利用 M2-SCREAM 再分析数据对北极平流层涡旋内部臭氧活性成分变化的轨迹分析

IF 0.9 Q4 OPTICS
A. N. Lukyanov, V. A. Yushkov, A. S. Vyazankin
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引用次数: 0

摘要

摘要 研究了平流层极地漩涡内减少该区域臭氧含量的热力学和化学过程。北极的冬春季节是平流层漩涡最强的季节,因此也是臭氧损失最大的季节。根据漩涡内部的后向轨迹集合和 M2-SCREAM 平流层再分析数据,研究了臭氧和臭氧活性成分的漩涡平均变化,其中包括一些影响臭氧浓度的化学成分。结果表明,2020 年冬季创纪录的臭氧消耗不仅是由于长期稳定的平流层极地漩涡,还由于氯库提前转变为活性形式,以及气团更强的反硝化和脱水作用。所建议的方法可用于分析过去冬季极地平流层的动态和化学过程,并验证化学-气候模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Trajectory Analysis of Variations in Ozone-Active Components inside the Stratospheric Arctic Vortex Using M2-SCREAM Reanalysis Data

Trajectory Analysis of Variations in Ozone-Active Components inside the Stratospheric Arctic Vortex Using M2-SCREAM Reanalysis Data

Trajectory Analysis of Variations in Ozone-Active Components inside the Stratospheric Arctic Vortex Using M2-SCREAM Reanalysis Data

Thermodynamic and chemical processes inside the stratospheric polar vortex which decrease the ozone content in this region are studied. The winter-spring seasons in the Arctic, with the strongest stratospheric vortices and, hence, maximal ozone loss, are considered. The vortex-averaged variations in ozone and ozone-active components are studied on the basis of an ensemble of backward trajectories inside the vortex and M2-SCREAM stratospheric reanalysis data, which includes some chemical components that affect the ozone concentration. The record ozone depletion in winter 2020 was shown to be due to not only the long-lived stable stratospheric polar vortex, but also the earlier transformation of chlorine reservoirs into the active form and stronger denitrification and dehydration of air masses. The approach suggested can be used to analyze dynamic and chemical processes in the polar stratosphere over past winters and to validate chemical-climate models.

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来源期刊
CiteScore
2.40
自引率
42.90%
发文量
84
期刊介绍: Atmospheric and Oceanic Optics  is an international peer reviewed journal that presents experimental and theoretical articles relevant to a wide range of problems of atmospheric and oceanic optics, ecology, and climate. The journal coverage includes: scattering and transfer of optical waves, spectroscopy of atmospheric gases, turbulent and nonlinear optical phenomena, adaptive optics, remote (ground-based, airborne, and spaceborne) sensing of the atmosphere and the surface, methods for solving of inverse problems, new equipment for optical investigations, development of computer programs and databases for optical studies. Thematic issues are devoted to the studies of atmospheric ozone, adaptive, nonlinear, and coherent optics, regional climate and environmental monitoring, and other subjects.
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