齐艳军
研究员,硕士生导师1994-至今,在中国气象科学研究院工作
其中2003-2004,美国夏威夷大学访问学者
2004-2008,中国科学院大气物理研究所,气象学,博士
1998-2001,北京大学物理系,气象学,硕士
1990-1994,北京气象学院,天气动力,学士
Qi, Y., T. Li, R. Zhang, Y. Chen, 2019. Interannual relationship between intensity of rainfall intraseasonal oscillation and summer-mean rainfall over Yangtze River Basin in eastern China.Clim. Dyn., 53: 3089-3108.
Qi, Y., R. Zhang, X. Rong, J. Li, L. Li, 2019. Boreal summer intraseasonal oscillation in the Asian-Pacific Monsoon region sumulated in CAMS-CSM. J. Meteor. Res., 33: 66-79.
Qi, Y., R. Zhang, P. Zhao, P. Zhai, 2013. Comparison of the structure and evolution of intraseasonal oscillations before and after onset of the Asian summer monsoon.Acta Mete. Sinica,27, 684-700.
Qi, Y., R. Zhang, T. Li, M. Wen, 2009. Impacts of intraseasonal oscillation on the onset and interannual variation of the Indian summer monsoon.Chin. Sci. Bull., 54(5), 880-884.
Qi Y, Zhang R, Li T, Wen M, 2008. Interactions between the summer mean monsoon and the intraseasonal oscillation in the Indian monsoon region.Geophys Res Lett, 35:L17704. https ://doi.org/10.1029/2008G L034517.
Xie, F., N. Yuan,Y. Qi, W. Wu, 2019: Is long-term climate memory important in temperature/ precipitation predictions over China?Theor. Appl. Climatol., 137: 459-466.
Rong, X., J. Li, H. Chen, Y. Xin, J. Su, L. Hua, T. Zhou,Y. Qi, et al.,2018: The CAMS Climate System Model and a Basic Evaluation of its Climatology and Climate Variability simulation.J. Meteor. Res., 32, 839-861.
Wu, W., N. Yuan, F. Xie,Y. Qi, 2019. Understanding long-term persistence and multifractual behaviors in river runoff: A detailed study over eastern China.Physica A., 533, https://doi.org/10.1016/j.physa.2019.122042.
Wen, M., T. Li, R. Zhang, andY. Qi, 2010. Structure and origin of the quasi-biweekly oscillation over the tropical Indian Ocean in boreal spring. J. Atmos. Sci., 67(6),1965-1982.
Wang B., P.Webster, K. Kikuchi, T. Yasunari,Y. Qi, 2006, Boreal summer quasi-monthly oscillation in the global tropics. Clim.Dyn.27.661-675.
Cheng, M.,Y. Qi, 2002, Frontal rainfall-rate distribution and some comments on the threshold method.J. Appl. Met. 41(11),1128-1139.
Cheng, M., Z. He, D. Mao,Y.Qi, et al, 2001: The case study for heavy precipitation event over Wuhan areas using the TRMM Data,Adv.Atmos.Sci.18, 387-396.
齐艳军,张人禾,Tim Li,2016. 1998年夏季长江流域大气季节内振荡的结构演变及其对降水的影响,大气科学,40(3), 451-462.
齐艳军,张人禾,2015.与中国东部天气气候相关的大气季节内振荡研究及业务应用,热带气象学报,31(4), 566-576.
齐艳军,容新尧,2014.次季节-季节预测的应用前景与展望,气象科技进展, 4(3),74-75.
许乐心,张人禾,齐艳军,2017.长江中游和下游夏季降水季节内振荡的差异.大气科学(88), 41(6),1125-1140.
齐艳军,张人禾,Tim Li,温敏,2008,大气季节内振荡在印度夏季风建立和演变中的作用,科学通报,53(23), 2972-2975.
齐艳军,仪清菊,程明虎,2004,98.7湖北特大暴雨的天气分析与降水模拟,气象,30(3),12-16.
齐艳军,王汉杰,程明虎,2003,卫星资料反演湿度场改变模式初值对降水预报的影响 ,应用气象学报,14(6), 663-673.
李元寿,贾晓红,齐艳军,成龙,王根绪,2019.多年冻土区土壤蒸散发对气候变化的敏感性分析.高原气象,38(6),1229-1235.
齐艳军,温敏,2011,南亚季风区夏季平季风和季节内振荡的相互作用,《亚印太交汇区海气相互作用及其对我国短期气候的影响》,北京:气象出版社,P218-224.
齐艳军,仪清菊,程明虎,2001,98.7湖北区域大暴雨的数值模拟研究 ,《1998年长江嫩江流域特大暴雨的成因及预报应用研究 》,北京:气象出版社,P192-202.