韩立建

中国科学院生态环境研究中心

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  • 韩立建
  • 副研究员
  • 北京海淀区双清路18号

简历:

工作经历

2012/07至今,中国科学院生态环境研究中心,城市与区域生态国家重点实验室,助理研究员,副研究员

2011/04–2012/06,日本鸟取大学干燥地研究中心,项目研究员

教育经历

2008/04–2011/03,日本鸟取大学干燥地研究中心,博士

2007/10–2008/03,日本鸟取大学干燥地研究中心,研究生

2004/09–2007/07,北京师范大学,硕士

2000/09–2004/07,北京林业大学,学士

研究方向:

城市与区域生态环境遥感应用

专家类别:

高级

承担科研项目情况:

2014.01 – 2016.12自然科学基金青年基金:城市化区域可吸入颗粒物(PMx)的时空分布特征及其与景观格局的定量关系(41301199)(主持);

2014.09教育部留学回国科研启动基金:北京市可吸入颗粒物(PMx)时空格局及其与城市景观格局之间的关系(教外司留(2014)1685)(主持)

2011.04 – 2012.03日本全球优秀科研中心(Global-COE)项目青年研究者科研资助:Mechanism of climate impact on springtime near-surface soil thaw event in northern China and Mongolia(主持)

2012.12 – 2014.11环保部全国生态环境十年遥感调查与评估子课题:京津冀唐城市群生态环境状况及十年变化遥感调查与评估( ST-SN-12-01 )(参与)

2013.01 – 2014.12北京市环境保护监测中心项目:北京市生态环境十年遥感监测成果集成,(参与)

代表论著:

1.To visit the latest publications, Please visit: https://www.researchgate.net/profile/Lijian_Han

2.Han L., Zhou W., Pickett STA., Li W., and Li L., 2016. An optimum city size? The scaling relationship for urban population and fine particulate (PM2.5) concentration. Environmental Pollution, 208(Pt A): 96-101 (SCI, IF2014 = 4.143)

3.Han L., Zhou W., and Li W., 2015. Increasing impact of urban fine particles (PM2.5) on areas surrounding Chinese cities. Scientific Reports, 5, 12467 (SCI, IF2014 = 5.578)

4.Han L., Zhou W., and Li W., 2015. City as a major source area of fine particulate (PM2.5) in China. Environmental Pollution, 206, 183-187 (SCI, IF2014 = 4.143)

5.Han L., Zhou W., Li W., Meshesha D., Li L., and Zheng M., 2015. Meteorological and urban landscape factors on severe air pollution in Beijing. Journal of the Air & Waste Management Association, 65, 782-787 (SCI, IF2014 = 1.342)

6.Han L., Zhou W., Li W., and Li L., 2014. Impact of urbanization level on urban air quality: A case of fine particles (PM2.5) in Chinese cities. Environmental Pollution, 194, 163-170 (SCI, IF2014 = 4.143)

7.Han L., Tsunekawa A., Tsubo M., He C., and Shen M., 2014. Spatial variations in snow cover and seasonally frozen ground over northern China and Mongolia, 1988-2010. Global and Planetary Change, 116, 139-148 (SCI, IF2014 = 2.766)

8.Han L., Tsunekawa A., and Tsubo M., 2013. Shifting of frozen ground boundary in response to temperature variation at northern China and Mongolia, 2000-2007. International Journal of Climatology, 33, 1844-1848 (SCI, IF2014 = 3.157)

9.Han L., Tsunekawa A., Tsubo M., and Zhou W., 2013. An Enhanced Dust Index for Asian dust monitoring with MODIS images. International Journal of Remote Sensing, 34, 6484-6495 (SCI, IF2014 = 1.652)

10.Han L., Tsunekawa A., and Tsubo M., 2012. Active and passive remote sensing of springtime near-surface soil thaw at midlatitudes. IEEE Geoscience and Remote Sensing Letters, 9, 427-431 (SCI, IF2014 = 2.095)

11.Han L., Tsunekawa A., and Tsubo M., 2011. Radar remote sensing of springtime near-surface soil thaw events at mid-latitudes. International Journal of Remote Sensing, 32, 8555-8574 (SCI, IF2014 = 1.652)

12.Han L., Tsunekawa A., and Tsubo M., 2011. Effect of frozen ground on dust outbreaks in spring on the eastern Mongolian Plateau. Geomorphology, 129, 412-416 (SCI, IF2014 = 2.785)

13.Han L., Tsunekawa A., and Tsubo M., 2010. Monitoring near-surface soil freeze-thaw cycles in northern China and Mongolia from 1998 to 2007. International Journal of Applied Earth Observation and Geoinformation, 12, 375-384 (SCI, IF2014 = 3.470)