北京师范大学系统科学学院-yb亚博全站首页

马旋

合作导师:陈晓松

职称:讲师

学位:博士

联系地址:北京师范大学科技楼b区516

邮政编码:100875

电话: 86 18810915572

email:maxuan@bnu.edu.cn


教育经历

2019-2022,复旦大学大气与海洋科学系,博士,大气科学专业

2016-2019,北京师范大学全球变化与地球系统科学研究院,硕士,全球环境变化专业

2012-2016,兰州大学大气科学学院,学士,大气科学专业


工作经历

2012/09-至今,北京师范大学,系统科学学院,博士后


研究兴趣

研究方向

长期从事平流层对流层相互作用研究,研究和探索物理和大气学科前沿交叉方向中的物理新规律。主要利用本征微观态分析方法,研究平流层对流层相互作用,分析平流层和对流层中大气环流及气候系统在不同时间尺度及空间范围内的复杂动力学特征,探索平流层和对流层的耦合过程及其相互作用。致力于从物理的角度理解平流层和对流层中大气环流,化学成分及重要气候系统的物理特征和联系机制。


以第一/通讯作者发表在atmos. chem. phys., j. climate., clim. dyn., adv. atmos. sci., front. earth sci.等期刊。发表论文列表如下:

ma x., wang l., smith d., hermanson l., eade r., dunstone n., et al. (2022): enso and qbo modulation of the relationship between arctic sea ice loss and eurasian cold winters. environ. res. lett., in review.

ma x., wang l.* (2022): the role of ozone depletion in the lack of cooling in the antarctic upper stratosphere during austral winter. adv. atmos. sci., in press.

ma x., xie f., chen, x., wang l., yang g. (2022): identifying a leading predictor of arctic stratospheric ozone for spring precipitation in eastern north america. remote sensing, 14, in press.

ma x., xie f. (2020): predicting april precipitation in the northwestern united states based on arctic stratospheric ozone and local circulation, front. earth sci., 8, 56.

xie, f., ma x.*, li j., tian w., ruan c., sun c. (2019): using signals from the arctic stratosphere and indian ocean to predict april–may precipitation in central china, j. climate, 33, 131-143.

j., xie f., t., li j., feng w., chipperfield zhang j., x. (2019): interannual variations in lower stratospheric ozone during the period 1984–2016, j. geophys. res.-atmos., 124, 8225-8241.

ma x., xie f., li j., zheng. x., tian w., ding r., et al. (2018): effects of arctic stratospheric ozone changes on spring precipitation in the northwestern united states, atmos. chem. phys., 19, 861-875.

xie, f., ma x.*, li j., huang j., tian w., zhang j., et al. (2018): an advanced impact of arctic stratospheric ozone changes on spring precipitation in china, clim. dyn., 51, 4029-4041.

xie, f., zhou x., li j., sun c., feng j., ma x. (2018): the key role of background sea surface temperature over the cold tongue in asymmetric responses of the arctic stratosphere to el niño–southern oscillation, environ. res. lett., 13, 114007.

xie, f., li j., sun c., ding r., xing n., yang y., zhou x., ma x. (2018): improved global surface temperature simulation using stratospheric ozone forcing with more accurate variability, sci. rep., 14474.

xie f., zhou x., li j., chen q., zhang j., li y., ding r., xue j., ma x. (2018): effect of the indo-pacific warm pool on lower stratospheric water vapor and comparison with the effect of the el niño–southern oscillation. j. climate., 31, 929-943.

tian, w., li y., xie f., zhang j., chipperfield m., feng w., hu y., zhao s., zhou x., yang y., ma x. (2017): the relationship between lower-stratospheric ozone at southern high latitudes & sea surface temperature in the east asian marginal seas in austral spring, atmos. chem. phys., 17, 6705-6722.

tian, w., li y., xie f., zhang j., chipperfield m. p., feng w., hu y., zhao s., zhou x., yang y., ma x. (2017): the relationship between lower stratospheric ozone in the southern high latitudes and sea surface temperature in the east asian marginal seas in austral spring, atmos. chem. phys. 17, 6705–6722.

xie f., li j., tian w., zhou x., ma x. (2016): the variations in middle and upper stratospheric water vapour over the past two decades, sola, 12, 127-134.


代表工作

一. 平流层臭氧的气候效应:

1. 发现南极平流层臭氧损耗的辐射-动力过程是造成20世纪末南极平流层极涡减弱的根本原因。[adv. atmos. sci. 2022, in press]


2. 发现了北极臭氧对中国春季降水和北美春季降水的影响,揭示了其潜在物理机制。[clim. dyn. 2018, 51, 4029-4041; atmos. chem. phys. 2018, 19, 861-875]


3. 发现极地平流层和热带海洋对中国春季降水的协同影响,利用极地和热带海洋信号建立了中国降水预测模型。 [j. climate 2019, 33, 131-143]


4. 发现了发现极地平流层及北太平洋环流对北美降水的影响,基于此建立北美局地降水预测模型。[front. earth sci. 2020, 8, 56; remote sensing 2022, 14, in press.]


二. 北极海冰的气候效应:

1. 揭示了enso和qbo强迫会引起海冰与北极平流层极涡关系的不确定性。[environ. res. lett. 2022, in review]


2. 发现了北极海冰与ao的关系存在显著的年代际变化特征。


承担课题

博士后创新人才支持计划 (2022)


培养研究生情况


社会任职


教学情况




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