基本信息
陈文  男  博导  中国科学院大气物理研究所
电子邮件: chenw@mail.iap.ac.cn
通信地址: 北京市朝阳区华严里40号
邮政编码: 100029

研究领域

东亚季风、气候动力学和平流层与对流层相互作用


招生信息

   
招生专业
070601-气象学
070620-地球流体力学
招生方向
气候动力学;季风
平流层与对流层相互作用

教育背景

1988-09--1994-06   中科院大气物理研究所   研究生/博士
1984-09--1988-07   北京大学地球物理系   本科/学士
学历
-- 研究生
学位
-- 博士

工作经历

曾多次赴德国马普气象研究所、日本东京大学气候系统研究中心、美国夏威夷大学国际太平洋研究中心、英国剑桥大学、俄罗斯科学院、香港城市大学和台湾中国文化大学等进行合作研究。


工作简历
2011-11~2011-11,台湾中国文化大学, 讲学,兼职教授
2009-04~2009-05,香港城市大学, 合作研究,访问教授
2006-11~2007-01,美国夏威夷大学, 合作研究,访问教授
2002-04~2002-09,日本东京大学, 合作研究,访问教授
2000-04~2000-06,德国马普气象研究所(Max-Planck-Institute for Meteorology), 合作研究,访问学者
1996-12~1998-03,德国马普气象研究所(Max-Planck-Institute for Meteorology), 博士后
1993-07~现在, 中科院大气物理研究所, 助研、副研、研究员
社会兼职
2018-01-01-2022-12-31,Science China Earth Sciences, 编委
2018-01-01-2020-12-31,平流层-对流层过程及其在气候中的作用国际计划(SPARC), 科学指导委员会(SSG)委员
2017-07-16-2021-07-16,民盟北京市第十二届委员会, 委员
2015-07-01-今,民盟中国科学院委员会委员, 副主任委员
2006-01-01-今,中国气象学会动力气象专业委员会, 主任委员

教授课程

气候动力学
高等大气动力学

专利与奖励

   
奖励信息
(1) 朱李月华优秀教师奖, 部委级, 2015
(2) 宝洁优秀研究生导师, 部委级, 2011
(3) 全国优秀博士论文指导教师奖, , 部委级, 2010
(4) 中科院优秀研究生指导教师奖, , 部委级, 2009
(5) 中国气象青年科技人才奖, , 部委级, 2006
(6) 973计划先进个人奖, , 部委级, 2004
(7) 中科院青年科学家奖二等奖, , 部委级, 1999

出版信息

发表论文
[1] 黄荣辉. 从Rossby波能量频散理论到准定常行星波动力学研究的发展. 大气科学[J]. [[[2016]]], [[[32]]]([[[1]]]): 3-21, http://lib.cqvip.com/Qikan/Article/Detail?id=667684934.
[2] 黄荣辉. 东亚2005年和2006年冬季风异常及其与准定常行星波活动的关系. 大气科学[J]. [[[2007]]], [[[25]]]([[[6]]]): 1033-1048, http://lib.cqvip.com/Qikan/Article/Detail?id=2.5865834E7.
[3] 黄荣辉. 关于季风动力学以及季风与ENSO循环相互作用的研究. 大气科学[J]. [[[2003]]], [[[23]]]([[[4]]]): 484-502, http://lib.cqvip.com/Qikan/Article/Detail?id=9658729.0.
[4] Piao, Jinling, Chen, Wen, Wang, Lin, Chen, Shangfeng. Future projections of precipitation, surface temperatures and drought events over the monsoon transitional zone in China from bias-corrected CMIP6 models. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2022, 42(2): 1203-1219, http://dx.doi.org/10.1002/joc.7297.
[5] Hu, Peng, Chen, Wen, Chen, Shangfeng, Liu, Yuyun, Wang, Lin, Huang, Ruping. The Leading Mode and Factors for Coherent Variations among the Subsystems of Tropical Asian Summer Monsoon Onset. JOURNAL OF CLIMATE[J]. 2022, 35(5): 1597-1612, http://dx.doi.org/10.1175/JCLI-D-21-0101.1.
[6] Chen, Shangfeng, Chen, Wen, Yu, Bin, Li, Zhibo. Impact of Internal Climate Variability on the Relationship between Spring Northern Tropical Atlantic SST Anomalies and Succedent Winter ENSO: The Role of the North Pacific Oscillation. JOURNAL OF CLIMATE[J]. 2022, 35(2): 537-559, http://dx.doi.org/10.1175/JCLI-D-21-0505.1.
[7] Aru, Hasi, Chen, Shangfeng, Chen, Wen. Change in the variability in the Western Pacific pattern during boreal winter: roles of tropical Pacific sea surface temperature anomalies and North Pacific storm track activity. CLIMATE DYNAMICS[J]. 2022, 58(9-10): 2451-2468, http://dx.doi.org/10.1007/s00382-021-06014-1.
[8] Hu, Peng, Chen, Wen, Chen, Shangfeng, Wang, Lin, Liu, Yuyun. The Weakening Relationship between ENSO and the South China Sea Summer Monsoon Onset in Recent Decades. ADVANCES IN ATMOSPHERIC SCIENCES[J]. 2022, 39(3): 443-455, http://dx.doi.org/10.1007/s00376-021-1208-6.
[9] 陈文. Different ENSO teleconnections over East Asia in early and late winter: role of precipitation anomalies in the tropical Indian Ocean–far western Pacific. J. Climate[J]. 2022, 35: 4319-4335, [10] 陈文. Impact of internal variability on recent opposite trends in wintertime temperature over the Barents–Kara Seas and central Eurasia. Clim. Dyn.[J]. 2022, 58: 2941-2956, [11] 陈文. Distinctive impact of spring AO on the succedent winter El Niño event: sensitivity to AO’s North Pacific component. Clim. Dyn.[J]. 2022, 58: 235-255, [12] Chen, Wen, Hu, Peng, Huangfu, Jingliang. Multi-scale climate variations and mechanisms of the onset and withdrawal of the South China Sea summer monsoon. SCIENCE CHINA-EARTH SCIENCES[J]. 2022, 65(6): 1030-1046, http://dx.doi.org/10.1007/s11430-021-9902-5.
[13] Qibo Xu, Wen Chen, Lei Song. Two Leading Modes in the Evolution of Major Sudden Stratospheric Warmings and Their Distinctive Surface Influence. Geophysical Research Letters[J]. 2022, [14] 陈文. Close linkage of the South China Sea summer monsoon onset and extreme rainfall in May over Southeast Asia: role of the synoptic-scale systems. J. Climate[J]. 2022, 35: 4347-4362, [15] 陈文. Influence of the Quasi-Biennial Oscillation on the spatial structure of winter-time Arctic Oscillation. J. Geophys. Res. Atmos.[J]. 2022, 127(e2021JD035564): [16] Zheng, Yuqiong, Chen, Wen, Chen, Shangfeng. Intermodel Spread in the Impact of the Springtime Pacific Meridional Mode on Following-Winter ENSO Tied to Simulation of the ITCZ in CMIP5/CMIP6. GEOPHYSICAL RESEARCH LETTERS[J]. 2021, 48(17): http://dx.doi.org/10.1029/2021GL093945.
[17] Xue, Xu, Chen, Wen, Chen, Shangfeng, Sun, Sisi, Hou, Shuangshuang. Distinct impacts of two types of South Asian highs on East Asian summer rainfall. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2021, 41: E2718-E2740, http://dx.doi.org/10.1002/joc.6876.
[18] Xu, Peiqiang, Wang, Lin, Huang, Ping, Chen, Wen. Disentangling dynamical and thermodynamical contributions to the record-breaking heatwave over Central Europe in June 2019. ATMOSPHERIC RESEARCH[J]. 2021, 252: http://dx.doi.org/10.1016/j.atmosres.2020.105446.
[19] Piao, Jinling, Chen, Wen, Chen, Shangfeng, Gong, Hainan, Wang, Lin. Mean states and future projections of precipitation over the monsoon transitional zone in China in CMIP5 and CMIP6 models. CLIMATIC CHANGE[J]. 2021, 169(3-4): [20] Gong, Hainan, Wang, Lin, Chen, Wen, Wu, Renguang. Evolution of the East Asian winter land temperature trends during 1961-2018: role of internal variability and external forcing. ENVIRONMENTAL RESEARCH LETTERS[J]. 2021, 16(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000610054400001.
[21] Piao, Jinling, Chen, Wen, Chen, Shangfeng. Sources of the internal variability-generated uncertainties in the projection of Northeast Asian summer precipitation. CLIMATE DYNAMICS[J]. 2021, 56(5-6): 1783-1797, http://dx.doi.org/10.1007/s00382-020-05557-z.
[22] Huangfu, Jingliang, Tang, Yulian, Ma, Tianjiao, Chen, Wen, Wang, Lin. Influence of the QBO on tropical convection and its impact on tropical cyclone activity over the western North Pacific. CLIMATE DYNAMICS[J]. 2021, 57(3-4): 657-669, http://dx.doi.org/10.1007/s00382-021-05731-x.
[23] Wei Zhao, Wen Chen, Shangfeng Chen, Hainan Gong, Tianjiao Ma. Roles of anthropogenic forcings in the observed trend of decreasing late-summer precipitation over the East Asian transitional climate zone. SCIENTIFIC REPORTS[J]. 2021, 11(1): https://www.webofscience.com/wos/woscc/full-record/WOS:000625410100009.
[24] Koval, Andrey, V, Chen, Wen, Didenko, Ksenia A, Ermakova, Tatiana S, Gavrilov, Nikolai M, Pogoreltsev, Alexander, I, Toptunova, Olga N, Wei, Ke, Yarusova, Anna N, Zarubin, Anton S. Modelling the residual mean meridional circulation at different stages of sudden stratospheric warming events. ANNALES GEOPHYSICAE[J]. 2021, 39(2): 357-368, https://doaj.org/article/01d3ffa031c64129b6de8aa2b535ba85.
[25] Hu, Peng, Chen, Wen, Chen, Shangfeng, Liu, Yuyun, Wang, Lin, Huang, Ruping. Impact of the March Arctic Oscillation on the South China Sea summer monsoon onset. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2021, 41: E3239-E3248, http://dx.doi.org/10.1002/joc.6920.
[26] Wang, Lei, Wang, Lin, Chen, Wen, Huangfu, Jingliang. Modulation of winter precipitation associated with tropical cyclone of the western North Pacific by the stratospheric Quasi-Biennial oscillation. ENVIRONMENTAL RESEARCH LETTERS[J]. 2021, 16(5): https://www.webofscience.com/wos/woscc/full-record/WOS:000641034400001.
[27] Aru, Hasi, Chen, Shangfeng, Chen, Wen. Comparisons of the different definitions of the western Pacific pattern and associated winter climate anomalies in Eurasia and North America. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2021, 41(4): 2840-2859, http://dx.doi.org/10.1002/joc.6993.
[28] Piao, Jinling, Chen, Wen, Chen, Shangfeng. Water vapour transport changes associated with the interdecadal decrease in the summer rainfall over Northeast Asia around the late-1990s. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2021, 41: E1469-E1482, http://dx.doi.org/10.1002/joc.6780.
[29] Huang, Ruping, Chen, Shangfeng, Chen, Wen, Yu, Bin, Hu, Peng, Ying, Jun, Wu, Qiaoyan. Northern poleward edge of regional Hadley cell over western Pacific during boreal winter: year-to-year variability, influence factors and associated winter climate anomalies. CLIMATE DYNAMICS[J]. 2021, 56(11-12): 3643-3664, http://dx.doi.org/10.1007/s00382-021-05660-9.
[30] Chen, Shangfeng, Wu, Renguang, Chen, Wen, Song, Linye, Cheng, Wei, Shi, Wenjing. Weakened impact of autumn Arctic sea ice concentration change on the subsequent winter Siberian High variation around the late-1990s. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2021, 41: E2700-E2717, http://dx.doi.org/10.1002/joc.6875.
[31] 陈文. Water vapor transport changes associated with the interdecadal decrease in the summer rainfall over Northeast Asia around the late-1990s. Int. J. Climatol.. 2021, [32] Choudhury, Devanil, Nath, Debashis, Chen, Wen. The modulation of Indian summer monsoon onset processes during ENSO through equatorward migration of the subtropical jet stream. CLIMATE DYNAMICS[J]. 2021, 57(1-2): 141-152, http://dx.doi.org/10.1007/s00382-021-05700-4.
[33] Choudhury, Devanil, Nath, Debashis, Chen, Wen. The modulation of Indian summer monsoon onset processes during ENSO through equatorward migration of the subtropical jet stream (Feb, 10.1007/s00382-021-05700-4, 2021). CLIMATE DYNAMICSnull. 2021, 57(1-2): 153-156, http://dx.doi.org/10.1007/s00382-021-05721-z.
[34] Zheng, Yuqiong, Chen, Shangfeng, Chen, Wen, Yu, Bin. Diverse influences of spring Arctic Oscillation on the following winter El Nino-Southern Oscillation in CMIP5 models. CLIMATE DYNAMICS[J]. 2021, 56(1-2): 275-297, https://www.webofscience.com/wos/woscc/full-record/WOS:000578514600002.
[35] Chen, Shangfeng, Wu, Renguang, Chen, Wen. Influence of North Atlantic sea surface temperature anomalies on springtime surface air temperature variation over Eurasia in CMIP5 models. CLIMATE DYNAMICS[J]. 2021, 57(9-10): 2669-2686, http://dx.doi.org/10.1007/s00382-021-05826-5.
[36] Chen, Shangfeng, Chen, Wen, Wu, Renguang, Yu, Bin, Song, Linye. Performance of the IPCC AR6 models in simulating the relation of the western North Pacific subtropical high to the spring northern tropical Atlantic SST. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2021, 41(4): 2189-2208, http://dx.doi.org/10.1002/joc.6953.
[37] Debashis Nath, Keerthi Sasikumar, Reshmita Nath, Wen Chen. Factors Affecting COVID-19 Outbreaks across the Globe: Role of Extreme Climate Change. SUSTAINABILITY[J]. 2021, 13(6): https://doaj.org/article/145d47e22161446f9de5cee943b75c42.
[38] Zheng, Yuqiong, Chen, Wen, Chen, Shangfeng, Yao, Shuailei, Cheng, Conglan. Asymmetric impact of the boreal spring Pacific Meridional Mode on the following winter El Nino-Southern Oscillation. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2021, 41(6): 3523-3538, http://dx.doi.org/10.1002/joc.7033.
[39] Ding, Shuoyi, Wu, Bingyi, Chen, Wen. Dominant Characteristics of Early Autumn Arctic Sea Ice Variability and Its Impact on Winter Eurasian Climate. JOURNAL OF CLIMATE[J]. 2021, 34(5): 1825-1846, http://dx.doi.org/10.1175/JCLI-D-19-0834.1.
[40] Yu, Tiantian, Chen, Wen, Feng, Juan, Hu, Kaiming, Song, Lei, Hu, Peng. Roles of ENSO in the Link of the East Asian Summer Monsoon to the Ensuing Winter Monsoon. JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES[J]. 2021, 126(4): http://dx.doi.org/10.1029/2020JD033994.
[41] Li, Zhibo, Chen, Wen, Chen, Shangfeng, Sun, Ying, Qian, Danlei. Uncertainty of central China summer precipitation and related natural internal variability under global warming of 1 to 3 degrees C. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2021, 41(15): 6640-6653, http://dx.doi.org/10.1002/joc.7217.
[42] Chen, Shangfeng, Yu, Bin, Wu, Renguang, Chen, Wen, Song, Linye. The dominant North Pacific atmospheric circulation patterns and their relations to Pacific SSTs: historical simulations and future projections in the IPCC AR6 models. CLIMATE DYNAMICS[J]. 2021, 56(3-4): 701-725, http://dx.doi.org/10.1007/s00382-020-05501-1.
[43] Wang, Sai, Nath, Debashis, Chen, Wen. Nonstationary relationship between sea ice overKara-Laptevseas duringAugust-Septemberand Ural blocking in the following winter. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2021, 41: E1608-E1622, http://dx.doi.org/10.1002/joc.6794.
[44] Wei, Ke, Chen, Wen, Xu, Luyang, Zhou, Chunjiang. Stratosphere amplifies the global climate effect of wildfires. SCIENCE CHINA-EARTH SCIENCES[J]. 2020, 63(2): 309-311, http://lib.cqvip.com/Qikan/Article/Detail?id=7101014815.
[45] 周群, 陈文. 太阳活动11年周期变化对南海夏季风爆发的可能影响. 热带气象学报[J]. 2020, 36(1): 25-31, http://lib.cqvip.com/Qikan/Article/Detail?id=7101381808.
[46] Devanil CHOUDHURY, Debashis NATH, Wen CHEN. Atmospheric diabatic heating–induced wave train from the Caspian Sea to South and East Asia during the summer monsoon season. Atmospheric and Oceanic Science Letters[J]. 2020, 13(5): 381-389, https://doaj.org/article/1d25765e16014357bff0fd0533d1aa26.
[47] Chen, Shangfeng, Wu, Renguang, Chen, Wen, Yao, Shuailei, Yu, Bin. Coherent Interannual Variations of Springtime Surface Temperature and Temperature Extremes Between Central-Northern Europe and Northeast Asia. JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES[J]. 2020, 125(11): [48] Chen, Shangfeng, Wu, Renguang, Chen, Wen, Yu, Bin. Recent weakening of the linkage between the spring Arctic Oscillation and the following winter El Nino-Southern Oscillation. CLIMATE DYNAMICS[J]. 2020, 54(1-2): 53-67, [49] Wang, Sai, Nath, Debashis, Chen, Wen, Ma, Tianjiao. CMIP5 model simulations of warm Arctic-cold Eurasia pattern in winter surface air temperature anomalies. CLIMATE DYNAMICS[J]. 2020, 54(11-12): 4499-4513, http://dx.doi.org/10.1007/s00382-020-05241-2.
[50] Wang, Sai, Chen, Wen, Chen, Shangfeng, Nath, Debashis, Wang, Lin. Anomalous winter moisture transport associated with the recent surface warming over the Barents-Kara seas region since the mid-2000s. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2020, 40(4): 2497-2505, https://www.webofscience.com/wos/woscc/full-record/WOS:000492434900001.
[51] Chen, Wen, Zhou, Qun, Xue, Xu. Solar cycle modulation of the relationship between the boreal spring Northern Atlantic Oscillation and the East and Southeast Asian summer climate. METEOROLOGY AND ATMOSPHERIC PHYSICS[J]. 2020, 132(2): 287-295, https://www.webofscience.com/wos/woscc/full-record/WOS:000520851500009.
[52] Liao, Guangdong, Jiang, Xiyi, She, Bin, Tang, Huijuan, Wang, Zhongyong, Zhou, Hongrong, Ma, Yan, Xu, Weidong, Xu, Hongxing, Chen, Wen, Ji, Jianguang, Xi, Mingrong, Chen, Tianhui. Multi-Infection Patterns and Co-infection Preference of 27 Human Papillomavirus Types Among 137,943 Gynecological Outpatients Across China. FRONTIERS IN ONCOLOGY[J]. 2020, 10: https://doaj.org/article/c8bb2bc136b14c3284b5a663eebcd6ac.
[53] Hu, Peng, Huangfu, Jingliang, Chen, Wen, Huang, Ronghui. South China Sea summer monsoon withdrawal and the synoptic-scale wave train over the western North Pacific. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2020, 40(13): 5599-5611, http://dx.doi.org/10.1002/joc.6538.
[54] Zhao, Wei, Chen, Wen, Chen, Shangfeng, Yao, ShuaiLei, Nath, Debashis. Combined impact of tropical central-eastern Pacific and North Atlantic sea surface temperature on precipitation variation in monsoon transitional zone over China during August-September. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2020, 40(2): 1316-1327, https://www.webofscience.com/wos/woscc/full-record/WOS:000480189100001.
[55] Xue, Xu, Chen, Wen, Hou, Shuangshuang. The long-term variation in the South Asia High intensity measured by 150-hPa eddy geopotential height. METEOROLOGY AND ATMOSPHERIC PHYSICS[J]. 2020, 132(6): 833-844, https://www.webofscience.com/wos/woscc/full-record/WOS:000578593500004.
[56] 陈文. The intensified impact of El Niño on late-summer precipitation over East Asia since the early 1990s. Clim. Dyn.. 2020, [57] Chen, Shangfeng, Wu, Renguang, Chen, Wen. Strengthened Connection between Springtime North Atlantic Oscillation and North Atlantic Tripole SST Pattern since the Late 1980s. JOURNAL OF CLIMATE[J]. 2020, 33(5): 2007-2022, https://www.webofscience.com/wos/woscc/full-record/WOS:000512606200004.
[58] Piao, Jinling, Chen, Wen, Chen, Shangfeng, Gong, Hainan, Chen, Xiaolong, Liu, Bo. The intensified impact of El Nino on late-summer precipitation over East Asia since the early 1990s. CLIMATE DYNAMICS[J]. 2020, 54(11-12): 4793-4809, http://dx.doi.org/10.1007/s00382-020-05254-x.
[59] Chen, Shangfeng, Wu, Renguang, Chen, Wen, Hu, Kaiming, Yu, Bin. Structure and dynamics of a springtime atmospheric wave train over the North Atlantic and Eurasia. CLIMATE DYNAMICS[J]. 2020, 54(11-12): 5111-5126, http://dx.doi.org/10.1007/s00382-020-05274-7.
[60] Xu, Peiqiang, Wang, Lin, Chen, Wen, Chen, Guosen, Kang, InSik. Intraseasonal Variations of the British-Baikal Corridor Pattern. JOURNAL OF CLIMATE[J]. 2020, 33(6): 2183-2200, https://www.webofscience.com/wos/woscc/full-record/WOS:000514166000002.
[61] Wang, Sai, Nath, Debashis, Chen, Wen, Wang, Lin. Changes in winter stationary wave activity during weak mid-latitude and Arctic thermal contrast period. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2020, 40(3): 1755-1768, http://dx.doi.org/10.1002/joc.6299.
[62] Chen, Shangfeng, Wu, Renguang, Chen, Wen, Song, Linye. Projected changes in mid-high-latitude Eurasian climate during boreal spring in a 1.5 and 2 degrees C warmer world. INTERNATIONAL JOURNAL OF CLIMATOLOGY[J]. 2020, 40(3): 1851-1863, http://dx.doi.org/10.1002/joc.6306.
[63] 周群, 陈文. 太阳活动11年周期与南极海冰的可能联系. 极地研究[J]. 2020, 32(3): 290-300, http://lib.cqvip.com/Qikan/Article/Detail?id=7102733848.
[64] Chen, Shangfeng, Wu, Renguang, Chen, Wen, Li, Kai. Why Does a Colder (Warmer) Winter Tend to Be Followed by a Warmer (Cooler) Summer over Northeast Eurasia?. JOURNAL OF CLIMATE[J]. 2020, 33(17): 7255-7274, http://dx.doi.org/10.1175/JCLI-D-20-0036.1.
[65] Wang, Sai, Chen, Wen, Chen, Shangfeng, Ding, Shuoyi. Interdecadal change in the North Atlantic storm track during boreal summer around the mid-2000s: role of the atmospheric internal processes. CLIMATE DYNAMICS[J]. 2020, 55(7-8): 1929-1944, http://dx.doi.org/10.1007/s00382-020-05360-w.
[66] Chen, Shangfeng, Chen, Wen, Wu, Renguang, Yu, Bin, Graf, HansF. Potential Impact of Preceding Aleutian Low Variation on El Nino-Southern Oscillation during the Following Winter. JOURNAL OF CLIMATE[J]. 2020, 33(8): 3061-3077, https://www.webofscience.com/wos/woscc/full-record/WOS:000526733300003.
[67] 魏科, 陈文, 徐路扬, 周春江. 平流层放大火灾的全球气候影响. 中国科学:地球科学[J]. 2020, 318-320, http://lib.cqvip.com/Qikan/Article/Detail?id=00002GGNK9707JP0MPDO7JP16JR.
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[219] Xue, Xu, Chen, Wen, Nath, Debashis, Zhou, Dingwen. Whether the decadal shift of South Asia High intensity around the late 1970s exists or not. THEORETICAL AND APPLIED CLIMATOLOGY[J]. 2015, 120(3-4): 673-683, https://www.webofscience.com/wos/woscc/full-record/WOS:000353220700022.
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[227] 余广昌, 陈文, 徐霈强, 马音. 东海黑潮区潜热变化对中国春季降水的影响及其影响过程. 气候与环境研究[J]. 2015, 20(5): 600-610, http://lib.cqvip.com/Qikan/Article/Detail?id=666066159.
[228] MEI Shuang-Li, CHEN Wen, CHEN Shang-Feng. On the Relationship between the Northern Limit of Southerly Wind and Summer Precipitation over East China. 大气和海洋科学快报:英文版[J]. 2015, 52-56, http://lib.cqvip.com/Qikan/Article/Detail?id=65798376504849534849484857.
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发表著作
( 1 ) 海-气相互作用对我国气候变化的影响, 气象出版社, 2005-03, 第 2 作者
( 2 ) 中国西北干旱区陆-气相互作用及其对东亚气候变化的影响, 气象出版社, 2011-09, 第 2 作者
( 3 ) 中国南方洪涝和持续性暴雨的气候背景, 气象出版社, 2013-10, 第 1 作者
( 4 ) 大气科学和全球气候变化研究进展与前沿, 科学出版社, 2014-08, 第 3 作者
( 5 ) 大气科学研究方法, 科学出版社, 2015-06, 第 4 作者
( 6 ) 大气科学和全球气候变化研究重大科学问题, 科学出版社, 2016-07, 第 3 作者

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