime light satellite imageries. Geo-spatial Information Science. https://doi.org/10.1080/10095020.2023.2273826.
[7] Xie, J.*, Hüsler, F., de Jong, R., Chimani, B., Asam, S., Sun, Y., Schaepman, M. E., Kneubühler, M., (2021). Spring temperature and snow cover climatology drive the advanced springtime phenology (1991–2014) in the European Alps. Journal of Geophysical Research: Biogeosciences. doi:10.1029/2020JG006150.
[6] Xie, J.*, Jonas, T., Rixen, C., de Jong, R., Garonna, I., Notarnicola, C., Asam, S., Schaepman, M.E., Kneubühler, M., (2020). Land surface phenology and greenness in Alpine grasslands driven by seasonal snow and meteorological factors. Science of the Total Environment. https://doi.org/10.1016/j.scitotenv.2020.138380.
[5] Xie, J.*, Kneubühler, M., Garonna, I., de Jong, R., Notarnicola, C., De Gregorio, L., & Schaepman, M. E. (2018). Relative influence of timing and accumulation of snow on alpine land surface phenology. Journal of Geophysical Research: Biogeosciences, 123: 561-576. doi:10.1002/2017JG004099. 
[4] Xie, J.*, M. Kneubühler, I. Garonna, C. Notarnicola, L. De Gregorio, R. De Jong, B. Chimani, and M. E. Schaepman (2017), Altitude-dependent influence of snow cover on alpine land surface phenology, Journal of Geophysical Research: Biogeoscience, 122: 1107–1122. doi:10.1002/2016JG003728.  
[3] 谢静,等. 基于遥感的湿地景观格局季相分析.生态学报, 2014,34 (24):7149-7157.
[2] 谢静,等. 基于面向对象方法和多时相HJ-1影像的湿地遥感分类——以完达山以北三江平原为例. 湿地科学. 2012, 10 (4): 429-438.
[1] 谢静,等. 经济转型期陕北公路交通与经济发展的关联分析. 人文地理, 2010 (5) : 103-107.

 

会议报告

[10] Academic poster "Evaluating land-surface warming and cooling environments across urban–rural local climate zone gradients in subtropical megacities". AGU Fall Meeting. 11 December 2023.
[9] Academic report "The role of wetlands in mitigating land surface temperature variations in subtropical coastal cities in South China”, accepted for Session 10. 'Local Governance and Planning of Coastal and Maritime Areas'. IGU Thematic Conference. 5-7 June 2023 in Milan, Italy.
[8] Academic report "Influence of surface urban heat island on spring and autumn phenology of the forest regions in the highly urbanized Pearl River Delta, China". AGU Fall Meeting. 16 December 2020. 
[7] Academic poster "Both urbanization and elevation constrict forest greening in the Pearl River Delta, China". 18th Swiss Geoscience Meeting, 6-7 November 2020, Zurich (CH).
[6] Academic report "Effects of seasonal snow and climatic controls on spring and autumn phenology in Alpine forest regions". AGU Fall Meeting, December 2017. 
[5] Academic report "Influence of meteorological factors on the autumn land surface phenology in alpine grasslands". 15th Swiss Geoscience Meeting, 17-18 November 2017 in Davos (CH). 
[4] Academic poster "Altitude-dependent Influence of Snow Cover and Accumulation on Start of Alpine Phenology". 10th EARSeL SIG Imaging Spectroscopy Workshop. 19-21 April 2017 in Zurich (CH).
[3] Academic report "The influence of snow accumulation on alpine vegetation: A case study in the European Alps". Remote Sensing Colloquium, spring semester 2017. 14 March 2017 in Zurich (CH).
[2] Academic report "Altitude-dependent correlation of snow cover duration with alpine spring phenology". 14th Swiss Geoscience Meeting, 18-19 November 2016 in Geneva (CH).
[1] Academic poster "Analysis of Seasonal Changes of Wetland Landscape Patterns". 6th ESA Advanced Training Course on Land Remote Sensing., September 2015 in Bucharest (RO).