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- 基本信息
- 个人简介
- 近期主要论著
- 近期科研项目
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职称
教授
最高学历
博士
所属专业
气象学
所属系部
天气学系
研究方向
平流层对流层耦合过程和相互作用
办公地点
大学生活动中心
主讲课程
天气学分析基础、典型天气过程分析、
天气学原理和方法、数值天气预报、
生产大实习、专业英语、中国天气
主要研究领域
平流层对流层耦合过程和相互作用;
热带海气过程和QBO动力学;
气候变化、数值模拟和S2S预报
社会兼职:
截止至今,承担近80多种国内外学术期刊的审稿任务,包括AAS、ACP、AR、CD、ERL、JC、JGR、GRL、QJ和Nature多个子刊等众多地学气象气候类高质量期刊;年审稿量在50篇以上。
Atmosphere: Guest Editor
Frontiers: Associate Editor
SPARC Network on Assessment of Predictability (SNAP) Member
江苏省气象学会青年委员会主任委员
江苏省科学技术协会第十届常委会青年科学家委员会委员
江苏省高校科协第五届理事会组织联建工作委员会主任委员
荣誉称号:
学生时代荣誉
2011-2016 中国科学院三好学生多次、国家奖学金等
2007-2011 南京信息工程大学三好学生多次、优秀学生干部多次、三好学生标兵、校长奖学金等
工作以后(党团荣誉)
2024 中央团校2024年全国高校团委班子成员进修班(第三期)优秀学员 中央团校
2024 “学习党的二十大精神 做知纪守纪合格党员”主题知识竞赛一等奖 中央团校
2023 江苏高校百校万名团干部思政技能大比武专职团干部专项赛三等奖 共青团江苏省委
2023 二〇二二年度全省共青团工作“先进工作者” 共青团江苏省委
2022 南京信息工程大学优秀共产党员 南京信息工程大学
工作以后(科技工作荣誉)
2024 CHINA Top Cited Paper Award 2024 "The sudden stratospheric warming in January 2021" 1% of the most cited paper in IOP publishing's portfolio of journals from 2021-2023 英国物理学会
2023 气象科技成果基础研究二等奖,“平流层信号对寒潮低温的影响特征、机制及其延伸期预报应用研究” 江苏省气象学会
2022、2023、2024 中国气象学会期刊气象学报英文版JMR Reviewer Award(连续三年获得)
2020 EARTH AND PLANETARY PHYSICS, Certificate of Honor for EPP publication most frequently cited in 2020, "Evaluating the Brewer–Dobson circulation and its responses to ENSO, QBO, and the solar cycle in different reanalyses"
2020 Wiley出版商TOP DOWNLOADED PAPER 2018-2019, "Evaluating the Brewer–Dobson circulation and its responses to ENSO, QBO, and the solar cycle in different reanalyses"
2021 大气科学学院 科技工作突出贡献奖
2020 大气科学学院 科技工作突出贡献奖
工作以后(教学工作荣誉)
2022 江苏省高校“青蓝工程”优秀青年骨干教师 江苏省教育厅
2021 大气科学学院 教学优秀奖
2021 南京信息工程大学 第七届青年教师教学竞赛二等奖
2018 南京信息工程大学 社会实践优秀指导教师
2018 南京信息工程大学 优秀毕业论文指导教师
2017 南京信息工程大学 优秀班主任
指导学生获奖:
2023年 第十八届“挑战杯”全国大学生课外学术科技作品竞赛黑科技专项赛国赛二等奖(指导教师) 共青团中央、教育部
2023年 第十八届“挑战杯”全国大学生课外学术科技作品竞赛揭榜挂帅专项赛国赛三等奖(指导教师) 共青团中央、教育部
2023年 中国国际大学生创新大赛荣获银奖(指导教师) 教育部、中央统战部等
2023年 第十八届“挑战杯”全国大学生课外学术科技作品竞赛黑科技专项赛省赛一等奖(指导教师) 共青团江苏省委、江苏省教育厅
2023年 第十八届“挑战杯”全国大学生课外学术科技作品竞赛红色专项赛省赛二等奖(指导教师) 共青团江苏省委、江苏省教育厅
2024年 第十四届“挑战杯”中国大学生创业计划竞赛江苏省赛银奖(指导教师) 共青团江苏省委、江苏省教育厅
2025年 第十九届“挑战杯”全国大学生课外学术科技作品竞赛揭榜挂帅专项赛国赛特等奖(指导教师) 共青团中央、教育部
2020级硕士生 梁卓琦 国家奖学金(导师)
2022级硕士生 王浩翔 国家奖学金(导师)
2022级硕士生 鞠泽凡 国家奖学金(导师)
2023级硕士生 朱欣宇 国家奖学金(导师)
已毕业学生:
2013级本科生(2017届):生宸(中科院大气所博士、帝国理工大学访问学者、中科院大气所副研)、王博(武威气象局工作)、王华曌(南大硕士、南通公务员)
2014级本科生(2018届):夏束薇(南信大硕士)、钱琦雯(南信大硕士)、黄维、郭文康(中石化胜利油田)
2017级本科生(2021届):严泽君(铁路系统工作)、付文卓、黄钰格、王天健(福州大学硕士)
2018级本科生(2022届):杜筠泓、甘德钊(直博兰州大学)、胡绍彬、孙瑜(运达能源科技股份有限公司工作)、项英硕(中国海洋大学硕士)、赵柯梦
2019级本科生(2023届):何玥雯、骆语嫣(射阳县气象局工作)、田恬(陇南市气象局工作)、杨慧迪(直博清华)、何明珠(北师大硕士)
2020级本科生(2024届):陈昊鋡(直博复旦)、陈洪斌(留校读研)、冯柯翔(留校读研)、田迪(留校读研)
2021级本科生(2025届):梁欣雨(留校读研)、杨明晶(石家庄工作)、黄昱博、姚营(留校读研)
已毕业硕士:梁卓琦(2023届、气象系统工作)、于淑洋(2023届,气象系统工作)、陆倩(2022届提前毕业,气象系统工作,在职博士)、王浩翔(2024届,浙江工作)、鞠泽凡(2025届,辽宁工作)、沈麟(2025届,留校读博)
已毕业博士:陆倩(2025届,河北工作)
在读学生:
在读博士生:王钥(2024级)、沈麟(2025级)、吴港森(2026级直博)
在读硕士生:朱欣宇(2023级)、陆容钊(2023级)、陈洪斌(2024级)、冯柯翔(2024级)、田迪(2024级)、梁欣雨(2025级)、姚营(2025级)、王紫健(2025级)、甘露(2025级)
2022级本科生:吴港森(拔尖班直博)、瞿嘉、罗布泽仁、陈辰辰、陈果铱
2023级本科生:韩明翰、黄靖蕾、黄雪雯
团队参加会议情况:
| 会议地点和时间 | 会议名称 | 报告题目(报告人) |
| 中国南京,2013.10.24-25 | Sixth China-Korea-Japan Joint Conference on Meteorology | Tropical convective heating and boreal winter stratospheric polar vortex intensity: sensitivity of simulated extratropical stratospheric circulation to CPS in the AGCM SAMIL/LASG (Poster)(饶建) |
| 中国北京,2013.12.03-04 | 2013年度 LASG学术年会 | Tropical convective heating and intensity of the northern winter stratospheric polar vortex: Comparison of the extratropical stratosphere circulations in SAMIL/LASG with two different convective parameterization schemes (Poster)(饶建) |
| 中国北京,2014.10.25-26 | 第一届中国大地测量和地球物理学学术大会(CCGG2014) | Numerical simulations of the impacts of tropical convective heating on the intensity of the northern winter stratospheric polar vortex (Oral)(饶建) |
| 中国北京,2014.12.24-25 | 第十三届LASG气候系统模式研讨会 | Statistical Characteristics of ENSOEvents in CMIP5 Models (Poster)(饶建) |
| 中国北京,2014.11.05-06 | 2014年度 LASG学术年会 | Parallel Comparison of the Northern Winter Stratospheric Circulation in Reanalysis and in CMIP5 Models (Poster)(饶建) |
| 捷克布拉格,2015.06.22-07.02 | The 26th General Assembly of the International Union of Geodesy and Geophysics | Dissection of the effect on the northern winter stratosphere from the ENSO-related SST anomalies over different tropical ocean basins (Oral)(饶建) |
| 中国天津,2015.10.14-16 | 第32届中国气象学会年会 | 北半球冬季平流层环流:CMIP5模式模拟和多套再分析资料对比研究 (Oral)(饶建) |
| 德国柏林,2016.02.16-19 | The Stratosphere–troposphere Processes And its Role for Climate (SPARC) workshop Stratospheric Change and its Role for Climate Prediction (SHARP) | Asymmetry and nonlinearity of ENSO’s influence on the northern winter stratosphere (Poster)(饶建) |
| 德国柏林,2016.02.16-19 | The Stratosphere–troposphere Processes And its Role for Climate (SPARC) workshop Stratospheric Change and its Role for Climate Prediction (SHARP) | The competing effect of the tropical Indian Ocean SST forcing on the northern winter stratosphere during ENSO (Oral)(饶建) |
| 中国北京,2016.07.31-08.05 | The 13th Annual Meeting of the Asia Oceania Geosciences Society (AOGS2016) | Asymmetric and Nonlinear Impacts of ENSO on the Northern Winter Stratosphere (Oral)(饶建) |
| 中国北京,2016.07.31-08.05 | The 13th Annual Meeting of the Asia Oceania Geosciences Society (AOGS2016) | Concurrent Versus Lagged Response of the Northern Winter Stratosphere to ENSO in Multi Reanalyses and Model Simulations (Oral)(饶建) |
| 以色列埃拉特,2019.09. 22-26 | The Batsheva de Rothschild Seminar on Climate and Wave Dynamics | The 2019 New Year Stratospheric Sudden Warming and Its Predictions in 11 S2S Models (Oral) (饶建) |
| 西班牙马德里,2019.10. 22-25 | DynVarMIP (Dynamics and Variability Model Intercomparison Project) workshop on Atmospheric Circulation in a changing climate | The 2019 New Year Stratospheric Sudden Warming and Its Predictions in 11 S2S Models (Oral) (饶建) |
| 英国雷丁,2019.11.18-21 | Workshop: Stratospheric predictability and impact on the troposphere | The 2019 New Year Stratospheric Sudden Warming and Its Predictions in 11 S2S Models (Poster) (饶建) |
| 英国雷丁,2019.11. 18-21 | Workshop: Stratospheric predictability and impact on the troposphere | Predicting the Downward and Surface Influence of the February 2018 and January 2019 Sudden Stratospheric Warming events in S2S Models (Poster) (饶建) |
| 日本京都,2020.02. 21-25 | WCRP/SPARC SATIO-TCS joint workshop | Evaluation of the Quasi-Biennial Oscillation's impact on the northern winter stratospheric polar vortex in CMIP5/6 models (Poster) (饶建) |
| 奥地利维亚纳,2020.05.04-08 | EGU General Assembly 2020 | Impact of the Quasi-Biennial Oscillation on the boreal winter tropospheric circulation in CMIP5/6 models (Online talk) (饶建) |
| 中国成都,2020.10. 23-25 | 平流层过程及其天气气候研究暑期培训 | 2018-2020平流层几次极端事件的预报研究 (线上)(饶建) |
| 美国旧金山(线上),2020.12.07-11 | AGU Fall Meeting 2020 | Arctic Ozone Loss events in March 1997, 2011 and 2020 and their Seasonal Prediction in CFSv2 (Online Poster) (饶建) |
| 中国北京,2020.12. 24-25 | 中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室LASG成立35周年暨2020年度学术年会 | Projected Changes of Stratospheric Final Warmings in the Northern and Southern Hemispheres by CMIP5/6 Models (Poster) (饶建) |
| 美国波士顿(线上),2021.01.10-15 | 101st American Meteorological Society Annual Meeting | Tropospheric impact of the Quasi-Biennial Oscillation in CMIP5/6 models (Online Poster) (饶建) |
| 中国天水,2021.04.18-20 | “平流层对流层相互作用”青年学者论坛 | QBO 长期趋势变化 (Oral)(饶建) |
| 中国青岛,2021.07.17-21 | 第四届中国大地测量和地球物理学学术大会(CCGG2021) | CMIP5/6 models project little change in the statistical characteristics of sudden stratospheric warmings in the 21st century (Poster) (饶建) |
| 中国青岛,2021.07.17-21 | 第四届中国大地测量和地球物理学学术大会(CCGG2021) | Development of the Extratropical Response to the Stratospheric Quasi-Biennial Oscillation (Oral)(饶建) |
| 中国青岛,2021.07.17-21 | 第四届中国大地测量和地球物理学学术大会(CCGG2021) | The January 2021 Sudden Stratospheric Warming and Its Prediction in Subseasonal to Seasonal Models (Oral)(饶建) |
| 中国青岛,2021.07.17-21 | 第四届中国大地测量和地球物理学学术大会(CCGG2021) | Downward propagation of sudden stratospheric warming signals and the local environment in the Beijing-Tianjin-Hebei region: A comparative study of the 2018 and 2019 winter cases (Poster) (陆倩) |
| 中国青岛,2021.07.17-21 | 第四届中国大地测量和地球物理学学术大会(CCGG2021) | Simulation and Projection of the Sudden Stratospheric Warming Events in Different Scenarios by CESM2-WACCM (Poster) (梁卓琦) |
| 中国青岛,2021.07.17-21 | 第四届中国大地测量和地球物理学学术大会(CCGG2021) | Arctic ozone loss in early spring and its impact on the stratosphere-troposphere coupling (Poster) (于淑洋) |
| 中国上海(线上),2022.11.18 | 气象科技高端论坛暨副热带气象委员会2022年学术年会 | 多模式对平流层极涡-东亚春季降水联系的预报检验(线上)(饶建) |
| 中国长沙(线上),2022.11.19-21 | 2022 年海气相互作用与气候动力学国际学术会议 | Southern Hemisphere Response to the Quasi-Biennial Oscillation in the CMIP5/6 Models (Oral)(饶建) |
| 美国布尔德、英国雷丁、中国青岛,2022.10.24-28 | SPARC 2022 7th General Assembly | Mean State of the Northern Hemisphere Stratospheric Polar Vortex in Three Generations of CMIP Models (Poster) (饶建) |
| 英国牛津,2023.03.27-31 | QBO Workshop 2023 | Southern Hemisphere Response to the Quasi-Biennial Oscillation in the CMIP5/6 Models (Online talk) (饶建) |
| 中国武汉,2023.04.21-23 | 第五届中国大地测量和地球物理学学术大会(CCGG2023) | A Novel Method to Improve Seasonal Forecasts of Precipitation Using Stratospheric Variability (Oral)(饶建) |
| 中国武汉,2023.04.21-23 | 第五届中国大地测量和地球物理学学术大会(CCGG2023) | Projected Strengthening Impact of the Quasi-Biennial Oscillation on the Southern Hemisphere by CMIP5/6 Models (Oral)(饶建) |
| 中国武汉,2023.04.21-23 | 第五届中国大地测量和地球物理学学术大会(CCGG2023) | QBO对中国南方初夏降水季节内变化的调制作用(Poster)(鞠泽凡) |
| 中国武汉,2023.04.21-23 | 第五届中国大地测量和地球物理学学术大会(CCGG2023) | Possible influence of Sudden Stratospheric Warmings on the atmospheric environment in the Beijing-Tianjin-Hebei region (Poster) (陆倩) |
| 中国武汉,2023.04.21-23 | 第五届中国大地测量和地球物理学学术大会(CCGG2023) | Northern winter stratospheric polar vortex regimes and their possible influence on the extratropical troposphere (Poster)(梁卓琦) |
| 中国武汉,2023.04.21-23 | 第五届中国大地测量和地球物理学学术大会(CCGG2023) | Projected slowing cooling trend in the Northern Hemispheric Stratosphere due to the Ozone Recovery by CESM2-WACCM (Poster)(于淑洋) |
| 英国雷丁,2023.07.03-07 | WWRP/WCRP S2S Summit 2023 | Impact of the Initial Stratospheric Polar Vortex State on East Asian spring rainfall prediction in seasonal forecast models (Poster)(饶建) |
| 新加坡,2023.07.30-08.04 | The 20th Annual Meeting of the Asia Oceania Geosciences Society (AOGS2023) | Strengthened Impact of the Equatorial Quasi-biennial Oscillation on the Extratropics in Both Hemispheres (Oral) (饶建) |
| 新加坡,2023.07.30-08.04 | The 20th Annual Meeting of the Asia Oceania Geosciences Society (AOGS2023) | A Novel Application of the Initial Stratospheric Polar Vortex State to the East Asian Spring Rainfall Prediction from Seasonal Forecast Models (Oral) (饶建) |
| 日本横滨,2023.07.07-14 | ICAR-APL Workshop on “Climate Research and Applications for Mitigating Extreme Events in Asia-Pacific” | A Novel Method to Improve Spring Seasonal Forecasts of Precipitation Using Stratospheric Variability (Oral) (饶建) |
| 美国旧金山(线上),2023.12.11-15 | American Geophysical Union Annual Meeting 2023 | A revisit and comparison of the Quasi-Biennial Oscillation (QBO) disruption events in 2015/16 and 2019/20 (Poster) (王钥) |
| 中国上海,2023.12.23 | 长三角博后论坛 “大气青年成长论坛” | 十年只做一个研究:平流层-对流层耦合(Oral) (饶建) |
| 中国厦门,2024.05.17-20 | 第九届青年地学论坛 | 对2015/16和2019/20热带平流层准两年振荡(QBO)切断事件的再审视与比较研究 (Poster) (王钥) |
| 中国厦门,2024.05.17-20 | 第九届青年地学论坛 | Influence of synchronous warming of tropical occean on the trend of the QBO amplitude (Poster) (朱欣宇) |
| 中国厦门,2024.05.17-20 | 第九届青年地学论坛 | ENSO和QBO对北半球冬季平流层极涡作用的线性干扰 (Poster) (王浩翔) |
| 中国厦门,2024.05.17-20 | 第九届青年地学论坛 | Reclassification of the types of impacts of stratospheric sudden warmings on the troposphere and tropospheric responses (Oral) (陆容钊) |
| 中国厦门,2024.05.17-20 | 第九届青年地学论坛 | QBO-MJO对中国初夏极端降水的影响 (Poster)(鞠泽凡) |
| 中国厦门,2024.05.17-20 | 第九届青年地学论坛 | The role of Arctic sea ice loss in the interdecadal trends of the East Asian summer monsoon in a warming climate (Poster)(张晓褀) |
| 中国厦门,2024.05.17-20 | 第九届青年地学论坛 | 青藏高原与落基山脉臭氧谷气候特征比较(Poster)(沈麟) |
| 中国厦门,2024.05.17-20 | 第九届青年地学论坛 | Subseasonal to Seasonal (S2S) Predictability of Continental Cold and Snowstorms Following the Sudden Stratospheric Warming in the 2022/23 Winter (Oral) (饶建) |
| 中国厦门,2024.05.17-20 | 第九届青年地学论坛 | Stratosphere-troposphere coupling during stratospheric extremes in the 2022/23 winter (Poster) (陆倩) |
| 韩国平昌,2024.06.23-28 | The 21st Annual Meeting of the Asia Oceania Geosciences Society (AOGS2024) | A revisit and comparison of the Quasi-Biennial Oscillation (QBO) disruption events in 2015/16 and 2019/20 (Oral) (王钥) |
| 韩国平昌,2024.06.23-28 | The 21st Annual Meeting of the Asia Oceania Geosciences Society (AOGS2024) | Remote Impact of the QBO-MJO on the Early Summer Precipitation in Eastern China (Oral) (鞠泽凡) |
| 中国广州,2024.12.03 | 基础科学中心(气候系统预测研究中心)2024年会 | 平流层爆发性增温对京津冀地区大气颗粒物扩散的调制作用(Oral) (饶建) |
| 英国剑桥,2025.03.24-28 | QBOi–SNAP–QUOCA (QSQ) joint workshop | Subseasonal to Seasonal (S2S) Prediction of Continental Cold Following the Sudden Stratospheric Warming in the 2022/23 winter (Oral) (王钥,饶建) |
| 英国剑桥,2025.03.24-28 | QBOi–SNAP–QUOCA (QSQ) joint workshop | QBO disruption–like events in the China Meteorological Administration (CMA) climate model (Oral) (王钥) |
| 英国剑桥,2025.03.24-28 | QBOi–SNAP–QUOCA (QSQ) joint workshop | Possible coherency of synchronous warming of tropical oceans and the QBO amplitude variation (Poster) (朱欣宇) |
| 英国剑桥,2025.03.24-28 | QBOi–SNAP–QUOCA (QSQ) joint workshop | Flavor identification of the sudden stratospheric warmings based on the downward tropospheric influence (Oral) (陆容钊) |
| 英国剑桥,2025.03.24-28 | QBOi–SNAP–QUOCA (QSQ) joint workshop | Can subseasonal predictability of near surface be enhanced following the 2023/24 sudden stratospheric warmings? (Poster) (饶建) |
| 英国剑桥,2025.03.24-28 | QBOi–SNAP–QUOCA (QSQ) joint workshop | Identification and classification of cold air outbreaks in East Asia and possible stratospheric harbingers (Poster) (饶建) |
| 中国北京,2025.04.17-21 | 第一届未来大气科学论坛 | Identification and classification of cold air outbreaks in East Asia and possible stratospheric harbingers (Oral) (张晓褀) |
| 中国合肥,2025.05.10-13 | 第十届青年地学论坛 | 东亚冷空气爆发的识别和分类以及可能的平流层前兆 (Oral)(张晓褀) |
| 中国合肥,2025.05.10-13 | 第十届青年地学论坛 | 2023/24年冬季增强的平流层—对流层耦合和热带—极地耦合 (Oral)(陆倩) |
| 新加坡,2025.06.23-28 | The 22nd Annual Meeting of the Asia Oceania Geosciences Society (AOGS2025) | Enhanced stratosphere-troposphere and tropics-Arctic couplings in the 2023/24 winter (Oral) (陆倩,饶建) |
| 新加坡,2025.06.23-28 | The 22nd Annual Meeting of the Asia Oceania Geosciences Society (AOGS2025) | Flavor identification of the sudden stratospheric warmings based on the downward tropospheric influence (Oral) (饶建) |
| 新加坡,2025.06.23-28 | The 22nd Annual Meeting of the Asia Oceania Geosciences Society (AOGS2025) | Classification of cold air outbreaks in East Asia and potential stratospheric harbingers (Oral)(张晓褀) |
| 新加坡,2025.06.23-28 | The 22nd Annual Meeting of the Asia Oceania Geosciences Society (AOGS2025) | Does Stratospheric Nudging Alone Improve Surface Predictability? Insights from the 2019 Southern Hemisphere Sudden Stratospheric Warming (Oral)(冯柯翔) |
| 中国湛江,2025.11.21-22 | 2025年广东省研究生“海洋气象与绿色科技”学术论坛 | QBO变化的主要新特征 (Oral)(王钥) |
新闻报道:
研究成果在线宣传题目 | 网址 |
北半球冬季平流层对热带大西洋增暖响应的次季节特征 | 链接过期 |
平流层爆发性增温是否可以被提前预报?——以2018年2月一次事件为例 | 链接过期 |
业务系统对平流层爆发性增温(SSW)预报的改进之道 | |
冬季平流层对ENSO的响应为何时强时弱?——PDO的线性干涉 | 链接过期 |
热带印度洋热力强迫对南半球冬季ENSO效应的抵消作用 | 链接过期 |
QBO通过哪些动力路径影响对流层的环流? | |
中国CMIP6模式对平流层爆发性增温的模拟能力究竟如何? | https://cas.nuist.edu.cn/info/1501/16073.htm; https://webs.nuist.edu.cn/_s73/2021/0917/c3060a182744/page.psp |
全球变暖背景下平流层爆发性增温主要统计-动力学特征是否会发生显著变化? | |
北极平流层臭氧损耗期事件的成因分析 | |
全球变暖背景下北半球和南半球平流层冬夏季节转换延后 | |
JC:热带外环流对QBO瞬时响应的动力学特征 | |
JGR-A:2021年1月平流层爆发性增温和大陆冷空气活动的多模式预报 | |
JC:北半球平流层极涡平均态模拟的漫漫长路—从CMIP3到CMIP5再到CMIP6 | |
CD:初春平流层极涡状态对东亚春季降水预报的显著影响 | |
GRL:利用北半球平流层-热带海洋联合模态修正东亚春季降水预报 | |
JC:QBO对南半球环流影响的多模式模拟现状调研 | |
JC:全球变暖背景下QBO全球影响加强现象 | |
RS:喀拉-巴伦支海海冰与初夏中国东部降水之间的显著联系及其在中国CMIP6模式中的表现 | |
AR:对2015/16和2019/20热带平流层准两年振荡(QBO)切断事件的再审视与比较研究 | |
CD: 中层大气科学团队揭示了ENSO和QBO影响平流层的线性互扰特征 | |
CD:CMIP5/6模式再次证实:ENSO和QBO影响平流层环流的线性干涉 | |
平流层爆发性增温可影响京津冀大气环境 | |
2021年初平流层爆发性增温与中美全国性冷空气活动 | |
AAS:平流层爆发性增温影响京津冀大气颗粒物浓度的次季节变化 | https://cas.nuist.edu.cn/info/1501/17006.htm; |
ACP:两类平流层爆发性增温对京津冀地区大气环境的影响特征 | https://cas.nuist.edu.cn/info/1501/17759.htm; https://webs.nuist.edu.cn/_s73/2023/0216/c3055a214691/page.psp |
WCE:2022/23年冬季北半球平流层发生了频繁扰动 | |
CEE:2023/24年冬季平流层-对流层耦合和热带-极地耦合间歇性增 | |
ACP:QBO-MJO组合条件下中国东部初夏降水变化特征和暴力梅 | |
CD:平流层爆发性增温(SSW)的模拟和预估 | https://cas.nuist.edu.cn/info/1501/17622.htm; |
CD:北半球冬季平流层环流分型 | |
CD: 三代CMIP模式对南半球平流层极涡模拟在持续改进 | |
JGR-A: 东亚冷空气爆发的分类分析及其潜在的平流层前兆流型 饶建教授博士后张晓祺在《JGR: Atmospheres》发表关于东亚冷空气爆发的最新研究成果 | |
CD: 2022/23冬季频发SSW事件对大陆冷事件次季节预报的影响 | 待排版 |
AR: 次季节预报系统对连发多发型SSW事件的预报 | 待排版 |
CD: QBO-MJO组合影响东亚初夏降水的多模式模拟调研分析 饶建教授硕士生鞠泽凡在《Climate Dynamics》发表关于评估CMIP6模式对QBO-MJO组合影响东亚初夏降水模拟能力的最新研究成果 | |
npjCAS: 考虑平流层扰动信号,多大程度上可以改善天气预报? | 待排版 |
CD: CMIP6模式能否模拟北半球夏季青藏高原上空的臭氧低谷? 饶建教授博士生沈麟在《Climate Dynamics》发表关于模式模拟臭氧谷效果的最新研究成果 | |
AAS: 借助中国气象局模式再认识QBO西风切断事件特征 饶建教授博士生王钥在《Advances in Atmospheric Sciences》发表利用中国气象局模式深入认识QBO西风切断事件的最新研究成果 | |
AR: 热带海温同步增暖对QBO振幅变化的影响 | 待排版 |
2025
102. Yu, Z. X., Shi, C. H., Rao, J., and Yu, Y. Y. (2025). The stratospheric Brewer–Dobson circulation under different phases of the Stratospheric Polar Vortex Oscillation combined with different phases of the Quasi-Biennial Oscillation. Earth Planet. Phys., 9(5), 1073–1086. http://doi.org/10.26464/epp2025083.
101. Feng, K., J. Rao*, C. I. Garfinkel, A. H. Butler, W. Jie, T. Wu, P. Hitchcock, E.-P. Lim, A. J. Dowdy, and W. Seviour, 2025: Can stratospheric nudging improve surface predictability? Insights from the 2019 Southern Hemisphere sudden stratospheric warming. npj Climate Atmos. Sci., 8: 353, https://doi.org/10.1038/s41612-025-01234-2.
100. Zhu, X., and J. Rao*, 2025: Possible coherency of synchronous warming of tropical oceans and the QBO amplitude variation. Atmospheric Research, 325, 108241. https://doi.org/10.1016/j.atmosres.2025.108241.
99. Wang, H., J. Rao*, D. Guo, Y. Liu, Y. Lu, 2025: Limited nonlinearity of joint ENSO–QBO effects from the stratosphere to the troposphere. Atmospheric and Oceanic Science Letters,100704. https://doi.org/10.1016/j.aosl.2025.100704.
98. Zhang, X., Rao, J.*, Garfinkel, C. I., Son, S.‐W., He, B., and Liu, Y., 2025: Classification of cold air outbreaks in East Asia and potential stratospheric harbingers. Journal of Geophysical Research: Atmospheres, 130, e2024JD043199. https://doi.org/10.1029/2024JD043199.
97. Shen, L., Rao, J.*, Yang, S., Guo, D., 2025: Can CMIP6 models simulate the ozone valley over the Tibetan plateau in boreal summer? Clim. Dyn., 63, 310 (2025). https://doi.org/10.1007/s00382-025-07796-4.
96. Wang, Y., J. Rao*, Y. Lu, and Z. Ju., 2025: QBO disruption–like events in the China Meteorological Administration (CMA) climate model. Adv. Atmos. Sci., 42, 1813-1832. https://doi.org/10.1007/s00376-025-4338-4.
95. Ju, Z., J. Rao*, C. I. Garfinkel, Y. Liu, Y. Wang, and Q. Lu, 2025: Remote impact of the QBO-MJO on early summer precipitation in Eastern Asia: Model evidence from CMIP6. Climate Dynamics, 63: 110, doi: 10.1007/s00382-025-07597-9.
94. Rao, J.*, C. I. Garfinkel, X. Zhang, and Q. Lu, 2024: Subseasonal to Seasonal (S2S) Predictability of Continental Cold and Snowstorms Following the Sudden Stratospheric Warming in the 2022/23 Winter. Climate Dynamics, 63: 75, doi: 10.1007/s00382-024-07582-8.
93. Wang, Y., Rao, J.*, Ju, Z. and Osprey, S.M., 2025. Quasi-Biennial Oscillation. In Atmospheric Oscillations (pp. 253-275). Elsevier. Ed. B. Guan. https://doi.org/10.1016/B978-0-443-15638-0.00013-7 (Book Chapter)
92. Rao, J.*, Garfinkel, C.I. and Butler, A.H., 2025. Stratospheric polar vortex variability. In Atmospheric Oscillations (pp. 277-299). Elsevier. Ed. B. Guan. https://doi.org/10.1016/B978-0-443-15638-0.00014-9 (Book Chapter)
91. Lawrence, Z. D., C. I. Garfinkel*, A. H. Butler, E. Dunn-Sigouin, I. Statnaia, A. Y. Karpechko, G. Koren, M. Abalos, B. Ayarzagüena, D. Barriopedro, N. Calvo, A. de la Cámara, A. Charlton-Perez, D. I. V. Domeisen, J. García-Serrano, N. P. Hindley, M. Jucker, H. Kim, S. H. Lee, P. Lin, M. Osman, F. M. Palmeiro, I. Polichtchouk, J. Rao, J. H. Richter, C. Schwartz, S.-W. Son, M. Taguchi, N. L. Tyrrell, C. J. Wright, and R. W.-Y. Wu, 2024: Quantifying biases in stratosphere-troposphere coupling and identifying their potential sources in subseasonal forecast systems. Weather Clim. Dynam., 6(1): 171–195, doi: 10.5194/wcd-6-171-2025.
90. Wang, Z, J. Hu, J.-J. Luo, J. Rao, Z. Li, and L. Yan, 2025: Performance of CRA-40 reanalysis in representing the Antarctic winter stratospheric circulation: a comparison with ERA-5 and MERRA-2. Earth and Planetary Physics, 9(2): 1–8, doi: 10.26464/epp2025010.
89. Rao, J.*, X. Zhang, Q. Lu, and S. Liu, 2025: Prediction of near-surface conditions following the 2023/24 sudden stratospheric warming by the S2S project models. Atmospheric Research, 107882, doi: 10.1016/j.atmosres.2024.107882.
2024
88. Lu, Q., J. Rao*, R. Ren, C. Shi, and S. Liu, 2024: Enhanced stratosphere-troposphere and tropics-Arctic couplings in the 2023/24 winter. Communications Earth and Environment, 5: 631, doi: 10.1038/s43247-024-01812-x.
87. Wang, H., J. Rao*, Y. Liu, D. Guo, and Y. Lu, 2024: A revisit of the linearity between influence of ENSO and QBO on the stratosphere: Model evidence from CMIP5/6. Climate Dyn., 62(10): 9633–9650, doi: 10.1007/s00382-024-07430-9.
86. Yu, Yueyue; Cui, Zhengfei; Chen, Haishan; Liu, Guotao; Shi, Chunhua; Rao, Jian, 2024: Does the negative Arctic Oscillation always favor the winter PM2.5 Diffusion in North China? J. Meteor. Res., 38(5): 954–968, doi: 10.1007/s13351-024-4036-7.
85. Zhang, X. Q., He, B., Bao, Q., Liu, Y. M., Wu, G. X., Duan, A. M., Hu, W. T., Sheng, C., and Rao, J., 2024: The role of Arctic sea ice loss in the interdecadal trends of the East Asian summer monsoon in a warming climate. npj Climate and Atmospheric Science, 7: 174, doi: 10.1038/s41612-024-00717-y.
84. Nebel, D. M., C. I. Garfinkel*, J. Cohen, D. I. V. Domeisen, J. Rao, and Chen Schwartz, 2024: The predictability of the downward vs. non-downward propagation of sudden stratospheric warmings in S2S hindcasts. Geophy. Res. Lett, 51(16): e2024GL110529. doi: 10.1029/2024GL110529.
83. Feng, K., J. Rao*, H. Chen, R. Ren, and D. Guo, 2024: Improvement of the Simulated Southern Hemisphere Stratospheric Polar Vortex across Series of CMIPs. Climate Dyn., 62(6): 5605–5621, doi: 10.1007/s00382-024-07250-x.
82. Yu, Y., Y. Wu, J. Zhang, J. Rao, C. Shi, and D. Guo, 2024: Connections between low- and high- frequency variabilities of stratospheric northern annular mode and Arctic ozone depletion. Environ. Res. Lett., 19(4): 044040, doi: 10.1088/1748-9326/ad2c24.
81. Shen, L., Rao, J.*, Guo, D., Yang, J., and Wang, Q. (2024). Comparison of the climatic characteristics of ozone valley over the Tibetan Plateau and the Rocky Mountains. Earth and Space Science, 11(4): e2023EA003379, doi:10.1029/2023EA003379.
80. Wang, H., J. Rao*, D. Guo, Y. Lu, and Y. Liu, 2024: Linear interference between effects of ENSO and QBO on the northern winter stratospheric polar vortex. Climate Dyn., 62(5): 2925–2940, doi: 10.1007/s00382-023-07040-x.
79. Wang, Z., S. Yan, J. Hu*, J. Deng, R. Ren, and J. Rao, 2024: Representation of the stratospheric circulation in CRA-40 reanalysis: the Arctic polar vortex and the quasi-biennial oscillation. Adv. Atmos. Sci., 41(5): 894–914, doi: 10.1007/s00376-023-3127-1.
2023
78. Ju, Z., J. Rao*, Y. Wang, J. Yang, and Q. Lu, 2023: Modulation of the Intraseasonal Variability of Early Summer Precipitation in Eastern China by the Quasi-Biennial Oscillation and the Madden-Julian Oscillation. Atmos. Chem. Phys., 23(23): 14903–14918, doi: 10.5194/acp-23-14903-2023. (an earlier ACPD version, doi: 10.5194/egusphere-2023-761).
77. Lu, Q., J. Rao*, C. Shi, R. Ren, Y. Liu, and S. Liu, 2023: Stratosphere-Troposphere Coupling during Stratospheric Extremes in the 2022/23 Winter. Weather and Climate Extremes, 42: 100627, doi: 10.1016/j.wace.2023.100627.
76. 姚彬彬, 施春华*, 郭栋, 饶建, 2023: 赤道西太平洋海面增暖对早春北极平流层极涡的调控. 大气科学, 47(4): 1217-1230. doi: 10.3878/j.issn.1006-9895.2202.21254.
75. Wang, Y., J. Rao*, Y. Lu, Z. Ju, J. Yang, and J. Luo, 2023: A revisit and comparison of the quasi-biennial oscillation (QBO) disruption events in 2015/16 and 2019/20. Atmospheric Research, 294: 106970, doi:10.1016/j.atmosres.2023.106970.
74. Chen, H., Yang, H., Rao, J.*, Luo, J., and Wu, G., 2023: Underrepresentation of the Linkage between the Barents-Kara Sea Ice and East Asian Rainfall in Early Summer by CMIP6 Models. Atmosphere, 14(6): 1044, doi: 10.3390/atmos14061044.
73. Rao., J.*, Garfinkel, C. I., Ren, R., Wu, T., Lu., Y., and Chu, M., 2023: Projected Strengthening Impact of the Quasi-Biennial Oscillation on the Southern Hemisphere by CMIP5/6 Models. Journal of Climate, 36(16): 5461–5476, doi: 10.1175/JCLI-D-22-0801.1.
72. Yang, H., Rao, J.*, Chen, H., Lu, Q., and Luo, J., 2023: Lagged linkage between the Kara-Barents sea ice and early summer rainfall in eastern China in Chinese CMIP6 models. Remote Sensing, 15(8): 2111, doi: 10.390/rs15082111.
71. Yu, Y.*, Yu, X., Guan, Z., Hu, D., Shi, C., Guo, D., and Rao, J., 2023: Stratospheric Pulse-Continental Cold Air Outbreak Coupling Relationships: Interannual and Interdecadal Changes. Frontiers in Earth Science, 10: 1093189, doi:10.3389/feart.2022.1093189.
70. Rao, J.*, Garfinkel, C. I., Ren, R., Wu, T., and Lu., Y., 2023: Southern Hemisphere Response to the Quasi-Biennial Oscillation in the CMIP5/6 Models. Journal of Climate, 36(8): 2603−2623, doi: 10.1175/JCLI-D-22-0675.1.
69. Rao., J.*, Garfinkel, C. I., Wu, T., Luo, J., Lu, Y., Chu, M., and Lu., Q., 2023: Combined Modes of the Northern Stratosphere, Tropical Oceans, and East Asian Spring Rainfall: A Novel Method to Improve Seasonal Forecasts of Precipitation. Geophysical Research Letters, 50(1): e2022GL101360, doi:10.1029/2022GL101360.
68. Rao, J.*, Wu, T., Garfinkel, C. I., Luo, J., Lu, Y., Chu, M., and Hu., J., 2023: Impact of the Initial Stratospheric Polar Vortex State on East Asian Spring Rainfall Prediction in Seasonal Forecast Models. Climate Dynamics, 60(11−12): 4111−4131, doi: 10.1007/s00382-022-06551-3.
67. Bartana, H, C. I. Gafinkel*, O. Shamir, O., and J. Rao, 2023: Projected future changes in equatorial wave spectrum in CMIP6, Climate Dynamics, 60(11−12): 3277−3289, doi:10.1007/s00382-022-06510-y.
66. Liang, Z. Q., Rao, J.*, Guo, D., Lu, Q., and Shi, C., 2023: Northern Winter Stratospheric Polar Vortex Regimes and Their Possible Influence on the Extratropical Troposphere. Climate Dynamics, 60(9-10): 3167–3186, doi:10.1007/s00382-022-06494-9.
65. 王启璐, 徐雯雯, 涂静怡, 于淑洋, 饶建, 郭栋*, 2023: 1979-2020年北极和青藏高原臭氧低值区的动力输送特征比较. 大气科学, 47(3): 866−880, doi: 10.3878/j.issn.1006-9895.2203.21156.
2022
64. Lu, Q., Rao, J.*, Shi, C., Guo, D., Fu, G., Wang, J., and Liang, Z., 2022: Possible influence of Sudden Stratospheric Warmings on the atmospheric environment in the Beijing-Tianjin-Hebei region. Atmospheric Chemistry and Physics, 22(19): 13087–13102, doi:10.5194/acp-22-13087-2022. (an earlier discussion version, doi: 10.5194/acp-2022-279).
63. Rao, J.*, Xie, J., Cao, Y., Zhu, S., and Lu, Q., 2022: Record Flood-Producing Rainstorms of July 2021 and August 1975 in Henan, China: Comparative Synoptic Analysis Using ERA5. Journal of Meteorological Research, 36(6): 809−823, doi: 10.1007/s13351-022-2066-6.
62. Chwat, D., C. I. Gafinkel*, W. Chen, and J. Rao, 2022: Which stratospheric sudden warming events are most predictable? Journal of Geophysical Research Atmospheres, 127(18): e2022JD037521, doi:10.1029/2022JD037521.
61. Chen, Z.*, J. Xu, H. Chen, W, Chen, R. Ren, X. Hu, Y. Zhu, X. Xue, G. Lu, S. Zhang, K. Huang, W. Tian, J. Zhang, D. Hu, J. Rao, Y. Hu, Y. Xia, 2022: Advances in the Researches of the Middle and Upper Atmosphere in China in 2020–2022. Chinese Journal of Space Science, 42(4): 684–711, doi: 10.11728/cjss2022.04.yg20.
60. Liang, Z., J. Rao*, D. Guo, and Q. Lu., 2022: Simulation and projection of the sudden stratospheric warming events in different scenarios by CESM2-WACCM. Climate Dynamics, 59(11–12): 3741–3761, doi: 10.1007/s00382-022-06293-2.
59. Yang, H., Rao, J.*, and Chen, H., 2022: Possible Lagged Impact of the Arctic Sea Ice in Kara-Barents Seas on June Precipitation in Eastern China. Frontiers in Earth Science, 10: 88619, doi: 10.3389/feart.2022.886192.
58. Rao, J.*, Garfinkel, C. I., Wu, T., Lu, Y., and Chu, M., 2022: Mean state of the Northern Hemisphere stratospheric polar vortex in three generations of CMIP models. Journal of Climate, 35(14): 4603–4625, doi:10.1175/JCLI-D-21-0694.1.
57. Lu, Q., J. Rao*, C. Shi, D. Guo, J. Wang, Z. Liang, and T. Wang, 2022: Observational subseasonal variability of the PM2.5 concentration in the Beijing-Tianjin-Hebei area during the January 2021 sudden stratospheric warming, Advances in Atmsospheric Sciences, 39(10): 1623–1636, doi:10.1007/s00376-022-1393-y.
56. Yu, Y., R. Ren*, X Xia, R. Liang, and J. Rao, 2022: A dissection of the topographic effects from Eurasia and North America on the isentropic meridional mass circulation in northern winter, Climate Dynamics, 59(5–6): 1555–1578, doi: 10.1007/s00382-021-06055-6.
55. Yu, S., J. Rao, and D. Guo*, 2022: Arctic ozone loss in early spring and its impact on the stratosphere-troposphere coupling, Earth and Planetary Physics, 62(2): 177−190, doi: 10.26464/epp2022015.
54. Garfinkel, C. I.*, E. P. Gerber, O. Shamir, J. Rao, M. Jucker, I. P. White, and N. Paldor, 2022: A QBO cookbook: Sensitivity of the Quasi-Biennial Oscillation to resolution, resolved waves, and parameterized gravity waves. Journal of Advances in Modeling Earth Systems, 14(3): e2021MS002568, doi: 10.1029/2021MS002568.
2021
53. Rao, J.*, C. I. Garfinkel, T. Wu, Y. Lu, Q. Lu, and Z. Liang, 2021: The January 2021 sudden stratospheric warming and its prediction in Subseasonal to Seasonal models, Journal of Geophysical Research Atmospheres, 126(21): e2021JD035057, doi:10.1029/2021JD035057.
52. Lu, Q., J. Rao*, Z. Liang, D. Guo, J. Luo, S. Liu, C. Wang, and T. Wang, 2021b: The sudden stratospheric warming in January 2021. Environ. Res. Lett., 16(8): 084029, doi:10.1088/1748-9326/ac12f4.截止至2024年9月,连续数月为IOP期刊高被引论文,中国大陆仅仅10篇。
51. Rao, J.*, C. I. Garfinkel, and I. P. White, 2021: Development of the Extratropical Response to the Stratospheric Quasi-Biennial Oscillation. J. Climate, 34(17): 7239–7255, doi: 10.1175/JCLI-D-20-0960.1.
50. Rao, J.*, and C. I. Garfinkel, 2021: The Strong Stratospheric Polar Vortex in March 2020 in S2S Models: Implications for Empirical Prediction of the Low Arctic Total Ozone Extreme. Journal of Geophysical Research Atmospheres, 126(9): e2020JD034190, doi:10.1029/2020JD034190.
49. Lu, Q., J. Rao*, D. Guo*, M. Yu, and Y. Yu, 2021: Downward propagation of sudden stratospheric warming signals and the local environment in the Beijing-Tianjin-Hebei region: A comparative study of the 2018 and 2019 winter cases. Atmospheric Research, 254: 105514, doi: 10.1016/j.atmosres.2021.105514.
48. Rao, J.*, and C. I. Garfinkel, 2021: Projected Changes of Stratospheric Final Warmings in the Northern and Southern Hemispheres by CMIP5/6 Models. Climate Dynamics, 56(9): 3353−3371, doi:10.1007/s00382-021-05647-6.
47. Rao, J.*, and C. I. Garfinkel, 2021: CMIP5/6 Models Do Not Project Changes in the Statistical Characteristics of Sudden Stratospheric Warmings in the 21st Century. Environmental Research Letters, 16(3): 034024, doi:10.1088/1748-9326/abd4fe.
46. Rao, J.*, S. Liu, and Y. Chen, 2021: Northern Hemisphere Sudden Stratospheric Warming and Its Downward and Surface Impact in Four Chinese CMIP6 Models. Adv. Atmos. Sci., 38(2): 187−202, doi: 10.1007/s00376-020-0250-0.
45. Garfinkel, C. I.*, O. Harari, S. Ziskin Ziv, J. Rao, O. Morgenstern, G. Zeng, S. Tilmes, D. Kinnison, F. M. O’Connor, N. Butchart, M. Deushi, P. Jöckel, and A. Pozzer, 2021: Influence of the El Niño–Southern Oscillation on entry stratospheric water vapor in coupled chemistry-ocean CCMI and CMIP6 models. Atmos. Chem. Phys, 21(5): 3725–3740, doi:10.5194/acp-21-3725-2021.
44. 马丽云, 饶建, 孙晓娟, 朱素行, 施春华, 陈长胜, 郭栋*, 2021: 蒙古高压和极涡中期过程对2010年疆北持续性降雪的影响. 高原气象, 40(2): 302−313, doi: 10.7522/j.issn.1000-0534.2020.00040.
43. White, I. P.*, C. I. Garfinkel, J. Cohen, M. Jucker, and J. Rao, 2021: The impact of split and displacement sudden stratospheric warmings on the troposphere. J. Geophys. Res. Atmos., 126(8): e2020JD033989, doi: 10.1029/2020JD033989.
2020
42. Zhou, Yang*, X. Dong, H. Chen, L. Cao, Q. Shao, S. Sun, B. Yang, and J. Rao, 2020: Sub-seasonal variability of surface soil moisture over eastern China. Climate Dyn., 55(11–12): 3527–3541, doi: 10.1007/s00382-020-05464-3.
41. Rao, J.*, and C. I. Garfinkel, 2020: The Arctic Ozone Loss in March 2020 and Its Seasonal Prediction in CFSv2: A Comparative Study with the 1997 and 2011 Cases. J. Geophys. Res. Atmos., 125(21): e2020JD033524, doi:10.1029/2020JD033524.
40. Rao, J.*, C. I. Garfinkel, and I. P. White, 2020: Projected strengthening of the extratropical surface impacts of the Quasi Biennial Oscillation. Geophys. Res. Lett., 47(20): e2020GL089149, doi: 10.1029/2020GL089149.
39. Rao, J.*, C. I. Garfinkel, and I. P. White, 2020: How does the Quasi-Biennial Oscillation affect the boreal winter tropospheric circulation in CMIP5/6 models? J. Climate, 33(20): 8975–8996, doi: 10.1175/JCLI-D-20-0024.1.
38. Rao, J.*, C. I. Garfinkel, I. P. White, and C. Schwartz, 2020: The Southern Hemisphere Minor Sudden Stratospheric Warming in September 2019 and its Predictions in S2S Models. J. Geophys. Res. Atmos., 125(14): e2020JD032723, doi:10.1029/2020JD032723. 截止至2022年3月,连续数月为WOS高被引论文。
37. Garfinkel, C. I.*, C. Schwartz, I. P. White, and J. Rao, 2020: Predictability of the early winter Arctic Oscillation from Autumn Eurasian snowcover in subseasonal forecast models. Climate Dyn., 55(3–4): 961–974. doi: 10.1007/s00382-020-05305-3.
36. Rao, J*, Chaim I. Garfinkel, and Ian P. White, 2020: Impact of Quasi-Biennial Oscillation on the northern winter stratospheric polar vortex in CMIP5/6 models. J. Climate, 33(11): 4787–4813, doi: 10.1175/JCLI-D-19-0663.1.
35. Rao, J.*, Chaim I. Garfinkel, and Ian P. White, 2020: Predicting the Downward and Surface Influence of the February 2018 and January 2019 Sudden Stratospheric Warming events in Subseasonal to Seasonal (S2S) Models. J. Geophys. Res. Atmos., 125(2): e2019JD031919, doi: 10.1029/2019JD031919. 截止至2022年3月,连续数月为WOS高被引论文。
34. White, I. P.*, C. I. Garfinkel, E. P. Gerber, M. Jucker, P. Hitchcock, and J. Rao, 2020: The generic nature of the tropospheric response to sudden stratospheric warmings. J. Climate, 33(13): 5589–5610, doi: 10.1175/JCLI-D-19-0697.1.
33. Rao, J., and R.-C. Ren*, 2020: Modeling study of the destructive interference between tropical Indian Ocean and Eastern Pacific in their forcing in the southern winter extratropical stratosphere during ENSO. Climate Dyn., 54(3–4): 2249–2266, doi: 10.1007/s00382-019-05111-6.
2019
32. Liu, S.-M., Y.-H. Chen, J. Rao*, C. Cao, S.-Y. Li, M.-H. Ma, Y.-B. Wang, 2019: Comparison of Major Sudden Stratospheric Warming Events in CESM1-WACCM and CESM2-WACCM. Atmosphere, 10(11): 679, doi:10.3390/atmos10110679.
31. Zhang, Z., J. Rao*, D. Guo*, W. Zhang, L. Li*, Z. Tang, C. Shi, Y. Su, F. Zhang, 2019: Interdecadal Variations of the Midlatitude Ozone Valleys in Summer, Atmosphere, 10(11): 677, doi:10.3390/atmos10110677.
30. Rao, J.*, Chaim I. Garfinkel, H. Chen, and Ian P. White, 2019: The 2019 New Year Stratospheric Sudden Warming and Its Real-Time Predictions in Multiple S2S Models. J. Geophys. Res. Atmos., 124(21): 11155–11174, doi: 10.1029/2019JD030826.
29. Ren, R.*, X. Xia, and J. Rao, 2019: Topographic forcing from East Asia and North America in the northern winter stratosphere and and their mutual interference. J. Climate, 32(24): 8639–8658, doi: 10.1175/JCLI-D-19-0107.1.
28. Cao, C., Y. Chen, J. Rao*, S. Liu, S. Li, M. Ma, Y. Wang, 2019: Statistical Characteristics of Major Sudden Stratospheric Warming Events in CESM1-WACCM: A Comparison with the JRA55 and NCEP/NCAR Reanalyses. Atmosphere, 10(9): 519, doi:10.3390/atmos10090519.
27. Rao, J.*, R.-C. Ren, H. Chen, X. Liu, Y. Yu, J. Hu, and Y. Zhou, 2019: Predictability of stratospheric sudden warmings in the Beijing Climate Center forecast system with statistical error corrections. J. Geophys. Res. Atmos., 124(15): 8385–8400, doi:10.1029/2019JD030900.
26. Rao J.*, C.I. Garfinkel, and R. Ren, 2019: Modulation of the Northern Winter Stratospheric El Niño-Southern Oscillation Teleconnection by the PDO. Journal of Climate, 32(18): 5761–5783, doi: 10.1175/JCLI-D-19-0087.1.
25. Rao, J.*, R.-C. Ren, X. Xia, C.H. Shi, and D. Guo, 2019: Combined Impact of El Niño-Southern Oscillation and Pacific Decadal Oscillation on the Northern Winter Stratosphere. Atmosphere, 10(4): 211, doi: 10.3390/atmos10040211.
24. Zhao, X. J., J. Rao*, and J. Y. Mao, 2019: The Salient Differences in China Summer Rainfall Response to ENSO: Phases, Intensities and Flavors. Climate Research, 78(1): 51−67, doi: 10.3354/cr01560.
23. Rao, J.*, Y. Yu, D. Guo, C. Shi, D. Chen, and D. Hu, 2019: Evaluating the Brewer–Dobson Circulation and Its Responses to ENSO, QBO, and the Solar Cycle in Different Reanalyses. Earth and Planetary Physics, 3(2): 166-181, doi: 10.26464/epp2019012. 2020年EPP期刊高被引论文;Wiley出版商Top Downloaded Paper 2018-2019。
22. Rao, J.*, R.-C. Ren, H. Chen, X. Liu, Y. Yu, and Y. Yang, 2019: Sub-seasonal to seasonal hindcasts of stratospheric sudden warming by BCC_CSM1.1(m): A comparison with ECMWF, Adv. Atmos. Sci., 36(5): 479-494, doi: 10.1007/s00376-018-8165-8.
21. 刘楚薇, 饶建*,吴志文,胡家晖,马小涵,刘韵雯,王博, 2019: ENSO与中国夏季降水的联系: QBO的调制作用. 热带气象学报, 35(2): 210−223.
20. 王华曌,饶建*,生宸,王博, 2019: 1948-2015年北半球平流层爆发性增温的统计特征和月际环流差异. 大气科学学报, 42(6): 880−891.
19. 徐雯雯, 郭栋*, 孙晓娟, 施春华, 陈丹, 段明铿, 饶建, 杜雅菡, 唐舟, 2019: 青藏高原臭氧谷极端事件的定义及其特征. 大气科学学报, 42(1): 129−137.
18. Yu, Y.-Y.*, M. Cai, C.-H. Shi, R.-K. Yan, and J. Rao, 2019: Sub-seasonal Prediction Skill for the Stratospheric Meridional Mass Circulation Variability in CFSv2. Climate Dyn., 53(1–2): 631–650, doi: 10.1007/s00382-018-04609-9.
2018
17. Rao, J.*, R. Ren, H. Chen, Y. Yu, and Y. Zhou, 2018: The Stratospheric Sudden Warming Event in February 2018 and its Prediction by a Climate System Model. J. Geophys. Res. Atmos., 123(23): 13332–13345, doi: 10.1029/2018JD028908.
16. Rao, J., and R.-C. Ren*, 2018: Varying stratospheric responses to tropical Atlantic SST forcing from early to late winter. Climate Dyn., 51(5–6): 2079–2096, doi: 10.1007/s00382-017-3998-x.
15. 王博,饶建*,王华曌,生宸,2018: 北半球冬季不同PNA与NAO配置与中国降水的联系. 高原气象,37(5): 1264−1276.
14. 饶建*,高庆九,贾建颖,郭栋,2018: 锋面坡度公式的教学实践与总结: 1.课程结构与预备知识点. 教育教学论坛, 31: 197−198.
13. 饶建*, 陈丹, 胡景高, 虞越越, 2018:锋面坡度公式的教学实践与总结: 2.公式演绎与推论总结. 教育教学论坛, 32: 117−118.
12. Yu, Y-Y.*, M. Cai, R.-C. Ren, J. Rao, 2018: A closer look at the relationships between meridional mass circulation pulses in te stratosphere and cold air outbreak patterns in northern hemispheric winter. Climate Dyn., 51(7–8): 3125–3143. doi: 10.1007/s00382-018-4069-7.
2017
11. Rao, J., and R.-C. Ren*, 2017: Parallel comparison of the 1982/83, 1997/98, and 2015/16 super El Niños and their effects on the extratropical stratosphere. Adv. Atmos. Sci., 34(9): 1121–1133, doi:10.1007/s00376-017-6260-x.
10. Ren, R.-C.*, J. Rao, G.-X. Wu, and M. Cai, 2017: Tracking the delayed response of the northern winter stratosphere to ENSO using multi reanalyses and model simulations. Climate Dyn., 48(9–10): 2859–2879, doi:10.1007/s00382-016-3238-9.
9. 郭栋*, 施春华, 刘仁强, 陈丹, 胡定珠, 胡景高, 饶建. 2017:《平流层-对流层相互作用》课程建设思路与规划. 教育教学论坛, 31: 219−220.
2016 & Before
8. Rao, J.*, and R.-C. Ren*, 2016a: A decomposition of ENSO's impacts on the northern winter stratosphere: Competing effect of SST forcing in the tropical Indian Ocean. Climate Dyn., 46(11–12): 3689–3707.
7. Rao, J., and R. C. Ren*, 2016b: Asymmetry and nonlinearity of the influence of ENSO on the northern winter stratosphere: 1. Observations. J. Geophys. Res. Atmos., 121(15): 9000–9016, doi: 10.1002/2015JD024520.
6. Rao, J., and R. C. Ren*, 2016c: Asymmetry and nonlinearity of the influence of ENSO on the northern winter stratosphere: 2. Model study with WACCM. J. Geophys. Res. Atmos., 121(15): 9017–9032, doi: 10.1002/2015JD024521.
5. Rao, J., R.-C. Ren*, and Y. Yang, 2015: Parallel comparison of the northern winter stratospheric circulation in reanalysis and in CMIP5 models. Adv. Atmos. Sci., 32(7): 952–966.
4. Ren, R.-C.*, Y. Yang, M. Cai, and J. Rao, 2015: Understanding the systematic air temperature biases in a coupled climate system model through a process-based decomposition method. Climate Dyn., 45(7–8): 1810–1817.
3. Yang, Yang, R. C. Ren*, M. Cai, and J. Rao, 2015: Attributing analysis on the model bias in surface temperature in the climate system model FGOALS-s2 through a process-based decomposition method. Adv. Atmos. Sci., 32(4): 457–469.
2. 饶建, 任荣彩*, 杨扬, 2014: 热带加热异常影响冬季平流层极涡强度的数值模拟. 大气科学, 38(6): 1159–1171.
1. Rao, J., and R.-C. Ren*, 2014: Statistical characteristics of ENSO events in CMIP5 models. Atmos. Oceanic Sci. Lett., 7(6): 546–552. doi:10.3878/AOSL20140055.
在研项目:
2024/01-2026/12:国家自然科学基金委与以色列科学基金会合作研究项目 (42361144843), 主持(??万)
2024/01-2026/12:国家自然科学基金优秀青年科学基金项目 (42322503), 主持 (??万)
2022/01-2025/12:国家自然科学基金面上项目 (42175069), 主持 (58万)
结题项目:
2023/01-2023/12:中国气象局地球系统数值预报中心2023年委托业务,主持(12万)
2023/07-2024/06:中国科学院大气物理研究所横向课题,主持(18万)
2023/03-2024/11:中国科学院国家空间科学中心横向课题,主持(19万)
2022/01-2022/12:中国气象局地球系统数值预报中心2022年委托业务,主持(10万)
2018/01-2019/12:大气科学和地球流体力学数值模拟国家重点实验室开放课题,主持(5万)
2018/01-2020/12:国家自然科学基金青年基金项目(41705024), 主持(25万)
2016/09-2019/08:南京信息工程大学人才启动项目,主持(10万)
2020/01-2023/12:国家自然科学基金面上项目(41975048),参加
2019/01-2022/12:国家自然科学基金面上项目(41875048),参加
2018/01-2022/12:中国科学院战略性先导科技专项,参加
2018/01-2020/12:国家自然科学基金青年基金项目 (41705039), 参加
2016/01-2019/12:国家自然科学基金面上项目 (41575041), 参加
2016/07-2021/06:国家重点研发计划全球变化及应对专项项目,参加
2015/01-2017/12:国家自然科学基金重大研究计划项目, 参加
指导大学生创新创业训练计划项目:
2022/04-2023/03:高等学校大学生创新创业训练计划(国家级项目202210300004Z),杨慧迪主持,指导老师(1万)杨慧迪保研直博清华大学
2018/04-2020/03:高等学校大学生创新创业训练计划(国家级项目201810300009Z),曹璨主持,指导老师(1万)曹璨保研直博复旦大学,刘思明全额奖学金直博University of Chicago
2023/04-2024/03:高等学校大学生创新创业训练计划(省级项目202310300071Y),陈昊鋡主持,指导老师(0.6万)陈昊鋡保研直博复旦大学
2017/04-2018/03:高等学校大学生创新创业训练计划(省级项目201710300062Y),刘楚薇主持,指导老师(0.6万)刘楚薇保研直博兰州大学
2024/04-2025/03:高等学校大学生创新创业训练计划(校级项目XJDC202410300576),钱一灵主持,指导老师
2024/04-2025/03:高等学校大学生创新创业训练计划(校级项目XJDC202410300395),吴港森主持,指导老师
2021/04-2022/03:高等学校大学生创新创业训练计划(校级项目XJDC202110300326),卢仪主持,指导老师 卢仪考研北京师范大学