段建平
人物简介:

段建平,研究员,博导,入选国家级青年拔尖人才,德国洪堡学者。

从事气候变化方面的研究。在青藏高原及北半球中高纬区域夏-冬温差演变及人类活动影响信号检测、青藏高原极端温度事件重建及自然和人为强迫信号归因等方面取得了进展。以第一兼通讯作者在《Nature Sustainability》、《Nature Communications》、《BAMS》、《Journal of Climate》、《Environment Research Letters》 等SCI期刊发表论文多篇。获德国洪堡基金会洪堡学者、中国第四纪科学研究会第六届刘东生杰出青年奖、中国青藏高原研究会第十二届青藏高原青年科技奖、中国科学院王宽诚博士后工作奖和中国科学院大气物理研究所科技创新贡献奖等荣誉/奖项。已主持完成和在研国家自然科学基金项目3项、国家重点研发计划课题1项,国家级青年拔尖人才项目1项。

 

研究方向

气候变化与归因、极端气候事件、历史气候重建

 

主持项目

1. 国家重点研发计划-重大自然灾害监测预警与防范专项:旱情判别与应急抗旱关键技术及装备研发(课题负责人)。

2. 国家自然科学基金面上项目:人类活动驱动青藏高原增温的早期信号识别及定量归因(项目负责人)。

3. 国家自然科学基金面上项目:青藏高原东南部过去500年极端温度事件的演变特征及其动力机制(项目负责人)。

4. 国家自然科学基金青年基金项目:基于树轮密度和宽度的不同季节温度变化对比研究(项目负责人)。

5. 中国博士后科学基金面上项目:西藏昌都地区树木年轮区域气候信息提取(项目负责人)。

 

获奖与荣誉

2020  中国科学院大气物理研究所  2020年度科技创新贡献奖

2019  中国第四纪科学研究会  第六届刘东生杰出青年奖

2019  中国青藏高原研究会  第十二届青藏高原青年科技奖

2019  中国科学院大气物理研究所  青年科学家实验室成员

2017  德国洪堡基金会  洪堡学者

2011  中国科学院王宽诚博士后工作奖

 

 

代表性论文

1. Duan, JP*, Chen L, Li L, et al. 2021. Anthropogenic influence on the extreme cold surge of early Spring 2019 over the southeastern Tibetan Plateau. Bulletin of the American Meteorological Society, 102:S111-116.

2. Duan, JP*, Ma ZG, Wu PL, et al. 2019. Detection of human influences on temperature seasonality from the nineteenth century. Nature Sustainability, 2: 484-490. 部分媒体报道( English, Italian, Spanish, Germany and Chinese):

    https://eos.org/articles/tree-rings-record-19th-century-anthropogenic-climate-change

    https://www.eurekalert.org/pub_releases/2019-04/ioap-hio041719.php    

    https://cosmosmagazine.com/climate/anthropogenic-global-warming-kicked-off-in-1865  

    http://www.xinhuanet.com/english/2019-05/04/c_138033510.htm   

    http://www.greenreport.it/news/clima/linfluenza-umana-sul-cambiamento-climatico-risale-al-xix-secolo/

    https://www.mittelhessen.de/lokales/stadt-giessen/nachrichten-giessen/jlu-giessen-mensch-beeinflusst-klima-schon-viel-langer_20103015  

    http://news.sciencenet.cn/htmlnews/2019/4/425613.shtm  

    http://scitech.people.com.cn/n1/2019/0425/c1007-31050477.html  

    http://www.chinanews.com/gn/2019/05-08/8831390.shtml  

    http://www.zgqxb.com.cn/kj/dt_17747/201904/t20190428_523261.html  

3. Duan JP*, Esper J, Buntgen U, et al. 2017. Weakening of annual temperature cycle over the Tibetan Plateau since the 1870s. Nature Communications, 7: 14008. doi: 10.1038/ncomms14008. Press releases:

    http://paper.sciencenet.cn/htmlpaper/20171191473385942800.shtm    

    http://www.sixthtone.com/news/tibetan-tree-rings-trace-climate-change-1870s 

4. Duan JP*, Wu PL, Ma ZG, Duan YW. 2020. Unprecedented recent late-summer warm extremes recorded in tree-ring density on the Tibetan Plateau.  Environmental Research Letters, 15, 024006. https://doi.org/10.1088/1748-9326/ab5e01 

5. Duan, JP*, Li L, Ma ZG, et al. 2018. Summer cooling driven by large volcanic eruptions over the Tibetan Plateau. Journal of Climate, 31: 9869-9879.

    Press releases: 

    http://www.cas.cn/syky/201811/t20181120_4671531.shtml 

6. Duan JP, Zhang QB, Lv LX. 2013. Increased variability in cold-season temperature since the 1930s in subtropical China. Journal of Climate, 26: 4749-4757.

7. Duan JP*, Ma ZG, Yuan NM, and Li L. 2019. Extremes in the magnitude of annual temperature cycle on the Tibetan Plateau over the past three centuries. Climate Dynamics, 52: 3599-3608. doi: 10.1007/s00382-018-4346-5.

8. Duan JP, Zhang QB, Lv LX, et al. 2012. Regional-scale winter-spring temperature variability and chilling damage dynamics over the past two centuries in southeastern China. Climate Dynamics, 39:919-928.

9. Duan JP*, Ma ZG, Li L and Zheng ZY. 2019. August-September temperature variability on the Tibetan Plateau: past, present and future. Journal of Geophysical Research: Atmospheres, 124: 6057-6068.

10. Duan JP, Zhang QB. 2014. A 449 year warm season temperature reconstruction in the southeastern Tibetan Plateau and its relation to solar activity. Journal of Geophysical Research-Atmospheres, 119: 11578-11592.

11. Duan JP*, Li L, Ma ZG, and Chen L. 2020. Post-industrial late summer warming recorded in tree-ring density in the eastern Tibetan Plateau. International Journal of Climatology, 40: 795-804.

12. Duan JP*, Li L, Chen L, and Zhang HX. 2020.Time-dependent warming amplification over the Tibetan Plateau during the past few decades. Atmospheric Science Letters, Doi: 10.1002/asl.998.

13. Duan JP*, Ma ZG, Wu PL. 2019. Reconciling the discrepancy of post-volcanic cooling estimated from tree-ring reconstructions and model  simulations over the Tibetan Plateau. Atmosphere, 10:738.

14. Duan JP*, Wang L, Li L, et al. 2013. Tree-ring-inferred glacier mass balance variation in southeastern Tibetan Plateau and its linkage with climate variability. Climate of the Past, 9: 2451-2458.

15.  Duan JP*, Li L, Fang YJ. 2015. Seasonal spatial heterogeneity of warming rates on the Tibetan Plateau over the past 30 years. Scientific Reports, 5: 11725.

16.  Duan JP, Wang L, Li L, et al. 2010. Temperature variability since A.D. 1837 inferred from tree-ring MXD in Gongga Mountain, China. Chinese Science Bulletin, 55: 3015-3022.

17. Duan JP*, Wang L, Ren JW, et al. 2009. Seasonal variations in heavy metals concentrations in Mt. Qomolangma Reion snow. Journal of Geographical Sciences. 19: 249-256.

 

联系方式

北京市朝阳区德胜门外祁家豁子华严里40号,100029   

Emailduanjp@tea.ac.cn

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