1.Zhang Lixia*, Tianjun Zhou, Xing Zhang, et al. 2024: Attribution of the Extreme 2022 Summer Drought along the Yangtze River Valley in China Based on Detection and Attribution System of Chinese Academy of Sciences. Bulletin of the American Meteorological Society. E1062–E1067. 

2.Yu Xiaojing, Lixia Zhang*, Tianjun Zhou, Jianghua Zheng, Jingyun Guan, 2024: Higher atmospheric aridity-dominated drought stress contributes to aggravating dryland productivity loss under global warming, Weather and Climate Extremes. 44,,100692.

3.Zhang, L.*, Yu, X., Zhou, T. et al. 2023: Understanding and Attribution of Extreme Heat and Drought Events in 2022: Current Situation and Future Challenges. Adv. Atmos. Sci. 40, 1941-1951. 

4.Yu, X., Zhang, L.*, Zhou, T. et al. 2023: Long-term changes in the effect of drought stress on ecosystems across global drylands. Sci. China Earth Sci. 66, 146-160. 

5.Yu, X., Zhang, L.*, Zhou, T. et al. 2023: Assessing the Performance of CMIP6 Models in Simulating Droughts across Global Drylands. Adv. Atmos. Sci. 41, 193-208. 

6.Zhao, D., Zhang, L.* & Zhou, T. 2022: Detectable anthropogenic forcing on the long-term changes of summer precipitation over the Tibetan Plateau. Clim. Dyn. 59, 1939-1952. 

7.Zhang Lixia*, Dan Zhao, Tianjun Zhou, et al. 2021: Moisture Origins and Transport Processes for the 2020 Yangtze River Valley Record-Breaking Mei-yu Rainfall. Advances in Atmospheric Sciences. 38(6):1-12. 

8.Zhang Lixia*, Ziming Chen, Tianjun Zhou, 2021: Human Influence on the Increasing Drought Risk Over Southeast Asian Monsoon Region. Geophysical Research Letters. 48. e2021GL093777.

9.Zhang Lixia*, Laura Wilconx, et al., 2021: Future changes in Beijing haze events under different anthropogenic aerosol emission scenarios. Atmospheric Chemistry and Physics. 21(10):7499-7514 

10.Yu, X. J., Zhang L. X.*, T. J. Zhou, et al., 2021: The Asian subtropical westerly jet stream in CRA-40, ERA5, and CFSR reanalysis data: Comparative assessment. Journal of Meteorological Research, 35(1): 46–63.

11.Zhao Dan, Zhang L.*, Tianjun Zhou, et al. 2021: Contributions of Local and Remote Atmospheric Moisture Fluxes to East China Precipitation Estimated from CRA-40 Reanalysis. Journal of Meteorological Research, 35(1):32-45. 

12.Zhang Lixia*, Tianjun Zhou, Xiaolong Chen, et al. 2020: The late spring drought of 2018 in South China, Bull. Amer. Met. Soc., 101(1): S59-S64.

13.Zhang Lixia*, Tianjun Zhou, Peili Wu, et al. 2019: Potential Predictability of North China Summer Drought. Journal of Climate, 32(21): 7247-7264.

14.Zhang Lixia*, Peili Wu, Tianjun Zhou, et al. 2018: ENSO Transition from La Ni？a to El Nino Drives Prolonged Spring–Summer Drought over North China. Journal of Climate, 31: 3509-3523. 

15.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, Advances in Atmospheric Sciences, 35, 8:1003–1020.

16.Zhang Lixia*, Peili Wu, Tianjun Zhou, 2017: Aerosol Forcing of Extreme Summer Drought over North China, Environmental Research Letters, 12, 034020.

17.Zhang Lixia*, P. Wu, T. Zhou, et al. 2016: Added value of high resolution models in simulating global precipitation characteristics. Atmospheric Science Letters, 17, 646-657.

18.Zhang Lixia, Tianjun Zhou*, 2015: Drought over East Asia: A Review, Journal of Climate, 28(8): 3375-3399 .

19.Zhang Lixia*, Zhou Tianjun, 2015: Decadal change of East Asian summer tropospheric temperature meridional gradient around the early 1990s. Science China: Earth Science,58(9): 1609-1622.

20.Zhang Lixia, Tianjun Zhou*, 2015: Different Warming Patterns of Tropical Pacific Sea Surface Temperature Projected by FGOALS-g2 and FGOALS-s2 under RCP8.5, Atmospheric and Oceanic Science Letters, 8(2), 82-87.

21.Zhang Lixia*, Zhou Tianjun, 2014: An Assessment of Improvements in Global Monsoon Precipitation Simulation in FGOALS-s2. Advances in Atmospheric Sciences, 31(1): 165-178.

22.Zhang Lixia, Tianjun Zhou*, 2013: A comparison of tropospheric temperature changes over China revealed by multiple datasets. Journal of Geophysical Research - Atmospheres, 118: 4217-4230.

23.Zhang Lixia, Tianjun Zhou*, 2012: The Interannual Variability of Summer Upper-Tropospheric Temperature over East Asia. Journal of Climate, 25: 6539-6553. 

24.Zhang Lixia, Tianjun Zhou*, 2011: An assessment of monsoon precipitation changes during 1901-2001. Climate Dynamics, 37: 279-296. 

25.Zhang Lixia, T. Zhou*, et al., 2010: The annual modes of tropical precipitation simulated by the LASG/IAP coupled ocean-atmosphere model FGOALS_s1.1. Acta Meteor.Sinica, 24(2): 189-202. 

26.赵丹, 张丽霞*, 周天军. 2022: CMIP6模式对中国东部地区水循环的模拟能力评估. 大气科学. 46(3): 557-572.

27.张丽霞*，陈晓龙，辛晓歌，2019: CMIP6情景模式比较计划（ScenarioMIP）概况与评述. 气候变化研究进展, 15(5): 519-525.

28.张丽霞*，周天军，2020：夏季亚洲对流层中上层温度年际变率的预测水平评估及其在我国东部降水预测中的应用，大气科学，44(1): 150-167.

29.李永生，张丽霞*，王波，2020:局地蒸发和外部水汽输送对东北北部地区夏季降水的贡献. 大气科学, 44(3): 611-624.

30.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 .

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