杨修群

xqyang@nju.edu.cn


杨修群,现任bwin必赢教授、博士生导师,中国气象局气候预测研究重点开放实验室联合主任,曾长期担任bwin必赢经理。系国家973计划项目首席科学家,国家重点研发计划项目负责人,国家自然科学基金创新研究群体学术带头人,国家杰出青年科学基金获得者,首批新世纪百千万人才工程国家级人选,入选英国路透社发布的气候变化研究领域全球最具影响力科学家榜单。兼任中国气象学会副理事长,国家自然科学基金委员会地球科学部第七届专家咨询委员会委员,世界气候研究计划(WCRP/国际气象学和大气科学协会(IAMAS/未来地球计划(FE)中国委员会委员,国际SCI期刊JGR-Atmos副编辑(Associate Editor)、AAS编辑(Editor)和国内核心期刊《气象科学》主编等。

1981年入bwin必赢气象系(现bwin必赢)气象学(天气动力学)专业学习,1985年获气象学理学学士学位,1988年获气象学理学硕士学位,1993年获气象学理学博士学位。1995年赴日本气象研究所(MRI)开展短期合作研究,1996-1998年在美国普林斯顿(Princeton)大学暨NOAA地球物理流体动力学实验室(GFDL/NOAA)从事博士后研究。

主持本科生 “地球流体力学数值天气预报和研究生地球物理流体动力学等课程的建设和教学任务。已指导培养获得博士学位研究生35名(其中外国职工1名),获得硕士学位研究生26名,获得同等学力硕士学位研究生20名。

长期专注于气候动力学和气候预测研究。主持完成包括国家重点基础研究发展(973)计划、国家重点研发计划、国家自然科学基金创新研究群体、国家自然科学基金重点、国家杰出青年科学基金、国家创新引智计划等科研项目30余项。发表学术论文310余篇(SCI论文189篇),出版合作编著11部;论文被他引11000余次;取得国家授权发明专利和软著权30项;获教育部自然科学奖一等奖、中国气象局气象科技成果评价优秀等级、江苏省科学技术奖一等奖、江苏省青年科技奖、中国气象学会涂长望青年气象科技奖以及国务院颁发的政府特殊津贴等。在海气耦合模态的形成机制、气候影响机理、气候可预测性贡献和气候预测应用方面取得了具有重要国际影响并在全国推广应用的系列创新成果。主要代表性创新成果包括:

(一)创建了大气瞬变涡旋驱动的中纬度不稳定海气耦合理论,发展了热带ENSO-背景态非线性相互作用动力学,为阐释海气耦合模态成因奠定了关键理论基础。1)在中纬度海气相互作用方面,揭示了中纬度海温异常主要通过改变大气瞬变涡旋活动的动力强迫影响大气的新机制,建立了包括大气瞬变涡旋活动反馈的中纬度海气耦合解析模型,进而创建了大气瞬变涡旋驱动的中纬度不稳定海气耦合动力学新理论,成功解释了中纬度海气耦合模态的独特结构和发展机制,为阐明中纬度海温异常的气候影响奠定了关键理论基础;(2)在热带海气相互作用方面,阐释了海温年平均态的正确模拟对于准确模拟和预测ENSO的关键作用,揭示了ENSO事件不对称性的决定性背景态因子,发现了ENSO活动对上层海洋平均态的整流效应,进而发展了热带ENSO-背景态非线性相互作用动力学,为阐明ENSO复杂性及其与全球变暖关系建立了理论基础。

(二)揭示了热带和中高纬多尺度海气耦合模态影响我国汛期旱涝的规律和机理,为我国气候预测提供了重要物理基础。1)率先发现了中纬度太平洋年代际海气耦合模态PDO对东亚气候和我国汛期旱涝的影响规律,阐明了三种主要年代际海气模态(PDO/AMO/IOBM)不同位相组合对我国旱涝的协同影响机制及相对作用,揭示了ENSO与我国旱涝年际关系的年代际变化规律、机制和年代际海气耦合模态的调制作用,全面阐释了我国旱涝年代际变化的自然变率成因,为我国汛期旱涝可预测性提供了重要的中高纬来源;(2)发现了海气耦合过程助推了夏季热带西北太平洋季节内振荡(BSISO)北传,其中云的透过率效应造成海温异常的振幅不对称,通过海洋反馈形成了BSISO位相不对称,其北传导致西北太平洋副高缓慢西进和快速东退,进而导致我国东部旱涝在季节内发生急转,为我国旱涝具体发生时段预测即次季节预测提供了重要物理依据。

(三)阐明了全球气候可预测性优势区及海气耦合模态贡献,研制了包括中高纬和热带海气耦合模态共同影响的我国气候预测集成系统,显著提高了我国汛期旱涝预测准确率。1)通过分离可预测的海气耦合模态,建立了基于这些模态的气候可预测性动力学定量评估新方法,阐明了全球气候可预测性的优势区及热带和中高纬海气耦合模态的贡献;将气候可预测性评估从确定性拓展到概率性,揭示出气候概率可预测性和确定可预测性的内在本质关联;(2)基于对我国旱涝成因和可预测性理论创新,提出了基于最优可预测模态(SM)和异常相对倾向(ART)的SMART气候预测新原理,在考虑热带海气耦合模态影响基础上,重点引入中高纬海气耦合模态的影响和时间尺度分离,研制了包括物理统计、动力-统计结合的次季节和季节预测系统的SMART气候预测集成系统(iSMART),通过云服务器和客户端软件,实现了在全国气候中心推广应用,为我国气候灾害预测提供了重要科技支撑。

主要科研项目 (Projects)

[1]       2022-2026,主持国家重点研发计划“政府间国际科技创新合作”重点专项项目“北极和青藏高原加速变暖的过程及其对欧亚气候的协同影响”(2022YFE0106600),452

[2]       2018-2021, 主持国家重点研发计划项目“30-90天气候变异的机理和预测方法研究2018YFC1505900),1479

[3]       2017-2022,主持国家自然科学基金创新研究群体项目 “东亚气候变异动力学41621005),1200

[4]       2017-2021,主持高等学校学科创新引智(111)计划项目季风气候变化与气象灾害研究学科创新引智基地B17022),450万元

[5]       2014-2018主持国家自然科学基金重点项目大气瞬变涡旋反馈在中纬度海气耦合动力过程中的作用41330420),280

[6]       2010-2014,国家重点基础研究发展(973)计划项目首席科学家,我国东部沿海城市带的气候效应及对策研究2010CB428500),2700

[7]       2008-2011主持国家自然科学基金重点项目“20世纪70年代末我国东部旱涝年代际转型的成因研究40730953),170

[8]       2008-2011主持公益性行业(气象)科研专项项目大气低频变化规律及其在气象预测中的应用研究GYHY200806004),289万元

[9]       2008-2011主持江苏省自然科学基金创新学者攀登项目“20世纪70年代末东亚夏季风年代际减弱的成因研究BK2008027),100万元

[10]    2009-2010,主持高等学校科技创新工程重大项目培育资金项目我国持续性灾害天气事件的成因研究80万元

[11]    2005-2009,国家重点基础研究发展计划(973计划)项目我国南方致洪暴雨监测与预测的理论和方法研究2004CB418303),第三课题负责人,35

[12]    2005-2008,主持国家杰出青年科学基金项目北太平洋中纬度海气耦合动力学研究40425009),140

[13]    2003-2006,主持国家自然科学基金重点项目太平洋年代际振荡的形成机制及其与东亚气候变化的关系研究(40233028),120

[14]    2001-2003,主持国家自然科学基金项目变化的气候背景态对年际ENSO变率影响的机理研究40075017),20

[15]    1995-1997,主持国家自然科学基金项目“ENSO循环的数值模拟及形成机制研究49405061),8.5

 

论著目录 (Publications)

SCI期刊论文

[1]       Shengjie Chen, Xiu-Qun Yang*, Jiabei Fang, Linyuan Sun, Lingfeng Tao, Xiaozhuo Sang, and Manman Yin, 2023, Revisiting the East Asian summer monsoon structure: a combined effect of condensational heating and synoptic eddy activities, Climate Dynamics,61, 3787-3803, doi: 10.1007/s00382-023-06763-1.

[2]       Mengchu Zhao, Xiu-Qun Yang*, Lingfeng Tao, 2023, Quantifying the processes of accelerated wintertime Tibetan Plateau warming: Outside forcing versus local feedbacks, Climate Dynamics,61, 3289-3307, 10.1007/s00382-023-06741-7.

[3]       Zitian Xu, Xiu-Qun Yang*, Lingfeng Tao, and Linyuan Sun, 2023, Impact of anomalous Eurasian blocking activities on the East Asian Meiyu rainfall, Climate Dynamics, 61, 3127-3146, doi: 10.1007/s00382-023-06735-5.

[4]       Lingfeng Tao, Jiabei Fang*, Xiu-Qun Yang*, Xuguang Sun, Danping Cai, and Yu Wang, 2023, Role of North Atlantic tripole SST in mid-winter reversal of NAO, Geophysical Research Letters, 50, e2023GL103502, doi: 10.1029/2023GL103502.

[5]       Yuelin Liu*, Xuguang Sun*, Xiu-Qun Yang*, 2023, Stage-dependent influence of PDO on interdecadal summer precipitation anomalies in eastern China, Climate Dynamics, 61, 2071-2084,doi: 10.1007/s00382-023-06667-0.

[6]       Linyuan Sun, Xiu-Qun Yang*, and Lingfeng Tao, 2023, Impact of ENSO on wintertime land surface variables in Northern Hemisphere extratropics: Role of atmospheric moisture processes, Journal of Climate, 36(16), 5443-5460, doi: 10.1175/JCLI-D-22-0777.1.

[7]       Yue Luo, Xiu-Qun Yang*, Linyuan Sun, and Lingfeng Tao, 2023, What determines the leading mode of wintertime Northern Hemisphere snow cover interannual variability? Journal of Climate, 36(16), 5381-5398, doi: 10.1175/JCLI-D-22-0934.1.

[8]       Wen Li, Xiu-Qun Yang*, Jiabei Fang, Lingfeng Tao, and Xuguang Sun, 2023, Asymmetric boreal summer intraseasonal oscillation events over the western North Pacific and their impacts on East Asian precipitation, Journal of Climate, 36(8), 2645-2661, doi: 10.1175/JCLI-D-22-0750.1.

[9]       Lingfeng Tao, Xuguang Sun*, Xiu-Qun Yang*, Jiabei Fang, and Zhi-Qi Zhang, 2023, Effect of oceanic stochastic forcing on wintertime atmospheric decadal variability over midlatitude North Pacific, Journal of Geophysical Research – Atmospheres, 128(2), e2022JD037594, doi: 10.1029/2022JD037594.

[10]      Xueqing Wang and Xiu-Qun Yang*, 2023, Amplified asymmetric impact of ENSO events on the wintertime Pacific-North American teleconnection pattern, Geophysical Research Letters, 50, e2022GL100996, doi: 10.1029/2022GL100996.

[11]      Danping Cai, Lingfeng Tao*, Xiu-Qun Yang*, Xiaozhuo Sang, Jiabei Fang, Xuguang Sun, Weiping Wang, and Hongming Yan, 2022, A climate perspective of the quasi-stationary front in southwestern China: structure, variation and impact, Climate Dynamics, 59, 547-560, doi: 10.1007/s00382-022-06151-1.

[12]      Xiaozhuo Sang, Xiu-Qun Yang*, Lingfeng Tao, Jiabei Fang, Xuguang Sun, 2022, Evaluation of synoptic eddy activities and their feedback onto the midlatitude jet in five atmospheric reanalyses with coarse versus fine model resolutions, Climate Dynamics, 58, 1363-1381, doi: 10.1007/s00382-021-05965-9.

[13]      Jiabei Fang, Lilan Chen, Xiu-Qun Yang*, 2022, Roles of vertical distributions of atmospheric transient eddy dynamical forcing and diabatic heating in midlatitude unstable air-sea interaction, Climate Dynamics, 58, 351-368, doi: 10.1007/s00382-021-05912-8.

[14]      Xiaozhuo Sang, Xiu-Qun Yang*, Lingfeng Tao, Jiabei Fang, Xuguang Sun, 2022, Decadal changes of wintertime poleward heat and moisture transport associated with the amplified Arctic warming, Climate Dynamics, 58, 137-159, doi: 10.1007/s00382-021-05894-7.

[15]      Lingfeng Tao, Jiabei Fang*, Xiu-Qun Yang*, Xuguang Sun, and Danping Cai, 2022, Midwinter reversal of the atmospheric anomalies caused by the North Pacific Mode-related air-sea coupling, Geophysical Research Letters, 49(20), e2022GL100307, doi: 10.1029/2022GL100307.

[16]      Linyuan Sun, Xiu-Qun Yang*, Lingfeng Tao, Jiabei Fang, and Xuguang Sun, 2021, Changing impact of ENSO events on the following summer rainfall in eastern China since the 1950s, Journal of Climate, 34(20), 8105-8123, doi: 10.1175/JCLI-D-21-0018.1.

[17]      Dejian Yang, Youmin Tang*, Xiu-Qun Yang*, Dan Ye, Ting Liu, Tao Feng, Xiaoqin Yan, Xuguang Sun, and Yaocun Zhang, 2021, A theoretical relationship between probabilistic relative operating characteristic skill and deterministic correlation skill in dynamical seasonal climate prediction, Climate Dynamics, 56, 3909-3932, doi: 10.1007/s00382-021-05678-z.

[18]      Lilan Chen, Jiabei Fang*, and Xiu-Qun Yang*, 2020, Midlatitude unstable air-sea interaction with atmospheric transient eddy dynamical forcing in an analytical coupled model, Climate Dynamics, 55(9), 2557-2577, doi: 10.1007/s00382-020-05405-0.

[19]      Ran Zhang, Jiabei Fang*, and Xiu-Qun Yang*, 2020, What kinds of atmospheric anomalies drive wintertime North Pacific basin-scale subtropical oceanic front intensity variation? Journal of Climate, 33 (16), 7011-7026, doi: 10.1175/JCLI-D-19-0973.1.

[20]      Lingfeng Tao, Xiu-Qun Yang*, Jiabei Fang*, and Xuguang Sun, 2020, PDO-related wintertime atmospheric anomalies over the midlatitude North Pacific: Local versus remote SST forcing, Journal of Climate, 33 (16), 6989-7010. doi: 10.1175/JCLI-D-19-0143.1.

[21]      Yiquan Jiang, Xiu-Qun Yang*, Xiaohong Liu, Yun Qian, Kai Zhang, Minghuai Wang, Fang Li, Yong Wang and Zheng Lu, 2020, Impacts of wildfire aerosols on global energy budget and climate: The role of climate feedbacks, Journal of Climate, 33(8), 3351-3366, doi: 10.1175/JCLI-D-19-0572.1.

[22]      Lingfeng Tao, Xuguang Sun*, and Xiu-Qun Yang*, 2019, The asymmetric atmospheric response to the midlatitude North Pacific SST anomalies, Journal of Geophysical Research – Atmospheres, 124, 9222-9240, doi: 10.1029/2019JD030500.

[23]      Xinshu Fu, Xiu-Qun Yang*, and Xuguang Sun, 2019, Spatial and diurnal variations of summer hourly rainfall over three super city clusters in eastern China and their possible link to the urbanization, Journal of Geophysical Research – Atmospheres, 124, 5445-5462, doi: 10.1029/2019JD030474.

[24]      Dejian Yang, Xiu-Qun Yang*, Dan Ye, Xuguang Sun, Jiabei Fang, Cuijiao Chu, Tao Feng, Yiquan Jiang, Jin Liang, Xuejuan Ren, Yaocun Zhang, and Youmin Tang, 2019, Reply to comment by Michael K. Tippett on “on the relationship between probabilistic and deterministic skills in dynamical seasonal climate prediction”, Journal of Geophysical Research – Atmospheres, 124, 3982-3983, doi: 10.1029/2019JD030289.

[25]      Xiangyu Ao, C. S. B. Grimmond, H. C. Ward, A. M. Gabey, Jianguo Tan, Xiu-Qun Yang*, Dongwei Liu, Xing Zhi, Hongya Liu, and Ning Zhang*, 2018, Evaluation of the surface urban energy and water balance scheme (SUEWS) at a dense urban site in Shanghai: Sensitivity to anthropogenic heat and irrigation, Journal of Hydrometeorology, 19, 1983-2005, doi: 10.1175/JHM-D-18-0057.1.

[26]      Zhiqi Zhang, Xuguang Sun*, and Xiu-Qun Yang*, 2018, Understanding the interdecadal variability of East Asian summer monsoon precipitation: Joint influence of three oceanic signals, Journal of Climate, 31(14), 5485-5506, doi: 10.1175/JCLI-D-17-0657.1.

[27]      Dejian Yang, Xiu-Qun Yang*, Dan Ye, Xuguang Sun, Jiabei Fang, Cuijiao Chu, Tao Feng, Yiquan Jiang, Jin Liang, Xuejuan Ren, Yaocun Zhang, and Youmin Tang, 2018, On the relationship between probabilistic and deterministic skills in dynamical seasonal climate prediction, Journal of Geophysical Research - Atmospheres, 123, 5261–5283, doi: 10.1029/2017JD028002.

[28]      Cuijiao Chu, Xiu-Qun Yang*, Xuguang Sun, Dejian Yang, Yiquan Jiang, Tao Feng, Jin Liang, 2018, Effect of the tropical Pacific and Indian Ocean warming since the late 1970s on wintertime Northern Hemispheric atmospheric circulation and East Asian climate interdecadal changes, Climate Dynamics, 50, 3031-3048, doi: 10.1007/s00382-017-3790-y.

[29]      Tianyi Wang, Xiu-Qun Yang*, Jiabei Fang, Xuguang Sun, Xuejuan Ren, 2018, Role of air-sea interaction in the 30–60-day boreal summer intraseasonal oscillation over the western North Pacific, Journal of Climate, 31(4), 1653-1680, doi: 10.1175/JCLI-D-17-0109.1.

[30]      Yawen Liu, Kai Zhang, Yun Qian*, Yuhang Wang, Yufei Zou, Yongjia Song, Hui Wan, Xiaohong Liu, and Xiu-Qun Yang*, 2018, Investigation of short-term effective radiative forcing of fire aerosols over North America using nudged hindcast ensembles,Atmospheric Chemistry and Physics, 18, 31-47, doi: 10.5194/acp-18-31-2018.

[31]      Liying Wang, Xiu-Qun Yang*, Dejian Yang, Qian Xie, Jiabei Fang, Xuguang Sun, 2017, Two typical modes in the variabilities of wintertime North Pacific basin-scale oceanic fronts and associated atmospheric eddy-driven jet,Atmospheric Science Letters, 18, 373-380, doi: 10.1002/asl.766.

[32]      Yiquan Jiang, Xiu-Qun Yang*, Xiaohong Liu, Dejian Yang, Xuguang Sun, Minghuai Wang, Aijun Ding, Tijian Wang, and Congbin Fu, 2017, Anthropogenic aerosol effects on East Asian winter monsoon: The role of black carbon-induced Tibetan Plateau warming, Journal of Geophysical Research - Atmospheres,122(11), 5883-5902, doi: 10.1002/2016JD026237.

[33]      Jin Liang, Xiu-Qun Yang*, and De-Zheng Sun*, 2017, Factors determining the asymmetry of ENSO, Journal of Climate, 30(16), 6097-6106, doi: 10.1175/JCLI-D-16-0923.1.

[34]      Tao Feng, Xiu-Qun Yang*, Wen Zhou, Ronghui Huang, Liang Wu, Dejian Yang, 2016, Synoptic-scale waves in sheared background flow over the western North Pacific, Journal of the Atmospheric Sciences, 73(11), 4583-4603, doi: 10.1175/JAS-D-16-0064.1.

[35]      Jiabei Fang, Xiu-Qun Yang*, 2016, Structure and dynamics of decadal anomalies in the wintertime midlatitude North Pacific ocean-atmosphere system, Climate Dynamics, 47(5), 1989-2007, doi: 10.1007/s00382-015-2946-x.

[36]      Dejian Yang, Xiu-Qun Yang*, Qian Xie, Yaocun Zhang, Xuejuan Ren, and Youmin Tang, 2016, Probabilistic versus deterministic skill in predicting the western North Pacific-East Asian summer monsoon variability with multimodel ensembles, Journal of Geophysical Research – Atmospheres, 121, 1079-1103, doi: 10.1002/2015JD023781.

[37]      Yiquan Jiang, Xiu-Qun Yang*, and Xiaohong Liu, 2015, Seasonality in anthropogenic aerosol effects on East Asian climate simulated with CAM5, Journal of Geophysical Research – Atmospheres, 120, 10837-10861, doi: 10.1002/2015JD023451.

[38]      Xuejuan Ren, Dejian Yang, and Xiu-Qun Yang*, 2015, Characteristics and mechanism of the subseasonal eastward extension of the South Asian High, Journal of Climate, 28(17), 6799-6822, doi: 10.1175/JCLI-D-14-00682.1.

[39]      Shi Zhong, and Xiu-Qun Yang*, 2015, Mechanism of urbanization impact on a summer cold-frontal rainfall process in the greater Beijing metropolitan area, Journal of Applied Meteorology and Climatology, 54(6), 1234–1247, doi: 10.1175/JAMC-D-14-0264.1.

[40]      Shi Zhong, Xiu-Qun Yang*, 2015, Ensemble simulations of the urban effect on a summer rainfall event in the Great Beijing Metropolitan Area, Atmospheric Research, 153, 318-334, doi: 10.1016/j.atmosres.2014.09.005.

[41]      Qiong Jin, Xiu-Qun Yang*, Xu-Guang Sun, Jia-Bei Fang, 2013, East Asian summer monsoon circulation structure controlled by feedback of condensational heating, Climate Dynamics, 41(7-8), 1885-1897, doi: 10.1007/s00382-012-1620-9.

[42]      QIANG Xue-Min, YANG Xiu-Qun*, 2013, Relationship between the first rainy season precipitation anomaly in South China and the sea surface temperature anomaly in the Pacific, Chinese Journal of Geophysics-Chinese Edition, 56(8), 2583-2593, doi: 10.6038/cjg20130808.

强学民、杨修群*2013,华南前汛期降水年际异常与太平洋海表温度异常的关系, 地球物理学报,56(8), 2583-2593, doi: 10.6038/cjg20130808.

[43]      Xuejuan Ren, Xiu-Qun Yang*, and Xuguang Sun, 2013, Zonal oscillation of western Pacific subtropical high and subseasonal SST variations during Yangtze persistent heavy rainfall events, Journal of Climate, 26(22), 8929-8946,doi10.1175/JCLI-D-12-00861.1.

[44]      Cuijiao Chu, Xiu-Qun Yang*, Xuejuan Ren, Tianjun Zhou, 2013, Response of Northern Hemisphere storm tracks to Indian-western Pacific Ocean warming in atmospheric general circulation models, Climate Dynamics, 40(5-6), 1057-1070, doi: 10.1007/s00382-013-1687-y.

[45]      WU Kai and YANG XiuQun*, 2013, Urbanization and heterogeneous surface warming in eastern China, Chinese Science Bulletin, 58(12), 1363-1373, doi: 10.1007/s11434-012-5627-8.

[46]      Zhong Shi, Yang Xiu-Qun*, Guo Wei-Dong, 2013, Influence of local zero-plane displacement on effective aerodynamic parameters over heterogeneous terrain, Acta Physica Sinica-Chinese Edition, 62(14), 144212, doi: 10.7498/aps.62.144212.

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[130]    Aijun Ding, Wei Nie, Xin Huang, Xuguang Chi, Jianning Sun, Veli-Matti Kerminen, Zheng Xu, Weidong Guo, Tuukka Petäjä, Xiuqun Yang, Markku Kulmala, Congbin Fu, 2016, Long-term observation of air pollution-weather/climate interactions at the SORPES station: a review and outlook, Frontiers of Environmental Science & Engineering, 10(5), 15, doi: 10.1007/s11783-016-0877-3.

[131]    LiYing Wang, HaiBo Hu, XiuQun Yang, XueJuan Ren, 2016, Atmospheric eddy anomalies associated with the wintertime North Pacific subtropical front strength and their influences on the seasonal-mean atmosphere, Science China Earth Sciences, 59(10), 2022-2036, doi:10.1007/s11430-016-5331-7.

[132]    Xuguang Sun, Guixiang Jiang, Xuejuan Ren, and Xiu-Qun Yang, 2016, Role of intraseasonal oscillation in the persistent extreme precipitation over Yangtze River Basin during June 1998, Journal of Geophysical Research - Atmospheres, 121,10453-10469, doi: 10.1002/2016JD025077.

[133]    Bei Xiao, Yang Zhang, Xiu-Qun Yang, and Yu Nie, 2016, On the role of extratropical air-sea interaction in the persistence of the Southern Annular Mode, Geophysical Research Letters, 43, 8806-8814, doi: 10.1002/2016GL070255.

[134]    Yao Yao, Zhong Zhong, and Xiu-Qun Yang, 2016, Numerical experiments of the storm track sensitivity to oceanic frontal strength within the Kuroshio/Oyashio Extensions, Journal of Geophysical Research - Atmospheres, 121, 2888-2900, doi: 10.1002/2015JD024381.

[135]    Dongdong Wang, Bin Zhu, Zhihong Jiang, Xiu-Qun Yang, and Tong Zhu, 2016, The impact of the direct effects of sulfate and black carbon aerosols on the subseasonal march of the East Asian subtropical summer monsoon, Journal of Geophysical Research – Atmospheres, 121, 2610-2625, doi: 10.1002/2015JD024574.

[136]    A.J. Ding, X. Huang, W. Nie, J.N. Sun, V.-M. Kerminen, T. Petäjä, H. Su, Y.F. Cheng, X.-Q. Yang, M.H. Wang, X.G. Chi, J.P. Wang, A. Virkkula, W.D. Guo, J. Yuan, S.Y. Wang, R.J. Zhang, Y.F. Wu, Y. Song, T. Zhu, S. Zilitinkevich, M. Kulmala, and C.B. Fu, 2016, Enhanced haze pollution by black carbon in megacities in China, Geophysical Research Letters, 43(6), 2873-2879, doi: 10.1002/2016GL067745.

[137]    Hongyun Ma, Zhihong Jiang, Jie Song, Aiguo Dai, Xiuqun Yang, Fei Huo, 2016, Effects of urban land-use change in East China on the East Asian summer monsoon based on the CAM5.1 model, Climate Dynamics, 46 (9), 2977-2989, doi: 10.1007/s00382-015-2745-4.

[138]    T. Petäjä, L. Järvi, V.-M. Kerminen, A. J. Ding, J. N. Sun, W. Nie, J. Kujansuu, A. Virkkula, X.-Q. Yang, C. B. Fu, S. Zilitinkevich & M. Kulmala, 2016, Enhanced air pollution via aerosol-boundary layer feedback in China, Scientific Reports, 6: 18998, doi: 10.1038/srep18998.

[139]    Yu Nie, Yang Zhang, Gang Chen, Xiu-Qun Yang, 2016, Delineating the barotropic and baroclinic mechanisms in the midlatitude eddy-driven jet response to lower-tropospheric thermal forcing, Journal of the Atmospheric Sciences, 73, 429-448, doi: 10.1175/JAS-D-15-0090.1.

[140]    Xu Liu, Xuejuan Ren, and Xiu-Qun Yang, 2016, Decadal changes in multiscale water vapor transport and atmospheric river associated with the Pacific Decadal Oscillation and the North Pacific Gyre Oscillation, Journal of Hydrometeorology, 17, 273-285, doi: 10.1175/JHM-D-14-0195.1.

[141]    Yuning Xie, Aijun Ding, Wei Nie, Huiting Mao, Ximeng Qi, Xin Huang, Zheng Xu, Veli-Matti Kerminen, Tuukka Petäjä, Xuguang Chi, Aki Virkkula, Michael Boy, Likun Xue, Jia Guo, Jianning Sun, Xiuqun Yang, Markku Kulmala, and Congbin Fu, 2015, Enhanced sulfate formation by nitrogen dioxide: Implications from in situ observations at the SORPES station, Journal of Geophysical Research – Atmospheres, 120, 12679-12694, doi: 10.1002/2015JD023607.

[142]    Shi Zhong, Yun Qian, Chun Zhao, Ruby Leung, and Xiu-Qun Yang, 2015, A case study of urbanization impact on summer precipitation in the greater Beijing metropolitan area: Urban heat island versus aerosol effects, Journal of Geophysical Research – Atmospheres, 120, 10903-10914, doi: 10.1002/2015JD023753.

[143]    Xiaomei Wang, Xuguang Sun, Jianping Tang, and Xiuqun Yang, 2015, Urbanization-induced regional warming in Yangtze River Delta: potential role of anthropogenic heat release, International Journal of Climatology, 35(15), 4417-4430, doi: 10.1002/joc.4296.

[144]    B. L. Zhuang, T. J. Wang, J. Liu, Y. Ma, C. Q. Yin, S. Li, M. Xie, Y. Han, J. L. Zhu, X. Q. Yang, and C. B. Fu, 2015, Absorption coefficient of urban aerosol in Nanjing, west Yangtze River Delta, China, Atmospheric Chemistry and Physics, 15, 13633-13646, doi: 10.5194/acp-15-13633-2015.

[145]    X. M. Qi, A. J. Ding, W. Nie, T. Petäjä, V.-M. Kerminen, E. Herrmann, Y. N. Xie, L. F. Zheng, H. Manninen, P. Aalto, J. N. Sun, Z. N. Xu, X. G. Chi, X. Huang, M. Boy, A. Virkkula, X.-Q. Yang, C. B. Fu, and M. Kulmala, 2015, Aerosol size distribution and new particle formation in the western Yangtze River Delta of China: 2 years of measurements at the SORPES station, Atmospheric Chemistry and Physics, 15, 12445-12464, doi: 10.5194/acp-15-12445-2015.

[146]    W. Nie, A. J. Ding, Y. N. Xie, Z. Xu, H. Mao, V.-M. Kerminen, L. F. Zheng, X. M. Qi, X. Huang, X.-Q. Yang, J. N. Sun, E. Herrmann, T. Petäjä, M. Kulmala, and C. B. Fu, 2015, Influence of biomass burning plumes on HONO chemistry in eastern China, Atmospheric Chemistry and Physics, 15(3), 1147-1159, doi: 10.5194/acp-15-1147-2015.

[147]    Hongchao Wan, Zhong Zhong, Xiuqun Yang, and Xunqiang Li, 2015, Ensembles to model the impact of urbanization for a summertime rainstorm process in Yangtze River Delta, China, Meteorological Applications, 22(1), 105-112, doi: 10.1002/met.1360.

[148]    Xiaoxian Huang, Tijian Wang, Robert Talbot, Min Xie, Huiting Mao, Shu Li Bingliang Zhuang, Xiuqun Yang, Congbin Fu, Jialei Zhu, Xing Huang, Runying Xu, 2015, Temporal characteristics of atmospheric CO2 in urban Nanjing, China, Atmospheric Research, 153, 437-450, doi: 10.1016/j.atmosres.2014.09.007.

[149]    HU Haibo, LIU Chao, ZHANG Yuan, and YANG Xiuqun, 2015, The different effects of sea surface temperature and aerosols on climate in East Asia during spring, Journal of Ocean University of China, 14(4), 585-595, doi: 10.1007/s11802-015-2472-9.

[150]    Ha Yao, Zhong Zhong, Yang Xiuqun, and Sun Yuan, 2015, Contribution of East Indian Ocean SSTA to Western North Pacific tropical cyclone activity under El Niño/La Niña conditions, International Journal of Climatology, 35(4), 506-519, doi: 10.1002/joc.3997.

[151]    HONG XiaoYuan, HU HaiBo, YANG XiuQun, ZHUANG Yuan, LIU GuoQiang, and LIU Wei, 2014, Influences of Indian Ocean interannual variability on different stages of El Niño: A FOAM1.5 model approach, Science China: Earth Sciences, 57 (11), 2616-2627, doi: 10.1007/s11430-014-4932-2.

[152]    Yu Nie, Yang Zhang, Gang Chen, Xiu-Qun Yang, and D. Alex Burrows, 2014, Quantifying barotropic and baroclinic eddy feedbacks in the persistence of the Southern Annular Mode, Geophysical Research Letters, 41, 8636-8644, doi: 10.1002/2014GL062210.

[153]    Wei Nie, Aijun Ding, Tao Wang, Veli-Matti Kerminen, Christian George, Likun Xue, Wenxing Wang, Qingzhu Zhang, Tuukka Petäjä, Ximeng Qi, Xiaomei Gao, Xinfeng Wang, Xiuqun Yang, Congbin Fu, & Markku Kulmala, 2014, Polluted dust promotes new particle formation and growth, Scientific Reports, 4, 6634, doi:10.1038/srep06634.

[154]    Casey B. Hall, Huiting Mao, Zhuyun Ye, Robert Talbot, Aijun Ding, Yang Zhang, Jialei Zhu, Tijian Wang, Che-Jen Lin, Congbin Fu, and Xiuqun Yang, 2014, Sources and dynamic processes controlling background and peak concentrations of TGM in Nanjing, China, Atmosphere, 5(1), 124-155, doi:10.3390/atmos5010124.

[155]    E. Herrmann, A. J. Ding, V.-M. Kerminen, T. Petäjä, X. Q. Yang, J. N. Sun, X. M. Qi, H. Manninen, J. Hakala, T. Nieminen, P. P. Aalto, M. Kulmala, and C. B. Fu, 2014, Aerosols and nucleation in eastern China: first insights from the new SORPES-NJU station,Atmospheric Chemistry and Physics, 14, 2169-2183, doi: 10.5194/acp-14-2169-2014.

[156]    J. Zhu, T. Wang, R. Talbot, H. Mao, X. Yang, C. Fu, J. Sun, B. Zhuang, S. Li, Y. Han, and M. Xie, 2014, Characteristics of atmospheric mercury deposition and size-fractionated particulate mercury in urban Nanjing, China, Atmospheric Chemistry and Physics, 14, 2233-2244, doi:10.5194/acp-14-2233-2014.

[157]    B.L. Zhuang, T.J.Wang, J. Liu, S. Li, M. Xie, X.Q. Yang, C.B. Fu, J.N. Sun, C.Q. Yin, J.B. Liao, J.L. Zhu, Y. Zhang, 2014, Continuous measurement of black carbon aerosol in urban Nanjing of Yangtze River Delta, China, Atmospheric Environment, 89, 415-424, doi: 10.1016/j.atmosenv.2014.02.052.

[158]    B.L. Zhuang, T.J. Wang, S. Li, J. Liu, R. Talbot, H.T. Mao, X.Q. Yang, C.B. Fu, C.Q. Yin, J.L. Zhu, H.Z. Che, X.Y. Zhang, 2014, Optical properties and radiative forcing of urban aerosols in Nanjing, China, Atmospheric Environment, 83,43-52, doi: 10.1016/j.atmosenv.2013.10.052.

[159]    LIU Chengji, REN Xuejuan, and YANG Xiuqun, 2014, Mean flow-storm track relationship and Rossby wave breaking in two types of El-Niño, Advances in Atmospheric Sciences, 31(1), 197-210, doi: 10.1007/s00376-013-2297-7.

[160]    Yao HA, Zhong ZHONG,and Xiu-Qun YANG, 2013, Eastward shift of northwest Pacific tropical cyclone genesis frequency anomaly in decaying El Nino, Journal of the Meteorological Society of Japan, 91 (5), 597-608, DOI:10.2151/jmsj.2013-503.

[161]    HU Haibo, HONG Xiaoyuan, ZHANG Yuan, YANG Xiuqun, LIU Wei, LU Huaguo, YANG Jianling, 2013, Remote forcing of Indian Ocean warming on Northwest Pacific during El Niño decaying years: A FOAM model approach, Chinese Journal of Oceanology and Limnology, 31(6), 1363-1371, doi: 10.1007/s00343-013-3075-1.

[162]    A.J. Ding, C. B. Fu, X. Q. Yang, J. N. Sun, T. Petäjä, V.-M. Kerminen, T. Wang, Y. Xie, E. Herrmann, L. F. Zheng, W. Nie, Q. Liu, X. L. Wei, and M. Kulmala, 2013, Intense atmospheric pollution modifies weather: a case of mixed biomass burning with fossil fuel combustion pollution in eastern China, Atmospheric Chemistry and Physics, 13, 10545-10554, doi:10.5194/acp-13-10545-2013.

[163]    Yao Ha, Zhong Zhong, Xiuqun Yang, and Yuan Sun, 2013, Different Pacific ocean warming decaying types and northwest Pacific tropical cyclone activity, Journal of Climate, 26(22), 8979-8994, doi: 10.1175/JCLI-D-13-00097.1.

[164]    A. J. Ding, C. B. Fu, X. Q. Yang, J. N. Sun, L. F. Zheng, Y. N. Xie, E. Herrmann, W. Nie, T. Petäjä, V.-M. Kerminen, and M. Kulmala, 2013, Ozone and fine particle in the western Yangtze River Delta: an overview of 1 yr data at the SORPES station, Atmospheric Chemistry and Physics, 13, 5813-5830, doi: 10.5194/acp-13-5813-2013.

[165]    Yuanhai Fu, Riyu Lu, Huijun Wang, and Xiuqun Yang, 2013, Impact of overestimated ENSO variability in the relationship between ENSO and East Asian summer rainfall, Journal of Geophysical Research - Atmospheres, 118(12), 6200-6211, doi:10.1002/jgrd.50482.

[166]    Yu Nie, Yang Zhang, Xiu-Qun Yang, and Gang Chen, 2013, Baroclinic anomalies associated with the Southern Hemisphere Annular Mode: Roles of synoptic and low-frequency eddies, Geophysical Research Letters, 40, 2361-2366, doi:10.1002/grl.50396.

[167]     Yiquan Jiang, Xiaohong Liu, Xiu-Qun Yang, Minghuai Wang, 2013, A numerical study of the effect of different aerosol types on East Asian summer clouds and precipitation, Atmospheric Environment, 70, 51-63, doi: 10.1016/j.atmosenv.2012.12.039.

[168]     Hongchao Wan, Zhong Zhong, Xiuqun Yang, Xunqiang Li, 2013, Impact of city belt in Yangtze River Delta in China on a precipitation process in summer: A case study, Atmospheric Research, 125-126, 63-75, doi: 10.1016/j.atmosres.2013.02.004.

[169]     HU HaiBo, HONG XiaoYuan, ZHANG Yuan, YANG XiuQun, and HE Jie, 2013, The critical role of Indian summer monsoon on the remote forcing between Indian and Northwest Pacific during El Niño decaying year, Science China: Earth Sciences, 56(3), 408-417, doi: 10.1007/s11430-012-4569-y.

[170]     Richard J Greatbatch, Xuguang Sun, and Xiu-Qun Yang, 2013, Impact of variability in the Indian summer monsoon on the East Asian summer monsoon, Atmospheric Science Letters, 14, 14-19, doi: 10.1002/asl.408.

[171]     LI Ting, YANG XiuQun, and JU JianHua, 2013, Intraseasonal oscillation features of the South China Sea summer monsoon and its response to abnormal Madden and Julian Oscillation in the tropical Indian Ocean, Science China: Earth Sciences, 56(5), 866-877, doi: 10.1007/s11430-012-4521-1.

[172]    Yao Ha, Zhong Zhong, Yijia Hu, and Xiuqun Yang, 2013, Influences of ENSO on western North Pacific tropical cyclone kinetic energy and its meridional transport, Journal of Climate, 26(1), 322-332, doi: 10.1175/JCLI-D-11-00543.1.

[173]    J. Zhu, T. Wang, R. Talbot, H. Mao, C. B. Hall, X. Yang, C. Fu, B. Zhuang, S. Li, Y. Han, and X. Huang, 2012, Characteristics of atmospheric total gaseous mercury (TGM) observed in urban Nanjing, China, Atmospheric Chemistry and Physics, 12, 12103-12118, doi: 10.5194/acp-12-12103-2012.

[174]    Jin Liang, Xiu-Qun Yang, and De-Zheng Sun, 2012, The effect of ENSO events on the tropical Pacific mean climate: Insights from an analytical model, Journal of Climate, 25(21), 7590-7606, doi: 10.1175/JCLI-D-11-00490.1.

[175]    Yang ZhangXiu-Qun Yang, Yu Nie, and Gang Chen, 2012, Annular mode-like variation in a multilayer quasigeostrophic model, Journal of the Atmospheric Sciences, 69(10), 2940-2958, doi: 10.1175/JAS-D-11-0214.1.

[176]    Dejian Yang, Youmin Tang, Yaocun Zhang, and Xiuqun Yang, 2012, Information-based potential predictability of the Asian summer monsoon in a coupled model,Journal of Geophysical Research -Atmospheres, 117, D03119, doi: 10.1029/2011JD016775.

[177]    Fumin Ren, Jin Liang, Guoxiong Wu, Wenjie Dong, Xiuqun Yang, 2011, Reliability analysis of climate change of tropical cyclone activity over the western North Pacific, Journal of Climate, 24, 5887-5898, doi: 10.1175/2011JCLI3996.1.

[178]    ZHAO Shanshan, ZHOU Tianjun, YANG Xiuqun, ZHU Yimin, TAN Yanke, and SUN Xuguang, 2011, Interdecadal change of the relationship between the tropical Indian Ocean dipole mode and the summer climate anomaly in China, Acta Meteorologica Sinica, 25(2), 129-141, doi: 10.1007/s13351-011-0021-z.

[179]    REN Xuejuan, YANG Xiuqun, ZHOU Tianjun, and FANG Jiabei, 2011, Diagnostic comparison of wintertime East Asian subtropical jet and polar-front jet: Large-scale characteristics and transient eddy activities, Acta Meteorologica Sinica, 25(1), 21-33, doi: 10.1007/s13351-011-0002-2.

[180]    Xuejuan Ren, Xiuqun Yang, and Cuijiao Chu, 2010, Seasonal variations of the synoptic-scale transient eddy activity and polar-front jet over east Asia, Journal of Climate, 23(12), 3222-3233, doi: 10.1175/2009JCLI3225.1.

[181]    HU Banghui, YANG Xiuqun, TAN Yanke, WANG Yongqing, FAN Yong, 2010, A new method for calculating the wind speed distribution of a moving tropical cyclone, Advances in Atmospheric Sciences, 27(1), 69-79, doi: 10.1007/s00376-009-7209-5.

[182]    QIANG Xue-Min, YANG Xiu-Qun, 2008, Onset and end of the first rainy season in south China, Chinese Journal of Geophysics-Chinese Edition, 51(5), 1333-1345.

强学民、杨修群,2008,华南前汛期开始和结束日期的划分,地球物理学报,515),1333-1345

[183]    Zhu Yimin, Yang Xiuqun, Xie Qian, Yu Yongqiang, 2008, Covarying modes of the Pacific SST and northern hemispheric midlatitude atmospheric circulation anomalies during winter, Progress in Natural Science, 18, 1261-1270.

[184]    ZHU Yi-Min, YANG Xiu-Qun, YU Yong-Qiang, ZHAO Shan-Shan, SUN Xu-Guang, TAN Yan-Ke, 2008, Decadal variability in the North Pacific as simulated by FGOALS-g fast coupled climate model, Chinese Journal of Geophysics-Chinese Edition, 51(1), 58-69.

朱益民、杨修群、俞永强、赵珊珊、孙旭光、谭言科,2008FGOALS_g快速耦合模式模拟的北太平洋年代际变率,地球物理学报,511), 58-69

[185]    LEI Xiao-chun, YANG Xiu-qun, 2008, Interannual variation characteristics of East Hemispheric cross-equatorial flow and its concurrent relationships with temperature and rainfall in China, Journal of Tropical Meteorology, 14(2), 97-100.

[186]    REN Xue-Juan, YANG Xiu-Qun, HAN Bo, XU Gui-Yu, 2007, Storm track variations in the North Pacific in winter season and the coupled pattern with the midlatitude atmosphere-ocean system, Chinese Journal of Geophysicss-Chinese Edition, 50(1), 92-100.

任雪娟、杨修群、韩博、徐桂玉,2007,北太平洋风暴轴的变异特征及其与中纬度海气耦合关系分析,地球物理学报501),92-100

[187]    ZHAO Shan-Shan, YANG Xiu-Qun, ZHANG Qiang, ZHANG Yan, 2006, Numerical experiments on interaction between tropical Pacific and tropical Atlantic through the windstress bridge, Chinese Journal of Geophysics-Chinese Edition, 49(2), 343-353.

赵珊珊、杨修群、张强、张艳,2006风应力桥梁作用下热带太平洋和热带大西洋相互作用的数值试验,地球物理学报,492),343-353

[188]    SUN Xu-Guang, YANG Xiu-Qun, 2005, Numerical modeling of interannual anomalous atmospheric circulation patterns over East Asia during different stages of an El Nino event, Chinese Journal of Geophysics-Chinese Edition, 48(3), 501-510.

孙旭光、杨修群,2005El Nino演变不同阶段东亚大气环流年际异常型的数值模拟,地球物理学报,483),501-510

[189]    XU Gui-Yu, YANG Xiu-Qun, SUN Xu-Guang, 2005, Interdecadal and interannual variation characteristics of rain fall in North China and its relation with the northern hemisphere atmospheric circulations, Chinese Journal of Geophysics-Chinese Edition, 48(3), 511-518.

徐桂玉、杨修群、孙旭光,2005,华北降水年代际、年际变化特征与北半球大气环流的联系,地球物理学报,483),511-518

国内核心期刊论文

[190]    王雅媛、杨修群*、罗悦、赵萌初,2023,影响中国夏季降水的前冬北半球中高纬大气环流年际变异主模态,气象科学(已录用待刊).

[191]    黄琼慧、房佳蓓、杨修群, 2023, 副极地海洋锋区海温异常影响厄尔尼诺的机制研究,气象科学, 43(3), 285-295, doi: 10.12306/2023jms.0040.

HUANG Qionghui, FANG Jiabei, YANG Xiuqun, 2023, Study on the mechanism of SST anomaly in the subarctic frontal zone impacting El Niño, Journal of the Meteorological Sciences, 43(3), 285-295, doi: 10.12306/2023jms.0040.

[192]    林昊雄、房佳蓓、胡海波、杨修群,2021,中纬度瞬变涡旋活动对东亚夏季平均环流和降水的影响,气象科学,41(6)739-751doi: 10.12306/2021jms.0034.

LIN Haoxiong, FANG Jiabei, HU Haibo, YANG Xiuqun, 2021, The influence of mid-latitude transient eddy activities on the summer mean circulation and precipitation in East Asia, Journal of the Meteorological Sciences, 41(6), 739-751, doi: 10.12306/2021jms.0034.

[193]    王昱、杨修群、孙旭光、房佳蓓、陶凌峰、张志琦,2021,一种基于全球动力模式和SMART原理结合的统计降尺度区域季节气候预测方法,气象科学,41(5)569-583doi: 10.12306/2021jms.0049.

WANG Yu, YANG Xiuqun, SUN Xuguang, FANG Jiabei, TAO Lingfeng, ZHANG Zhiqi, 2021, A statistical downscaling method for regional seasonal climate prediction with combined global dynamical model and SMART principle, Journal of the Meteorological Sciences, 41(5), 569-583, doi: 10.12306/2021jms.0049.

[194]    王安英、房佳蓓、杨修群,2021,北半球夏季热带季节内振荡影响我国夏季降水的规律和预测方法,气象科学,41(5)606-616doi: 10.12306/2021jms.0051.

WANG Anying, FANG Jiabei, YANG Xiuqun, 2021, Regularity and prediction method of the influence of boreal summer tropical intraseasonal oscillation on summer rainfall of China, Journal of the Meteorological Sciences, 41(5), 606-616, doi: 10.12306/2021jms.0051.

[195]    杨修群、王国民、张向东、王召民、管兆勇,2020,大气环流与灾害性天气气候研究:黄士松先生学术成就和贡献回顾,气象科学,40(5), 569-584, doi: 10.3969/2019jms.0082.

YANG Xiuqun, WANG Guomin, ZHANG Xiangdong, WANG Zhaomin, GUAN Zhaoyong, 2020, Research on atmospheric circulation and severe weather & climate: a review of Professor HUANG Shisong's achievements and contributions, Journal of the Meteorological Sciences, 40(5), 569-584, doi: 10.3969/2019jms.0082.

[196]    张向东、傅云飞、管兆勇、唐汉、王国民、王召民、武培立、杨修群,2020,北极增幅性变暖对欧亚大陆冬季极端天气和气候的影响:共识、问题和争议,气象科学,40(5), 596-604doi: 10.3969/2020jms.0079.

ZHANG Xiangdong, FU Yunfei, GUAN Zhaoyong, TANG Han, WANG Guomin, WANG Zhaomin, WU Peili, YANG Xiuqun, 2020, Influence of Arctic warming amplification on Eurasian winter extreme weather and climate: consensus, open questions, and debates, Journal of the Meteorological Sciences, 40(5), 596-604, doi: 10.3969/2020jms.0079.

[197]    任雪娟、房佳蓓、杨修群,2020,我国东部夏季降水季节内振荡与低频大气环流演变特征分析,气象科学,40(5), 686-696doi: 10.3969/2020jms.0068.

REN Xuejuan, FANG Jiabei, YANG Xiuqun, 2020, Characteristics of intra-seasonal oscillation of summer precipitation in eastern China and its related low frequency atmospheric circulation, Journal of the Meteorological Sciences, 40(5), 686-696, doi: 10.3969/2020jms.0068.

[198]    汪靖、常越、杨修群、柳艳菊、何金海,2020,欧亚积雪与京津冀秋季10-11月霾日频数年际变率的联系及其可能机制,气象科学,40(5), 711-720 doi: 10.3969/2020jms.0071.

WANG Jing, CHANG Yue, YANG Xiuqun, LIU Yanju, HE Jinhai, 2020, Relationship between the Eurasian snowpack and interannual variations of haze frequency over the Beijing-Tianjin-Hebei region in October and November as well as associated possible mechanisms, Journal of the Meteorological Sciences, 40(5), 711-720, doi: 10.3969/2020jms.0071.

[199]    王融融、胡海波、杨修群,2020NCEP/CFSR再分析耦合资料中MJOENSO的影响研究,气象科学,40(2)143-156doi10.3969/2018jms.0092.

WANG Rongrong, HU Haibo, YANG Xiuqun, 2020, The influences of MJO on the ENSO based on the NCEP/CFSR reanalysis coupling data, Journal of the Meteorological Sciences, 40(2), 143-156, doi: 10.3969/2018jms.0092.

[200]    汪卫平、杨修群、张东海,2020,中国雨凇的时空变化,气象,46(5)666-674 doi: 10.7519/j.issn.1000-0526.2020.05.007.

WANG Weiping, YANG Xiuqun, ZHANG Donghai, 2020, Spatio-temporal changes of glaze in China, Meteorological Monthly (in Chinese), 46(5), 666-674, doi: 10.7519/j.issn.1000-0526.2020.05.007.

[201]    于威、刘屹岷、杨修群、吴国雄,2018,青藏高原不同海拔地表感热的年际和年代际变化特征及其成因分析,高原气象,37(5)1161-1176doi: 10.7522/j.issn.1000-0534.2018.00027.

YU Wei, LIU Yimin, YANG Xiuqun, WU Guoxiong, 2018, The interannual and decadal variation characteristics of the surface sensible heating at different elevations over the Qinghai-Tibetan Plateau and attribution analysis, Plateau Meteorology (in Chinese), 37(5)1161-1176doi: 10.7522/j.issn.1000-0534.2018.00027.

[202]    汪卫平、杨修群、张祖强、吴战平,2017,中国雨日数的气候特征及趋势变化,气象科学,37(3)318-330doi: 10.3969/2017jms.0010.

WANG Weiping, Yang Xiuqun, ZHANG Zuqiang, WU Zhanping, 2017, The climatic characteristics and trends of rainy days over China, Journal of the Meteorological Sciences (in Chinese), 37(3), 318-330, doi: 10.3969/2017jms.0010.

[203]    夏杨、孙旭光、闫燕、封维扬、黄芳、杨修群,2017,全球变暖背景下ENSO特征的变化,科学通报,62(16)1738-1751doi: 10.1360/N972016-01225.

Xia Y, Sun X G, Yan Y, Feng W Y, Huang F, Yang X Q, 2017, Change of ENSO characteristics in response to global warming, Chinese Science Bulletin (in Chinese), 2017, 62: 1738–1751, doi: 10.1360/N972016-01225.

[204]    魏蕾、房佳蓓、杨修群,2017,华南夏季12-30d 持续性强降水的低频特征分析,气象学报,75(1)80-97, doi: 10.11676/qxxb2017.008.

WEI Lei, FANG Jiabei, YANG Xiuqun, 2017, Low frequency oscillation    characteristics of 12-30d persistent heavy rainfall over South China, Acta Meteorologica Sinica (in Chinese), 75(1)80-97, doi: 10.11676/qxxb2017.008.

[205]    冯涛、黄荣辉、杨修群、沈新勇、胡开明,20162004年与20067~9月西北太平洋上空大尺度环流场与天气尺度波动的差别及其对热带气旋生成的影响,大气科学,40(1)157-175doi: 10.3878/j.issn.1006-9895.1505.14162.

FENG Tao, HUANG Ronghui, YANG Xiuqun, SHEN Xinyong and HU Kaiming, 2016, Differences between the large-scale circulations and synoptic-scale waves in July-September 2004 and those in 2006 and their impacts on tropical cyclogenesis over the western North Pacific, Chinese Journal of Atmospheric Sciences (in Chinese), 40(1), 157-175, doi: 10.3878/j.issn.1006-9895.1505.14162.

[206]    张灵玲、谢倩、杨修群*2015,大气热源年代际异常与20世纪70年代末期东亚夏季风年代际减弱, 气象科学, 356),663-671doi: 10.3969/2015jms.0064.

ZHANG Lingling, XIE Qian and YANG Xiuqun, 2015, Interdecadal anomaly of atmospheric diabatic heating and interdecadal weakening of East Asian summer monsoon at the end of 1970s, Journal of the Meteorological Sciences, 35(6), 663-671, doi: 10.3969/2015jms.0064.

[207]    周莉、江志红、李肇新、杨修群,2015,中国东部不同区域城市群下垫面变化气候效应的模拟研究,大气科学,39(3)596-610, doi: 10.3878/j.issn.1006-9895.1404.14157.

ZHOU Li, JIANG Zhihong, LI Zhaoxin, YANG Xiuqun, 2015, Numerical simulation of urbanization climate effects in regions of East China, Chinese Journal of Atmospheric Sciences (in Chinese), 39 (3): 596-610, doi: 10.3878/j.issn.1006-9895.1404.14157.

[208]    洪晓媛、胡海波、杨修群、张媛、刘国强、刘伟,2015FOAM 海气耦合模式中印度洋海温年际变化在厄尔尼诺不同发展阶段的影响, 中国科学: 地球科学,45(1)113-126.

[209]    洪伟、任雪娟、杨修群,2015,华南持续性强降水期间低频非绝热加热对低频环流的影响,气象学报,73(2), 276-290, doi:10.11676/qxxb2015.018.

Hong Wei, Ren Xuejuan, Yang Xiuqun, 2015, The influence of low-frequency diabatic heating on low-frequency circulation during persistent heavy rainfall over South China, Acta Meteorologica Sinica (in Chinese), 73(2), 276-290, doi:10.11676/qxxb2015.018.

[210]    刘超、胡海波、张媛、杨修群,2014CAM3.0模式中东亚气溶胶浓度变化的直接效应及全球海面温度年代际变化对东亚夏季降水的影响研究,热带气象学报,30(6)1048-1060doi: 10.3969/j.issn.1004-4965.2014.06.005.

LIU Chao, HU Hai-bo, ZHANG Yuan, YANG Xiu-qun, 2014, The direct effects of aerosols and decadal variation of global sea surface temperature on East Asia summer precipitation in CAM3.0, Journal of Tropical Meteorology (in Chinese), 30(6), 1048-1060, doi: 10.3969/j.issn.1004-4965.2014.06.005.

[211]    敖翔宇、任雪娟、汤剑平、杨修群,2014,长江三角洲城市群对夏季降水影响机制的模拟研究,气象科学,346),684-691, doi: 10.3969/2013jms.0039.

AO Xiangyu, REN Xuejuan, TANG Jianping, YANG Xiuqun, 2014, Simulation on mechanism of urbanization effects on summer precipitation over the Yangtze River Delta, Journal of the Meteorological Sciences (in Chinese), 34(6), 684-691, doi: 10.3969/2013jms.0039.

[212]    汪卫平、杨修群2014,索马里急流和澳洲越赤道气流年际变异不同配置及其影响,气象科学,34(6)591-600doi: 10.3969/2014jms.0093.

WANG Weiping, YANG Xiuqun, 2014, Relationship between Somali jet and Australia cross-equatorial flow interannual variabilities and its impact, Journal of the Meteorological Sciences (in Chinese), 34(6), 591-600, doi: 10.3969/2014jms.0093.

[213]    王东东、朱彬、江志红、杨修群,2014,硫酸盐气溶胶直接辐射效应对东亚副热带季风进程的影响,大气科学,38 (5)897-908, doi: 10.3878/j.issn.1006-9895.1403.13193.

WANG Dongdong, ZHU Bin, JIANG Zhihong, and YANG Xiuqun, 2014, Direct effect of sulfate aerosols on the process of the East Asian subtropical monsoon, Chinese Journal of Atmospheric Sciences (in Chinese), 38 (5), 897-908, doi: 10.3878/j.issn.1006-9895.1403.13193.

[214]    邱爽、房佳蓓、杨修群,2014LBM模式中中纬度大气对热源和涡度强迫的响应(英文), 气象科学,34(2)149-161doi: 10.3969/2013jms.0060.

QIU Shuang, FANG Jiabei and YANG Xiuqun, 2014, Mid-latitude atmospheric responses to heat and vorticity forcing using a linear baroclinic model, Journal of the Meteorological Sciences, 34(2), 149-161, doi: 10.3969/2013jms.0060.

[215]    肖蓓、房佳蓓、杨修群、任雪娟,2013,应用3种方法对降水在各尺度空间不均匀性的分离,气象科学,33(6)602-609doi: 10.3969/2013jms.0028.

XIAO Bei, FANG Jiabei, YANG Xiuqun and REN Xuejuan, 2013, Scale separation of spatial rainfall heterogeneity based on three methods, Journal of the Meteorological Sciences (in Chinese), 33(6), 602-609, doi: 10.3969/2013jms.0028.

[216]    黄兴、黄晓娴、王体健、庄炳亮、李树、谢旻、韩永、杨修群、孙鉴泞、丁爱军、符淙斌,2013,南京城区上空大气一氧化碳的观测分析,中国环境科学,33(9)1577-1584

HUANG Xing, HUANG Xiao-xian, WANG Ti-jian, ZHUANG Bing-liang, LI Shu, XIE Min, YANG Xiu-qun, SUN Jian-ning, DING Ai-jun, FU Cong-bin, 2013, Observation and analysis of urban upper atmospheric carbon monoxide in Nanjing, China Environmental Science (in Chinese), 33(9), 1577-1584.

[217]    曹智露、胡邦辉、杨修群、王学忠、何雪松、谭言科,2013ENSO事件对西北太平洋热带气旋影响的分级研究,海洋学报,35(2)21-34doi: 10.3969/j.issn.0253-4193.2013.02.004.

Cao ZhiluHu Banghui, Yang Xiuqunet a1., 2013, Research on the effects of the ENSO on Tropical Cyclone Activity of different grades over the western North Pacific, Acta Oceanologica Sinica (in Chinese), 35(2), 21-34, doi: 10.3969/j.issn.0253-4193.2013.02.004.

[218]    傅云燕、杨修群、沈伟,2013,江苏省冬季气温、降水年代际异常及相关分析,气象科学,33(2)178-183doi: 10.3969/2012jms.0104.

FU Yunyan,YANG Xiuqun and SHEN Wei, 2013,The interdecadal variations and the correlation analysis of temperature and precipitation during winter in Jiangsu province, Journal of the Meteorological Sciences (in Chinese), 33(2), 178-183, doi: 10.3969/2012jms.0104.

[219]    吴凯、杨修群,2013,中国东部城市化与地表非均匀增暖,科学通报,58642-652

[220]    李汀、杨修群、琚建华,2013,南海夏季风季节内振荡特征及其对热带印度洋MJO 活动异常的响应,中国科学: 地球科学,43(4)582-593

[221]    胡海波、洪晓媛、张媛、杨修群、HE Jie2013,厄尔尼诺衰亡年间南亚夏季风在印度洋对西北太平洋遥强迫中的作用,中国科学,431),1-12.

[222]    曹鑫、任雪娟、杨修群、房佳蓓,2012,中国东南部5-8月持续性强降水和环流异常的准双周振荡,气象学报,70(4)766-778

Cao Xin, Ren Xuejuan, Yang Xiuqun, Fang Jiabei, 2012, The quasi-biweekly oscillation characteristics of persistent severe rain and its general circulation anomaly over southeast China from May to August, Acta Meteorological Sinica (in Chinese), 70(4), 766-778.

[223]    徐振亚、任福民、杨修群、曹经福,2012,日最高温度统计降尺度方法的比较研究,气象科学,32(4)395-402

XU Zhengya, REN Fumin, YANG Xiuqun, CAO Jingfu, 2012, A comparison study on statistical downscaling methods in daily maximum temperatures, Journal of the Meteorological Sciences (in Chinese), 32(4), 395-402.

[224]    张灵玲、谢倩、房佳蓓、杨修群*2012,全球大气季节平均热源的三维分布 - 非绝热加热与瞬变加热之对比,热带气象学报,28(3)321-329doi: 10.3969/j.issn.1004-4965.2012.03.004.

[225]    谢益军、邹用昌、谢倩、房佳蓓、杨修群*2012,我国四季极端雨日数时空变化及其与海表温度异常的关系,热带气象学报,28(3)311-320, doi: 10.3969/j.issn.1004-4965.2012.03.003.

[226]    蒋伶仙、任雪娟、杨修群,2011,东亚-北太平洋大气环流和瞬变扰动的年代际变化,气象科学,31(5)549-557

JIANG Lingxian, REN Xuejuan, YANG Xiuqun, 2011, Interdecadal variations of atmospheric circulation and synoptic-scale transient eddy activities over the East Asian-North Pacific, Journal of the Meteorological Sciences (in Chinese), 31(5), 549-557.

[227]    张璐、杨修群、汤剑平、房佳蓓、孙旭光,2011,夏季长三角城市群热岛效应及其对大气边界层结构影响的数值模拟,气象科学,314),431-440

ZHANG Lu, YANG Xiuqun, TANG Jianping, FANG Jiabei, SUN Xuguang, 2011, Simulation of urban heat island effect and its impact on atmospheric boundary layer structure over Yangtze River Delta region in summer, Journal of the Meteorological Sciences (in Chinese), 31(4), 431-440.

[228]    李欣、杨修群、汤剑平、孙旭光、房佳蓓,2011WRF/NCAR模拟的夏季长三角城市群区域多城市热岛和地表能量平衡,气象科学,314),441-450

LI Xin, YANG Xiuqun, TANG Jianping, SUN Xuguang, FANG Jiabei, 2011, Multiple urban heat islands and surface energy balance during summer in Yangtze River Delta city cluster region simulated with WRF/NCAR, Journal of the Meteorological Sciences (in Chinese), 31(4), 441-450.

[229]    敖翔宇、任雪娟、汤剑平、杨修群,2011,长三角城市群对夏季日降水特征影响的模拟研究,气象科学,314),451-459

AO Xiangyu, REN Xuejuan, TANG Jianping, YANG Xiuqun, 2011, Simulation study of urbanization effects on summer daily precipitation over the Yangtze River Delta, Journal of the Meteorological Sciences (in Chinese), 31(4), 451-459.

[230]    李雪、任福民、杨修群、王长金,2010,南海和西北太平洋热带气旋活动的区域性差异分析,气候与环境研究,154),504-510

LI Xue, REN Fumin, YANG Xiuqun, and WANG Changjin, 2010, A study of the regional differences of the tropical cyclone activities over the South China Sea and the western North Pacific, Climatic and Environmental Research (in Chinese), 15(4), 504-510.

[231]    刘冬晴、杨修群,2010,热带低频振荡影响中国东部冬季降水的机理,气象科学,305),684-693

Liu Dongqing, Yang Xiuqun, 2010, Mechanism responsible for the impact of Madden-Julian Oscillation on the wintertime rainfall over eastern China, Scientia Meteorologica Sinica (in Chinese), 30( 5), 684-693.

[232]    梁进、任福民、杨修群,2010,中美两套西北太平洋热带气旋资料集的差异分析,海洋学报,321),10-22

LIANG Jin, REN Fu-min, YANG Xiu-qun, 2010, Study on the differences between CMA and JTWC tropical cyclone datasets for northwest Pacific, Acta Oceanologica Sinica (in Chinese), 32(1), 10-22.

[233]    任雪娟、杨修群、周天军、房佳蓓,2010,冬季东亚副热带急流与温带急流的比较分析: 大尺度特征和瞬变扰动活动,气象学报,681),1-11

Ren Xuejuan, Yang Xiuqun, Zhou Tianjun, Fang Jiabei, 2010, Diagnostic comparison of the East Asian subtropical jet and polar front jet: Large-scale characteristics and transient eddy activities, Acta Meteorologica Sinica (in Chinese), 68(1), 1-11.

[234]    邓林、杨修群、谢倩,2010,二氧化碳浓度增加情景下耦合气候模式中的ENSO频率变化及其机制,科学通报,552), 163-170

[235]    赵珊珊、周天军、杨修群、朱益民、谭言科、孙旭光,2009,热带印度洋偶极子与中国夏季年际气候异常关系的年代际变化,气象学报,67(4)549-560

ZHAO Shanshan, ZHOU Tianjun, YANG Xiuqun, ZHU Yimin, TAN Yanke, SUN Xuguang, 2009, Interdecadal change of the relationship between tropical Indian Ocean dipole and anomalous summer climate in China, Atca Meteorologica Sinica (in Chinese), 67(4), 549-560.

[236]    李熠、杨修群、黄世成,2009年际时间尺度上北太平洋副热带高压对ENSO的影响,热带气象学报,25(增刊),39-47

LI Yi, YANG Xiu-qun, HUANG Shi-cheng, 2009, The impact of North Pacific subtropical highs upon ENSO on the interannual timescale, Journal of Tropical Meteorology (in Chinese), 25(Suppl.), 39-47.

[237]    赵珊珊、高歌、孙旭光、杨修群,2009,西北太平洋热带气旋频数和强度变化趋势初探,应用气象学报,205),555-563

Zhao Shanshan, Gao Ge, Sun Xuguang, Yang Xiuqun, 2009, Climatological characteristics of tropical cyclones in the northwestern Pacific, Journal of Applied Meteorological Science (in Chinese), 20(5), 555-563.

[238]    戴莹、杨修群,2009,我国大陆上空可降水量的时空变化特征,气象科学,292),143-149

Dai Ying, Yang Xiuqun, 2009, Spatial-temporal variations of precipitable water over China, Scientia Meteorologica Sinica (in Chinese), 29(2), 143-149.

[239]    邹用昌、杨修群、孙旭光、汤剑平、房佳蓓、廖玉芳,2009,我国极端降水过程频数时空变化的季节差异,bwin必赢学报,451),98-109

Zou Yong-Chang, Yang Xiu-Qun, Sun Xu-Guang, Tang Jian-Ping, Fang Jia-Bei, Liao Yu-Fang , 2009, Seasonal difference of the spatial-temporal variation of the number of the extreme precipitation processes in China, Journal of Nanjing University (Natural Sciences, in Chinese), 45(1), 98-109.

[240]    方茸、杨修群,2009,中国夏季高温与北极海冰的联系特征,气象,353),81-86

Fang Rong, Yang Xiuqun, 2009, Summer maximum air temperature variability in China and its association with the Arctic sea ice concentration, Meteorological Monthly (in Chinese), 35(3), 81-86.

[241]    胡邦辉、张惠君、杨修群、孙旭光,2009,基于非参数回归模型的局部线性估计云量预报方法研究,bwin必赢学报,451),89-97

Hu Bang-Hui, Zhang Hui-Jun, Yang Xiu-Qun, Sun Xu-Guang, 2009, A cloud amount forecasting method based on local linear estimation of non-parametric regression model, Journal of Nanjing University (Natural Sciences, in Chinese), 45(1), 89-97.

[242]    朱益民、杨修群、谢倩、俞永强,2008, 冬季太平洋海表温度与北半球中纬度大气环流异常的共变模态,自然科学进展,182),161-171

[243]    赵珊珊、周天军、杨修群、孙旭光、朱益民,20081976/1977年前后热带印度洋海表温度年际异常的变化,大气科学,32(2)371-379

ZHAO Shan-Shan, ZHOU Tian-J un, YANG Xiu-Qun, SUN Xu-Guang, and ZHU Yi-Min, 2008, Interannual variation of the tropical Indian Ocean sea surface temperature pre- and post-1976/ 1977, Chinese Journal of Atmospheric Sciences (in Chinese), 32(2), 371-379.

[244]    汪卫平、杨修群,2008,索马里急流变异及其与东亚夏季风和中国降水异常的关系,气象科学,28(2)139-146

Wang Weiping, Yang Xiuqun, 2008, Variation of Somali jet and its impact on East Asian summer monsoon and associated China rainfall anomalies, Scientia Meteorologica Sinica (in Chinese), 28(2), 139-146.

[245]    侯亚红、杨修群、李刚、王茜,2008,西伯利亚高压特征指数及其变率分析,南京气象学院学报,313),326-330

HOU Ya-hong, YANG Xiu-qun, LI Gang, WANG Qian, 2008, Four indexes and their change rates of Siberian high, Journal of Nanjing Institue of Meteorology (in Chinese), 31(3), 326-330.

[246]    雷小春、杨修群,2008,东半球越赤道气流的年际变化特征及其与我国同期气温、降水的相关性,热带气象学报,242),127-135

LEI Xiao-chun, YANG Xiu-qun, 2008, Interannual variation characteristics of east hemispheric cross-equatorial flow and its contemporaneous relationships with temperature and rainfall in China, Journal of Tropical Meteorology (in Chinese), 24(2), 127-135

[247]    邹用昌、杨修群、潘志祥、孙旭光、房佳蓓、廖玉芳,2008CO2倍增对我国东部极端降水的影响,气候变化研究进展,42),84-89

Zou Yongchang, Yang Xiuqun, Pan Zhixiang, Sun Xuguang, Fang Jiabei, Liao Yufang, 2008, Effect of CO2 doubling on extreme precipitation in eastern China, Advance in Climate Change Research (in Chinese), 4(2), 84-89.

[248]    孙旭光、杨修群,2007El Nino对东亚气候年际异常影响的数值模拟,海洋学报,295),21-30

SUN Xu-guang, YANG Xiu-qun, 2007, Numerical simulations of the interannual climate response of East Asia to an El Nino event, Acta Oceanologica Sinica (in Chinese), 29(5), 21-30.

[249]    辛渝、张广兴、杨修群、张新、博力健、王美玉,2007,新疆博州地区降水时空分布特征及典型旱涝年,中国沙漠,274),656-662

XIN Yu, ZHANG Guang-xing, YANG Xiu-qun, ZHANG Xin, BO Li-jian, WANG Mei-yu, 2007, Spatial-temporal distribution of precipitation and typical drought or flood yea over Bole region in Xinjiang, Journal of Desert Research (in Chinese), 27(4), 656-662.

[250]    朱益民、杨修群、陈晓颖、赵珊珊、孙旭光,2007ENSO与中国夏季年际气候异常关系的年代际变化,热带气象学报,232),105-116

ZHU Yi-min, YANG Xiu-qun, CHEN Xiao-ying, ZHAO Shan-shan, SUN Xu-guang, 2007, Interdecadal variation of the relationship between ENSO and summer interannual climate variability in China, Journal of Tropical Meteorology, 13(2), 132-136.

[251]    韩博、任雪娟、杨修群,2007,北太平洋风暴轴异常变化特征及其与纬向风场的关系研究,气象科学273),237-245

Han Bo, Ren Xuejuan, Yang Xiuqun, 2007, Analysis of the North Pacific storm track anomaly and the relationship with zonal wind, Scientia Meteorologica Sinica (in Chinese), 27(3), 237-245.

[252]    任雪娟、杨修群、韩博,2007,北太平洋冬季海-气耦合的主模态及其与瞬变扰动异常的联系,气象学报651),52-62

Ren Xuejuan, Yang Xiuqun, Han Bo, 2007, Leading coupled modes between the atmosphere and ocean in the North Pacific in winter and their association with the transient eddy anomalies, Acta Meteorologica Sinica (in Chinese), 65(1), 52-62.

[253]    谢冥、王体健、江飞、杨修群,2007NOxVOC自然源排放及其对中国地区对流层光化学特性影响的数值模拟研究,环境科学,281),32-40

XIE Min, WANG Ti-jian, JIANG Fei, YANG Xiu-qun, 2007, Modeling of natural NOx and VOC emissions and their effects on tropospheric photochemistry in China, Environmental Science (in Chinese), 28(1), 32-40.

[254]    解小寒、杨修群,2006,冬季北极海冰面积异常与中国气温变化之间的年际关系,bwin必赢学报,426),549-561

Xie Xiao-Han, Yang Xiu-Qun, 2006, Interannual relationship between Arctic sea ice concentration anomaly and China air temperature variation during winter, Journal of Nanjing University (Natural Sciences, in Chinese), 42(6), 549-561.

[255]    赵珊珊、杨修群、朱益民、容新尧,2006热带外太平洋通过海洋过程对热带太平洋的影响,海洋学报,283),29-40

ZHAO Shan-shan, YANG Xiu-qun, ZHU Yi-min, RONG Xin-yao, 2006, Influence of the extratropical Pacific on the tropical Pacific through oceanic processes, Acta Oceanologica Sinica (in Chinese), 28(3), 29-40.

[256]    强学民、杨修群,2006,一种改进的相空间近邻等距模式及其在短期气候预测中的试验,bwin必赢学报,423),290-297

Qiang Xue-Min, Yang Xiu-Qun, 2006, An improved equal distance model of near neighborhood in the phase space used in short-term climatic prediction experiments, Journal of Nanjing University (Natural Sciences, in Chinese), 42(3), 290-297.

[257]    顾思南、杨修群,2006北半球绕极涡的变异及其与我国气候异常的关系,气象科学,262),135-142

Gu Sinan, Yang Xiuqun, 2006, Variability of the northern circumpolar vortex and its association with climate anomaly in China, Scientia Meteorologica Sinica (in Chinese), 26(2), 135-142.

[258]    宋静、杨修群、高苹,2006,江苏省棉花丰欠年天气气候型的对比分析,气象科学,261),39-46

Song Jing, Yang Xiuqun, Gao Ping, 2006, An investigation of weather and climate patterns associated with variations of cotton production in Jiangsu province, Scientia Meteorologica Sinica (in Chinese), 26(1), 39-46.

[259]    孙凤华、杨修群、路爽、杨素英,2006,东北地区平均、最高、最低气温时空变化特征及对比分析,气象科学,262),157-163

Sun Fenghua, Yang Xiuqun, Lu Shuang, Yang Suying, 2006, The contrast analysis of the average and extremum temperature trend in northeast China, Scientia Meteorologica Sinica (in Chinese), 26(2), 157-163.

[260]    秦大河、丁一汇、苏纪兰、任贾文、王绍武、伍荣生、杨修群、王苏民、刘时银、董光荣、卢琦、黄镇国、杜碧兰、罗勇,2005中国气候与环境演变评估(I):中国气候与环境变化及未来趋势,气候变化研究进展,11),4-9

QIN Dahe, DING Yihui,, SU Jilan, REN Jiawen, WANG Shaowu, WU Rongsheng, YANG Xiuqun, WANG Sumin, LIU Shiyin, DONG Guangrong, LU Qi, HUANG Zhenguo, DU Bilan, LUO Yong, 2005, Assessment of climate and environment changes in China (I): Climate and environment changes in China and their projection, Advance in Climate Change Research (in Chinese), 1(1), 4-9.

[261]    陈优平、余志豪、杨修群,2005, 嘉兴市高温和夏季降水的气候特征分析,气象科学,252),118-123

Chen Youping, Yu Zhihao, Yang Xiuqun, 2005, Climate characteristics analysis of high temperature and summer precipitation in Jiaxing city, Scientia Meteorologica Sinica (in Chinese), 25(2), 118-123.

[262]    梅伟、杨修群,2005,我国长江中下游地区降水变化趋势分析,bwin必赢学报,416),577-589

Mei Wei, Yang Xiu-Qun, 2005, Trends of precipitation variations in the mid-lower Yangtze River valley of China, Journal of Nanjing University (Natural Sciences, in Chinese), 41(6), 577-589.

[263]    谢冥、王体健、张美根、杨修群,2005,土壤氮氧化物排放及其对中国地区对流层光化学特性影响的数值模拟研究,土壤学报,426),948-956

Xie Min, Wang Tijian, Zhang Meigen, Yang Xiuqun, 2005, Modeling of NOx emissions from soil and their effect on tropospheric photochemistry in China, Acta Pedologica Sinica (in Chinese), 42(6), 948-956.

[264]    崔锦、杨修群, 2005,马斯克林高压的变化及其与ENSO的关系,气象科学,255),441-449

Cui Jin, Yang Xiuqun, 2005, The variation of Mascarene high and its relationship with ENSO, Scientia Meteorologica Sinica (in Chinese), 25(5), 441-449.

[265]    容新尧、杨修群,2005全球海洋环流模式中上层海洋对表面强迫的响应和调整 II.年代际变率,海洋学报,27(3)20-31.

RONG Xin-yao, YANG Xiu-qun, 2005, The upper-ocean response and adjustment to surface forcing in an ocean general circulation model II. Decadal-to-interdecadal variability, Acta Oceanologica Sinica (in Chinese), 27(3), 20-31.

[266]    He Juanxiaong, Yu Zhihao and Yang Xiuqun, 2005Temporal characteristics of Pacific Decadal Oscillation (PDO) and ENSO and their relationship analyzed with method of Empirical Mode Decomposition (EMD), Acta Meteorologica Sinica, 19(1), 83-92.

[267]    杨修群、朱益民、谢倩、任雪娟、徐桂玉,2004太平洋年代际振荡的研究进展,大气科学,286),979-992.

Yang Xiuqun, Zhu Yimin, Xie Qian, Ren Xuejuan, and Xu Guiyu, 2004, Advances in studies of Pacific Decadal Oscillation, Chinese Journal of Atmospheric Sciences (in Chinese), 28(6), 979-992.

[268]    赵珊珊、杨修群, 2004, 风应力桥梁作用下热带太平洋和热带印度洋相互作用的数值试验,海洋学报,264),33-48

ZHAO Shan-shan, YANG Xiu-qun, 2004, Numerical experiments on interaction between the tropical Pacific and the Indian Ocean through the wind-stress bridge, Acta Oceanologica Sinica (in Chinese), 26(4), 33-48.

[269]    容新尧、杨修群,2004全球海洋环流模式中上层海洋对表面强迫的响应和调整 I.年际变率,海洋学报,262),20-36

RONG Xin-yao, YANG Xiu-qun, 2004, The upper-ocean response and adjustment to surface forcing in an ocean general circulation model I. Interannual variability, Acta Oceanologica Sinica (in Chinese), 26(2), 20-36.

[270]    何卷雄、杨修群、余志豪,2004,带地形作用的正压方程组的Cauchy问题适定性(I):无粘,高校应用数学学报A辑,193),253-259

HE Juan-xiong, YANG Xiu-qun, YU Zhi-hao, 2004, On the well-posed value problem of barotropic equation with orographic forcing (I): invicid, Appl. Math. J. Chinese Univ. Ser. A (in Chinese), 19(3), 253-259.

[271]    何卷雄、杨修群、余志豪,2004,带地形作用的正压方程组的Cauchy问题适定性(II):粘性,高校应用数学学报A辑,193),260-266

HE Juan-xiong, YANG Xiu-qun, YU Zhi-hao, 2004, On the well-posed value problem of barotropic equation with orographic forcing (II): viscosity, Appl. Math. J. Chinese Univ. Ser. A (in Chinese), 19(3), 260-266.

[272]    朱益民、杨修群,2003,太平洋年代际振荡与中国气候变率的联系,气象学报,616),641-654

Zhu Yimin, Yang Xiuqun, 2003, Relationships between Pacific Decadal Oscillation and climate variabilities in China, Acta Meteorologica Sinica (in Chinese), 61(6), 641-654.

[273]    容新尧、杨修群,2003,全球海洋大气耦合环流模式中的ENSO特征对气候背景态改变的敏感性,气象学报,611),52-65

Rong Xinyao, Yang Xiuqun, 2003, Sensitivity of ENSO characteristics in a coupled ocean-atmosphere GCM to change of climatological background state, Acta Meteorologica Sinica (in Chinese), 61(1), 52-65.

[274]    赵珊珊、杨修群、朱益民,2003,热带大西洋年际和年代际变率的时空结构模拟,海洋学报,253),6-19

ZHAO Shan-shan, YANG Xiu-qun, ZHU Yi-min, 2003, Numerical simulation of interannual and interdecadal SST variabilities in the tropical Atlantic with an intermediate ocean model, Acta Oceanologica Sinica (in Chinese), 25(3), 6-19.

[275]    文彩虹、杨修群,2003,使用ECMWF集合预报数据集估计全球季节平均气候异常的潜在可预报性,气象科学,234),379-391

Wen Caihong, Yang Xiuqun, 2003, Potential predictability of seasonal mean climate anomaly assessed from ECMWF ensemble seasonal forecasts, Scientia Meteorologica Sinica (in Chinese), 23(4), 379-391.

[276]    赵珊珊、杨修群,2003,中等复杂程度全球热带海洋模式模拟的热带印度洋海表温度变率,bwin必赢学报,393),358-369

Zhao Shan-Shan, Yang Xiu-Qun, 2003, SST variability in the tropical Indian Ocean simulated by an intermediate tropical global ocean model, Journal of Nanjing University (Natural Sciences, in Chinese), 39(3), 358-369.

[277]    房佳蓓、杨修群,2003,经向风应力在热带不稳定海气相互作用中的角色,热带气象学报,191),43-52

Fang, Jia-bei and Yang Xiu-Qun, 2003, Role of meridional wind stress in the tropical unstable air-sea interaction, Journal of Tropical Meteorology (in Chinese), 19(1), 43-52.

Fang, Jia-bei and Yang Xiu-Qun, 2003, The role of meridional wind stress in the tropical unstable air-sea interaction, Journal of Tropical Meteorology, 9(1), 95-104.

[278]    罗连升、杨修群,2003,从有效位能变化来分析El Nino的年代际变化,气象科学,231),1-11

Luo Liansheng, Yang Xiuqun, 2003, Interdecadal change of El Nino as seen from variations of available potential energy, Scientia Meteorologica Sinica (in Chinese), 23(1), 1-11.

[279]    徐桂玉、杨修群,2002,我国南方暴雨一些气候特征的统计分析,气候与环境研究,7(4)447-456

Xu Guiyu, Yang Xiuqun, 2002, Climatic features of rainstorm days in South China, Climatic and Environmental Research (in Chinese), 7(4), 447-456.

[280]    徐桂玉、杨修群,2002,中国南方冰雹气候特征的三维EOF分析,热带气象学报,18(4)383-392

XU Gui-yu, YANG Xiu-qun, 2002, Three-dimensional EOF nalysis of the climatic features of hail days in South China, Journal of Tropical Meteorology (in Chinese), 18(4), 383-392.

[281]    杨修群、郭燕娟、徐桂玉、任雪娟,2002,年际和年代际气候变化的全球时空特征比较,bwin必赢学报,383),308-317

Yang Xiuqun, Guo Yanjuan, Xu Guiyu, Ren Xuejuan, 2002, Comparison of global spatio-temporal structures between interannual and interdecadal climate variations, Journal of Nanjing University (Natural Sciences, in Chinese), 38(3), 308-317.

[282]    汪代维、杨修群,2002,北极海冰变化的时间和空间型,气象学报,602),129-138

Wang Daiwei, Yang Xiuqun, 2002, Temporal and spatial patterns of Arctic sea ice variations, Acta Meteorologica Sinica (in Chinese), 60(2), 129-138.

[283]    郭燕娟、杨修群,2002,全球海气系统年际和年代际气候变化的时空特征分析,气象科学,222),127-137

Guo Yanjuan, Yang Xiuqun, 2002, Temporal and spatial characteristics of interannual and interdecadal variations in the global ocean-atmosphere system, Scientia Meteorologica Sinica (in Chinese), 22(2), 127-137.

[284]    杨修群、张琳娜,2001 1988-1998年北半球积雪时空变化特征分析,大气科学,256),757-766

Yang Xiuqun and Zhang Linna, 2001, An investigation of temporal and spatial variations of 1988-1998 snow cover over the Northern Hemisphere, Chinese Journal of Atmospheric Sciences (in Chinese), 25(6), 757-766.

[285]    徐桂玉、杨修群,2001,我国南方雷暴的气候特征研究,气象科学,213),299-307

Xu Guiyu, Yang Xiuqun, 2001, Climatic features of thunderstorms in the South China, Scientia Meteorologica Sinica (in Chinese), 21(3), 299-307.

[286]    赵珊珊、杨修群,2000,一个海气耦合环流模式中的ENSO循环特征及控制机理,气象科学,203),389-399

Zhao Shanshan, Yang Xiuqun, 2000, Controlling mechanism responsible for the ENSO cycle in a coupled ocean-atmosphere general circulation model, Scientia Meteorologica Sinica (in Chinese), 20(3), 389-399.

[287]    杨修群、邵慧,1998,与ENSO相联系的热带太平洋典型风应力场结构,热带气象学报,14(1)1-10.

Yang Xiuqun and Shao Hui, 1998, Typical wind stress patterns associated with El Nino/Southern Oscillation, Journal of Tropical Meteorology (in Chinese), 14(1), 1-10.

Yang Xiuqun and Shao Hui, 1998, Typical anomalous wind stress patterns in tropical Pacific associated with El Nino/Southern Oscillation, Journal of Tropical Meteorology, 4(1), 38-46.

[288]    倪允琪、沈新勇、杨修群,1998ENSO动力学及其数值模拟的研究评述,应用气象学报,92),239-245

Ni Yunqi, Shen Xinyong, Yang Xiuqun, 1998, A review of ENSO dynamics and its numerical simulation, Quarterly Journal of Applied Meteorology (in Chinese), 9(2), 239-245.

[289]    杨修群、谢倩、黄士松,1996,全球大气/热带太平洋耦合模式中由ENSO增暖引起的全球大气环流异常,大气科学,202),129-137

Yang Xiuqun, Xie Qian, and Huang Shisong, 1996, Global atmospheric anomalies during warm ENSO period in a couled atmosphere-ocean anomaly model, Scientia Atmospherica Sinica (in Chinese), 20(2), 129-137.

[290]    杨修群、谢倩,1996ENSO循环的数值模拟,I:水平结构特征,气象学报,54(1)42-52

Yang Xiuqun, Xie Qian, 1996, Numerical simulation of the ENSO cycle I: Evolution of horizontal structures, Acta Meteorologica Sinica (in Chinese), 54(1), 42-52.

[291]    杨修群、谢倩,1996ENSO循环的数值模拟,II:变化性及时间尺度选择机制,气象学报,54(6)709-719

Yang Xiuqun, Xie Qian, 1996, Numerical simulation of the ENSO cycle II: Variability and time scale selection mechanism, Acta Meteorologica Sinica (in Chinese), 54(6), 709-719.

[292]    杨修群、谢倩、黄士松,1996,一种新的ENSO循环负反馈机制,大气科学,20(1)79-89

Yang Xiuqun, Xie Qian, and Huang Shisong, 1996, A new possible negative feedback mechanism responsible the ENSO cycle, Scientia Atmospherica Sinica (in Chinese), 20(1), 79-89.

[293]    张恩才、杨修群,1996,一个热带太平洋距平模式对风应力异常的响应,气象科学,16(3)206-214

Zhang Encai, Yang Xiuqun, 1996, Response of a tropical Pacific anomaly model to wind stress anomalies, Scientia Meteorologica Sinica (in Chinese), 16(3), 206-214.

[294]    谢倩、杨修群,1996,热带太平洋线性海气耦合系统的主模和ENSO,大气科学,20(5)547-555

Xie Qian, Yang Xiuqun, 1996, Principal modes in linear couled air-sea system of tropical Pacific and their association with ENSO, Scientia Atmospherica Sinica (in Chinese), 20(5), 547-555.

[295]    杨修群、黄士松,1995,全球大气多层原始方程距平谱模式的研制,气象学报,53(1)19-29

Yang Xiuqun, Huang Shisong, 1995, Design of a multi-level primitive equation anomaly spectral model of global atmosphere, Acta Meteorologica Sinica (in Chinese), 53(1), 19-29.

[296]    杨修群、谢倩、黄士松,1995,热带海气耦合距平模式中的ENSO循环及其形成机制,气象科学,154),134-157

Yang Xiuqun, Xie Qian, Huang Shisong, ENSO cycle in a tropical coupled ocean-atmosphere anomaly model and its formation mechanism, Scientia Meteorologica Sinica (in Chinese), 15(4), 134-157.

[297]    杨修群、谢倩、黄士松,1995,热带海气耦合波动力学性质研究,海洋学报,17(2)27-37

Yang Xiuqun and Huang Shisong, 1993, A study of dynamical features of air-sea coupling waves in the tropics, Acta Oceanologica Sinica, 12(3), 379-394.

[298]    黄士松、杨修群、蒋全荣、汤明敏、王召民、谢倩、朱永春,1995,极地海冰变化对气候的影响,气象科学,154),46-56

Huang Shisong, Yang Xiuqun, Jiang Quanyong, Tang Mingmin, Wang Zhaomin, Xie Qian, Zhu Yongchun, 1995, The effects of the polar sea ice on climate, Scientia Meteorologica Sinica (in Chinese), 15(4), 46-56.

[299]    杨修群、谢倩、黄士松,1995,夏季赤道中东太平洋海温和北极海冰异常对大气环流影响的数值模拟,海洋学报,17(1)21-25

Yang Xiuqun and Shisong Huang, 1992, Numerical simulation of summer atmospheric response to the anomalies of the central eastern equatorial Pacific SST and Arctic sea ice cover, Acta Oceanologica Sinica, 11(3), 75-85

[300]    倪允琪、邹力、张向东、王国民、杨修群、吴爱明,1995ENSO及其对亚洲季风和我国气候变化影响的研究,气象科学,154),30-45

Ni Yunqi, Zhou Li, Liu Ying, Wu Aiming, Wang Guoming, Yang Xiuqun, Zhang Xiangdong, 1995, Study for ENSO and its influences on Asian monsoon and climate change of China, Scientia Meteorologica Sinica (in Chinese), 15(4), 30-45.

[301]    杨修群、谢倩、黄士松,1994,北极海冰对亚洲夏季风影响的数值模拟,海洋学报,16(5)34-40

[302]    杨修群、谢倩、黄士松,1993,南极地区冰雪消失对全球大气环流和气候影响的研究,地理学报,48(5)394-402

Yang Xiuqun, Xie Qian, Huang Shisong, 1993, Numerical simulation of influence of Antarctic land ice-snow cover disappearance on atmospheric general circulation and climate, Acta Geographica Sinica (in Chinese), 48(5), 394-402.

[303]    杨修群、郭英华,1993,下垫面热状况对热带大气低频振荡影响的研究,bwin必赢学报,29(2)325-336

Yang Xiuqun, Kuo Yinghua, 1993, A study of influence of lower boundary thermal condition on low-frequency oscillation in the tropics, Journal of Nanjing University (Natural Sciences, in Chinese), 29(2), 325-336.

[304]    杨修群、黄士松,1993,热带海气相互作用系统中的季节内振荡模,热带气象学报,9(3)202-210

Yang Xiuqun, Huang Shisong, 1993, Intraseasonal oscillation mode in a linear air-sea interaction system, Journal of Tropical Meteorology (in Chinese), 9(3), 202-210.

[305]    杨修群、黄士松,1993,外强迫引起的夏季大气环流异常及其机制探讨,大气科学,17(6)697-703

Yang Xiuqun and Huang Shisong, 1993, On the mechanism of summertime atmospheric anomalies induced by external forcing, Scientia Atmospherica Sinica (in Chinese), 17(6), 697-703.

Yang Xiuqun and Huang Shisong, 1993, On the mechanism of summertime atmospheric anomalies induced by external forcing, Chinese Journal of Atmospheric Sciences, 17(4), 343-349.

[306]    杨修群、黄士松,1992,北半球夏季南极冰气候效应的数值试验,大气科学,16(1)69-76

Yang Xiuqun, Huang Shisong, Climatic effect of Antarctic sea ice in the Northern Hemisphere summer - A numerical experiment, Scientia Atmospherica Sinica (in Chinese), 16(1), 69-76.

Yang Xiuqun and Shisong Huang, 1992, A numerical experiment of climatic effect of Antarctic sea ice during the Northern Hemisphere summer, Chinese Journal of Atmospheric Sciences, 16(1), 80-89.

[307]    黄士松、杨修群、谢倩,1992,北极冰对大气环流和气候影响的观测研究和数值试验,海洋学报,14(6)32-42

Huang Shisong, Yang Xiuqun and Xie Qian, 1992, The effects of the Arctic sea ice on the variations of atmospheric circulation and climate, Acta Meteorologica Sinica, 6(1), 1-14.

[308]    杨修群,1992,北半球夏季位势高度场遥相关型的观测研究,大气科学,16(5)513-521

Yang Xiuqun, 1992, Observational study of teleconnections in the geopotential height during the Northern Hemisphere summer, Scientia Atmospherica Sinica (in Chinese), 16(5), 513-521.

Yang Xiuqun, 1992, Observational study of teleconnections in the geopotential height field during the Northern Hemisphere summer, Chinese Journal of Atmospheric Sciences, 16(4), 337-346.

[309]    杨修群、谢倩、黄士松,1992,大西洋海温异常对夏季大气环流影响的数值试验,气象学报,50(3)349-354

Yang Xiuqun, Xie Qian, Huang Shisong, 1992, Numerical experiments of effect of warm ST anomalies in Atlantic Ocean on the East Asian general circulation during the Northern Hemisphere summer, Acta Meteorologica Sinica (in Chinese), 50(3), 349-354.

[310]    杨修群、黄士松,1992,欧亚雪盖的气候效应及其在冬季风形成中的作用,bwin必赢学报,28(2)326-335

Yang Xiuqun, Huang Shisong, 1992, Climatic effects of Eurasian snow cover and their impact on the formation of winter monsoon circulation, Journal of Nanjing University (Natural Sciences Edition, in Chinese), 28(2), 326-335.

[311]    杨修群、黄士松,1992,北半球夏季遥相关型的水平结构和能量特征,气象科学,12(2)119-127

Yang Xiuqun, Huang Shisong, 1992, Horizontal structure and energetics of Northern Hemisphere summertime teleconnection patterns, Scientia Meteorologica Sinica (in Chinese), 12(2), 119-127.

[312]    杨修群、谢倩、黄士松,1992,赤道中东太平洋海温和北极海冰与夏季长江流域旱涝的相关,热带气象,8(3)261-265

Yang Xiuqun, Xie Qian, Huang Shisong, 1992, Correlations between drought/flood in Yangtse River valley and anomalies of central-eastern equatorial Pacific SST and Arctic sea ice extent, Journal of Tropical Meteorology (in Chinese), 8(3), 261-265.

[313]    杨修群,1992,大气对热带热源低频响应的数值研究,气象科学,10(4)384-393

Yang Xiuqun, 1992, A numerical study of the low-frequency response of atmosphere to the tropical heat source, Scientia Meteorologica Sinica (in Chinese), 10(4), 384-393.

[314]    杨修群、黄士松,1989,马斯克林高压的强度变化对大气环流影响的数值试验,气象科学,9(2)125-138

Yang Xiuqun, Huang Shisong, 1989, The influence of intensity change of Mascarene high on the general circulation of atmosphere - A numerical experiment, Scientia Meteorologica Sinica (in Chinese), 9(2), 125-138.

编(著)作

[1]       杨修群、肖子牛、管兆勇, 2016,第一章:科学意义与战略价值,p1-19,《中国学科发展战略 - 大气科学》,国家自然科学基金委/中国科学院,共134页,科学出版社,北京。

[2]       杨修群等,2016,《大气科学和全球气候变化研究重大科学问题》,黄荣辉、吴国雄等著,共195页,科学出版社,北京。

[3]       严中伟、杨修群,2015,第二章:气候变化的检测和归因,p29-50,《第三次气候变化国家评估报告》,科学出版社,北京

[4]       杨修群、胡永云、管兆勇、温之平,2014,我国高校大气科学团队建设和人才培养现状、问题及建议,p370-379,《大气科学和全球气候变化研究进展与前沿》,黄荣辉等编,共385页,科学出版社,北京。

[5]       杨修群、孙照渤等,2013,第四章: 影响中国气候的主要天气系统,p213-271,《中国气候》,丁一汇主编,王绍武、郑景云、王会军、杨修群副主编,共557页,科学出版社,北京。

[6]       陈文、杨修群等著,2013,中国南方洪涝和持续性暴雨的气候背景,共272页,气象出版社,北京。

[7]       杨修群、江志红、缪启龙,2010,第三章:气候变化的原因,p114-155,《气候变化》(大学教材),丁一汇主编,气象出版社,北京。

[8]       Yang Xiu-qun and Zhu Yi-min, 2008, Interdecadal climate variability in China associated with the Pacific Decadal Oscillation, In: Regional Climate Studies of China, Eds. C. Fu et al., pp. 97-117, Springer, doi: 10.1007/978-3-540-79242-0.

[9]       王绍武、伍荣生、杨修群,2005,中国的气候变化,p63-103,《中国气候与环境演变》上卷,《气候与环境演变及预测》,秦大河主编,科学出版社,北京。

[10]      余志豪、杨修群、任黎秀编著,2002,厄尔尼诺,河海大学出版社,南京。

[11]      林振山、杨修群编著,1995,理论气候学,共330页,bwin必赢出版社,南京。


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