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Yong Sun, Haibin Wu, Masa Kageyama, Gilles Ramstein, Laurent Z. X. Li, Ning Tan, Yating Lin, Bo Liu, Weipeng Zheng, Wenchao Zhang, Liwei Zou & Tianjun Zhou (2020). The contrasting effects of thermodynamic and dynamic processes on East Asian summer monsoon precipitation during the Last Glacial Maximum: a data-model comparison. Clim Dyn. https://doi.org/10.1007/s00382-020-05533-7 [details] [data]
周天军,张文霞,陈晓龙,张丽霞,邹立维,满文敏.2020:青藏高原气温和降水近期、中期与长期变化的预估及其不确定性来源.气象科学,2020,40(5):697-710 [details] [data]
任宏利,郑飞,罗京佳,王润,刘明竑,张文君,周天军,周广庆. 2020. 中国热带海-气相互作用与ENSO动力学及预测研究进展[J]. 气象学报, 78(3):351-369, doi:10.11676/qxxb2020.023 [details] [data]
Shingirai Nangombe*,Tianjun Zhou,Lixia Zhang, Wenxia Zhang, 2020: Attribution of The 2018 October-December Drought Over South Southern Africa. Bull. Amer. Meteor. Soc. (2020) 101 (1): S135-S140. https://doi.org/10.1175/BAMS-D-19-0179.1 [details] [data]
Peng Dongdong, Tianjun Zhou*, Lixia Zhang, 2020: Moisture Sources Associated with Precipitation during Dry and Wet Seasons over Central Asia. J. Climate (2020) 33 (24): 10755-10771. https://doi.org/10.1175/JCLI-D-20-0029.1 [details] [data]
Ferrett, S., M. Collins, H. Ren, B. Wu, and T. Zhou, 2020: The Role of Tropical Mean-State Biases in Modeled Winter Northern Hemisphere El Niño Teleconnections. J. Climate, 33, 4751-4768, https://doi.org/10.1175/JCLI-D-19-0668.1. [details] [data]
周天军,张文霞,陈晓龙,张丽霞,邹立维,满文敏.青藏高原气温和降水近期、中期与长期变化的预估及其不确定性来源.气象科学,2020,40(5):697-710 [details] [data]
周天军,陈梓明,邹立维,陈晓龙,俞永强,王斌,包庆,鲍颖,曹剑,何编,胡帅,李立娟,李建,林岩銮,马利斌,乔方利,容新尧,宋振亚,唐彦丽,吴波,吴统文,辛晓歌,张贺,张明华. 2020. 中国地球气候系统模式的发展及其模拟和预估. 气象学报,78(3):332-350. https://doi.org/ 10.11676/qxxb2020.029 [details] [data]
Li, P., Furtado, K., Zhou, T.*, Chen, H., & Li, J. (2020) Convection-permitting modelling improves simulated precipitation over the central and eastern Tibetan Plateau. Quarterly Journal of the Royal Meteorological Society. https://doi.org/10.1002/qj.3921 [details] [data]
Li, P., Moseley, C., Prein, A. F., Chen, H.*, Li, J., Furtado, K., & Zhou, T. (2020). Mesoscale convective system precipitation characteristics over East Asia. Part I: regional differences and seasonal variations. Journal of Climate, 33(21): 9271-9286. https://doi.org/10.1175/JCLI-D-20-0072.1 [details] [data]
Jiang, J., T. Zhou*, H. Wang, Y. Qian, D. Noone, & W. Man (2020): Tracking Moisture Sources of Precipitation over Central Asia: A Study Based on the Water-Source-Tagging Method. Journal of Climate, 33, 10339–10355. https://doi.org/10.1175/JCLI-D-20-0169.1. [details] [data]
Chen, Z., Zhou, T.*, Zhang, W., Li, P., Zhao, S. (2020). Projected changes in the annual range of precipitation under stabilized 1.5°C and 2.0°C warming futures. Earth's Future, 8,e2019EF001435. https://doi.org/10.1029/2019EF001435 [details] [data]
Zhou Tianjun*, Jingwen Lu, Wenxia Zhang,Ziming Chen,2020: The Sources of Uncertainty in the Projection of Global Land Monsoon Precipitation.. Geophysical Research Letters, 47, e2020GL088415. https://doi.org/10.1029/2020GL088415 [details] [data]
Li Puxi,Kalli Furtado,Tianjun Zhou*,Haoming Chen,Jian Li,Zhun Guo,Chan Xiao, 2020: The diurnal cycle of East Asian summer monsoon precipitation simulated by the Met Ofce Unifed Model at convection-permitting scales. Climate Dynamics (2020) 55:131–151. https://doi.org/10.1007/s00382-018-4368-z [details] [data]
Sun Ning, Tianjun Zhou*, Xiaolong Chen, Hirokazu Endo, Akio Kitoh,Bo Wu, 2020: Amplifed tropical Pacifc rainfall variability related to background SST warming. Climate Dynamics (2020) 54:2387–2402. https://doi.org/10.1007/s00382-020-05119-3 [details] [data]
Zhao Siyao, Tianjun Zhou*, Xiaolong Chen, 2020:Consistency of extreme temperature changes in China under a historical half‑degree warming increment across diferent reanalysis and observational datasets. Climate Dynamics (2020) 54:2465–2479. https://doi.org/10.1007/s00382-020-05128-2 [details] [data]
Peng Dongdong, Tianjun Zhou*, Lixia Zhang, Wenxia Zhang, Xiaolong Chen, 2020: Observationally constrained projection of the reduced intensification of extreme climate events in Central Asia from 0.5 °C less global warming. Climate Dynamics (2020) 54:543–560. https://doi.org/10.1007/s00382-019-05014-6 [details] [data]
Zhao Yin, Tianjun Zhou*, 2020: Asian water tower evinced in total column water vapor: a comparison among multiple satellite and reanalysis data sets. Climate Dynamics (2020) 54:231-245. https://doi.org/10.1007/s00382-019-04999-4 [details] [data]
Yan Zixiang, Bo Wu*, Tim Li, Mat Collins, Robin Clark, Tianjun Zhou, James Murphy, Guirong Tan, 2020: Eastward shift and extension of ENSO-induced tropical precipitation anomalies under global warming. Science Advances,6(2),eaax4177. DOI: 10.1126/sciadv.aax4177 [details] [data]
Zhou T, Zhang W, Zhang L, Zhang X, Qian Y, Peng D, Ma S, Dong B. 2020. The dynamic and thermodynamic processes dominating the reduction of global land monsoon precipitation driven by anthropogenic aerosols emission. Science China Earth Sciences, 63: 919-933, https://doi.org/10.1007/s11430-019-9613-9 [details] [data]
周天军, 张文霞, 张丽霞, 张学斌, 钱云, 彭冬冬, 马双梅, 董步文. 2020. 人为气溶胶导致全球陆地季风区降水减少的动力和热力过程. 中国科学: 地球科学, 50: 1122–1137, doi: 10.1360/SSTe-2019-0237 [details] [data]
Chang, M., B. Liu, C. Martinez-Villalobos, G. Ren, S. Li, and T. Zhou, Changes in extreme precipitation accumulations during the warm season over continental China. J. Climate, doi: https://doi.org/10.1175/JCLI-D-20-0616.1. [details] [data]
Chen, Z., Zhou T.*, Zhang L., Chen X., Zhang W., & Jiang J. (2020). Global land monsoon precipitation changes in CMIP6 projections. Geophysical Research Letters, 47, e2019GL086902. [details] [data1] [data2]
Zhang, B. C., Z. Guo, X. L. Chen, et al., 2020: Responses of cloud-radiative forcing to strong El Nino events over the western Pacific warm pool as simulated by CAMS-CSM. J. Meteor. Res., 34(3), 499–514, doi: 10.1007/s13351-020-9161-3. [details] [data]
周天军,吴波,胡帅,2020: IAP-DecPreS年代际气候预测系统及其预报技巧. 大气科学学报, 43(1), 159-168 [details] [data]
Chen, X., Zhou, T., Wu, P., Guo, Z. & Wang, M. Emergent constraints on future projections of the western North Pacific Subtropical High. Nature Communications, (2020), doi:10.1038/s41467-020-16631-9. [details] [data]
Huang Xin, Tianjun Zhou*, Aiguo Dai, Hongmei Li, Chao Li, Xiaolong Chen,Jingwen Lu, Jin-Song Von storch, Bo Wu, 2020:South Asian summer monsoon projections constrained by the interdecadal Pacific oscillation. Sci. Adv. 2020; 6 : eaay6546 [details] [data]
Akinsanola, A.A., Zhou, W., Zhou, T. et al. Amplification of synoptic to annual variability of West African summer monsoon rainfall under global warming. npj Clim Atmos Sci 3, 21 (2020). https://doi.org/10.1038/s41612-020-0125-1 [details] [data]
Jiang Jie, Tianjun Zhou, Xiaolong Chen, and Lixia Zhang, 2020: Future changes in precipitation over Central Asia based on CMIP6 projections. Environ. Res. Lett. 15 (2020) 054009. https://doi.org/10.1088/1748-9326/ab7d03 [details] [data]
Liwen Ren, Tianjun Zhou and Wenxia Zhang, 2020,Attribution of the record-breaking heat event over Northeast Asia in summer 2018: the role of circulation, Environ. Res. Lett. 15 054018 [details] [data]
Li, L., Yu, Y., Tang, Y., Lin, P., Xie, J., Song, M., et al. ( 2020). The Flexible Global Ocean-Atmosphere-Land System Model Grid-Point Version 3 (FGOALS-g3): Description and Evaluation. Journal of Advances in Modeling Earth Systems, 12, e2019MS002012. https://doi.org/10.1029/2019MS002012 [details] [data]
Furtado, K., Field, P., Luo, Y., Zhou, T., and Hill, A.: The effects of cloud–aerosol interaction complexity on simulations of presummer rainfall over southern China, Atmos. Chem. Phys., 20, 5093–5110, https://doi.org/10.5194/acp-20-5093-2020, 2020. [details] [data]
Huang, X., T. Zhou, A. Turner, A. Dai, X. Chen, R. Clark, J. Jiang, W. Man, J. Murphy, J. Rostron, B. Wu, L. Zhang, W. Zhang, and L. Zou, 2020: The Recent Decline and Recovery of Indian Summer Monsoon Rainfall: Relative Roles of External Forcing and Internal Variability. J. Climate, 33, 5035–5060, https://doi.org/10.1175/JCLI-D-19-0833.1 [details] [data]
Wang, B., M. Biasutti, M.P. Byrne, C. Castro, C. Chang, K. Cook, R. Fu, A.M. Grimm, K. Ha, H. Hendon, A. Kitoh, R. Krishnan, J. Lee, J. Li, J. Liu, A. Moise, S. Pascale, M.K. Roxy, A. Seth, C. Sui, A. Turner, S. Yang, K. Yun, L. Zhang, and T. Zhou, 0: Monsoons Climate Change Assessment. Bull. Amer. Meteor. Soc., 0, https://doi.org/10.1175/BAMS-D-19-0335.1 [details] [data]
周天军,吴波,胡帅,2020. IAP-DecPreS年代际气候预测系统及其预报技巧[J]. 大气科学学报,43(1):159-168 [details] [data]
Zhou T, Zhang W, Zhang L, Zhang X, Qian Y, Peng D, Ma S, Dong B. 2020. The dynamic and thermodynamic processes dominating the reduction of global land monsoon precipitation driven by anthropogenic aerosols emission. Science China Earth Sciences, 63, https://doi.org/10.1007/s11430-019-9613-9 [details] [data]
Ren, H.-L., F. Zheng, J.-J. Luo, et al., 2020: A Review of Research on Tropical AirSea Interaction, ENSO Dynamics, and ENSO Prediction in China. J. Meteor. Res., 34(1), 43-62, doi: 10.1007/s13351-020-9155-1 [details] [data]
Yu J, Zhou T, Jiang Z. Interannual variability of the summer wind energy over China: A comparison of multiple datasets. Wind Energy. 2020;1-13. https://doi.org/10.1002/we.2512 [details] [data]
陆静文, 周天军, 黄昕, 等. 2020. 表面气温内部变率估算方法的比较研究[J]. 大气科学, 44(1): 105-121. [details] [data]
Zhang, B., Guo, Z., Zhang, L., Zhou, T., & Hayasaya, T. (2020). Cloud characteristics and radiation forcing in the global land monsoon region from multisource satellite data sets. Earth and Space Science, 7, e2019EA001027. https://doi.org/10.1029/2019EA001027 [details] [data]
Zhou, T. J., Z. M. Chen, L. W. Zou, et al., 2020: Development of Climate and Earth System Models in China: Past Achievements and New CMIP6 Results. J. Meteor. Res., 34(1), 1-19, doi: 10.1007/s13351-020-9164-0 [details] [data]
Hu, S., Zhou, T., & Wu, B. (2020). Improved ENSO prediction skillresulting from reduced climate drift in IAP-DecPreS: A comparison of full-fieldand anomaly initializations. Journal ofAdvances in Modeling Earth Systems, 12, e2019MS001759. https://doi.org/10.1029/2019MS001759 [details] [data]
马柱国,符淙斌,周天军,严中伟,李明星,郑子彦,陈亮,吕美霞.黄河流域气候与水文变化的现状及思考[J].中国科学院院刊,2020,(1):52-60. [details] [data]
Wu, M., Zhou, T.*, Chen, X., & Wu, B. (2020). Intermodel uncertainty in the projection of the Anomalous western North Pacific Anticyclone associated with El Niño under global warming. Geophysical Research Letters, 47, e2019GL086139. https://doi.org/10.1029/2019GL086139. [details] [data]
Zhao Siyao,Tianjun Zhou*, Xiaolong Chen, 2020: Consistency of extreme temperature changes in China under a historical half degree warming increment across different reanalysis and observational datasets. Climate Dynamics. https://doi.org/10.1007/s00382-020-05128-2 [details] [data]
Halloran, Paul R., Hall, Ian R., Menary, Matthew, Reynolds, David J., Scourse, James D., Screen, James A., Bozzo, Alessio, Dunstone, Nick, Phipps, Steven, Schurer, Andrew P., Sueyoshi, Tetsuo, Zhou, Tianjun, Garry, Freya, 2020: Natural drivers of multidecadal Arctic sea ice variability over the last millennium. Scientific Reports, DOI10.1038/s41598-020-57472-2 [details] [data]
2019
Wang, L., T. J. Zhou, J. Li, et al., 2019: Convectively coupled equatorial waves simulated by CAMS-CSM. J. Meteor. Res., 33(5), 949–959, doi: 10.1007/s13351-019-9021-1. [details] [data]
Huang, X., Zhou, T., Zhang, W. et al. Northern Hemisphere land monsoon precipitation changes in the twentieth century revealed by multiple reanalysis datasets. Clim Dyn 53, 7131–7149 (2019). https://doi.org/10.1007/s00382-019-04982-z [details] [data]
Yan Binyan, Jiafu Mao, Xiaoying Shi, Forrest M Hoffman, Michael Notaro, Tianjun Zhou, Nate Mcdowell, Robert E Dickinson, Min Xu, Lianhong Gu and Daniel M Ricciuto, 2019: Predictability of tropical vegetation greenness using sea surface temperatures. Environ. Res. Commun. 1 (2019) 031003 https://doi.org/10.1088/2515-7620/ab178a [details] [data]
He, Bian,Yimin Liu, Guoxiong Wu, Qing Bao, Tianjun Zhou, Xiaofei Wu, Lei Wang, Jiandong Li, Xiaocong Wang, Jinxiao Li, Wenting Hu, Xiaoqi Zhang, Chen Sheng, Yiqiong Tang, 2019: CAS FGOALS-f3-L Model Datasets for CMIP6 GMMIP Tier-1 and Tier-3 Experiments.Advances in Atmospheric Sciences, 37(1), 18-28 [details] [data]
Wei, Y., Yu, H., Huang, J. et al., Drylands climate response to transient and stabilized 2 degrees C and 1.5 degrees C global warming targets, Clim Dyn (2019) 53: 2375. https://doi.org/10.1007/s00382-019-04860-8 [details] [data]
Chao He, Run Liu, Xuemei Wang, Shaw Chen Liu, Tianjun Zhou, Wenhui Liao, How does El Niño-Southern Oscillation modulate the interannual variability of winter haze days over eastern China?,
Science of The Total Environment,Volume 651, Part 2, 2019, Pages 1892-1902, ISSN 0048-9697, https://doi.org/10.1016/j.scitotenv.2018.10.100. [details] [data]
周天军,高晶,赵寅,张丽霞,张文霞.影响“亚洲水塔”的水汽输送过程[J].中国科学院院刊,2019,34(11):1210-1219. [details] [data]
Zhang Lixia, Tianjun Zhou, Xiaolong Chen, Peili Wu, Nikolaos Christidis, Fraser C. Lott, 2019: The late spring drought of 2018 in South China, Bull. Amer. Met. Soc., DOI:10.1175/BAMS-D-19-0202.1. [details] [data]
Peili Wu, Malcolm Roberts, Gill Martin, Xiaolong Chen, Tianjun Zhou, Pier L. Vidale, 2019: The impact of horizontal atmospheric resolution in modelling air-sea heat fluxes. Quarterly Journal of the Royal Meteorological Society, 145, 3271-3283. [details] [data]
Zou Liwei, Tianjun Zhou, Hailong Liu,2019: Performance of a high resolution regional ocean-atmosphere coupled model over western North Pacific region: Sensitivity to cumulus parameterizations, Clim. Dyn., 53:4611-4627 [details] [data]
Hu, S., B. Wu, T. Zhou, and Z. Guo (2019), A comparison of full-field and anomaly initialization for seasonal prediction of Indian Ocean basin mode, Climate Dynamics, 53(9-10), 6089-6104, doi:10.1007/s00382-019-04916-9. [details] [data]
Zuo, M., Zhou, T., & Man, W. (2019). Wetter global arid regions driven by volcanic eruptions. Journal of Geophysical Research: Atmospheres, 124. https://doi.org/10.1029/2019JD031171 [details] [data]
W. Zhang, T. Zhou, Increasing impacts from extreme precipitation on population over China with global warming, Science Bulletin (2019), doi: https://doi.org/10.1016/j.scib.2019.12.002 [details] [data]
Zhao, S., & Zhou, T. (2019). Are the observed changes in heat extremes associated with a half‐degree warming increment analogues for future projections?. Earth's Future, 7. https://doi.org/10.1029/2019EF001237 [details] [data]
Yu, J.; Zhou, T.; Jiang, Z.; Zou, L. Evaluation of Near-Surface Wind Speed Changes during 1979 to 2011 over China Based on Five Reanalysis Datasets. Atmosphere 2019, 10, 804. [details] [data]
Tianjun Zhou, Jürg Luterbacher, Shaohong Wu, Chao Li, Qingchen Chao, Xiao Cheng, Yihong Duan, Jian Li, Bjorn Stevens, Sebastian Voigt, Yuanhang Zhang, Xunhua Zheng, Liwei Zou, A new era of China-Germany joint research exploring the climate mystery of Earth, Science Bulletin, Volume 64, Issue 23, 2019, Pages 1733-1736, ISSN 2095-9273, https://doi.org/10.1016/j.scib.2019.09.018. [details] [data]
Peng D, Zhou T, Zhang L, et al. Observationally constrained projection of the reduced intensification of extreme climate events in Central Asia from 0.5°C less global warming[J]. Climate Dynamics, 2019: 1-18. https://doi.org/10.1007/s00382-019-05014-6 [details] [data]
Jiang Jie, Tianjun Zhou. 2019. Global monsoon responses to decadal sea surface temperature variations during the twentieth century: Evidence from AGCM simulations. Journal of Climate, doi: 10.1175/JCLI-D-18-0890.1 [details] [data]
Zhang, W., Zhou, T. 2019. Significant increases in extreme precipitation and the associations with global warming over the global land monsoon regions. Journal of Climate, 32, 8465-8488, https://doi.org/10.1175/JCLI-D-18-0662.1.[details] [data]
周天军,陈晓龙,何编,吴波,张丽霞. 全球季风模式比较计划(GMMIP)概述[J]. 气候变化研究进展, 2019, 15(5): 493-497.[details] [data]
周天军,邹立维,陈晓龙. 第六次国际耦合模式比较计划(CMIP6)评述[J]. 气候变化研究进展, 2019, 15(5): 445-456. [details] [data]
胡帅,吴波,周天军.2019.近期气候预测系统IAP-DecPreS对印度洋偶极子的回报技巧: 全场同化和异常场同化的比较[J].大气科学,43(4):831-845,doi:10.3878/j.issn.1006-9895.1808.18149. [details] [data]
黄昕,周天军,吴波,陈晓龙.2019.气候系统模式FGOALS模拟的南亚夏季风:偏差和原因分析[J].大气科学,43(2):437-455,doi:10.3878/j.issn.1006-9895.1805.18131. [details] [data]
江洁,周天军,吴波,邹立维.2019.耦合模式FGOALS-s2海洋同化试验模拟的西北太平洋海气相互作用特征[J].大气科学,43(3):467-482,doi:10.3878/j.issn.1006-9895.1806.18146. [details] [data]
Nangombe, S. S., Zhou, T., Zhang, W., Zou, L., & Li, D. (2019). High-temperature extreme events over Africa under 1.5°C and 2°C of global warming. Journal of Geophysical Research: Atmospheres, 124, 4413-4428. https://doi.org/10.1029/2018JD029747 [details] [data]
Huang, Y., B. Wu, T. Li, T. Zhou, and B. Liu, 2019: Interdecadal Indian Ocean Basin Mode Driven by Interdecadal Pacific Oscillation: A Season-Dependent Growth Mechanism. J. Climate, 32, 2057–2073, https://doi.org/10.1175/JCLI-D-18-0452.1 [details] [data]
Donghuan Li, Tianjun Zhou and Wenxia Zhang, 2019: Extreme precipitation over East Asia under 1.5 °C and 2 °C global warming targets: a comparison of stabilized and overshoot projections, Environ. Res. Commun. https://doi.org/10.1088/2515-7620/ab3971 [details] [data]
Zhao, Y. & Zhou, T., 2019: Asian water tower evinced in total column water vapor: a comparison among multiple satellite and reanalysis data sets, Clim Dyn. https://doi.org/10.1007/s00382-019-04999-4 [details] [data]
Zhang, L., T. Zhou, P. Wu, and X. Chen, 2019: Potential Predictability of North China Summer Drought. J. Climate, 32, 7247–7264, https://doi.org/10.1175/JCLI-D-18-0682.1 [details] [data]
Li, P, Guo, Z, Furtado, K et al. Prediction of heavy precipitation in the eastern China flooding events of 2016: Added value of convection‐permitting simulations. Q J R Meteorol Soc. 2019; 1-21. https://doi.org/10.1002/qj.3621 [details] [data]
Zhang, W., T. Zhou, L. Zhang, and L. Zou, 2019: Future Intensification of the Water Cycle with an Enhanced Annual Cycle over Global Land Monsoon Regions. J. Climate, 32, 5437–5452, https://doi.org/10.1175/JCLI-D-18-0628.1 [details] [data]
Jiang, J., Zhou, T., & Zhang, W. ( 2019). Evaluation of satellite and reanalysis precipitable water vapor data sets against radiosonde observations in central Asia. Earth and Space Science, 6, 1129– 1148. https://doi.org/10.1029/2019EA000654 [details] [data]
Zuo Meng, Tianjun Zhou*, Wenmin Man, 2019: Hydroclimate Responses over Global Monsoon Regions Following Volcanic Eruptions at Different Latitudes. Journal of Climate, 32, 4367-4385. DOI: 10.1175/JCLI-D-18-0707.1 [details] [data] [data1]
Peng Dongdong, Tianjun Zhou, Lixia Zhang, Liwei Zou, 2019: Detecting human influence on the temperature changes in Central Asia, Climate Dynamics, https://doi.org/10.1007/s00382-019-04804-2 [data]
Wu Bo, Tianjun Zhou, Chao Li, Wolfgang A. Muller, Jianshe Lin, 2019: Improved decadal prediction of Northern-Hemisphere summer land temperature. Climate Dynamics. https://doi.org/10.1007/s00382-019-04658-8 [details] [data]
He Chao, Ziqian Wang, Tianjun Zhou, Tim Li, 2019: Enhanced latent heating over Tibetan Plateau as a key for the enhanced East Asian summer monsoon circulation under a warming climate. Journal of Climate, 32(11), 3373-3388 [details] [data]
Chen X, Z Guo, T Zhou, J Li, X Rong, Y Xin, H Chen et al. 2019: Climate Sensitivity and Feedbacks of a New Coupled Model CAMS-CSM to Idealized CO2 Forcing: A Comparison with CMIP5 Models., Journal of Meteorological Research, 33, 31-45 [data]
Jin Chenxi, Tianjun Zhou*, Xiaolong Chen, 2019: Can CMIP5 Earth System Models reproduce the interannual variability of air-sea CO2 fluxes over the tropical Pacific Ocean? Journal of Climate, 32, 2261-2275, https://doi.org/10.1175/JCLI-D-18-0131.1 [details] [data]
Liu Qi, Tianjun Zhou, Huiting Mao, Congbin Fu, 2019: Decadal Variations in the Relationship between the Western Pacific Subtropical High and Summer Heat Waves in East China. Journal of Climate, 32(5),1627-1640. DOI: 10.1175/JCLI-D-18-0093.1 [details] [data]
He C, T. Zhou, T. Li, 2019: Weakened anomalous western North Pacific anticyclone during El Niño decaying summer under a warmer climate: Dominant role of the weakened impact of tropical Indian Ocean on the atmosphere. Journal of Climate, 32 (1): 213-230. doi:10.1175/jcli-d-18-0033.1 [details] [data]
2018
陆静文,周天军,黄昕,张文霞,邹立维.2020.表面气温内部变率估算方法的比较研究[J].大气科学,44(1):105-121,doi:10.3878/j.issn.1006-9895.1901.18235. [details] [data]
Rong Xinyao, Jian Li, Haoming Chen, Yufei Xin, Jingzhi Su, Lijuan Hua, Tianjun Zhou, Yanjun Qi, Zhengqiu Zhang, Guo Zhang, Jianduo Li, 2018: The CAMS Climate System Model and a Basic Evaluation of Its Climatology and Climate Variability Simulation. Journal of Meteorological Research. 32(6), 839-861 [details] [data]
周天军,陈晓龙,吴波,2018: 支撑"未来地球"计划的气候变化科学前沿问题. 科学通报, 63, 1 (2018); doi: 10.1360/N972018-00818 [data]
Zhang Haipeng, Minghuai Wang, Zhun Guo, Chen Zhou, Tianjun Zhou , Yun Qian , Vincent E. Larson, Steven Ghan, Mikhail Ovchinnikov, Peter A. Bogenschutz, and Andrew Gettelman, 2018: Low-Cloud Feedback in CAM5-CLUBB: Physical Mechanisms and Parameter Sensitivity Analysis. Journal of Advances in Modeling Earth Systems, 10. https:// doi.org/10.1029/2018MS001423 [data]
Li Puxi, Kalli Furtado, Tianjun Zhou*, Haoming Chen, Jian Li, Zhun Guo, Chan Xiao, 2018:The diurnal cycle of East Asian summer monsoon precipitation simulated by the Met Office Unified Model at convection-permitting scales. Climate Dynamics, https://doi.org/10.1007/s00382-018-4368-z [data]
王晨琦, 邹立维*, 周天军, 2018: CMIP5模式对西北太平洋SST的模拟偏差及可能成因分析. 中国科学,48(6), 792-804 [data]
Sun Yong, Gilles Ramstein, Laurent Z. X. Li, Camille Contoux, Ning Tan, Tianjun Zhou, 2018: Quantifying East Asian summer monsoon dynamics in the ECP4.5 scenario with reference to the mid-Piacenzian warm period. Geophysical Research Letters, doi: 10.1029/2018GL080061 [data]
Sun Yong, Laurent Z. X. Li, Gilles Ramstein, Tianjun Zhou, Ning Tan, Masa Kageyama, Shaoyin Wang, 2018: Regional meridional cells governing the interannual variability of the Hadley circulation in boreal winter. Climate Dyanamics, https://doi.org/10.1007/s00382-018-4263-7 [data]
Peng D, Zhou T*, Zhang L et al (2018) Human contribution to the increasing summer precipitation in Central Asia from 1961 to 2013. Journal of Climate 31(19):8005-8021. DOI: 10.1175/JCLI-D-17-0843.1 [details] [data]
WANG Chenqi, ZOU Liwei*, ZHOU Tianjun, 2018: SST biases over the Northwest Pacific and possible causes in CMIP5 models, SCIENCE CHINA Earth Sciences, 61, 792(2018) [details] [data]
He C, Liu R, Wang X, Liu SC, Zhou T, Liao W (2019) How does El Niño-Southern Oscillation modulate the interannual variability of winter haze days over eastern China? Sci Total Environ 651:1892-1902. doi:10.1016/j.scitotenv.2018.10.100 [details] [data]
Li Donghuan, Liwei Zou*, Tianjun Zhou (2018) Regional air-sea coupled model simulation for two types of extreme heat in North China. Clim Dyn (2018) 50:2107-2120.DOI 10.1007/s00382-017-3738-2 [data]
Li Donghuan, Liwei Zou*, Tianjun Zhou (2018), Extreme climate event changes in China in 1.5C and 2C warmer climates: Results from statistical and dynamical downscaling. Journal of Geophysical Research, https://doi.org/10.1029/2018JD028835 [data]
Furtado Kalli , Paul R. Field , Yali Luo , Xi Liu, Zhun Guo, Tianjun Zhou , Benjamin J. Shipway, Adrian A. Hill, and Jonathan M. Wilkinson, 2018: Cloud Microphysical Factors Affecting Simulations of Deep Convection During the Presummer Rainy Season in Southern China. Journal of Geophysical Research:Atmospheres, 123.https://doi.org/10.1029/2017JD028192 [details] [data]
周天军,吴波,郭准,何超,邹立维,陈晓龙,张丽霞,满文敏,李普曦,李东欢,姚隽琛,黄昕,张文霞,左萌,陆静文,孙宁.2018.东亚夏季风变化机理的模拟和未来变化的预估:成绩和问题、机遇和挑战.大气科学,42(4):902-934,doi:10.3878/j.issn.1006-9895.1802.17306. [details] [data]
Cherchi Annalisa, Tercio Ambrizzi, Swadhin Behera, Ana Carolina Vasques Freitas, Yushi Morioka, Tianjun Zhou, 2018: The Response of Subtropical Highs to Climate Change. Current Climate Change Reports. https://doi.org/10.1007/s40641-018-0114-1 [data]
Zhang Wenxia, Tianjun Zhou*, Liwei Zou, Lixia Zhang, and Xiaolong Chen: Reduced exposure to extreme precipitation from 0.5C less warming in global land monsoon regions. Nature Communications. 9, Article number: 3153 (2018). doi:10.1038/s41467-018-05633-3. [details] [data]
Zhou TianJun, Bin Wang, YongQiang Yu, YiMin Liu, WeiPeng Zheng, LiJuan Li, Bo Wu,PengFei Lin, Zhun Guo, WenMin Man, Qing Bao, AnMin Duan, HaiLong Liu,XiaoLong Chen, Bian He, JianDong Li, LiWei Zou, XiaoCong Wang, LiXia Zhang, Yong Sun,WenXia Zhang, 2018. The FGOALS climate system model as a modeling tool for supporting climate sciences: An overview. Earth and Planetary Physics. 2018, 2(4): 276-291 [details] [data]
Belcher S, P Stott, L Song, Q Chao, R Lu, T Zhou, 2018: Preface to Special Issue on Climate Science for Service Partnership China. Advances in Atmospheric Sciences,35 (8), 897-89 [details]
Kageyama Masa, Pascale Braconnot, Sandy P Harrison, Alan M Haywood, Johann Jungclaus, Bette L Otto-Bliesner, Jean-Yves Peterschmitt, Ayako Abe-Ouchi, Samuel Albani, Patrick J Bartlein, Chris Brierley, Michel Crucifix, Aisling Dolan, Laura Fernandez-Donado, Hubertus Fischer, Peter O Hopcroft, Ruza F Ivanovic, Fabrice Lambert, Dan J Lunt, Natalie M Mahowald, W Richard Peltier, Stephen J Phipps, Didier M Roche, Gavin A Schmidt, Lev Tarasov, Paul J Valdes, Qiong Zhang, Tianjun Zhou (2018) PMIP4-CMIP6: the contribution of the Paleoclimate Modelling Intercomparison Project to CMIP6. Geoscientific Model Development Discussions, 11 (3). pp. 1033-1057. ISSN 1991-962X [details]
Ma Shuangmei, Congwen Zhu, Boqi Liu, Tianjun Zhou, Yihui Ding, Yvan J Orsolini, 2018: Polarized Response of East Asian Winter Temperature Extremes in the Era of Arctic Warming. Journal of Climate, https://doi.org/10.1175/JCLI-D-17-0463.1 [details]
Zhou Tianjun, Liwen Ren, Haiwen Liu, Jingwen Lu, 2018: Impact of 1.5C and 2.0C global warming on aircraft takeoff performance in China. Science Bulletin , 63(11), 700-707 [details] [data]
Zhang Lixia, Tianjun ZHOU, Nicholas P. KLINGAMAN, et al. 2018. Effect of Horizontal Resolution on the Representation of the Global Monsoon Annual Cycle in AGCMs. Adv. Atmos. Sci., 10.1007/s00376-018-7273-9. https://link.springer.com/article/10.1007/s00376-018-7273-9 [details] [data]
Sun Yong, Laurent Z. X. Li, Gilles Ramstein, Tianjun Zhou, Ning Tan, Masa Kageyama, Shaoyin Wang, 2018: Regional meridional cells governing the interannual variability of the Hadley circulation in boreal winter. Climate Dynamics, https://doi.org/10.1007/s00382-018-4263-7 [data]
Chen Xiaolong, Peili Wu, Malcolm J. Roberts, and Tianjun Zhou*, 2018: Potential underestimation of future Mei-yu rainfall with coarse resolution climate models. Journal of Climate, 31, 6711-6727. https://doi.org/10.1175/JCLI-D-17-0741.1 [details] [data]
Zuo Meng, Wenmin Man*, Tianjun Zhou, 2018: Different impacts of Northern, Tropical and Southern volcanic eruptions on the tropical Pacific SST in the last millennium. Journal of Climate, 31, 6729-6744, https://doi.org/10.1175/JCLI-D-17-0571.1 [details] [data]
Zhang Lixia, Peili Wu, Tianjun Zhou, Chan Xiao, 2018: ENSO Transition from La Niña to El Niño Drives Prolonged Spring - Summer Drought over North China. Journal of Climate, 31: 3509-352 [data]
Nangombe Shingirai, Tianjun Zhou*, Wenxia Zhang, Bo Wu, Shuai Hu, Liwei Zou & Donghuan Li: Record-breaking climate extremes in Africa under stabilized 1.5C and 2C global warming scenarios. Nature Climate Change (2018) doi:10.1038/s41558-018-0145-6 [details]
邹立维, 李东欢, 周天军, 吴波. 2018. FGOALS 海洋同化试验对西北太平洋夏季SST—降水关系的模拟评估 [J]. 气候与环境研究, 23 (2): 139−149. [data]
Li Donghuan, Tianjun Zhou*, Liwei Zou, Wenxia Zhang, and Lixia Zhang, 2018: Extreme high-temperature events over East Asia in 1.5C and 2C warmer futures: Analysis of NCAR CESM low-warming experiments. Geophysical Research Letters, 45. https://doi.org/10.1002/ 2017GL076753 [data]
Zhou Tian-Jun, Ning Sun, Wen-Xia Zhang, Xiao-Long Chen, Dong-Dong Peng, Dong-Huan Li, Li-Wen Ren & Meng Zuo (2018) When and how will the Millennium Silk Road witness 1.5C and 2C warmer worlds?, Atmospheric and Oceanic Science Letters, 11:2, 180-188, doi:10.1080/16742834.2018.1440134 [data]
Wu Bo, Tianjun Zhou, Fei Zheng, 2018: EnOI-IAU initialization scheme designed for decadal climate prediction system IAP-DecPreS. Journal of Advances in Modeling Earth Systems, 10(2), 342-356, https://doi.org/10.1002/2017MS001132 [details] [data]
Sun Qian, Bo WU, Tian-Jun ZHOU, Zi-Xiang YAN, 2018: ENSO hindcast skill of the IAP-DecPreS near-term climate prediction system: comparison of full-field and anomaly initialization. Atmospheric and Oceanic Science Letters,11(1), 54-62, https://doi.org/10.1080/16742834.2018.1411753 [data]
姚隽琛, 周天军, 邹立维, 2018: 基于气候系统模式FGOALS-g2的热带气旋活动及其影响的动力降尺度模拟. 大气科学, 2018,42(1):150-163 [details] [data]
He, C., A. Lin, D. Gu, C. Li, B. Zheng, B. Wu, and T. Zhou, 2018: Using eddy geopotential height to measure the western North Pacific subtropical high in a warming climate, Theor. Appl. Climatol., 131,681-691,doi:10.1007/s00704-016-2001-9 [data]
2017
Li Tim, Bin WANG, Bo WU, Tianjun ZHOU, Chih-Pei CHANG, Renhe ZHANG, 2017: Theories on Formation of an Anomalous Anticyclone in Western North Pacific during El Niño: A Review. J. Meteor. Res., 31(6), 987–1006, doi: 10.1007/s13351-017-7147-6. [details] [data]
冯蕾, 周天军. 2017: 20KM 高分辨率全球模式对青藏高原夏季降水变化的预估. 高原气象, 36(3),587-595 [data]
Zhou Tianjun,, Xiaolong Chen, Bo Wu, Zhun Guo, Yong Sun, Liwei Zou, Wenmin Man, Lixia Zhang, Chao He, 2017: A Robustness Analysis of CMIP5 Models over the East Asia-Western North Pacific Domain, Engineering, 3(5), 773-778, https://doi.org/10.1016/J.ENG.2017.05.018 [details] [data]
Zou Liwei, Tianjun Zhou, Fangli Qiao, Wei Zhao, 2017: Development of a regional ocean - atmosphere-wave coupled model and its preliminary evaluation over the CORDEX East Asia domain. Int. J. Climatol. 37: 4478-4485 (2017)
Zou Liwei,Tianjun Zhou, 2017, Dynamical Downscaling of East Asian Winter Monsoon Changes with a Regional Ocean-Atmosphere Coupled Model. Quarterly Journal of the Royal Meteorological Society, 143 (706) ,2245–2259 [data]
Peng, D., and T. Zhou* (2017), Why was the arid and semiarid northwest China getting wetter in the recent decades?, J. Geophys. Res. Atmos., 122, doi:10.1002/ 2016JD026424. [data]
Yao Junchen, Tianjun Zhou*, Zhun Guo, Xiaolong Chen, Liwei Zou, Yong Sun, 2017: Improved performance of High-Resolution Atmospheric Models in simulating the East-Asian Summer Monsoon Rainbelt. Journal of Climate 30(21), 8825-8840, https://doi.org/10.1175/JCLI-D-16-0372.1 [data]
Wu Bo, Tianjun Zhou, Tim Li, 2017: Atmospheric dynamic and thermodynamic processes driving the western North Pacific anomalous anticyclone. Part II: Formation processes. Journal of Climate , 30, 9621-9635 [data]
Wu Bo, Tianjun Zhou, Tim Li, 2017: Atmospheric dynamic and thermodynamic processes driving the western North Pacific anomalous anticyclone. Part I: Maintenance mechanisms. Journal of Climate , 30,9637-9650 [data]
Chen Xiaolong, Tianjun Zhou, 2017, Relative contributions of external SST forcing and internal atmospheric variability to July-August heat wave over the Yangtze River valley during 1979-2014. Climate Dynamics, DOI 10.1007/s00382-017-3871-y [data]
Jin C X, Zhou T J*, Chen X L, Wu B. 2017. Seasonally evolving dominant interannual variability mode of air-sea CO2 flux over the western North Pacific simulated by CESM1-BGC. Science China Earth Sciences, doi: 10.1007/s11430-015-9085-4 [data]
Gao Tao, Huixia Judy Wang, Tianjun Zhou, 2017: Changes of Extreme Precipitation and Nonlinear Influence of Climate Variables over Monsoon Region in China.Atmospheric Research, 197(15), 379-389, https://doi.org/10.1016/j.atmosres.2017.07.017 [data]
李东欢,邹立维,周天军. 2017: 全球1. 5 ℃温升背景下中国极端事件变化的区域模式预估. 地球科学进展, 2017, 32(4): 446-457 [data]
陈晓龙,周天军. 2017: 使用订正的“空间型标度”法预估1. 5 ℃温升阈值下地表气温变化. 地球科学进展, 2017,32(4): 435-445 [data]
孙咏,周天军,吴波,2017: 耦合气候系统模式FGOALS-s2海洋数据同化试验模拟的冬季Hadley环流.科学通报, doi: 10.1360/N972017-00409 [data]
Li Puxi, Tianjun Zhou*, Xiaolong Chen, 2017: Water vapor transport for spring persistent rains over southeastern China based on five reanalysis datasets. Climate Dynamics, DOI 10.1007/s00382-017-3680-3 [data]
Zhang, W., T. Zhou*, and L. Zhang (2017), Wetting and greening Tibetan Plateau in early summer in recent decades, J. Geophys. Res. Atmos., 122, doi:10.1002/2017JD026468 [data]
Ma Shuangmei, Tianjun Zhou*, Oliver Angelil, Hideo Shiogama, 2017: Increased Chances of Drought in Southeastern Periphery of the Tibetan Plateau Induced by Anthropogenic Warming. Journal of Climate, 30,6543-6560 [data]
He Chao, Bo Wu, Liwei Zou, Tianjun Zhou*, 2017: Responses of the summertime subtropical an
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