当前位置: X-MOL首页全球导师 国内导师 › 陈效逑

个人简介

个人简历 1994年在德国法兰克福大学地球科学系获博士学位,主要从事植物物候学的研究,重点是植物物候对气候变化时空响应的模拟与预测。主持国家自然科学基金面上项目7项,在北京植物园开展植物物候观测逾43年(1979- 2021)。发表学术论文90余篇,独著德文(1994)和英文(2017)物候学著作各1部,合著中文物候学著作1部(1995),编著高等学校教材3部。2005年在第17届国际生物气象学会议上做大会报告,并当选国际生物气象学会执行理事和物候学委员会主席,现任物候学委员会副主席,国际生物气象学杂志编委。1996获北京市优秀图书三等奖;1997年获北京市科技进步奖三等奖;2004年获第十届北京大学“十佳教师”称号;2005年获北京大学优秀博士后奖和北京大学教学成果一等奖;2007年主讲的“自然地理学”被评为北京市精品课程;2008年编著的《自然地理学原理》被评为北京高等教育精品教材;2009年主讲的“自然地理学”被评为国家级精品课程并获得北京市高等学校教学名师奖;2015年获得北京大学唐立新奖教金教学名师奖和“领跑者5000中国精品科技期刊顶尖学术论文”奖;2018年获得北京市高等教育教学成果奖二等奖;2019年获“《地理学报》创刊85周年最具影响力论文奖”。 教育经历 学 士 1982,地理学,首都师范大学地理系 硕 士 1988,自然地理学,陕西师范大学地理系 博 士 1994,自然地理学,德国法兰克福大学地球科学系 工作经历 1982.09-1987.12:北京师范学院地理系助教 1988.01-1990.09:北京师范学院地理系讲师 1990.10-1991.09:德国中央气象局农业气象部访问学者 1991.06-1994.12:德国法兰克福大学博士研究生 1995.01-1995.03:中国气象科学研究院农业气象中心研究人员(待聘岗) 1995.04-1997.03:北京大学城市与环境学系博士后 1997.04-1997.07:北京大学城市与环境学系教师(待聘岗) 1997.08-2003.07:北京大学城市与环境学系副教授 2003.08- 现在: 北京大学城市与环境学院教授

研究领域

植物物候与气候变化

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

1. Zhao Y#, Chen XQ*, Kim JS, Williams M. 2022. Effects of temperature and precipitation on litterfall phenology in four evergreen broad-leaved forests of southern China. Biotropica, 2022; 54:739–753。 2. Qian SW#, Chen XQ*, Lang WG#, Schwartz MD. 2021. Examining spring phenological responses to temperature variations during different periods in subtropical and tropical China. International Journal of Climatology, 41(Suppl. 1): E3208–E3218. 3. Zhao Y#, Chen XQ*, Smallman TL, Flack-Prain S, Milodowski DT, Williams M. 2020. Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South China. Remote Sensing, 2020, 12, 3122. 4. Liang BY#, Chen XQ*, Lang WG#, Liu GH#, Malhi Y, Rifai S. 2020. Examining land surface phenology in the tropical moist forest eco-zone of South America. International Journal of Biometeorology, 64:1911-1922. 5. Jiang MD#, Chen XQ*, Schwartz MD. 2020. Why don’t phenophase dates in the current year affect the same phenophase dates in the following year? International Journal of Biometeorology, 64:1549-1560. 6. An S#, Chen XQ*, Zhang XY, Lang WG#, Ren SL#, Xu L#. 2020. Precipitation and Minimum Temperature are Primary Climatic Controls of Alpine Grassland Autumn Phenology on the Qinghai-Tibet Plateau. Remote Sensing, 12, 431. 7. Lang WG#, Chen XQ*, Liang L, Ren SL#, Qian SW#. 2019. Geographic and Climatic Attributions of Autumn Land Surface Phenology Spatial Patterns in the Temperate Deciduous Broadleaf Forest of China. Remote Sensing, 11, 1546. 8. Lang WG#, Chen XQ*, Qian SW#, Liu GH#, Piao SL. 2019. A new process-based model for predicting autumn phenology: How is leaf senescence controlled by photoperiod and temperature coupling? Agricultural and Forest Meteorology,268: 124-135. 9. Liu GH#*, Chen XQ*, Fu YS, Delpierre N. 2019. Modelling leaf coloration dates over temperate China by considering effects of leafy season climate. Ecological Modelling, 394: 34-43. 10. Liu GH#, Chen XQ*, Zhang QH#, Lang WG#, Delpierre N. 2018. Antagonistic effects of growing season and autumn temperatures on the timing of leaf coloration in winter deciduous trees. Global Change Biology, 24: 3537–3545. 11. Ren S#, Chen XQ*, Lang WG#, Schwartz MD. 2018. Climatic controls of the spatial patterns of vegetation phenology in mid-latitude grasslands of the Northern Hemisphere. Journal of Geophysical Research: Biogeosciences, 123: 2323–2336. 12. An S#, Zhang XY, Chen XQ*, Yan D, Henebry GM. 2018. An Exploration of Terrain Effects on Land Surface Phenology across the Qinghai–Tibet Plateau Using Landsat ETM+ and OLI Data. Remote Sensing, 10, 1069. 13. Chen XQ*, Zhang WQ#, Ren SL#, Lang WG#, Liang BY#, Liu GH#. 2017. Temporal coherence of phenological and climatic rhythmicity in Beijing. International Journal of Biometeorology, 61: 1733-1748. 14. Ren SL#, Chen XQ*, An S#. 2017.Assessing plant senescence reflectance index-retrieved vegetation phenology and its spatiotemporal response to climate change in the Inner Mongolian Grassland. International Journal of Biometeorology,61: 601–612. 15. Chen XQ*, Wang LX#, Inouye D. 2017. Delayed response of spring phenology to global warming in subtropics and tropics. Agricultural and Forest Meteorology, 234, 222-235. 16. Chen XQ*, An S#. Inouye D, Schwartz MD. 2015. Temperature and snowfall trigger alpine vegetation green-up on the world’s roof. Global Change Biology, 21(10): 3635-3646. 17. Chen XQ*, Tian YH#, Xu L#. 2015 . Temperature and geographic attribution of change in the Taraxacum mongolicum growing season from 1990 to 2009 in eastern China’s temperate zone. International Journal of Biometeorology, 59(10):1437-1452. 18. Luo XZ#, Chen XQ*, Wang LX#, Xu L#, Tian YH#. 2014. Modeling and predicting spring land surface phenology of the deciduous broadleaf forest in northern China. Agricultural and Forest Meteorology, 198-199: 33-41. 19. Chen XQ*, Li J#, Xu. L#, Liu L#, Ding D#. 2013. Modeling greenup date of dominant grass species in the Inner Mongolian Grassland using air temperature and precipitation data. International Journal of Biometeorology, 58(4): 463-471. 20. Chen XQ*, Luo XZ#, Xu L#. 2013. Comparison of spatial patterns of satellite-derived and ground-based phenology for the deciduous broadleaf forest of China. Remote Sensing Letters, 4(6): 532-541. 21. Xu L#, Chen XQ*. 2013. Regional unified model-based leaf unfolding prediction from 1960 to 2009 across northern China. Global Change Biology, 19(4): 1275-1284. 22. Luo XZ#, Chen XQ*, Xu L#, Myneni R, Zhu Z. 2013. Assessing Performance of NDVI and NDVI3g in Monitoring Leaf Unfolding Dates of the Deciduous Broadleaf Forest in Northern China. Remote Sensing. 5(2): 845-861. 23. Chen XQ*, Xu L#. 2012. Temperature controls on the spatial pattern of tree phenology in China’s temperate zone. Agricultural and Forest Meteorology, 154-155, 195-202. 24. Chen XQ*, Xu L#. 2012. Phenological responses of Ulmus pumila (Siberian Elm) to climate change in the temperate zone of China. International Journal of Biometeorology, 56(4): 695-706. 25. Xu L#, Chen XQ*. 2012. Spatial modeling of the Ulmus pumila growing season in China’s temperate zone. Science China Earth Sciences, 55 (4): 656-664. 26. Chen XQ*, Li HM#, Hu B#, Yu R#. 2007. Boden- und satellitengestuetzte Erkennung der phaenologischen Vegetationsperiode in der gemaessigten Klimaregion Ostchinas. Promet, 33(1/2): 46-51. 27. Chen XQ*, Hu B#,Yu R#. 2005. Spatial and temporal variation of phenological growing season and climate change impacts in temperate eastern China. Global Change Biology, 11(7): 1118-1130. 28. Chen XQ*, Pan WF#. 2002. Relationships among phenological growing season, time-integrated normalized difference vegetation index and climate forcing in the temperate region of eastern China. International Journal of Climatology,22(14): 1781-1792. 29. Schwartz MD, Chen XQ. 2002. Examining the onset of spring in China. Climate Research, 21(2): 157-164. 30. Chen XQ*, Xu CX#, Tan ZJ. 2001. An analysis of relationships among plant community phenology and seasonal metrics of Normalized Difference Vegetation Index in the northern part of the monsoon region of China. International Journal of Biometeorology, 45 (4): 170-177. 31. Chen XQ*, Qiao LJ#. 2001. A preliminary analysis of material input of China. Population and Environment, 23(1): 117-126. 32. Chen XQ*, Tan ZJ, Schwartz MD, Xu CX#. 2000. Determining the growing season of land vegetation on the basis of plant phenology and satellite data in Northern China. International Journal of Biometeorology, 44(2): 97-101. 33. Chen XQ. 1995. Phaenologische und klimatologische Raumgliederung Westdeutschlands. Geographische Rundschau, 47(5): 312-317.

学术兼职

社会服务工作 中国民主建国会第十届中央委员会经济委员会副主任 中国民主建国会北京大学委员会主委 杂志任职 2012至今 国际生物气象学杂志编委会委员

推荐链接
down
wechat
bug