1.Zhang, W., L. Ren, T. Zhou, 2022. Understanding differences in event attribution results arising from modeling strategy. Journal of Meteorological Research, 36(1), 49–60.
2.Chen, Z., Zhou, T., Chen, X., Zhang, W., et al. 2022. Observationally constrained projection of Afro-Asian monsoon precipitation. Nature Communications 13, 2552.
3.Qian, C., Y. Ye, W. Zhang and T. Zhou, 2022: The heavy rainfall event in mid-August of 2020 in southwestern China: contribution of anthropogenic forcings and atmospheric circulation, Bulletin of the American Meteorological Society, Accepted and in press.
4.Lin, P., Zhao, B., Wei, J., Liu, H., Zhang, W., et al. 2022. The Super-large Ensemble experiments of CAS FGOALS-g3. Advances in Atmospheric Sciences. doi: 10.1007/s00376-022-1439-1.
5.江洁, 周天军, 张文霞. 2022. 近60年来中国主要流域极端降水演变特征. 大气科学. doi: 10.3878/j.issn.1006-9895.2111.21187.
6.Zhang, W., Furtado, K., Wu, P. et al. 2021. Increasing precipitation variability on daily-to-multiyear timescales in a warmer world, Science Advances. 7(31): eabf8021.
7.Zhang W., Zhou T. 2021. The Effect of Modeling Strategies on Assessments of Differential Warming Impacts of 0.5°C. Earth’s Future, 9, e2020EF001640.
8.Zhou T., W. Zhang. 2021. Anthropogenic warming of Tibetan Plateau and constrained future projection. Environmental Research Letters, 16, 044039.
9.Wu, M., …, Zhang, W., et al. 2021. A very likely weakening of Pacific Walker Circulation in constrained near-future projections. Nature Communications, DOI:10.1038/s41467-021-26693-y.
10.Wang H., Wang P., Zhao X., Zhang W., et al. 2021. What triggered the Asian elephant’s northward migration across southwestern Yunnan? The Innovation 2(3), 100142.
11.Wang, H., …, Zhang, W., et al. 2021. From unusual suspect to serial killer: Cyanotoxins boosted by climate change may jeopardize megafauna, The Innovation, 2, 100092.
12.周天军, 张文霞, 陈德亮, 张学斌, 李超, 左萌, 陈晓龙. 2021. 2021年诺贝尔物理学奖解读:从温室效应到地球系统科学. 中国科学:地球科学, https://doi.org/10.1360/SSTe-2021-0338.
13.周天军, 任俐文, 张文霞. 2021. 2020年梅雨期极端降水的归因探讨和未来风险预估研究. 中国科学: 地球科学. 51 (10): 1637-1649.
14.张星, 周天军, 张文霞, 左萌, 张丽霞. 2021. 气候系统模式FGOALS-g3模拟的全球季风:版本比较和海气耦合过程影响分析. 大气科学. doi: 10.3878/j.issn.1006-9895.2111.21099.
15.邱慧, 周天军, 陈梓明, 张文霞, 等, 2021. 北非季风气候态及其年际变率的数值模拟:基于FGOALS-g3的诊断分析, 大气科学, doi: 10.3878/j.issn.1006-9895.2111.21141.
16.Zhang W., Zhou T. 2020. Increasing impacts from extreme precipitation on population over China with global warming. Science Bulletin, 65, 243-252
17.Zhang, W., Li, W., Zhu, L. et al. 2020. Anthropogenic influence on 2018 summer persistent heavy rainfall in central western China. Bulletin of the American Meteorological Society, 101(1): S65-S70.
18.Zhou T., J. Lu, W. Zhang, Z. Chen. 2020. The Sources of Uncertainty in the Projection of Global Land Monsoon Precipitation. Geophysical Research Letters, 47, e2020GL088415.
19.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.
20.Ren, L., T. Zhou, W. Zhang. 2020. Attribution of the record-breaking heat event over Northeast Asia in summer 2018: the role of circulation, Environmental Research Letters, 15 054018.
21.Nangombe, S., T. Zhou, L. Zhang, W. Zhang. 2020. Attribution of the 2018 October–December Drought Over South Southern Africa. Bulletin of the American Meteorological Society, 101 (1): S135–S140.
22.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.
23.Peng D, Zhou T, Zhang L, Zhang W, et al. 2020. Observationally constrained projection of the reduced intensification of extreme climate events in Central Asia from 0.5°C less global warming. Climate Dynamics, 54(1-2): 543-560.
24.Huang, X., T. Zhou, A. Turner, …, W. Zhang, et al. 2020. The Recent Decline and Recovery of Indian Summer Monsoon Rainfall: Relative Roles of External Forcing and Internal Variability. Journal of Climate, 33, 5035–5060.
25.周天军, 张文霞, 陈晓龙, 等. 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, 40(5):697-710.
26.周天军, 张文霞, 张丽霞, 等. 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. Zhou T, Zhang W, Zhang L, et al. 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.
27.陆静文, 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. 大气科学, 44(1): 105-121.
28.Zhang, W., Zhou, T., Zhang, L., et al. 2019. Future intensification of the water cycle with an enhanced annual cycle over global land monsoon regions. Journal of Climate, 32(17), 5437-5452.
29.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(24): 8465-8488.
30.Nangombe S., T. Zhou, W. Zhang, et al. 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.
31.Huang, X., Zhou, T., Zhang, W. et al. 2019. Northern Hemisphere land monsoon precipitation changes in the twentieth century revealed by multiple reanalysis datasets. Climate Dynamics, 53, 7131–7149.
32.Jiang J., T. Zhou, W. Zhang, 2019. Evaluation of satellite and reanalysis precipitable water vapor data sets against radiosonde observations in central Asia. Earth and Space Science, 6, 1129– 1148.
33.Li D, Zhou T, Zhang W. 2019. Extreme precipitation over East Asia under 1.5°C and 2°C global warming targets: a comparison of stabilized and overshoot projections. Environmental Research Communications, 1(8): 085002.
34.钱诚, 张文霞. 2019. CMIP6检测归因模式比较计划(DAMIP)概况与评述. 气候变化研究进展, 15(05): 469-475.
35.周天军, 高晶, 赵寅, 张丽霞, 张文霞. 2019. 影响“亚洲水塔”的水汽输送过程.中国科学院院刊, 34(11): 1210-1219.
36.Zhang W., T. Zhou, L. Zou, et al. 2018. Reduced exposure to extreme precipitation from 0.5°C less warming in global land monsoon regions. Nature Communications, 9(1): 1-8.
37.Nangombe S., T. Zhou, W. Zhang, et al. 2018. Record-breaking climate extremes in Africa under stabilized 1.5°C and 2°C global warming scenarios. Nature Climate Change, 8, 375-380.
38.Li D., T. Zhou, L. Zou, W. Zhang, and L. Zhang. 2018: Extreme high-temperature events over East Asia in 1.5°C and 2°C warmer futures: Analysis of NCAR CESM low-warming experiments. Geophysical Research Letters, 45.
39.Zhou T., N. Sun, W. Zhang, et al. 2018. When and how will the Millennium Silk Road witness a 1.5°C and 2°C warming world? Atmospheric and Oceanic Science Letters. 11:2, 180-188.
40.Zhou, X., Li, J., Xie, F., Chen, Q., Ding, R., Zhang, W., and Li, Y. 2018. Does extreme El Ni?o have a different effect on the stratosphere in boreal winter than its moderate counterpart? Journal of Geophysical Research: Atmospheres, 123, 3071–3086.
41.Zhou, T., B. Wang, Y. Yu, … W. Zhang, 2018. The FGOALS climate system model as a modeling tool for supporting climate sciences: An overview. Earth and Planetary Physics. 2(4): 276-291.
42.周天军, 吴波, 郭准, …, 张文霞, 等. 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(04):902-934.
43.Zhang, W., T. Zhou, and L. Zhang. 2017. Wetting and greening Tibetan Plateau in early summer in recent decades, Journal of Geophysical Research: Atmospheres, 122, 5808-5822.
44.张丽霞, 张文霞, 周天军, 吴波. 2017. ENSEMBLES耦合模式对全球陆地季风区夏季降水的年代际预测能力评估. 地球科学进展, 32(4): 409- 419.
45.李普曦, 周天军, 邹立维, 陈晓龙, 张文霞, 郭准. 2017. MRI模式对华南春雨气候态及年际变率的模拟:不同模式分辨率的比较, 大气科学, 41 (3): 515?432.
46.张文霞, 张丽霞, 周天军, 2016. 雅鲁藏布江流域夏季降水的年际变化及其原因, 大气科学, 40 (5): 965–980.
