一、个人简介

刘樾，博士。

二、学历背景

2013.9－2017.6，武汉大学 遥感信息工程学院，本科学习，获工学学士学位；

2017.9－2022.6，武汉大学 遥感信息工程学院，硕博学习，获工学博士学位。

三、工作经历

2022.07—      广东省科学院广州地理研究所

四、研究领域与研究方向

城市景观与热环境、海岸带景观环境、遥感美学评估等。

五、科研成果

1.论文

[1]Liu, Y., Huang, X., Yang, Q., Jing, W., & Yang, J. (2023). Effects of landscape on thermal livability at the community scale based on fine-grained geographic information: A case study of Shenzhen. Science of the Total Environment, 905, 167091.

[2]Liu, Y., Huang, X., Yang, Q., & Cao, Y. (2021). The turning point between urban vegetation and artificial surfaces for their competitive effect on land surface temperature. Journal of Cleaner Production, 292, 126034.

[3]Liu, Y., Fei, X., Zhang, Z., Li, Y., Tang, J., & Xiao, R. (2020). Identifying the sources and spatial patterns of potentially toxic trace elements (PTEs) in Shanghai suburb soils using global and local regression models. Environmental Pollution, 264, 114171.

[4]Huang, X., Liu, Y. (2022). Livability Assessment of 101,630 Communities in China’s major cities: A Remote Sensing Perspective. SCIENCE CHINA Earth Sciences, 65(6):1073-1087.

[5]Xiao, R., Liu, Y., Huang, X., Shi, R., Yu, W., & Zhang, T. (2018). Exploring the driving forces of farmland loss under rapid urbanization using binary logistic regression and spatial regression: A case study of Shanghai and Hangzhou Bay. Ecological Indicators, 95, 455-467.

[6]Xiao, R., Liu, Y., Fei, X., Yu, W., Zhang, Z., & Meng, Q. (2019). Ecosystem health assessment: A comprehensive and detailed analysis of the case study in coastal metropolitan region, eastern China. Ecological indicators, 98, 363-376.

[7]Yu, X., Liu, Y., Zhang, Z., & Xiao, R. (2021). Influences of buildings on urban heat island based on 3D landscape metrics: an investigation of China’s 30 megacities at micro grid-cell scale and macro city scale. Landscape Ecology, 1-20.

[8]Yu, W., Liu, Y., Lin, M., Fang, F., & Xiao, R. (2017). Ecosystem health assessment of mining cities based on landscape pattern. International Archives of the Photogrammetry, Remote Sensing & Spatial Information Sciences, 42.

[9]Xiao R, Cao W, Liu Y, et al. (2022). The impacts of landscape patterns spatio-temporal changes on land surface temperature from a multi-scale perspective: A case study of the Yangtze River Delta. Science of The Total Environment, 821: 153381.

[10]Yang, Q., Huang, X., Yang, J., & Liu, Y. (2021). The relationship between land surface temperature and artificial impervious surface fraction in 682 global cities: spatiotemporal variations and drivers. Environmental Research Letters, 16(2), 024032.

[11]Zhang, Z., Xiao, R., Yu, W., Liu, Y., Lin, M., & Wang, M. (2017). Characterizing factors associated with built-up land expansion in urban and non-urban areas from a morphological perspective. Sustainability, 9(8), 1411.

[12]Yang, Q., Xu, Y., Tong, X., Huang, X., Liu, Y., Chakraborty, T. C., ... & Hu, T. (2023). An adaptive synchronous extraction (ASE) method for estimating intensity and footprint of surface urban heat islands: A case study of 254 North American cities. Remote Sensing of Environment, 297, 113777.

[13]Yang, Q., Xu, Y., Tong, X., Hu, T., Liu, Y., Chakraborty, T. C., ... & Ma, Z. (2023). Influence of urban extent discrepancy on the estimation of surface urban heat island intensity: A global-scale assessment in 892 cities. Journal of Cleaner Production, 426, 139032.

[14]Fei, X., Christakos, G., Xiao, R., Ren, Z., Liu, Y., & Lv, X. (2019). Improved heavy metal mapping and pollution source apportionment in Shanghai City soils using auxiliary information. Science of the Total Environment, 661, 168-177.

[15]Yang, Q., Huang, X., Tong, X., Xiao, C., Yang, J., Liu, Y., & Cao, Y. (2022). Global assessment of urban trees’ cooling efficiency based on satellite observations. Environmental Research Letters, 17(3), 034029.

[16]Yang, Q., Xu, Y., Wen, D., Hu, T., Chakraborty, T. C., Liu, Y., ... & Yang, J. (2024). Satellite Clear‐Sky Observations Overestimate Surface Urban Heat Islands in Humid Cities. Geophysical Research Letters, 51(2), e2023GL106995.

[17]黄昕，刘樾. (2022). 面向中国主要城市的101,630个社区的宜居性评估：从遥感的视角. 中国科学：地球科学, 52(7):1283-1298.

[18]于晓雨，许刚，刘樾，肖锐. (2021). 长三角地区城市建筑三维形态对地表热环境的影响. 中国环境科学, DOI: 10.19674/j.cnki.issn1000-6923.20210521.003.

2.专著

《城市热环境遥感》 2022年 副主编（第四）

3.专利

[1] 发明专利 热舒适指数检测方法、装置、计算机设备及存储介质 刘樾 荆文龙 胡泓达 CN202410122169.8  2024-04-02

[2] 发明专利 一种海面风场微波遥感反演数据的空间降尺度方法 胡泓达 荆文龙 刘樾

CN202311330040.8  2024-01-12

六、科研项目

纵向项目

1.中国博士后科学基金，面上项目 2023M730735, 极端天气下基于无人机遥感和热宜居指数的社区景观配置阈值量化研究（主持）

2.国家自然科学基金委员会, 面上项目, 42071311, 面向大规模城市功能区监测的众源地理-遥感语义信息自动挖掘方法研究（参与）

3.国家自然科学基金委员会, 面上项目, 41971295, 高分辨率夜灯和光学影像的亮度-角度-尺度深度融合与城市功能区分类方法研究（参与）

七、联系方式

地址：广州市越秀区先烈中路100号大院广州地理研究所

邮编：510070

邮箱：yliu_rs@whu.edu.cn, yliu-rs@gdas.ac.cn