《大气科学进展》征稿启事 | “大气氧化能力 臭氧和PM2.5污染：定量表征方法 形成

《大气科学进展》征稿启事

“大气氧化能力，臭氧和PM2.5污染：定量表征方法，形成机制，模拟和控制”

大气氧化能力(AOC)决定着二次污染的转化强度，但国内外对其缺乏深入研究。发达国家尚未摆脱臭氧污染的困扰，表明对AOC气相化学过程仍认识不清，因此，AOC研究是大气化学研究的世界性难题，现阶段如何通过调控AOC协同控制大气复合污染，就成为了必须面对和亟需解决的关键问题。为了进一步研究这些问题，特征集专刊“大气氧化能力，臭氧和PM2.5污染：定量表征方法，形成机制，模拟和控制”。

一、专刊收稿范围

本专刊欢迎原创性且尚未被其它期刊、会议发表或录用的学术论文。征稿范围包括（但不限于）下列内容：

1

建立AOC研究的方法体系，阐明AOC内涵，构建其定量表征指标体系；

2

完善大气氧化剂收支平衡理论，提高数值模式对AOC的模拟能力；

3

建立大气氧化剂水平输送、垂直交换和局地生成过程的诊断方法，揭示大气氧化剂源/汇和循环的演变特征；

4

阐明AOC 与二次污染的定量关系，提出我国基于AOC调控原理的O3和PM2.5协同控制策略及技术途径。

二、投稿说明

来稿应文字通顺、论点明确、数据可靠、条理清晰。请下载并参考AAS投稿模板，根据《大气科学进展》格式要求, 提交格式规范的稿件。

AAS网站：http://www./aas/

投稿网址：/aasiap

投稿时，请务必在manuscripttype 中选择 Special issue: AOC, Ozone & PM2.5 (submission deadline: 31 August ) 。

三、重要日期

截稿日期：8月31日

专刊预计出版日期：1月

四、特约编辑

Lead Editor

YuesiWang, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029, China. E-mail: wys@mail.

Guest Editors

GehuiWang,School of Geographic Sciences, East China Normal University, Shanghai 200241,China.E-mail:ghwang@geo.

Lingyan He,Peking University Shenzhen Graduate School, Shenzhen, 518055, China. E-mail: hely@

Xingqin An, Chinese Academy of Meteorological Sciences, Beijing 100081,China.E-mail: anxq@

Bo Hu,Institute of Atmospheric Physics, ChineseAcademy of Sciences, Beijing 100029, China. E-mail:hub@post.

Qihou Hu,Key Lab of Environmental Optics andTechnology, Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei, China. Email: qhhu@

Keding Lu,Environmental Sciences and Engineering State Key Joint Laboratory of Environmental Simulation and Pollution Control, College of Environmental Sciences and Engineering, Peking University,Peking University,Beijing, 100871, China.Email: k.lu@

Zirui Liu,Institute of Atmospheric Physics, ChineseAcademy of Sciences, Beijing 100029, China. E-mail:liuzirui@mail.

Associate Guest Editor

LiLiWang, Institute of Atmospheric Physics, ChineseAcademy of Sciences, Beijing 100029, China. E-mail:wll@mail.

Guiqian Tang, Institute of Atmospheric Physics, ChineseAcademy of Sciences, Beijing 100029, China. E-mail:tgq@dq.

Scope

Atmospheric oxidation capacity (AOC) is critically important in the formation of atmospheric compound pollution. However, to date, research on this issue has been quite limited, both at home and abroad, and developed countries have not dealt with ozone pollution. Therefore, scientific research into AOC remains a challenging endeavor. Comprehensive and precise observational studies on the type, concentration, distribution, activity, evolution, and balance of atmospheric oxidants and their effects on the formation of secondary pollution were carried out during – in China. At the same time, seeking theoretical and technical methods to control atmospheric pollution by regulating atmospheric oxidation is at the forefront of science in this field and a hot topic for clarifying the formation mechanisms of air pollution. Diagnostic methods for investigating atmospheric oxidant transport and chemical processes can be established through observations; furthermore, the evolution of the sources, sinks, and cycles of atmospheric oxidants can be revealed, which will enable us to build a comprehensive understanding of the connotations of AOC, and further construct a quantitative characterization index system. A coordinated control strategy and technical approach for ozone and PM2.5 pollution based on AOC regulation principles could be proposed through sufficiently elaborating the quantitative relationship between AOC and secondary pollutants.

This special issue will showcase recent and ongoing research progress in: (1) the concept of AOC and the methods used for its quantification; and (2) the quantitative relationship between AOC and secondary pollution (ozone, secondary inorganic aerosol, and secondary organic aerosol), and the establishment of a coordinated control strategy for ozone and PM2.5 pollution based on atmospheric oxidation capacity. It is expected that the research papers compiled in this special issue will contribute to a more thorough understanding of issues in AOC, and more effective strategies towards a coordinated control of ozone and PM2.5 pollution. Submissions in, but not limited to, the following research areas, are invited:(1) Methods for quantitatively characterizing AOC.(2) The evolution, regional transport, and vertical exchange of atmospheric oxidants and their factors of influence.(3) Establishment of methods for reconstructing actinic radiation flux and the influence of aerosol on actinic radiation flux through field studies.(4) Field and model studies of atmospheric radical chemistry and the characterization of the oxidation behavior of specific organic compounds.(5) The quantitative relationships between AOC and secondary pollution (ozone, secondary inorganic aerosol, and secondary organic aerosol).(6) Achieving a collaborative control strategy with respect to ozone and PM2.5 pollution according to AOC variations.

●编辑部●

●联系人: 石傲兰

●Email: aas@mail.

●电话：010-82995054

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《大气科学进展(英)》(Advances in Atmospheric Sciences，简称AAS)——中国大气科学领域学术水平最高的英文期刊之一，1984年创刊，1999年被SCI收录。最新影响因子1.819。

AAS主要发表大气和海洋科学领域的创新性研究成果，刊登气候学、大气物理学、大气化学、大气探测、气象学、天气学、数值天气预报、海洋-大气相互作用、人工影响天气和应用气象学等各主要分支学科的国际最新创造性论文和研究进展的综合评述。AAS积极扩展栏目，除学术论文外，还设有数据描述文章、会议报告（特邀）、学科亮点(News&Views)（特邀）、展望（Perspectives）（特邀）及有关大气科学领域研究进展的讨论等。

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《大气科学进展》征稿启事 | “大气氧化能力 臭氧和PM2.5污染：定量表征方法 形成机制 模拟和控制”