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姓名:王会军 (WANG Huijun)

职 称:研究员 (中国科学院院士) / Professor

职 位:实验室主任

研究方向: 古气候模拟与气候变化,东亚季风气候变异及其预测

教育:
1982/09–1986/07 北京大学地球物理系, 获学士学位
1986/09–1991/09 中科院大气物理研究所,获博士学位

研究经历:
1991/09–1994/12 中国科学院大气物理研究所助理研究员
1991/11 美国Lorenz国家实验室(LLNL/PCMDI)气候模拟短期合作研究
1994/12–1996/12 中国科学院大气物理研究所副研究员
1996/12–今 中国科学院大气物理研究所研究员

任职经历:
2001–2005 任中国科学院大气物理研究所常务副所长,主持研究所全面工作
2005–2014 任中国科学院大气物理研究所所长
2003年与挪威著名科学家Ola Johannessen教授共同创立了竺可桢-南森国际研究中心
现任中国气象学会理事长、WCRP中国委员会主席、挪威极地科学研究院委员、中国科学探险学会副理事长;《科学通报》副主编、《Atmospheric and Oceanic Science Letters》主编、《大气科学学报》主编、《气象学报》、《大气科学》编委;中国海洋大学、兰州大学、云南大学、中山大学等学校客座教授
曾任《Advances in Atmospheric Sciences》主编、国际气候变率及可预测性研究计划(CLIVAR)亚澳季风工作组AAMP委员、世界气象组织热带气象委员会东亚季风工作组EAMP委员

主要研究项目:

1998–2000年 中国科学院创新重要研究方向项目“东亚夏季风年际变率研究”的首席科学家
1991–2000年 攀登项目“气候动力学和气候预测理论的研究”的课题负责人
2004–2006年 中国科学院创新重要研究方向项目“中高纬大气环流和南北半球相互作用”的首席科学家
2002–2006年 国家自然基金重大项目“古气候模拟和气候季节预测研究”的首席科学家(国家杰出青年基金)
2007–2010年 国家自然基金重大项目“极区大气涛动的年际变化对热带大气环流的影响”的首席科学家(基金委重点项目)
2009–2011年 中国科学院知识创新工程重要方向性项目“中国近百年来气候变化分析及其模拟研究”的首席科学家
2009–2011年 中国科学院知识创新工程重要方向性项目群“海陆气相互作用-圈层相互作用与亚洲季风的年际和年代际变化”的顶层专家组长
2009–2013年 国家重点基础研究发展(973)计划项目“ 全球变暖背景下东亚能量和水分循环变异及其对我国极端气候的影响”的首席科学家
2012–2014年 中国科学院重点国际合作项目“亚澳季风系统及气候变化对水资源变异规律研究”的首席科学家
2012–2016年 国家自然基金重点项目“我国东北地区冬春季节气候年际和年代际变化及有关预测研究”的首席科学家
2013–2017年 国家自然基金重大国际合作项目“欧亚大陆中高纬区冬春季气候变化及其未来情景研究”的首席科学家
2015–2020年 国家自然基金创新研究群体项目“东亚气候系统变化机制及预测方法”的首席科学家
2016–2021年 国家重点研发计划项目“中国北方地区极端气候的变化及成因研究”的首席科学家
2020–2024年 国家自然科学基金重大项目“亚洲中高纬区极端气候的机理、预测预估及其生态环境影响”的首席科学家
2021–2025年 国家自然科学基金基础科学中心项目“气候系统预测研究中心”的首席科学家


Title: Professor (Academician of Chinese Academy of Sciences)
Research Area: Paleoclimate Simulation, Climate variations of East Asian monsoon and its predictability
Education:
1982/09–1986/07 Bachelor Degree, Department of Geophysics, Peking University
1986/09–1991/09 PhD,  Institute of Atmospheric Physics, Chinese Academy of Sciences
Research Experience:
1991/09–1994/12 Assistant professor at Institute of Atmospheric Physics, Chinese Academy of Sciences

1994/12–1996/12 Associate professor at Institute of Atmospheric Physics, Chinese Academy of Sciences  
1996/12–present Professor at Institute of Atmospheric Physics, Chinese Academy of Sciences  
Work Experience:
Executive director-general of Institute of Atmospheric Physics, Chinese Academy of Sciences (After 2001)
Director-general of Institute of Atmospheric Physics, Chinese Academy of Sciences (After 2005)
Chief Editor of Advance in Atmospheric Science (SCI-extended journal) (After 2001)
Standing member of Editorial Committee of Acta Meteorologica Sinica (after 1994), and Chinese Journal of Atmospheric Science (After 2000)
Vice president of Beijing Meteorological Association (After 1999)
President of Chinese Meteorological Association (After 2014)

Main research project:
1998–2000: Leading scientist of a Key Project of Chinese Academy of Sciences "Interannual Variability of East Asian Summer Monsoon"
2004–2006: Leading scientist of a Key Project of Chinese Academy of Sciences "The mid-and-high latitude atmospheric circulation and inter-hemispheric interactions"
2002–2006: Leading scientist of a National Natural Science Funds for Distinguished Youth Scholars "The Paleo-climate simulation and the seasonal climate prediction"
2009–2011: Leading scientist of a Main Direction Program of Knowledge Innovation of Chinese Academy of Sciences "Analyses and modeling study of the climate change in the past 100 years in China"
2009–2013: Leading scientist of a National Basic Research Program of China (973 Program) "Variability of the water and energy cycles and their impact on the extreme climate over China under the global warming background"
2012–2016: Leading scientist of a Key Project of National Natural Science Foundation of China "Study on inter-annual and inter-decade change in winter-spring climate in northeastern China and their prediction"
2013–2017: Leading scientist of an International Cooperation and Exchange of the National Natural Science Foundation of China "Winter-spring climate change in Eurasia mid- and high-latitude regions and their projection"
2015–2020: Leading scientist of an Innovative Research Group Project of National Natural Science Foundation of China "Mechanism of change in climate system in East Asia and prediction method study"
2016–2021: Leading scientist of a National key research and development program of China "Change in extreme climate in northern China and their causes"
2020–2024: Leading scientist of a Major Project of National Natural Science Foundation of China "Mechanism, prediction and projection of extreme climate over mid- and high-latitudes of Asia and their impact on ecology and environment"
2021–2025: Leading scientist of basic science center project of the National Natural Science Foundation of China "Center for Climate System Prediction Research"

专著:


王会军, , 2021: "一带一路"区域气候变化灾害风险, 气象出版社, 178, 北京.


王会军,范可,郎咸梅,孙建奇,陈丽娟等,2012:我国短期气候预测的新理论、新方法和新技术,气象出版社,226页,北京(Wang Huijun, Fan Ke, Lang Xianmei, Sun Jianqi, Chen Lijuan, et al., 2012: Advances in climate prediction theory and techniques of China. 226pp, China Meteorological Press, Beijing)


汪君,王会军,洪阳,2014:中国洪涝滑坡灾害监测和动力数值预报系统研究,气象出版社,164pp,北京(Wang Jun, Wang Huijun, Hong Yang, 2015: A realtime monitoring and dynamical forecasting system for floods and landslides in China, 164pp, China Meteorological Press, Beijing)

2021年


Chen P., B. Sun, H. Wang, and B. Zhu, 2021: Possible impacts of December Laptev sea ice on Indian Ocean Dipole conditions during spring. Journal of Climate, 34, 6927–6943.

 

Hao X., J. Li, H. Wang, H. Liao, Z. Yin, J. Hu, Y. Wei, and R. Dang, 2021: Long-term health impact of PM2.5 under whole-year COVID-19 lockdown in China. Environmental Pollution, 290, 118118.

 

He W., B. Sun, and H. Wang, 2021: Dominant modes of interannual variability in atmospheric water vapor content over East Asia during winter and their associated mechanisms. Advances in Atmospheric Sciences, 38, 1706–1722.

 

Hong H., J. Sun, and H. Wang, 2021: Variations in summer extreme high-temperature events over northern Asia and the possible mechanisms. Journal of Climate, 35, 335–357.

 

Sun B., H. Wang, B. Wu, M. Xu, B. Zhou, H. Li, and T. Wang, 2021: Dynamic control of the dominant modes of interannual variability of snowfall frequency in China. Journal of Climate, 34, 2777–2790.

 

Sun B., H. Wang, A. Wang, Y. Miao, B. Zhou, and H. Li, 2021: Regularity and Irregularity of the Seasonal Northward March of the East Asian Summer Wet Environment and the Influential Factors. Journal of Climate, 34, 545–566.

 

Wang T., B. Sun, and H. Wang, 2021: Interannual variations of monthly precipitation and associated mechanisms over the Three River Source region in China in winter months. International Journal of Climatology, 41, 2209–2225.

 

Wang T., J. Miao, H. Wang, and J. Sun, 2021: Influence of strong tropical volcanic eruptions on daily temperature and precipitation extremes across the globe. Journal of Meteorological Research, 35, 428–443.

 

Xu H. W., H. Chen, and H. Wang, 2021: Interannual variation in summer extreme precipitation over Southwestern China and the possible associated mechanisms. International Journal of Climatology, 41, 3425–3438.

 

Xu H., H. Chen, and H. Wang, 2021: Future changes in precipitation extremes across China based on CMIP6 models. International Journal of Climatology, doi:10.1002/joc.7264.

 

Yin Z., Y. Wan, and H. Wang, 2021: Decadal changes of connections among snow cover in West Siberia, Eurasia Teleconnection and O3-related meteorology in North China. Atmospheric Chemistry and Physics, 21, 11519–11530.

 

Yin Z., Y. Zhang, H. Wang, and Y. Li, 2021: Evident PM2.5 drops in the east of China due to the COVID-19 quarantines in February. Atmospheric Chemistry and Physics, 21, 1581–1592.

 

Yin Z., Y. Wan, Y. Zhang, and H. Wang, 2021: Why super sandstorm 2021 in North China? National Science Review, doi:10.1093/nsr/nwab165.

 

Zhang X., Z. Yin, H. Wang, and M. Duan, 2021: Monthly variations of atmospheric circulations associated with haze pollution in the Yangtze-River Delta and North China. Advances in Atmospheric Sciences, 38, 569–580.

 

Zhang Y., Z. Yin, H. Wang, and S. He, 2021: 2020/21 Record-breaking cold waves in east of China enhanced by the “Warm Arctic-Cold Siberia” Pattern. Environmental Research Letters, 16, 094040.

 

Wang H., Y. Dai, S. Yang, T. Li, J. Luo, B. Sun, M. Duan, J. Ma, Z. Yin, and Y. Huang, 2021: Predicting climate anomalies: a real challenge. Atmospheric and Oceanic Science Letters, https://doi.org/10.1016/j.aosl.2021.100115.

 

Li H., B. Sun, H. Wang, and X. Yuan, 2021: Joint effects of three oceans on the 2020 super Mei-yu. Atmospheric and Oceanic Science Letters, https://doi.org/10.1016/j.aosl.2021.1001 27.

 

Xia S., Z. Yin, and H. Wang, 2021: Remote impacts from tropical Indian Ocean on January haze pollution over the Yangtze River Delta. Atmospheric and Oceanic Science Letters, 14, 100042.

 

贺圣平, 王会军, 李华, 赵家臻, 2021: 机器学习的原理及其在气候预测中的潜在应用. 大气科学学报, 44, 2638.

 

刘松楠, 汪君, 王会军, 2021: 多源降水在门头沟山洪模拟中的应用及比较.气象, 47, 817829.

 

赵家臻, 王爱慧, 王会军, 2021: 中国地区土壤湿度记忆性及其与降水特征变化的关系. 大气科学, 45, 799818.

 

王予, 李惠心, 王会军, 孙博, 陈活泼, 2021: CMIP6全球气候模式对中国极端降水模拟能力的评估及其与CMIP5的比较.气象学报, 79, 369386.




2020年

Chen D., H. Wang, J. Sun, Y. Gao, and J. Ma, 2020: Interdecadal variation and causes of drought in Northeast China in recent decades. Journal of Geophysical Research: Atmospheres, DOI:10.1029/2019JD032069.

He S., H. Wang, F. Li, Hui Li, and C. Wang, 2020: Solar-wind–magnetosphere energy influences the interannual variability of the northern-hemispheric winter climate. National Science Review, 7, 141–148.

Hong H., J. Sun, and H. Wang, 2020: Interdecadal variation in the frequency of extreme hot events in Northeast China and the possible mechanism. Atmospheric Research, 2020, 105065.

Huang Y., and H. Wang, 2020: Is the regional precipitation predictable in decadal scale? A possible approach for the decadal prediction of the summer precipitation over North China. Earth and Space Science, 7, doi.org/10.1029/2019EA000986.

Huang Y., and H. Wang, 2020: A possible approach for decadal prediction of the PDO. Journal of Meteorological Research, 34, 63–72.

Jiang N., Q. Yan, and H. Wang, 2020: Variation of the summer Asian westerly jet over the Last Millennium based on the PMIP3 simulations. The Holocene, 30, 332–343.

Li F., X. Wan, H. Wang, Y. Orsolini, Z. Cong, Y. Gao, and S. Kang, 2020: Arctic sea-ice loss intensifies aerosol transport to the Tibetan Plateau. Nature Climate Change, 1–8.

Si D., D. Jiang, and H. Wang, 2020: Intensification of the Atlantic multidecadal variability since 1870: Implications and possible causes. Journal of Geophysical Research: Atmospheres, 125, e2019JD030977.

Xu H., T. Wang, H. Wang, J. Miao, J. Chen, and S. Chen, 2020: The PMIP3 simulated climate changes over arid Central Asia during the Mid-Holocene and Last Glacial Maximum. Acta Geologica Sinica, 94, 725–742.

Xu X., S. He, and H. Wang, 2020: Relationship between solar wind-magnetosphere energy and Eurasian cold events. Advances in Atmospheric Sciences, 37, 652–661.

Yue X., H. Liao, H. Wang, T. Zhang, N. Unger, S. Sitch, Z. Feng, and J. Wang, 2020: Pathway dependence of ecosystem responses in China to 1.5 °C global warming. Atmospheric Chemistry and Physics, 20, 2353–2366.

Zhang Y., Z. Yin, and H. Wang, 2020: Roles of climate variability on the rapid increase of Winter haze pollution in North China after 2010. Atmospheric Chemistry and Physics, doi.org/10.5194/acp-2020-505.

Zong P., Y. Zhu, H. Wang, and D. Liu, 2020: WRF-Chem simulation of winter visibility in Jiangsu, China, and the application of a neural network algorithm. Atmosphere, 11, 520, doi:10.3390/atmos11050520.

Zhu B., B. Sun, and H. Wang, 2020: Dominant modes of interannual variability of extreme high-temperature events in eastern China during summer and associated mechanisms. International Journal of Climatology, 40, 841–857.

王会军, 唐国利, 陈海山, 吴绍洪, 效存德, 姜大膀, 周波涛, 孙建奇, 等, 2020:“一带一路”区域气候变化事实、影响及可能风险. 大气科学学报, 43, 1–9.

王会军, 任宏利, 陈活泼, 马洁华, 田宝强, 孙博, 黄艳艳, 段明铿, 汪君, 王琳, 周放, 2020: 中国气候预测研究与业务发展的回顾. 气象学报, 78, 317–331.

黄艳艳, 王会军, 2020: 太平洋年代际振荡的年代际预测方法. 气象学报, 78, 177–186.

孙博, 王会军, 周波涛, 李惠心, 朱宝艳, 2020: 中国水汽输送年际和年代际变化研究进展. 水科学进展, 31, 644–653.

2019年

Chen D., Y. Gao, and H. Wang, 2019: Why was the August rainfall pattern in the East Asia-Pacific Ocean region in 2016 different from that in 1998 under a similar preceding El Nino background? Journal of Climate, 5785–5797.

Chen H., H. Wang, J. Sun, Y. Xu, and Z. Yin, 2019: Anthropogenic fine particulate matter pollution will be exacerbated in eastern China due to 21st century GHG warming. Atmospheric and Chemistry Physics, 19, 233–243.

Han T., H. Wang, X. Hao, and S. Li, 2019: Seasonal prediction of midsummer extreme precipitation days over Northeast China. Journal of Applied Meteorology and Climatology, 58, 2033–2048.

Han T., S. He, H. Wang, and X. Hao, 2019: Variation in principal modes of midsummer precipitation over Northeast China and its associated atmospheric circulation. Advances in Atmospheric Sciences, 36, 55–64.

Hao X., S. He, H. Wang, and T. Han, 2019: Quantifying the contribution of anthropogenic influence to the East Asian winter monsoon in 1960–2012. Atmospheric Chemistry and Physics, 19, 9903–9911.

He S., J. Wang, and H. Wang, 2019: Projection of Landslides in China during the 21st Century under the RCP8.5 Scenario. Journal of Meteorological Research, 33, 138–148.

Liu Y., H. Chen, H. Wang, J. Sun, H. Li, and Y. Qiu, 2019: Modulation of the Kara sea ice variation on the ice freeze-up time in Lake Qinghai. Journal of Climate, 32, 2553–2568.

Shen H., S. He, and H. Wang, 2019: Effect of summer arctic sea ice on the reverse august precipitation anomaly in eastern china between 1998 and 2016. Journal of Climate, 32, 3389–3407.

Sun B., H. Wang, and B. Zhou, 2019: Climatic condition and synoptic regimes of two intense snowfall events in eastern China and implications for climate variability. Journal of Geophysical Research: Atmospheres, 124, 926–941.

Sun B., H. Wang, and B. Zhou, 2019: Interdecadal variation of the relationship between East Asian water vapor transport and Tropical Pacific sea surface temperatures during January and associated mechanisms. Journal of Climate, 32, 7575–7594.

Sun B., H. Wang, B. Zhou, and H. Li, 2019: Interdecadal variation in the synoptic features of Mei-Yu in the Yangtze River valley region and relationship with the Pacific Decadal Oscillation. Journal of Climate, 32, 6251–6270.

Xu Z., K. Fan, and H. Wang, 2019: Springtime convective quasi-biweekly oscillation and interannual variation of its intensity over the South China Sea–western North Pacific. Journal of Meteorological Research, 33, 323–335.

Yin Z., H. Wang, and X. Ma, 2019: Possible relationship between the Chukchi sea ice in the early winter and the February haze pollution in the North China Plain. Journal of Climate, 32, 5179–5190.

Yin Z., H. Wang, Y. Li, X. Ma, and X. Zhang, 2019: Links of Climate Variability among Arctic sea ice, Eurasia teleconnection pattern and summer surface ozone pollution in North China. Atmospheric Chemistry and Physics, 19, 3857–3871.

Yin Z., Y. Li, and H. Wang, 2019: Response of early winter haze in the North China Plain to autumn Beaufort sea ice. Atmospheric Chemistry and Physics, 19, 1439–1453.

Yin Z., B. Cao, and H. Wang, 2019: Dominant patterns of summer ozone pollution in eastern China and associated atmospheric circulations. Atmospheric Chemistry and Physics, 19, 13933–13943.

Zhong W., Z. Yin, and H. Wang, 2019: The relationship between the Anticyclonic anomalies in northeast Asia and severe haze in the Beijing–Tianjin–Hebei region. Atmospheric Chemistry and Physics, 19, 5941–5957.

Zhu Y., Y. Liu, H. Wang, and J. Sun, 2019: Changes in the interannual summer drought variation along with the regime shift over Northwest China in the late 1980s. Journal of Geophysical Research: Atmospheres, 124, 2868–2881.

何爽爽, 汪君, 王会军, 2019: 滑坡泥石流大尺度统计预报模型的实时检验. 大气科学学报, 42, 78–92.

尹志聪, 王会军, 段明铿, 2019: 近几年我国霾污染实时季节预测概要. 大气科学学报, 42, 2–13.


2018年

Wang H. , 2018: On assessing haze attribution and control measures in China. Atmospheric and Oceanic Science Letters, 11, 2, 120–122.

Chen D., H. Wang, J. Sun, and Y. Gao, 2018: Pacific multi-decadal oscillation modulates the effect of Arctic oscillation and El Niño southern oscillation on the East Asian winter monsoon. International Journal of Climatology, 38, 2808–2818.

Fan K., Z. Xie, H. Wang, Z. Xu, and J. Liu, 2018: Frequency of spring dust weather in North China linked to sea ice variability in the Barents Sea. Climate Dynamics, 51, 4439-4450.

Gao Y., H. Wang, and D. Chen, 2018: Precipitation anomalies in the Pan-Asian monsoon region during El Niño decaying summer 2016. International Journal of Climatology, 38, 3618-3632.

Han T., S. He, H. Wang, and X. Hao, 2018: Enhanced influence of early-spring tropical Indian Ocean SST on the following early-summer precipitation over Northeast China. Climate Dynamics, 51, 4065-4076.

Li H., H. Chen, H. Wang, and E. Yu, 2018: Future precipitation changes over China under 1.5 °C and 2.0 °C global warming targets by using CORDEX regional climate models. Science of the Total Environment, 640–641, 543–554.

Li H., H. Chen, H. Wang, J. Sun, and J. Ma, 2018: Can Barents Sea Ice Decline in Spring Enhance Summer Hot Drought Events over Northeastern China? Journal of Climate, 31, 4705–4725.

Liu Y., H. Chen, H. Wang, and Y. Qiu, 2018: The impact of the NAO on the delayed break-up date of lake ice over the southern Tibetan Plateau. Journal of Climate, 31, 9073–9086.

Miao J., T. Wang, H. Wang, and J. Sun, 2018: Interannual weakening of the tropical Pacific Walker circulation due to strong tropical volcanism. Advances in Atmospheric Sciences, 35, 645–658.

Miao J., T. Wang, H. Wang, Y. Zhu, and J. Sun, 2018: Interdecadal weakening of the East Asian winter monsoon in the mid-1980s: the roles of external forcings. Journal of Climate, 31, 8985-9000.

Shi J., Q. Yan, and H. Wang, 2018: Timescale-dependence of the relationship between the East Asian summer monsoon strength and precipitation over eastern China in the last millennium. Climate of the Past, 14, 577–591.

Sun B., and H. Wang, 2018: Enhanced connections between summer precipitation over the Three-River-Source region of China and the global climate system. Climate Dynamics, 52, 3471-3488.

Sun B., and H. Wang, 2018: Interannual variation of the spring and summer precipitation over the Three-River-Source region in China and the associated regimes. Journal of Climate, 31, 7441-7457.

Yan Q., L. Owen, H. Wang, and Z. Zhang, 2018: Climate constraints on glaciation over High-Mountain Asia during the last glacial maximum. Geophysical Research Letters, 45, 9024-9033.

Yan Q., Z. Zhang, and H. Wang, 2018: Divergent responses of tropical cyclone genesis factors to strong volcanic eruptions at different latitudes. Climate Dynamics, 50, 2121-2136.

Yin Z., and H. Wang, 2018: The strengthening relationship between Eurasian snow cover and December haze days in central North China after the mid-1990s. Atmospheric Chemistry and Physics, 18, 4753–4763.

何爽爽, 汪君, 王会军, 2018: 基于卫星降水和WRF预报降水的“6.18”门头沟泥石流事件的回报检验研究. 大气科学, 42, 590–606.

2017年

Wang H., 2017: Preface to the special issue on the "Forecast and Evaluation of Meteorological Disasters" (FEMD). Advances in Atmospheric Sciences, 34, 127-127.

Gao Y., H. Wang, and D. Chen, 2017: Interdecadal variations of the South Asian summer monsoon circulation variability and the associated sea surface temperatures on interannual scales. Advances in Atmospheric Sciences, 34, 816-832.

Guo D., and H. Wang, 2017: Permafrost degradation and associated ground settlement estimation under 2 °C global warming. Climate Dynamics, 49, 2569-2583.

Guo D., and H. Wang, 2017: Simulated historical (1901-2010) changes in the permafrost extent and active layer thickness in the Northern Hemisphere, Journal of Geophysical Research: Atmospheres, 122, 12285-12295.

Guo D., H. Wang, and A. Wang, 2017: Sensitivity of historical simulation of the permafrost to different atmospheric forcing datasets from 1979 to 2009, Journal of Geophysical Research: Atmospheres, 122,12269-12284.

Han T., H. Wang, and J. Sun, 2017: Strengthened relationship between eastern ENSO and summer precipitation over Northeast China. Journal of Climate, 30, 4497-4512.

Han T., H. Wang, and J. Sun, 2017: Strengthened relationship between the Antarctic Oscillation and ENSO after the mid-1990s during austral spring. Advances in Atmospheric Sciences, 34, 54-65.

He S., Y. Liu, and H. Wang, 2017: Connection between the Silk Road Pattern in July and the following January temperature over East Asia. Journal of Meteorological Research, 31, 378-388.

Li H., H. Chen, and H. Wang, 2017: Influence of North Pacific SST on heavy precipitation events in autumn over North China. Atmospheric and Oceanic Science Letters, 10, 21-28.

Li H., H. Chen, and H. Wang, 2017: Effects of anthropogenic activity emerging as intensified extreme precipitation over China. Journal of Geophysical Research: Atmospheres, 122, 6899-6914.

Li H., H. Wang, and D. Jiang, 2017: Influence of October Eurasian snow on winter temperature over Northeast China.Advances in Atmospheric Sciences, 34, 116-126.

Shi J., Q. Yan, H. Wang, D. Jiang, J. Min, and Y. Jiang, 2017: Investigating dynamic mechanisms for synchronous variation of East Asian and Australian summer monsoons over the last millennium. Palaeogeography, Palaeoclimatology, Palaeoecology, 480, 70-79.

Sun B., and H. Wang, 2017: A trend towards a stable warm and windless state of the surface weather conditions in northern and northeastern China during 1961–2014. Advances in Atmospheric Sciences, 34, 713-726.

Su J., R. Zhang, and H. Wang, 2017: Consecutive record-breaking high temperatures marked the handover from hiatus to accelerated warming. Scientific Reports, 7, 43735.

Xu Z., K. Fan, and H. Wang, 2017: Role of sea surface temperature anomalies in the tropical Indo-Pacific region in the northeast Asia severe drought in summer 2014: month-to-month perspective. Climate Dynamics, 49, 1631-1650.

Yin Z., H. Wang, and H. Chen, 2017: Understanding severe winter haze events in the North China Plain in 2014: roles of climate anomalies. Atmospheric Chemistry and Physics, 17, 1641-1651.

Yin Z., and H. Wang, 2017: Role of Atmospheric Circulations on Haze Pollution in December 2016. Atmospheric Chemistry and Physics, 17, 11673-11681.

Yin Z., and H. Wang, 2017: Statistical Prediction of Winter Haze Days in the North China Plain Using the Generalized Additive Model. Journal of Applied Meteorology and Climatology, 56, 2411-2419.

2016年

Wang H., and H. Chen, 2016: Understanding the recent trend of haze pollution in eastern China: roles of climate change. Atmospheric Chemistry and Physics, 16, 4205-4211.

Chen D., H. Wang, S. Yang, and Y. Gao, 2016: A multidecadal oscillation in the northeastern Pacific. Atmospheric and Oceanic Science Letters, 9, 315-326.

Guo D., E. Yu, and H. Wang, 2016: Will the Tibetan Plateau warming depend on elevation in the future? Journal of Geophysical Research: Atmospheres, 121, 3969-3978.

Guo D., and H. Wang, 2016: Comparison of a very-fine-resolution GCM and RCM dynamical downscaling in simulating climate in China. Advances in Atmospheric Sciences, 33, 559-570.

Guo D., and H. Wang, 2016: CMIP5 permafrost degradation projection: a comparison among different regions. Journal of Geophysical Research: Atmospheres, 121, 4499-4517.

Hao X., S. He, and H. Wang, 2016: Asymmetry in the response of central Eurasian winter temperature to AMO. Climate Dynamics, 47, 2139–2154.

Huang Y., X. Li, and H. Wang, 2016: Will the Western Pacific Subtropical High be intensified all the time in the future? Climate Dynamics, 47, 567-577.

Liu S., and H. Wang, 2016: Seasonal prediction systems based on CCSM3 and their evaluation. International Journal of Climatology, 35, 4681-4694.

Li H., H. Chen, and H. Wang, 2016: Changes in clustered extreme precipitation events in South China and associated atmospheric circulations. International Journal of Climatology, 36, 3226-3236.

Wang J., H. Wang, and Y. Hong, 2016: Comparison of satellite-estimated and model-forecasted rainfall data during a deadly debris-flow event in Zhouqu, Northwest China. Atmospheric and Oceanic Science Letters, 9, 139-145.

Yan Q., Z. Zhang, and H. Wang, 2016: Investigating uncertainty in the simulation of the Antarctic ice sheet during the mid-Piacenzian. Journal of Geophysical Research: Atmospheres, 121, 1559-1574.

Yin Z., and H. Wang, 2016: Seasonal Prediction of Winter Haze Days in the North-Central North China Plain. Atmospheric Chemistry and Physics, 60, 1395-1400.

Yin Z., and H. Wang, 2016: The relationship between the subtropical Western Pacific SST and haze over North-Central North China Plain. International Journal of Climatology, 36, 3479-3491.

Zhou M., H. Wang, and Z. Huo, 2016: A new prediction model for the grain yield in northeastern China based on the spring North Atlantic Oscillation and late-winter Bering Sea ice cover. Journal of Meteorological Research, 31,409-419.

Zhu Y., H. Wang, and J. Ma, 2016: Influence of internal decadal variability on the summer rainfall in eastern China as simulated by CCSM4. Advances in Atmospheric Sciences, 33, 706-714.

Zhu Y., T. Wang, and H. Wang, 2016: Relative contribution of the anthropogenic forcing and natural variability to the interdecadal shift of climate during the late 1970s and 1990s. Science Bulletin, 61, 416-424.

Zhu Y., and H. Wang, 2016: The relationship between the Arctic Oscillation and ENSO as simulated by CCSM4. Atmospheric and Oceanic Science Letters, 9, 198-203.

丁一汇, 王会军, 2016: 近百年中国气候变化科学问题的新认识. 科学通报, 10, 1029-1041.

汪君, 王会军, Y. Hong, 2016: 一个新的高分辨率洪涝动力数值监测预报系统. 科学通报, 61, 518-528.

2015年

Wang H., and S. He, 2015: The North China/Northeastern Asia Severe Summer Drought in 2014. Journal of Climate, 28, 6667-6681.

Wang H., K. Fan, J. Sun, S. Li, Z. Lin, G. Zhou, L. Chen, X. Lang, F. Li, Y. Zhu, H. Chen, and F. Zheng, 2015: A Review of Seasonal Climate Prediction Research in China. Advances in Atmospheric Sciences, 32, 149-168.

Wang H., H. Chen, and J. Liu, 2015: Arctic sea ice decline intensified haze pollution in eastern China. Atmospheric and Oceanic Science Letters, 8, 1-9.

Chen D., H. Wang, J. Liu, and G. Li, 2015: Why the spring North Pacific Oscillation is a predictor of typhoon activity over the Western North Pacific. International Journal of Climatology, 35, 3353-3361.

Chen H., and H. Wang, 2015: Haze days in North China and the associated atmospheric circulations based on daily visibility data from 1960 to 2012. Journal of Geophysical Research: Atmosphere,120, 5895-5909.

Gao Y., H. Wang, and D. Jiang, 2015: An intercomparison of CMIP5 and CMIP3 models for interannual variability of summer precipitation in Pan-Asian monsoon region. International Journal of Climatology, 35, 3770-3780.

Gao Y., H. Wang, and D. Chen, 2015: The capability of ENSEMBLES models in predicting the principal modes of Pan-Asian monsoon precipitation. Journal of Climate, 28, 8486-8510.

He S., and H. Wang, 2015: Linkage between the East Asian January temperature extremes and the preceding Arctic Oscillation. International Journal of Climatology, 36, 1026-1032.

Ma J., H. Wang, and K. Fan, 2015: Dynamic downscaling of summer precipitation prediction over China in 1998 using WRF and CCSM4. Advances in Atmospheric Sciences, 32, 577-584.

Sun B., and H. Wang, 2015: Inter-decadal transition of the leading mode of inter-annual variability of summer rainfall in East China and its associated atmospheric water vapor transport. Climate Dynamics, 44, 2703-2722.

Sun B., and H. Wang, 2015: Analysis of the major atmospheric moisture sources affecting three sub-regions of East China. International Journal of Climatology, 35, 2243-2257.

Xu Z. K. Fan, and H. Wang, 2015: Decadal Variation of Summer Precipitation over China and Associated Atmospheric Circulation after the Late 1990s. Journal of Climate, 28, 4086-4106.

Yin Z., H. Wang, and W. Guo, 2015: Climatic change features of fog and haze in winter over North China and Huang-Huai Area. Science China Earth Sciences, 58, 1370-1376.

Yan Q., Z. Zhang, H. Wang, and D. Jiang, 2015: Simulated warm periods of climate over China during the last two millennia: The Sui-Tang warm period versus the Song-Yuan warm period. Journal of Geophysical Research: Atmosphere,120, 2229-2241.

Zhu Y., H. Wang, J. Ma, T. Wang, and J. Sun, 2015: Contribution of the phase transition of Pacific decadal oscillation to the late 1990s'shift in East China summer rainfall. Journal of Geophysical Research: Atmosphere, 120, 8817-8827.

Zhou M., and H. Wang, 2015: Potential impact of future climate change on crop yield in northeastern China. Advances in Atmospheric Sciences,32,889-897.

2014年

Guo D., and H. Wang, 2014: Simulated change in the near-surface soil freeze/thaw cycle on the Tibetan Plateau from 1981 to 2010. 59, Chinese Science Bulletin, 2439-2448.

Hua W., S. Shen, and H. Wang, 2014: Analysis of sampling error uncertainties and trends in maximum and minimum temperatures in China. Advances in Atmospheric Sciences, 31, 263-272.

Li F., H. Wang, and J. Liu, 2014: The strengthening relationship between Arctic Oscillation and ENSO after the mid-1990s. International Journal of Climatology, 34, 2515-2521.

Li F., and H. Wang, 2014: Autumn Eurasian snow depth, autumn Arctic sea ice cover and East Asian winter monsoon. International Journal of Climatology, 34, 3616-3625.

Ma J., and H. Wang, 2014: Design and testing of a global climate prediction system based on a coupled climate model. Science China: Earth Sciences, 57, 2417-2427.

Ma J., H. Wang, and Y. Zhang, 2014: Will typhoon over the western North Pacific be more frequent in the blue Arctic conditions? Science China: Earth Sciences, 57, 1494-1500.

Sun B., and H. Wang, 2014: Moisture Sources of Semiarid Grassland in China Using the Lagrangian Particle Model FLEXPART. Journal of Climate, 27, 2457-2474.

Yan Q., Z. Zhang, H. Wang, and R. Zhang, 2014: Simulation of Greenland ice sheet during the mid-Pliocene warm period. Chinese Science Bulletin, 59, 201-211.

Zhou M., and H. Wang, 2014: Late Winter Sea Ice in the Bering Sea: Predictor for Maize and Rice Production in Northeast China. Journal of Applied Meteorology and Climatology, 53, 1183-1192.

2013年

Wang H., S. He, and J. Liu, 2013: Present and future relationship between the East Asian winter monsoon and ENSO: Results of CMIP5. Journal of Geophysical Research-Oceans, 118, 5222-5237.

Wang H., and S. He, 2013: The increase of snowfall in Northeast China after the mid 1980s. Chinese Science Bulletin, 58, 1350-1354.

王会军, 范可, 2013: 东亚季风近几十年来的主要变化特征. 大气科学, 37, 313-318.

Fu Y., R. Lu, H. Wang, and X. Yang, 2013: Impact of overestimated ENSO variability in the relationship between ENSO and East Asian summer rainfall. Journal of Geophysical Research-Atmospneres, 118, 6200-6211.

Guo D., and H. Wang, 2013: Simulation of permafrost and seasonally frozen ground conditions on the Tibetan Plateau, 1981-2010. Journal of Geophysical Research-Atmospneres, 118, 5216-5230.

He S., H. Wang, and J. Liu, 2013: Changes in the Relationship between ENSO and Asia-Pacific Midlatitude Winter Atmospheric Circulation. Journal of Climate, 26, 3377-3393.

Huang Y., H. Wang, and P. Zhao, 2013: Is the Interannual Variability of the Summer Asian-Pacific Oscillation Predictable? Journal of Climate, 26, 3865-3876.

He S., and H. Wang, 2013: Impact of the November/December Arctic Oscillation on the following January temperature in East Asia. Journal of Geophysical Research-Atmospneres, 118, 12981-12998.

He S., and H. Wang, 2013: Oscillating Relationship between the East Asian Winter Monsoon and ENSO. Journal of Climate, 26, 9819-9838.

Li F., and H. Wang, 2013: Spring surface cooling trend along the East Asian coast after the late 1990s. Chinese Science Bulletin, 58, 3847-3851.

Li F., and H. Wang, 2013: Autumn Sea Ice Cover, Winter Northern Hemisphere Annular Mode, and Winter Precipitation in Eurasia. Journal of Climate, 26, 3968-3981.

Li F., and H. Wang, 2013: Relationship between Bering Sea ice cover and East Asian winter monsoon year-to-year variations. Advances in Atmospheric Sciences, 30, 48-56.

Liu S., and H. Wang, 2013: Transition of zonal asymmetry of the Arctic Oscillation and the Antarctic Oscillation at the end of 1970s. Advances in Atmospheric Sciences, 30, 41-47.

Sun B., and H. Wang, 2013: Larger variability, better predictability? International Journal of Climatology, 33, 2341-2351.

Sun B., and H. Wang, 2013: Water Vapor Transport Paths and Accumulation during Widespread Snowfall Events in Northeastern China. Journal of Climate, 26, 4550-4566.

Wang T., and H. Wang, 2013: Mid-Holocene Asian summer climate and its responses to cold ocean surface simulated in the PMIP2 OAGCMs experiments. Journal of Geophysical Research, 118, 4117-4128.

Zhou M., H. Wang, S. Yang, and K. Fan, 2013: Influence of springtime North Atlantic Oscillation on crops yields in Northeast China. Climate Dynamics, 41, 3317-3324.

2012年

Wang H., and H. Chen, 2012: Climate control for southeastern China moisture and precipitation: Indian or East Asian monsoon? Journal of Geophysical Research, 117, D12109, doi:10.1029/2012JD017734.

Wang H., J. Sun, H. Chen, Y. Zhu, Y. Zhang, D. Jiang, X. Lang, K. Fan, E. Yu, and S. Yang, 2012: Extreme Climate in China: Facts, Simulation and Projection. Meteorologische Zeitschrift, 21, 279-304.

Wang H., and S. He, 2012: Weakening Relationship between East Asian Winter Monsoon and ENSO after mid-1970s. Chinese Science Bulletin, 57, 3535-3540.

Chen H., J. Sun, and H. Wang, 2012: A Statistical Downscaling Model for Forecasting Summer Rainfall in China from DEMETER Hindcast Datasets. Weather and Forecasting, 27, 608-628.

Gao Y., and H. Wang, 2012: Pan-Asian monsoon and its definition, principal modes of precipitation, and variability features. Science China-Earth Sciences, 55, 787-795.

Guo D., H. Wang, and D. Li, 2012: A projection of permafrost degradation on the Tibetan Plateau during the 21st century. Journal of Geophysical Research-Atmospneres, 117, D05106, doi:10.1029/2011JD016545.

Guo D., and H. Wang, 2012: The significant climate warming in the northern Tibetan Plateau and its possible causes. International Journal of Climatology, 32, 1775-1781.

He S., and H. Wang, 2012: Analysis of the decadal and interdecadal variations of the East Asian winter monsoon as simulated by 20 coupled models in IPCC AR4. Acta Meteorologica Sinica, 26, 476-488.

Liu J., J. Curry, H. Wang, M. Song, and R. Horton, 2012: Impact of declining Arctic sea ice on winter snowfall. Proceedings of the National Academy of Sciences of the United States of America, 109, 4074-4079.

Li F., and H. Wang, 2012: Predictability of the East Asian Winter Monsoon Interannual Variability as Indicated by the DEMETER CGCMS. Advances in Atmospheric Sciences, 29, 441-454.

Li H., H. Wang, and Y. Yin, 2012: Interdecadal variation of the West African summer monsoon during 1979–2010 and associated variability. Climate Dynamics, 39, 2883-2894.

Ma J., H. Wang, and Y. Zhang, 2012: Will boreal winter precipitation over China increase in the future? The AGCM simulation under summer ‘ice-free Arctic’ conditions. China Science Bulletin, 57, 921-926.

Sun J., and H. Wang, 2012: Changes of the connection between the summer North Atlantic Oscillation and the East Asian summer rainfall. Journal of Geophysical Research, 117, D08110, doi:10.1029/2012JD017482.

Wang S., E. Yu, and H. Wang, 2012: A simulation study of a heavy rainfall process over the Yangtze River valley using the two-way nesting approach. Advances in Atmospheric Sciences, 29, 731-743.

Zhang Z., F. Flatoy, H. Wang, I. Bethke, M. Bentsen, and Z. Guo, 2012: Early Eocene Asian climate dominated by desert and steppe with limited monsoons. Journal of Asian Earth Sciences, 44, 24-35.

贺圣平, 王会军, 2012: 东亚冬季风综合指数及其表达的东亚冬季风年际变化特征. 大气科学, 36, 523-538.

黄艳艳, 王会军, 2012: 欧亚地区夏季大气环流年际变化的关键区及亚洲夏季风的关联信号. 地球物理学报, 55(7), 2227-2238.

2011年

Wang H., 2011: A new prediction model for tropical storm frequency over the western North Pacific using observed winter-spring precipitation and geopotential height at 500 hPa. Acta Meteorologica Sinica, 25, 262-271.

Wang H., E. Yu, and S. Yang, 2011: An exceptionally heavy snowfall in Northeast China: large-scale circulation anomalies and hindcast of the NCAR WRF model. Meteorology and Atmospheric Physics, 113, 11-25.

Chen L., O. Johannessen, H. Wang, and Ohmura Atsumu, 2011: Accumulation over the Greenland Ice Sheet as represented in reanalysis data. Advances in Atmospheric Sciences, 28, 1030-1038.

Guo D., M. Yang, and H. Wang, 2011: Characteristics of land surface heat and water exchange under different soil freeze/thaw conditions over the central Tibetan Plateau. Hydrological Processes, 25, 2531-2541.

Guo D., M. Yang, and H. Wang, 2011: Sensible and latent heat flux response to diurnal variation in soil surface temperature and moisture under different freeze/thaw soil conditions in the seasonal frozen soil region of the central Tibetan Plateau, Environmental Earth Sciences, 63, 97–107.

Qian Z., H. Wang, and J. Sun, 2011: The Hindcast of Winter and Spring Arctic and Antarctic Oscillation with the Coupled Climate Models. Acta Meteorologica Sinica, 25, 340-354.

Sun B., Y. Zhu, and H. Wang, 2011: The recent interdecadal and interannual variation of water vapor transport over eastern China. Advances in Atmospheric Sciences, 28, 1039-1048.

Yue X., H. Liao, H. Wang, S. Li, and J. Tang, 2011: Role of sea surface temperature responses in simulation of the climatic effect of mineral dust aerosol. Atmospheric Chemistry and Physics, 11, 6049-6062.

Yue X., H. Wang, H. Liao, and D. Jiang, 2011: Simulation of the direct radiative effect of mineral dust aerosol on the climate at the Last Glacial Maximum. Journal of Climate, 24, 843-858.

Yan Q., Z. Zhang, H. Wang, D. Jiang, and W. Zheng, 2011: Simulation of sea surface temperature changes in the Middle Pliocene warm period and comparison with reconstructions. Chinese Science Bulletin, 56, 890-899.

Zhao P., S. Yang, H. Wang, and Q. Zhang, 2011: Interdecadal Relationships between the Asian-Pacific Oscillation and Summer Climate Anomalies over Asia, North Pacific, and North America during a Recent 100 Years. Journal of Climate, 24, 4793-4799.

Zong P., and H. Wang, 2011: Evaluation and Analysis of RegCM3 Simulated Summer Rainfall over the Huaihe River Basin of China. Acta Meteorologica Sinica, 25, 386-394.

孙建奇, 王会军, 袁薇, 2011: 我国极端高温事件的年代际变化及其与大气环流的联系. 气候与环境研究, 16(2), 199-208.

马洁华, 王会军, 张颖, 2011: 北极夏季无海冰状态时的东亚气候变化数值模拟研究. 气候变化研究进展, 7 (3), 162-170.

燕青, 张仲石, 王会军, 姜大膀, 郑伟鹏, 2011: 上新世中期海洋表面温度变化及其与古气候重建数据对比. 科学通报, 6, 423-432.

2010年

Wang H., and Y. Zhang, 2010: Model Projections of East Asia Summer Climate under the "Free Arctic" Scenario. Atmospheric and Oceanic Science Letters, 3, 176-180.

Wang H., and Z. Qian, 2010: A potential high-score Scheme for the seasonal prediction of Atlantic storm activity. Atmospheric and Oceanic Science Letters, 3, 116-119.

王会军, 张颖, 郎咸梅, 2010: 论短期气候预测的对象问题. 气候与环境研究, 15, 225-228.

Fan K., and H. Wang, 2010: Seasonal Prediction of Summer Temperature over Northeast China Using a Year-to-Year Incremental Approach. Acta Meteorologica Sinica, 24, 269-275.

Lang X., and H. Wang, 2010: Improving Extraseasonal Summer Rainfall Prediction by Merging Information from GCMs and Observations. Weather and Forecasting, 25, 1263-1274.

Lin M., K. Fan, and H. Wang, 2010: An investigation into the climatic characteristics of vertical shear of zonal wind in the western North Pacific. Acta Meteorologica Sinica, 68, 309-314.

Sun J., H. Wang, and W. Yuan, 2010: Linkage of the Boreal Spring Antarctic Oscillation to the West African Summer Monsoon. Journal of the Meteorological Society of Japan, 88, 15-28.

Sun J., H. Wang, W. Yuan, and H. Chen, 2010: Spatial-temporal features of intense snowfall events in China and their possible change. Journal of Geophysical Research, 115, D16110, doi:10.1029/2009JD0134.

Wang J., and H. Wang, 2010: The Relationship between Total Ozone and Local Climate at Kunming Using Dobson and TOMS Data. Atmospheric and Oceanic Science Letters, 3, 207-212.

Wang T., H. Wang, and D. Jiang, 2010: Mid-Holocene East Asian summer climate as simulated by the PMIP2 models. Palaeogeography, Palaeoclimatology, Palaeoecology, 288, 93-102.

Xu Y., H. Wang, H. Liao, and K. Fan, 2010: Simulation of dust aerosol radiative feedback using the GMOD:2. Dust-climate interactions. Journal of Geophysical Research, 115, D04201, doi:10.1029/2009JD012063.

Yue X., H. Wang, H. Liao, and K. Fan, 2010: Direct Climatic Effect of Dust Aerosol in the NCAR Community Atmosphere Model Version 3 (CAM3). Advances in Atmospheric Sciences, 27, 230-242.

Zhang Y., H. Wang, J. Sun, and Helge Drange, 2010: Changes in the Tropical Cyclone Genesis Potential Index over the Western North Pacific in the SRES A2 Scenario. Advances in Atmospheric Sciences, 27, 1246-1258.

Zhang Y., and H. Wang, 2010: A projection of future climate change over the western North Pacific related to typhoon activities. Acta Meteorologica Sinica, 68, 539-549.

Zhu Y., and H. Wang, 2010: The Relationship between the Aleutian Low and the Australian Summer Monsoon at Interannual Time Scales. Advances in Atmospheric Sciences, 27, 177-184.

Zhu Y., H. Wang, W. Zhou, and J. Ma, 2010: Recent changes in the summer precipitation pattern in East China and the background circulation. Climate Dynamics, 36, 1463-1473.

Zhu Y., and H. Wang, 2010: The Arctic and Antarctic Oscillations in the IPCC AR4 Coupled Models. Acta Meteorologica Sinica, 24, 176-188.

2009年

Wang H., and K. Fan, 2009: A New Scheme for Improving the Seasonal Prediction of Summer Precipitation Anomalies. Weather and Forecasting, 24, 548-554.

Wang H., and J. Sun, 2009: Variability of Northeast China River Break-up Date. Advances in Atmospheric Sciences, 26, 701-706.

王会军, 王涛, 姜大膀, 富元海, 2009: 我国气候变化将比模式预期的小吗? 第四纪研究, 29, 1011-1014.

Chang W., H. Liao, and H. Wang, 2009: Climate Responses to Direct Radiative Forcing of Anthropogenic Aerosols, Tropospheric Ozone, and Long-Lived Greenhouse Gases in Eastern China over 1951-2000. Advances in Atmospheric Sciences, 26, 748-762.

Fan K., and H. Wang, 2009: A New Approach to Forecasting Typhoon Frequency over the Western North Pacific. Weather and Forecasting, 24, 74-986.

Sun J., H. Wang, and W. Yuan, 2009: Role of the tropical Atlantic sea surface temperature in the decadal change of the summer North Atlantic Oscillation. Journal of Geophysical Research, 114, D20110, doi:10.1029/2009JD012395.

Sun J., H. Wang, and W. Yuan, 2009: A possible mechanism for the co-variability of the boreal spring Antarctic Oscillation and the Yangtze River valley summer rainfall. International Journal of Climatology, 29, 1276-1284.

Sun J., H. Wang, and W. Yuan, 2009: A preliminary investigation on causes of the catastrophic snowstorm in March,2007 in the northeastern parts of China. Acta Meteorologica Sinica, 67, 469-477.

Zhang Z., H. Wang, and Z. Guo, 2009: Transition of Thermohaline Circulation Modes And Its impact on Cenozoic Climate. Quaternary Sciences, 29, 1064-1070.

2009年之前

王会军, 孙建奇, 范可, 2007: 北太平洋涛动与台风和飓风频次的关系研究. 中国科学(D), 37, 966-973.

Wang H., 2006: Linkage Between the Northeast Mongolian Precipitation and the Northern Hemisphere Zonal Circulation. Advances in Atmospheric Sciences, 23, 659-664.

王会军, 范可, 2006: 西北太平洋台风生成频次与南极涛动的关系. 科学通报, 51, 2910-2914.

王会军, 郎咸梅, 范可, 孙建奇, 周广庆, 2006: 关于2006 年西太平洋台风活动频次的气候预测试验. 气候与环境研究, 11, 133-137.

王会军, 范可, 2006: 南半球对流层上层纬向风与东亚夏季风环流. 科学通报, 51, 1595-1600.

Zhang Z., H. Wang, Z. Guo, and D. Jiang, 2006: What triggers the transition of palaeoenvironmental patterns in China, the Tibetan Plateau uplift or the Paratethys Sea retreat? Palaeogeography, Palaeoclimatology, Palaeoecology, 245, 317-331.

Zhou B., and H. Wang, 2006: Relationship between the boreal spring Hadley circulation and the summer precipitation in the Yangtze River Valley. Journal of Geophysical Research, 111, D16109, doi:10.1029/2005JD0070006.

范可, 王会军, 2006: 有关南半球大气环流与东亚气候的关系研究的若干新进展. 大气科学, 30, 402-412.

范可, 王会军, 2006: 南极涛动的年际变化及其对东亚冬春季气候的影响. 中国科学(D 辑) 地球科学, 36, 385-391.

苏明峰, 王会军, 2006: 中国气候干湿变率与ENSO的关系及其稳定性. 中国科学(D), 36, 951-958.

Wang H., 2005: The Circum-Pacific Teleconnection Pattern in Meridional Wind in the High Troposphere. Advances in Atmospheric Sciences, 22, 463-466.

Wang H., and K. Fan, 2005: Central-north China precipitation as reconstructed from the Qing dynasty: Signal of the Antarctic Atmospheric Oscillation. Geophysical Research Letters, 32, L24705, doi:10.1029/2005GL024562.

王会军, 2005: 来自大气内部的季节气候可预测性初探. 大气科学, 29, 64-70.

Jiang D., H. Wang, Z. Ding, X. Lang, and Drange Helge, 2005: Modeling the middle Pliocene climate with a global atmospheric general circulation model. Journal of Geophysical Research, 110, D14107, doi.org/10.1029/2004JD005639.

姜大膀, 王会军, 2005: 20世纪后期东亚夏季风年代际减弱的自然属性. 科学通报, 50, 2256-2262.

康杜娟, 王会军, 2005: 中国北方沙尘暴气候形势的年代际变化. 中国科学(D), 35, 1096-1102.

孙建奇, 王会军, 2005: 北极涛动与太平洋年代际振荡的关系. 科学通报, 50, 1648-1653.

王会军, 徐永福, 周天军, 陈洪滨, 王普才, 陆日宇, 张美根, 2004: 大气科学:一个充满活力的前沿科学. 地球科学进展, 19, 525-532.

Fan K., and H. Wang, 2004: Antarctic oscillation and the dust weather frequency in North China. Geophysical Research Letters, 31, L10201, doi:10.1029/2004GL019465.

Xue F., H. Wang, and J. He, 2004: Interannual variability of Mascarene high and Australian high and their influences on East Asian summer monsoon. Journal of the Meteorological Society of Japan, 82, 1173-1186.

王会军, 薛峰, 2003: 索马里急流的年际变化及其对半球间水汽输送和东亚夏季降水的影响. 地球物理学报, 46, 18-25.

王会军, 2003: 2002年亚洲北部的超强暖冬事件及其超常大气环流. 科学通报, 48, 734-736.

王会军, 郎咸梅, 周广庆, 康杜鹃, 2003: 我国今冬和明春气候异常与沙尘气候形势的模式预测初步报告. 大气科学, 27, 136-140.

王会军, 2003: 2003与2002:大幅度冬季温度异常反转事件及其异常大气环流. 科学通报, 48, 1-4.

Jiang D., H. Wang, Helge Drange, and X. Lang, 2003: Last glacial maximum over China: Sensitivities of climate to paleovegetation and Tibetan ice-sheet. Journal of Geophysical Research, 108, 4102, doi:10.1029/2002JD002167.

郎咸梅, 王会军, 姜大膀, 2003: 中国冬季气候可预测性的跨季度集合数值预测研究. 科学通报, 48, 1700-1704.

Wang H., F. Xue, and G. Zhou, 2002: The spring monsoon in South China and its relationship to large-scale circulation features. Advances in Atmospheric Sciences, 19, 651-664.

Wang H., 2002: The instability of the East Asian summer monsoon ENSO relations. Advances in Atmospheric Sciences, 19, 1-11.

Wang H., 2001: The Weakening of the Asian Monsoon Circulation after the End of 1970s. Advances in Atmospheric Sciences, 18, 376-386.

Wang H., X. Chen, F. Xue, and Q. Zeng, 2001: The Intraseasonal Oscillation And Its Interannual Variability-A Simulation Study. Acta Meteorologica Sinica, 15, 49-58.

Wang H., 2000: The interannual variability of the East Asian monsoon and its relationship with SST in a coupled atmosphere-ocean-land climate model. Advances in Atmospheric Sciences, 17, 31-47.

Wang H., 2000: The seasonal climate and low frequency oscillation in the simulated mid-Holocene Megathermal climate. Advances in Atmospheric Sciences, 17, 445-457.

Wang H., Taroh Matsuno, and Yoshio Kurihara, 2000: Ensemble Hindcast Experiments for the Flood Period over China in 1998 by Use of the CCSR/NIES Atmospheric General Circulation Model. Journal of the Meteorological Society of Japan, 78, 357-365.

Wang H., G. Zhou, and Y. Zhao, 2000: An effective method for correcting the seasonal-interannual prediction of summer climate anomaly. Advances in Atmospheric Sciences, 17, 234-240.

王会军, 2000: 关于我国几个大水年大气环流特征的几点思考. 应用气象学报, 11, 79-86.

Wang H., R. Zhang, Cole Julie, and Francisco Chavez, 1999: El Nino and the related phenomenon Southern Oscillation (ENSO): The largest signal in interannual climate variation. Proceedings of the National Academy of Sciences of the United States of America, 96, 11071-11072.

Wang H., 1999: Role of vegetation and soil in the Holocene megathermal climate over China. Journal of Geophysical Research, 104, 9361-9367.

Wang H., F. Xue, and X. Bi, 1997: The interannual variability and predictability of a global climate model. Advances in Atmospheric Sciences, 14, 554-562.

王会军, 1997: 试论短期气候预测的不确定性. 气候与环境研究, 2, 333-338.

主要研究项目:


1998-2000年 中国科学院创新重要研究方向项目“东亚夏季风年际变率研究”的首席科学家


1991-2000年 攀登项目“气候动力学和气候预测理论的研究”的课题负责人

2004-2006年 中国科学院创新重要研究方向项目“中高纬大气环流和南北半球相互作用”的首席科学家

2002-2006年 国家自然基金重大项目“古气候模拟和气候季节预测研究”的首席科学家(国家杰出青年基金)

2007-2010年 国家自然基金重大项目“极区大气涛动的年际变化对热带大气环流的影响”的首席科学家(基金委重点项目)

2009-2011年 中国科学院知识创新工程重要方向性项目“中国近百年来气候变化分析及其模拟研究”的首席科学家

2009-2011年 中国科学院知识创新工程重要方向性项目群“海陆气相互作用-圈层相互作用与亚洲季风的年际和年代际变化”的顶层专家组长

2009-2013年 国家重点基础研究发展(973)计划项目“ 全球变暖背景下东亚能量和水分循环变异及其对我国极端气候的影响”的首席科学家

2012-2014年 中国科学院重点国际合作项目“亚澳季风系统及气候变化对水资源变异规律研究”的首席科学家

2012-2016年 国家自然基金重点项目“我国东北地区冬春季节气候年际和年代际变化及有关预测研究”的首席科学家

2013-2017年 国家自然基金重大国际合作项目“欧亚大陆中高纬区冬春季气候变化及其未来情景研究”的首席科学家

2015-2020年 国家自然基金创新研究群体项目“东亚气候系统变化机制及预测方法”的首席科学家

2016-2021年 国家重点研发计划项目“中国北方地区极端气候的变化及成因研究”的首席科学家

2020-2024年 国家自然科学基金重大项目“亚洲中高纬区极端气候的机理、预测预估及其生态环境影响”的首席科学家

2021–2025年 国家自然科学基金基础科学中心项目“气候系统预测研究中心”的首席科学家


Main research projects:

Leading scientist of a Key Project of Chinese Academy of Sciences "Interannual Variability of East Asian Summer Monsoon (1998-2000)"

Leading scientist of a Key Project of Chinese Academy of Sciences "The mid-and-high latitude atmospheric circulation and inter-hemispheric interactions (2004-2006)"

Leading scientist of a National Natural Science Funds for Distinguished Youth Scholars "The Paleo-climate simulation and the seasonal climate prediction (2002-2006)"

Leading scientist of a Main Direction Program of Knowledge Innovation of Chinese Academy of Sciences "Analyses and modeling study of the climate change in the past 100 years in China (2009-2011)"

Leading scientist of a National Basic Research Program of China (973 Program) "Variability of the water and energy cycles and their impact on the extreme climate over China under the global warming background (2009-2013)"

Leading scientist of a Key Project of National Natural Science Foundation of China "Study on inter-annual and inter-decade change in winter-spring climate in northeastern China and their prediction (2012-2016)"

Leading scientist of an International Cooperation and Exchange of the National Natural Science Foundation of China "Winter-spring climate change in Eurasia mid- and high-latitude regions and their projection (2013-2017)"

Leading scientist of an Innovative Research Group Project of National Natural Science Foundation of China "Mechanism of change in climate system in East Asia and prediction method study (2015-2020)"

Leading scientist of a National key research and development program of China "Change in extreme climate in northern China and their causes (2016-2021)"

Leading scientist of a Major Project of National Natural Science Foundation of China "Mechanism, prediction and projection of extreme climate over mid- and high-latitudes of Asia and their impact on ecology and environment (2020-2024)"

Leading scientist of basic science center project of the National Natural Science Foundation of China "Center for Climate System Prediction Research (2021–2025)"