2025

Wang, H. *, S. Li, F. Ping, X. Si, and C. Zhang, 2025: Sea Ice Edge Constraint Improves Antarctic Sea Ice Seasonal Prediction in Deep Learning Model. Adv. Atmos. Sci., accepted. doi: 10.1007/s00376-025-5024-2. 

Luo, F.-F., B.H. Samset, C. W. Stjern, M. Joshi, L. J. Wilcox, R. J. Allen, W. Hua, and S. Li, 2025: Physical processes influencing the Asian climate due to black carbon emission over East and South Asia. Atmos. Chem. Phys., accepted. 

Cai, H. *, X. Sun, and S. Li, 2025: Simulated Asymmetric Connection of SST in the Tasman Sea with Respect to the two Opposite Phases of ENSO in Austral Summer. Adv. Atmos. Sci., in press, doi: 10.1007/s00376-025-4331-y.

Wang, J. *, L. Chen, and S. Li, 2025: The Influence of North Atlantic Sea Surface Temperature and Sea Ice in the Barents Sea on Spring Mongolian Cyclone Activity. J. Climate, accepted.

2024

Zhang, C., S. Li, and Z. Han, 2024: A comparison of the impacts of two consecutive double-peaked La Niña events on Antarctic sea ice in austral spring.  J. Climate,  37(12), 3305-3321. DOI: 10.1175/JCLI-D-23-0392.1.

Wang, Y.-J., J. Qin, S. Li, and S. Huang, 2024: Role of the Boreal Autumn Antarctic Oscillation in Controlling the Winter Frequency of Severe Pollution Events in the Beijing-Tianjin-Hebei Region, China. J. Geophy. Res-Atmos., 129(14), e2023JD040352.

Nyongesa, A. M., D. Shi, S. Li, and Q. Li, 2024: Influence of convective parameterization on the simulation of tropical cyclones over the South West Indian Ocean: A case study of tropical cyclone Idai (2019).Atmospheric Research, 306, 107461.

Cai，X.,  S. Li, S. Liess, and C. Zhang, 2024: The Impact of the Early Summer Tasman Sea–Southern Ocean Hybrid Teleconnection Pattern on Middle Summer Rainfall in East Asia. Climate Dynamics, 62, 5239-5258.  DOI:10.1007/s00382-0+24-07161-x.

Zheng, Y., S. Li, N. Keenlyside, S. He, and L. Suo, 2024: Projecting Spring Consecutive Rainfall Events in the Three Gorges Reservoir area of China based on Treble-Nested dynamical downscaling. Adv. Atmos. Sci., 41, 1539-1558. doi: 10.1007/s00376-023-3118-2.

Lei, T, and S. Li, 2024: The role of underlying boundary forcing in shaping the recent decadal change of persistent anomaly activity over the Ural Mountains,  Adv. Atmos. Sci., 41, 1496-1510. doi: 10.1007/s00376-023-2365-6

Wang, J., L. Chen, and S. Li, 2024: Characteristics of Spring Mongolian Cyclones in the Recent 70 Years: Background Circulations and Weather Influences. International Journal of Climatology, 44(1), 328-343.

2023

Sun, X.Q., S. Li, and D. Yang, 2023: The Air-sea Coupling over the Tasman Sea Intensifies the ENSO-related South Pacific Atmospheric Teleconnection. Advances in Climate Change Research, 14(3), 363-371.

Han, Z, G. Dai, M. Mu, C. Li, S. Li, X. Ma, M. Zhu, 2023: Extent of the Impact of Arctic Atmospheric Uncertainty on Extended-Range Forecasting of Cold Events in East Asia. JGR-Atmosphere, 128(9),e2022JD037187.

Lei, T., J. Min, C. Han, C. Qi, C. Jin, S. Li,2023: Multi-model ensemble forecasting of 10-m wind speed over China based on machine learning optimization. Atmospheric and Oceanic Science Letters,  doi: 10.1016/j.aosl.2023.100402

Chen, X.Y. , S. Li, C. Zhang, and D. Liu, 2023: Snow algal blooms in Antarctic King George Island in 2017-2022 and their future trend based on CMIP6 projection. Advances in Climate Change Research, 14, 732-745. 

Chen, X., S. Li, and C. Zhang, 2023: Distinct Impacts of two Kinds of El Nino on Precipitation in the Antarctic Peninsula and west Antarctica in austral spring. Atmospheric and Oceanic Science Letters, 16(5),  doi:10.1016/j.aosl.2023.10038

Zhang Q., B. Liu,  S. Li,  T.-J. Zhou, 2023: Understanding Models’ Global Sea Surface Temperature Bias in Mean State: From CMIP5 to CMIP6. Geophys. Res. Lett., 50, 65503. DOI: 10.1029/2022GL100888.

Wei Y, Yu H, Li S, Zhu Z, Yang Y, Ren Y, Liu C, Zhou J, 2023:  Impact of north Indian atmospheric diabatic heating on summer precipitation in Central Asia. J. Climate, 36(13), 4345-4362. DOI: 10.1175/JCLI-D-22-0928.1.

Zhang, C., and S. Li, 2023: Causes of the record low Antarctic sea ice in austral summer 2022. Atmospheric and Oceanic Science Letters, 16, 100353. doi: 10.1016/j.aosl.2023.100353

2022

Zheng, Y.^*, S. Li, S. He, and X. Gu, 2022： Hydroclimatic Intensity Change in China during the past decades and its future trend based on CMIP5/6.  J. Hydrology,  613,  128437. (SCI, IF=4.5)

Qin, M.*, S. Li, Y. Xue, and Z. Han,  2022: Intraseasonal variability modes of winter surface air temperature over Central Asia and their modulation by Greenland Sea ice and central-Pacific ENSO. Int. J. Climatol., 42(15), 8040-8055. (SCI, IF=4.2)

Hong, X., R. Lu, S. Chen, and  S. Li，2022：The Relationship between the North Atlantic Oscillation and the Silk Road Pattern in Summer.  J. Climate,  35(20)，3091-3101.  DOI: 10.1175/JCLI-D-21-0833.1 

Li, L.-H.*,  S. Li,  2022: A Comparison of Two 20th Century Reanalysis Datasets from the Perspective of Cross-equatorial Flows. J. Met. Soc. Japan, 100(5), 807-824.  doi: 10.2151/jmsj.2022-042. (SCI, IF=2.5) 

Huang, Z.*, S. Li, J. Li, and C. Zhang, 2022: The combined effects of the tropical and extratropical quasi-biweekly oscillations in modulating the record-setting Meiyu rainfall in the summer of 2020,  Adv. Atmos. Sci.,  accepted.  doi: 10.1007/s00376-022-2050-1.

Sun, X*., S. Li, and S. Liess, 2022: The asymmetric connection of SST in the Tasman Sea with respect to the opposite phases of ENSO in austral summer. Adv. Atmos. Sci., accepted. doi: 10.1007/s00376-022-1421-y

Huang, S., J. Qin, S. Li, Z. Yuan, and Y. Mbululo, 2022: Spatiotemporal variability of the Southern Second Mode and its influence on June precipitation in China, JGR-Atmosphere, accepted.  doi：10.1029/2022JD03676

Cai, X., Y.-Y. Yan, S. Li et al., 2021: Trend reversal from source region to remote tropospheric NO2 columns. Environmental Science and Pollution Research.  doi:  10.1007/s11356-021-16857-0  

王惠*，李双林，刘娜，2022：统计-动力相结合的南极夏季海冰跨季节预测，极地研究，已接收。

郑衍欣*、李双林、何源*，2022：共享社会经济路径（SSPs）下未来30年长江流域夏季降水预估，大气科学，已接收。doi: 10.3878/j.issn.1006-9895.2112.21154.

李双林，张仲石，王惠*，2022：数值天气预报的未来是人工智能与数学物理模型的融合?，地球科学，47（10），3919-3921.  https://doi.org/10.3799/dqkx.2019.000 

      张仲石，李双林，王会军、郭正堂，2022：浅谈大气科学与地质学的学科交叉，地球科学，47（10），3569-3579。

2021 

Ahmad, A.*, S. Li, F. Luo, and Yongqi Gao, 2021: The unstable connection between Atlantic Multidecadal Oscillation and Indian Summer Monsoon in CESM-LE. Climate Dynamics， doi: 10.1007/s00382-021-05976-6.

Zhang, C.*, T. Li, S. Li, 2021; Impacts of CP-El Nino and EP-El Nino events on the Antarctic sea ice in austral spring. J. Climate, 34（23），9327-9348. doi: 10.1175/jcli-d-21-0002.1.

Yuan, Z.-X.*, J. Qin, S. Li, S. Huang, Y. Mbululo, A. Rehman, 2021: Impact of Boreal Autumn Antarctic Oscillation on Winter Wet and Cold Weather in the Middle-Lower Reaches of Yangtze River Basin. Climate Dynamics, 58,  329–349. DOI.10.1007/s00382-021-05906-6.

王卓凡*、韩哲、李双林，2021：两类El Nino事件盛期南大洋海冰异常的对比分析， 气候与环境研究， 已接收. doi:0.3878/j.issn. 1006-9585.2021.21062.

李双林、韩哲、刘娜、张超、蔡慧*，2021：2016年南极海冰破纪录减少及其成因的研究综述，海洋学报，43(7)：1–10. doi:10.12284/hyxb2021−0000−00. 

Hong, X., R. Lu, and S. Li, 2021: Interannual Relationship between the West Asian and East Asian jet meridional displacements in summer. J. Climate，34，621-634. DOI： 10.1175/JCLI-D-20-0030.1   

2020 

Lei, T.*, S. Li, Luo F, N. Liu, 2020. Two dominant factors governing the decadal cooling anomalies in winter in East China during the global hiatus period. Int. J. Climatol., 40(2), 750-768. DOI: 10.1002/joc.6236 (SCI, IF=3.75) 

Luo, F.-F., L. Wilcox, B. Dong, Q. Qin, W. Chen, N. Dunstone, S. Li, Y. Gao, 2020: Projected near-term changes of temperature extremes in Europe and China under different aerosol emissions. Env. Res. Lett., 15, 034013.

Zheng, Y.*, S. Li, and K. Ullah, 2020: Increased Occurrence and Intensity of Consecutive Rainfall Events in the China’s Three Gorges Reservoir Area under Global Warming, Earth and Space Science, 7（8），doi: 10.1029/2020EA001188.

Yuan, Z. X.*, J. Qin, S. Li, et al., 2020: Impact of Spring AAO on Summertime Precipitation in the North China Part: Observational Analysis. Asia-Pacific Journal of Atmospheric Sciences.  57,  1–16. doi: 10.1007/s13143-020-00176-4.

Han, Z.，S. Li, 2020: Atmospheric responses over Asia to sea ice loss in the Barents and Kara seas in mid–late winter and early spring: a perspective revealed from CMIP5 data. Adv. Polar. Sci., 31， 55-63. 

黄桢*, 李双林，2020： 1991、1998和2016三个大水年长江中下游夏季降水季节内特征的对比[J]. 热带气象学报, 36(1): 1-12.

秦明月*, 李双林，2020： 2018年初影响我国的一次持续低温事件及其与2008年元月南方极寒事件的对比，气候与环境研究， 25(6): 601−615.

何源*，李双林，胡超涌：2020，清江流域水热关系与东亚夏季风的联系, 气候与环境研究，25(6): 677−694. doi:10.3878/j.issn.1006-9585.2020. 20035 

2019 

Zhang, C.*， J.‐J. Luo, S. Li, 2019: Impacts of Tropical Indian and Atlantic Ocean Warming on the Occurrence of the 2017/2018 La Niña, Geophys. Res. Lett., 46, 3435–3445.  (SCI, IF=4.5) 

Zhang, C*, S Li, F Luo, Z Huang, 2019. The global warming hiatus has faded away: An analysis of 2014–2016 global surface air temperatures. Int. J. Climatol., 30(19),4853-4868. (SCI, IF=3.75) 

Luo, F.-F., B. Dong, F. Tian, and S. Li, 2019: Anthropogenically forced decadal change of South Asian summer monsoon across the mid-1990s. J. Geophys. Res., 124, 806–824. https://doi.org/10.1029/2018JD029195.(SCI, IF=3.8)

Sun, X. Q.*, S. Li, and B. Liu, 2019: Comparative analysis of the mechanisms of intensified summer warming over Europe–West Asia and Northeast Asia since the mid-1990s through a process-based decomposition method. Adv. Atmos. Sci., 36(12), 1340−1354, https://doi.org/10.1007/ s00376-019-9053-6. 

Sun, X. Q.*, S. Li, X. W. Hong, and R. Y. Lu, 2019: Simulated influence of the Atlantic Multidecadal Oscillation on summer Eurasian nonuniform warming since the mid-1990s. Adv. Atmos. Sci., 36(8), 811–822, https://doi.org/10.1007/s00376-019-8169-z. (SCI, IF=1.8) 

Mangara, R.*, Zhen-Hai Guo, and S. Li, 2019: Performance of the Wind Farm Parameterization (WFP) Coupled with Weather Research and Forecasting (WRF) Model under Multiple Resolution Regimes for Simulating an Onshore Wind Farm. Adv. Atmos. Sci., 36(2), 119-132. (SCI, IF=1.9)

Kum, Chol Om, G. Ren, S.-I. Jong， S. Li, K.-C., C. Ryang, P. Zhang, 2019:Long-term change in surface air temperature over DPR Korea, 1918–2015. Theoretical and Applied Climatology, doi: 10.1007/s00704-019-02820-0(SCI, IF=2.3) 

Zheng, H.*, S. Kong, F. Wu, Y. Chen, S. Zheng, Q. Yan, J. Wu, G. Yang, M. Zheng, L. Tang, Shuanglin Li, S. Qi, 2019. The impacts of long-term pollution control measures on PM2.5 reduction and co-health benefits: insights of chemical compositions, source variation and atmospheric chemical processes. Atmospheric Environment, 197, 103–117.(SCI, IF=3.7) 

Zheng, H.*, S. Kong,..., S.Li, S.Qi,2019: Intra-regional transport of black carbon between the south edge of North China Plain and Central China during winter haze episodes. Atmos. Chem. Phys., 19, 4499-4516.(SCI, IF=5.5) 

 

2018 

Luo, F.-F., S. Li, Y. Gao, N. Keenlyside, L. Svendsen, and T. Furevik, 2018: The connection between the Atlantic Multidecadal Oscillation and the Indian Summer Monsoon in CMIP5 models. Climate Dynamics, 51,3023–3039. (SCI, IF=4.5)

Luo, F.-F., S. Li, Y. Gao, L. Svendsen, T. Furevik,and N. Keenlyside,2018: The connection between the Atlantic multidecadal oscillation and the Indian Summer monsoon since the industrial revolution is intrinsic to the climate system. Env. Res. Lett., 13, 094020 (SCI, IF=4.1) 

Kum, Chol Om, G. Ren, and S. Li, 2018: Climatological Characteristics and Long-Term Variation of Rainy Season and Torrential Rain over DPR Korea. Weather and Climate Extremes, 22, 48-58. Doi:10.1016/j.wace.2018.09.003. (SCI)

Li, C.*, J.-J. Luo, S. Li, H. Hendon, O. Alvesk,and C. MacLachlan, 2018: Multi-model prediction skills of the Somali and Maritime-Continent cross-equatorial flows. J. Climate, 31(6), 2445-2464 (SCI, IF=4.5) 

Fan, Y., K. Fan, Z. Xu, and S. Li, 2018: ENSO-South China Sea summer monsoon interaction modulated by the Atlantic Multidecadal Oscillation. J. Climate, 31, 3061-3076. Doi: 10.1175/JCLI-D-17-0448.1. (SCI, IF=4.5) 

Hong, X., R. Lu, and S. Li, 2018: Differences in the Silk Road Pattern and its relationship to the North Atlantic Oscillation between early and late summers. J. Climate, Doi:10.1175/jcli-d-18-0283.1 (SCI, IF=4.5) 

Shao, X.*, S. Li, and N. Liu, 2018: The Madden-Julian Oscillation during the 2016 Summer and Its Possible Impact on Rainfall in China. Int. J. Climatology, 38,2575-2589. DOI: 10.1002/joc.5440. (SCI, IF=3.0) 

Han, Z., and S. Li, 2018: Precursor role of winter sea-ice in the Labrador Sea in following-spring precipitation over southeastern North America and Western Europe. Adv. Atm. Sci., 35(1), 65-74. Doi.10.1007/s00376-017-6291-3 (SCI, IF=1.6) 

Hong, X., R. Lu, and S. Li, 2018: Asymmetric relationship between the meridional displacement of the Asian westerly jet and the Silk Road Pattern. Adv. Atmos. Sci.,35, 1-8. doi: 10.1007/s00376-017-6320-2 (SCI, IF=1.6) 

Shao, X.*, J. Song, and S. Li, 2017. The Lagged Connection of the NAO with the MJO in A Simplified Nonlinear Dynamic Core Model. Theoretical and Applied Climatology, doi: 10.1007/s00704-018-2425-5. (SCI, IF=2.0) 

Li, S., D. Li*, and Y. Chen*, 2018: Role of Atlantic Multidecadal Oscillation (AMO) in winter intraseasonal variability over Ural. Atmos. Ocn. Sci. Lett., 11:6, 445-453. Doi:10.1080/16742834.2018.1526035.

Wang, R.-B.*, S. Li, and Zhe Han, 2018: Evaluation of the HadISST1 and NSIDC 1850 onward sea ice datasets with a focus on the Barents-Kara seas. Atmos. Ocn. Sci. Lett., 11 (5): 388-395.

Li, C.-C.*, H.-L. Ren, F. Zhou, S. Li, X. Fu, G. Li, 2018: Multi-pentad prediction of precipitation variability over Southeast Asia during boreal summer using BCC_CSM1.2, Dynamics of Atmospheres and Oceans,82,20-36.(SCI, IF=) 

孙雪倩*, 李双林, 孙即霖，洪晓玮, 2018. 北大西洋多年代际振荡正、负位相下欧亚夏季副热带波列季内活动特征及与印度降水的联系. 大气科学, 42(5), 1067-1080. 

郑衍欣*, 李双林, 张超*, 2018:三峡库区春季连阴雨气候趋势分析. 暴雨灾害, 37(4):364-372.

郑泽华*, 刘娜, 李双林, 2018:2013年夏季高温归因分析——热带及热带外海 温影响的模拟对比. 气候变化研究快报, 7(3): 117-131.

吴楠*，李丽平，李双林，李琛*, 2018: 与印度洋偶极子模态有关的西太海温异常型及其对东亚冬季气候的影响. 气候与环境研究，23(4):387-400. doi:10.3878/j.issn.1006-9585.2017.17022.

2017 

Li, C*, J.-J. Luo, and S. Li, 2017: Impacts of different types of ENSO on the interannual seesaw between the Somali and the Maritime Continent cross-equatorial flows. J. Climate, 30(7), 2621-2638.(SCI, IF=4.5) 

Zhang, T., X. Shao*, and S. Li, 2017: Impacts of atmospheric processes on ENSO asymmetry: A comparison between CESM1 and CCSM4. J. Climate, 30(23), 9743-9762.(SCI, IF=4.5) 

Adnan, S., K. Ullah, S. Li, S. Gao, A. H. Khan, and Rashed Mahmood, 2017:Comparison of various drought indices to monitor drought status in Pakistan, Climate Dynamics, DOI 10.1007/s00382-017-3987-0. (SCI, IF=4.8) 

Hong, X., R. Lu, and Li, S., 2017: Amplified summer warming in Europe-West Asia and Northeast Asia after the mid-1990s. Env. Res. Lett.,12, 094007 (SCI, IF=4.1) 

Xia, Y.*,J. Tao, L. Zhang, R. Zhang, S.Li., Y. Wu, J. Cao, X. Wang, Q. Ma, Z. Xiong, et al., 2017: Impact of size distributions of major chemical components in fine particles on light extinction in urban Guangzhou, Sci Total Environ, 587,240-247. http://dx.doi.org/10.1016/j.scitotenv.2017.02.127 (SCI, IF=4.1)

Luo, F.-F., Li, S., and T. Furevik, 2017: Weaker connection between Atlantic Multidecadal Oscillation and Indian summer rainfall since mid-1990s. Atmos. Ocn. Sci. Lett.,9(6), DOI: 10.1080/16742834.2018.139477 

Li, S., Y. Chen*, and C. Li*, 2017: The Atlantic Multidecadal Oscillation (AMO) modulates the intensity of interannual seesaw between the Somali and Australian cross-equatorial flows. Atmos. Ocn. Sci. Lett., 10(4), 306-311, DOI: 10.1080/16742834.2017.1328971.

Li, S., Z. Han, and H. Chen, 2017: A comparison of the effects of interannual Arctic sea ice loss and ENSO on winter haze days: observational analyses and AGCM simulations. J. Meteor. Res., 31(5), 820–833.(SCI, IF=1.6) 

2016 

Han, Zhe*, S. Li, J. Liu, Y. Gao, and P. Zhao, 2016: Linear additive impacts of Arctic sea ice reduction and La Niña on Northern Hemisphere winter climate. J. Climate, 29(15), 5513-5531. 

Han, Zhe*, F. Luo*, S. Li, Y. Gao, and T. Furevik, 2016: Simulation by CMIP5 models of the Atlantic Multidecadal Oscillation and its climate impacts. Adv. Atmos. Sci., 33, 1329-1342. doi: 10.1007/s00376-016-5270-4.

Zhang, Chao*, S. Li, 2016, and J. Wan*: The warmest year 2015 in the instrumental record and its comparison with year 1998. Atmos. Ocn. Sci. Lett., 9(6), 487-494, DOI: 10.1080/16742834.2016.1237255.

李琛*, 李双林, 2016: 索马里和澳大利亚越赤道气流的协同变化与我国夏季降水型. 科学通报,(13), 1453-1461. doi: 10.1360/N972015-00807.

王钦*，李双林，付建建,2016:两类ＥＮＳＯ背景下黑潮及其延伸区海温异常对东北夏季降水的影响：个例对比．热带气象学报, 32(1),73-84.


2015 

Lin, J., T. Qian, T. Shinoda, and S. Li, 2015: Is the Tropical Atmosphere in Convective Quasi-Equilibrium?. J. Climate, 28(11),4357-4372.

Zhou, X.*, S. Li, F. Luo, Y. Gao, and T. Furevik, 2015: Air-Sea Coupling Enhances East Asian Winter Climate Response to the Atlantic Multidecadal Oscillation (AMO)，Adv. Atmos. Sci., 32(12), 1647-1659.

张超*、李双林， 2015： 为什么2014年没有发展成强El Niño，科学通报，60(20),1941-1951.

刘娜*、李双林，2015：基于时间尺度分离的夏季降水预测，应用气象学报，26(3),328-337.

李双林、井元元*、罗菲菲*，2015：工业革命前中国气温与大西洋年代际振荡（AMO）的可能联系，中国科学，45(6),864-878。英文版:The potential connection between China surface air temperature and the Atlantic Multidecadal Oscillation (AMO) in the Pre-industrial Period. Science China: Earth Sciences,58, doi: 10.1007/s11430-015-5091-9

Wan, J.-H.*, and S. Li, 2015: Arctic Oscillation Responses to Black Carbon Aerosols Emitted from Major Regions, Atmos. Ocn. Sci. Lett., 8(4),226-232. 

Duan, X.-Y.*, N. Liu*, and S. Li, 2015: The connection of sea surface height anomaly preceding the Indian Ocean dipole with summer rainfall in China. Atmos. Oceanic Sci. Lett., 8(4),238-243. 

Wang,H.-J., Ke Fan, J. Sun, S. Li, et al. 2015: A review of seasonal climate prediction research in China. Adv. Atmos. Sci., 32,149-168. 

2014

Li, C.*, and S. Li, 2014: Interannual seesaw between the Somali and the Australian cross-equatorial flows and its connection to East Asian summer monsoon, J. Climate, 27,3966-3981.

Mahmood, R.*, and S. Li, 2014: Remote Influence of South Asian Black Carbon Aerosol on East Asian Summer Monsoon, International Journal of Climatology, 34(1),36-48, DOI: 10.1002/joc.3664.

Cui, X., Gao, Y., Sun, J., Guo, D., Li, S., Johannessen, O. M., 2014: Role of external forcing factors in modulating the Indian summer monsoon rainfall, the winter North Atlantic Oscillation and their relationship on inter-decadal timescale. Climate Dynamics, 43, 2283-2295. doi: 10.1007/s00382-014-2053-4.

Liu, N.*, and S. Li, 2014:Predicting Summer Rainfall over the Yangtze-Huai Region Based on Timescale Decomposition Statistical Downscaling, Weather and Forecasting, 29(1), 162-176.

Han, Leqiong*, S. Li, and Na Liu*, 2014: An Approach for Improving Short-term Prediction of Summer Rainfall in North China by Decomposing Interannual and Decadal Variability, Adv. Atmos. Sci., 31 (2),435-448. doi: 10.1007/s00376-013-3016-0.

罗菲菲*、李双林，2015：动力统计相结合的未来30年东亚气温年代际预测，中国科学，45(4),402-413。英文版：Luo F F*, Li S L. 2014. Joint statistical-dynamical approach to decadal prediction of East Asian surface air temperature. Science China: Earth Sciences,57(12), 3062-3072, doi: 10.1007/s11430-014-4984-3.

Jing, Y., S. Li, J. Wan, and F. Luo, 2014: Relationships between the Oxygen Isotope in Stalagmites from East Asia and the Large Scale Atmospheric-Oceanic Modes, Atmos. Ocn. Sci. Lett., 7(6), 540-545.

韩哲*，李双林，李琛, 孙婕, 2014： 2008和2012冬季欧洲气候的差异及成因分析，地球物理学报，57(3), 727-737.

韩乐琼*，韩哲*，李双林，2014： 不同代表性浓度路径（RCPs）下21世纪长江中下游强降水预估, 大气科学学报, 37(5), 529-540.

      2013

Fu, Jianjian*, and Shuanglin Li, 2013: The influence of regional SSTs on interdecadal shift of East Asian summer monsoon, Adv. Atmos. Sci.,30(2),330-340. (NZC/CCRC)

Gao, Y., H.-J. Wang, and S. Li, 2013: Influences of the Atlantic Ocean on the summer precipitation of the southeastern Tibetan Plateau, JGR-atmos., 118(9), 3534-3544. (NZC/CCRC)

Li, Shuanglin, and Feifei Luo*, 2013: Lead-lag connection of the Atlantic Multidecadal Oscillation(AMO) with East Asian surface air temperatures in instrumental records. Atmos. Ocn. Sci. Lett.,6(3),138-143. (CCRC/NZC)

Fu, J.*, M. Zhang*, Z. Han* and S. Li, 2013: Sensitivity difference in the extratropical atmosphere to two types of El Niño events, Atmos. Oceanic Sci. Lett., 6(5),355-359. （NZC）

李子仪*, 李双林, 李国平, 2013: 夏季乌拉尔长阻塞过程及其与热带热力异常关系个例分析. 大气科学, 37(3),731-744. doi: 10.3878/j.issn.1006-9895.2012.12006. （NZC）

韩哲*，李双林，2013： 北极海冰对2008年1月乌拉尔高压异常的影响，气候与环境研究，18(5),671-680. （NZC）

Wan, Jianghua*, R. Mahmood*, and S. Li, 2013: Remote Impact of European Black Carbon on East Asian Summer Climate, Atmos. Oceanic Sci. Lett., 6(5),375-380. （NZC）

2012

Zhang, M.*, S. Li, J. Lu and R. Wu 2012: Comparison of the northwestern Pacific summer climate simulated by AMIP II AGCMs, J. Climate, 25(17), 6036-6056.

Mahmood, R.*, and S. Li, 2012: Delay in the onset of South Asian summer monsoon induced by local black carbon in an AGCM, Theoretical and Applied Climatology, DOI 10.1007/s00704-012-0681-3.

Mahmood, R.*, and S. Li, 2012: Response of summer rainfalls in Pakistan to dust aerosols in an atmospheric general circulation model, IDOJARAS, 116(4),323-335.

Fu, Jianjian*, and Shuanglin Li, 2012: Intercomparison of the South Asian High in the three Reanalyses, NCEP1, NCEP2 and ERA40, and in the Station Observation, Atmos. Ocn. Sci. Lett.,5, 189–194.

王钦*, 李双林, 付建建, 李国平, 2012: 2010和1998年夏季降水异常成因的对比分析：兼论两类不同El Niño事件的影响. 气象学报, 70(6), 1207-1222 . DOI.0577-6619/2012/70(6)-0000-00.                                                           (英文版: WANG Qin,LI Shuanglin,FU Jianjian,and LI Guoping, 2012: Formation of the anomalous summer precipitation in East China in 2010 and 1998: A comparison of the impacts of two kinds of El Nino, Acta Meteorologica Sinica,26(6),665-682.)

Li, S., and Q. Wang*, 2012: A new approach for classifying two types of El Niño events, Atmos. Ocn. Sci. Lett., 5(5), 414-419.

Luo, F.*, S. Li, Y. Gao, and T. Furevik, 2012: A new method for predicting decadal component of global SST, Atmos. Ocn. Sci. Lett., 5(6),521-526.

卞洁*，何金海，李双林，2012：近50年来长江中下游暴雨的变化特征，气候与环境研究，17(1),68-80.

李双林, 韩乐琼*，卞洁*, 2012：基于IPCC AR4部分耦合模式结果的21世纪长江中下游暴雨预估，暴雨灾害，31(3), 193-200.

2011

Luo, Feifei*, S. Li, T. Furevik, 2011: The connection between the Atlantic Multidecadal Oscillation and the Indian Summer Monsoon in Bergen Climate Model Version 2.0, J. Geophys. Res., 116,D19117, doi:10.1029/2011JD015848.

Lu, Jian, Minghong Zhang*, Ben Cash, Shuanglin Li, 2011: Oceanic forcing for the East Asian precipitation in pacemaker AGCM experiments, Geophys. Res. Lett., 38, L12702, doi:10.1029/2011GL047614.

Han, Zhe*, S. Li, and M. Mu, 2011：The role of warm North Atlantic SST in the formation of positive height anomalies over the Ural Mountains during January 2008, Adv. Atmos. Sci., 28(2), 246-256.

Yue, X., H. Liao, H. J. Wang, S. L. Li, and J. P. Tang, 2011:Role of sea surface temperature responses in simulation of the climatic effect of mineral dust aerosol, Atmos. Chem. Phys., 11, 6049–6062.

Mahmood, R.*, and S. Li, 2011:Modeled influence of East Asian black carbon on inter-decadal shifts in East China summer rainfall,AOSL,4(6),349–355.

吴伟*, 李双林, 杨军, 姚锦烽*, 2011:硫酸盐气溶胶对长江中下游夏季降水年代际转型的影响, 成都信息工程学院学报(校庆大气科学专刊),26(5), 470-479.

姚锦烽*，王盘兴，李双林, 2011: 利用MODIS气溶胶产品研究亚洲季风对气溶胶传输及其分布的影响,内蒙古气象,1005—8656(2011)02—0035—05.

卞洁*，李双林，何金海, 2011：长江中下游地区洪涝风险性评估，应用气象学报，22(5), 604-611.

2010

Li, Shuanglin, Judith Perlwitz, Martin P. Hoerling, and Xiaoting Chen*, 2010: Opposite annular responses of Northern and Southern Hemisphere to Indian Ocean warming. J. Climate, 23(13), 3720-3738.

Li, Shuanglin, 2010: A comparison of polar vortex trend response to Pacific and Indian Ocean warming. Adv. Atmos. Sci., 27(3),469-482, doi:10.1007/s00376-009-9116-1.

Li,Shuanglin, 2010: Extratropical atmospheric response to Pacific Ocean warming and its additive nonlinearity with Indian Ocean, Atmos. Oceanic. Sci. Lett.,3(6),303-307.

王彦明*，李双林，罗德海，付建建*，2010: 亚洲季风区气候对北大西洋年代际振荡（AMO）冷暖位相的对称和非对称响应，中国海洋大学学报，40(6)，019-026。

陈小婷*，李双林，李国平，2010: 热带印度洋和太平洋增暖对东亚夏季风趋势相反的影响，大气科学学报，33(5),624-633。

Mahmood, R.*, S. Li, B. Khan, 2010: Causes of recurring drought patterns in Xinjiang, China. J. Arid Land, 2(4), 279−285.

Mahmood, R.*, S. Li, and Jinfeng Yao*,2010: South Asian Monsoon in the Context of Increasing Regional Black Carbon Aerosols,AOSL, 3(4),224-331.

2009

Wang, Yanming*, Shuanglin Li, and Dehai Luo, 2009: Seasonal response of Asian monsoonal climate to the Atlantic Multidecadal Oscillation(AMO). J. Geophys. Res., 114, D02112, doi:10.1029/2008JD010929.

Li, Shuanglin, 2009: Influence of tropical Indian Ocean warming on the stratospheric southern polar vortex. Science in China: series D-Earth Science, 52(3),323-332. (Chinese version: 李双林, 2009: 热带印度洋变暖对南极平流层极涡的影响,中国科学(D辑),39(6),813-822).

李双林，王彦明*，郜永祺, 2009: 北大西洋年代际振荡 (AMO)气候影响的研究评述, 大气科学学报(前南京气象学院学报), 32(3),458-465.

Li, and Dehai Luo, 2009: Impact of global SST on*Fu, Jianjian*, Shuanglin decadal shift of east Asian summer climate. Adv. Atmos. Sci.,26(2),191-201.

Yu L, Gao Y Q, Wang H J, D Guo and S Li, 2009: The responses of East Asian Summer monsoon to the North Atlantic Meridional Overturning Circulation in an enhanced freshwater input simulation. Chinese Sci Bull, 54: 4724―4732, doi: 10.1007/s11434-009-0720-3 (中文版:于雷, 郜永祺，王会军, 郭栋，李双林, 2010: 北大西洋淡水扰动试验中东亚夏季风气候的响应及其机制, 科学通报, 55(9),798-807.)

2008

Li, Shuanglin, Jian Lu, Gang Huang, and Kaiming Hu, 2008: Tropical Indian Ocean basin warming and East Asian summer monsoon: a multiple AGCM study. J. Climate, 21(22), 6080-6088.

Li, Shuanglin, Judith Perlwitz, Xiaowei Quan, and Martin P. Hoerling, 2008: Modelling the influence of North Atlantic multidecadal warmth(AMO) on the Indian summer rainfall. Geophys. Res. Lett.,35, L05804, doi:10.1029/2007GL032901.

Li, Shuanglin, 2008: Projecting summer climate of mainland China in the middle 21st century: will the droughts in North China persist?. AOSL, 1(1),12-17. （chosen as highlight)

付建建*、李双林、王彦明*, 2008: 前期海洋热状况异常影响2008年1月雪灾形成的初步研究. 气候与环境研究, 13(4), 478-490.

2007

Li, Shuanglin, W. A. Robinson, M. P. Hoerling, and K. M. Weickmann, 2007: Dynamics of the extratropical response to a tropical Atlantic SST anomaly. J. Climate, 20(3), 560-574.

Li, Shuanglin, and G. Bates, 2007: Influence of the Atlantic Multidecadal Oscillation (AMO) on the winter climate of East China. Adv. Atmos. Sci., 24(1),126-135.

2006

Li, Shuanglin, M. P. Hoerling, S. Peng, and K. M. Weickmann, 2006: The annular response to tropical Pacific SST forcing. J. Climate. 19(9), 1802-1819.

Li, Shuanglin, M. P. Hoerling, and S. Peng, 2006: Coupled ocean-atmosphere response to Indian Ocean warmth. Geophys. Res. Lett., 33(7), L07713, 10.1029/2005GL025558.

Peng, S., W.A. Robinson, Shuanglin Li, and M.A. Alexander, 2006: Effects of Ekman transport on the NAO response to a tropical Atlantic SST anomaly. J. Climate, 19,4803-4818.

       2005

Peng, S., W. A. Robinson, Shuanglin Li, and M.P. Hoerling, 2005: Tropical Atlantic SST forcing of coupled North Atlantic seasonal responses. J. Climate, 18,480-496.

      2004

Li, Shuanglin, 2004: Impact of northwest Atlantic SST anomalies on the circulation over the Ural Mountains during early winter. J. Meteor. Soc. Japan, 82(4), 971-988.

       2003

Li, Shuanglin, W. A. Robinson, and S. Peng, 2003: Influence of the North Atlantic SST tripole on northwest African rainfall. J. Geophy. Res., 108(D19), 4594-4610, doi:10.1029/2002JD003130.

Robinson, W. A., Shuanglin Li, and S. Peng, 2003: Dynamical nonlinearity in the atmospheric response to Atlantic sea surface temperature anomalies. Geophys. Res. Lett., 30(20), 2038,doi:10.1029/2003GL018416.

Peng, S., W. A. Robinson, and Shuanglin Li, 2003: Mechanisms for the NAO responses to the North Atlantic SST tripole. J. Climate, 16, 1987-2004.

2002

Peng, S., W. A. Robinson, and Shuanglin Li, 2002: North Atlantic SST forcing of the NAO and relationships with intrinsic hemispheric variability. Geophys. Res. Lett., 29(8), 117-121.

2001

Li, Shuanglin, Ji Liren, and Ni Yunqi, 2001: The persistent anomaly of summertime circulation over the Ural Mountains. Chinese Science Bulletin, 46(19), 1652-1656. （李双林、纪立人、倪允祺，2001：夏季乌拉尔地区大气环流持续异常，科学通报，46（9），753-757.）

Li, Shuanglin, Ji Liren, et al., 2001: On the Formation and Maintenance Mechanism of Summertime Circulation Persistent Anomalies over the Ural Mountains. Adv. Atmos. Sci., 18(5), 819-830.

Li, Shuanglin, Ji Liren, et al., 2001: The maintenance of the blocking over the Ural Mountains during the second Meiyu period in the summer of 1998 floods year. Adv. Atmos. Sci., 18(1), 87-105.

李双林、纪立人，2001: 乌拉尔地区夏季持续异常及其背景流特征,气象学报，59(3),280-293。(Title in English: Background Circulation Characteristics of the Persistent Anomalies of Summertime Circulation over the Ural Mountains.)

2000

林万涛、季仲贞、李双林、杨晓忠，2000：线性与非线性发展方程差分格式计算稳定性的比较分析，自然科学进展，10(10)，936-940.

1999

李双林、张道民、纪立人、王盘兴，1999: IAP T42L9 全球谱模式加热场的诊断，大气科学，23(2)，191-198。(Title in English:Diagnosis of heating field of the global spectral model IAP T42L9.)

李双林、张道民、纪立人、王盘兴，1999: 副高北进的个例数值研究，大气科学，23(3)，296-307. (Title in English: Numerical Simulation on the northward shift of the subtropics high over the West Pacific-one case study.)

李双林、纪立人、张道民、王盘兴，1999: 南亚季风区加热影响副高的数值试验，热带气象学报，15(2)，106-119. (Title in English: Impact of heating over the South Asia Monsoon area upon the subtropical High over the western Pacific.)

李双林、纪立人，1999: 大气环流持续异常的研究进展, 气象，25(4)，3-9

李双林、纪立人，1999: 1998年长江洪水与夏季乌拉尔地区强持续异常, 暴雨灾害, 3(1)，79-88.

李双林、王盘兴、李新芳, 1999: 局地型相似系数及其在环流季节变化分析中的应用, 暴雨灾害，3(1)，18-27.

Li, Shuanglin, and Ji Liren，1999: The Maintenance of Strong Persistent Anomaly of Atmospheric Circulation over the Ural Mountains area in the summer of 1998 floods year. Proceedings of International Symposium on Floods and Drought. Nanjing: Hohai University Press, 58-65.

1998及以前

李双林、邓秋华，1998: T63数值预报产品在三峡区间暴雨预报分析中的应用, 大江截流预报研究论文集,气象出版社.

丁一、李双林，1998: 北半球大气环流候际变化与湖北洪涝的关系, 暴雨灾害，2(1),6-8.

李双林、丁一，1996: 北半球大气环流的最佳相似识别，湖北气象，15(1),1-8。

丁一、李双林，1993: 南方涛动正负异常下北半球大气环流的月际变动及对江淮旱涝的影响. 长期预报研究通讯,3,70-73.

丁一、张礼平、李双林，1992: 湖北省特大旱涝气象成因的诊断分析, 长期预报研究通讯, 2，25-28.

杨成松、范剑、罗文旭、程米芳、李双林，1992: 荆州地区暴雨预报专家系统知识库, 湖北气象，11(3)，6-8.

卢敬华、李双林，1990: 摩擦作用对西南低涡扰动发展的影响, 成都气象学院学报，(4)，1-8.

正在承担的项目：

1）国家自然科学基金面上项目：南极海冰年际变率增强的成因研究 ，批准号：42376250，2024.1-2027.12，项目负责人

2)  科技部国家重点研发专项课题一：海-气系统年代际变率跨洋盆相互作用及其影响，批准号：2023YFF0805101，2024.1-2027.12，核心骨干

3) 国家自然科学基金重大项目：东亚重大干湿转折的多尺度动力学机理及预测（课题：工业革命以来东亚重大干湿转折的动力学机理），批准号：42494871，2025.1-2029.12，核心骨干

已完成结题项目：

1）国家自然科学基金重大项目：北极海-冰-气系统对极寒天气的影响过程 ，批准号：41790473 ，325.8万，2018.1-2022.12，项目负责人

2)  国家自然科学基金重点项目：全新世以来长江中游年际-年代际水热配置演化的石笋记录 ，批准号：41731177，305.0万，2018.1-2022.12，排名第二

3）国家自然科学基金创新群体项目：东亚气候系统变化机制及预测方法，批准号：41421004，200万，2015.1-2020.12，核心成员

4)  国家自然科学基金面上项目：近百年来东亚气温超前大西洋长周期年代际振荡（AMO）的成因研究，批准号：41375085， 80万元，2014.1-2017.12，项目负责人

5)  国家自然科学基金面上项目：热带海洋变暖对南半球环状模的影响及其机理研究，批准号：40775053， 39万元，2008.1-2010.12，项目负责人

6）国家重点基础研究发展计划（973计划）课题：热带和中高纬季节内振荡的动力机理及延伸期预报方法研究，批准号：2015CB453202，600万，2015.1-2019.12，课题负责人

7）中国科学院战略性先导专项子任务：南极气候变化及其对东亚夏季气候的影响，批准号：XDA19070402，2018.1-2023.8，405万，子任务负责人

8）中国科学院战略性先导专项（A类）课题：暖池的气候效应及区域海气耦合模式，批准号：XDA11010400，2013.9-2018.9，3280万，课题负责人

9）中国科学院知识创新工程重要方向性项目：热带印度洋海盆尺度变暖及其对东亚夏季气候的影响，批准号：KZCX2-YW-BR-14，2007.1-2009.12，200万，项目负责人

10）中国气象局行业专项：年代际变化对季节-年际气候预测的影响，批准号：GYHY201006022，2010.10-2013.10，171万，项目负责人