Welcome to the IKCEST
English
English 中文 русск français español العربية

Language

We detect your regional language is French. Do you want to change site's language to French? You may choose other languages.

International

English
中文
русск
français
español
العربية
No Change
Old Version Old Version
Mobile
Scan this QR code on your phone to browse IKCEST
Sign up Notification
LV1 10/100
User Center
My Training Class
Feedback
 Logout
Become author
ALL
ALL Expert Article Patent Conference Article Book Organization
Multilingual Search
Advanced Search
Hot Search:

Pollution in Asian tropopause layer comes from human activities and natural sources, study finds
Jun 15, 2020

Source: https://phys.org/news/2020-06-pollution-asian-tropopause-layer-human.html

It takes around min to read this article.

June 15, 2020

Pollution in Asian tropopause layer comes from human activities and natural sources, study finds

by Li Yuan, Chinese Academy of Sciences

Pollution in Asian tropopause layer comes from human activities and natural sources, study finds
The two transport pathways for aerosols. Credit: WU Xue

The Asian Tropopause Aerosol Layer (ATAL) is a thin layer of aerosol with a thickness of about 3-4 km, which appears regularly at the height of the tropopause layer during the Asian summer monsoon (ASM) period over the Tibetan Plateau. How is it formed? Where are aerosols from? There questions have been debated since the discovery of ATAL in 2011.

Drs. Zhang Jinqiang and Wu Xue from the Institute of Atmospheric Physics (IAP) of the Chinese Academy of Sciences (CAS), in collaboration with scientists from the Aerospace Information Research Institute of CAS, conducted in situ observations using a balloon-borne portable optical particle counter (POPS), aiming to further understand the composition and sources of the ATAL. The observation campaigns were conducted in the summer of 2018 and 2019 at Golmud and Qaidam in Qinghai Province of China.

"If we would like to further understand the possible source regions of the observed aerosols, a Lagrangian particle dispersion model is the right tool to do the job," said Wu.

They combined the observations with the simulation results from a Lagrangian model called MPTRAC and found that part of the in the ATAL was transported vertically from the Earth's surface at the southwest of the Himalayas to the ATAL by the convection formed during the ASM season; while the majority of the aerosols could be transported from the upper troposphere to the tropopause via a spiral upward transport inside of the ASM anticyclone. So the composition of the aerosols in Southwest Asia in the boundary layer, as well as the aerosols in the upper troposphere may eventually influence the ATAL.

Pollution in Asian tropopause layer comes from human activities and natural sources, study finds
The camp of the 2019 summer campaign at Qaidam, Qianghai China. Credit: ZHANG Jinqiang

"The aerosols in the are mostly pollution out of human activities, and the aerosols in the upper troposphere may also contain natural aerosols, like mineral dust and volcanic sulfate aerosols," said Wu.

In situ observations for multiple years are essential to studying the ATAL, and Zhang is now preparing campaign in the 2020 summer.

Their study was recently published in Environmental Research Letters.

Explore further

Ammonia from agriculture influences cloud formation over Asia
More information: Jinqiang Zhang et al. Aerosol variations in the upper troposphere and lower stratosphere over the Tibetan Plateau, Environmental Research Letters (2020). DOI: 10.1088/1748-9326/ab9b43
Journal information: Environmental Research Letters
Provided by Chinese Academy of Sciences
Citation: Pollution in Asian tropopause layer comes from human activities and natural sources, study finds (2020, June 15) retrieved 15 June 2020 from https://phys.org/news/2020-06-pollution-asian-tropopause-layer-human.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Original Text (This is the original text for your reference.)

June 15, 2020

Pollution in Asian tropopause layer comes from human activities and natural sources, study finds

by Li Yuan, Chinese Academy of Sciences

Pollution in Asian tropopause layer comes from human activities and natural sources, study finds
The two transport pathways for aerosols. Credit: WU Xue

The Asian Tropopause Aerosol Layer (ATAL) is a thin layer of aerosol with a thickness of about 3-4 km, which appears regularly at the height of the tropopause layer during the Asian summer monsoon (ASM) period over the Tibetan Plateau. How is it formed? Where are aerosols from? There questions have been debated since the discovery of ATAL in 2011.

Drs. Zhang Jinqiang and Wu Xue from the Institute of Atmospheric Physics (IAP) of the Chinese Academy of Sciences (CAS), in collaboration with scientists from the Aerospace Information Research Institute of CAS, conducted in situ observations using a balloon-borne portable optical particle counter (POPS), aiming to further understand the composition and sources of the ATAL. The observation campaigns were conducted in the summer of 2018 and 2019 at Golmud and Qaidam in Qinghai Province of China.

"If we would like to further understand the possible source regions of the observed aerosols, a Lagrangian particle dispersion model is the right tool to do the job," said Wu.

They combined the observations with the simulation results from a Lagrangian model called MPTRAC and found that part of the in the ATAL was transported vertically from the Earth's surface at the southwest of the Himalayas to the ATAL by the convection formed during the ASM season; while the majority of the aerosols could be transported from the upper troposphere to the tropopause via a spiral upward transport inside of the ASM anticyclone. So the composition of the aerosols in Southwest Asia in the boundary layer, as well as the aerosols in the upper troposphere may eventually influence the ATAL.

Pollution in Asian tropopause layer comes from human activities and natural sources, study finds
The camp of the 2019 summer campaign at Qaidam, Qianghai China. Credit: ZHANG Jinqiang

"The aerosols in the are mostly pollution out of human activities, and the aerosols in the upper troposphere may also contain natural aerosols, like mineral dust and volcanic sulfate aerosols," said Wu.

In situ observations for multiple years are essential to studying the ATAL, and Zhang is now preparing campaign in the 2020 summer.

Their study was recently published in Environmental Research Letters.

Explore further

Ammonia from agriculture influences cloud formation over Asia
More information: Jinqiang Zhang et al. Aerosol variations in the upper troposphere and lower stratosphere over the Tibetan Plateau, Environmental Research Letters (2020). DOI: 10.1088/1748-9326/ab9b43
Journal information: Environmental Research Letters
Provided by Chinese Academy of Sciences
Citation: Pollution in Asian tropopause layer comes from human activities and natural sources, study finds (2020, June 15) retrieved 15 June 2020 from https://phys.org/news/2020-06-pollution-asian-tropopause-layer-human.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
Comments

    Something to say?

    Log in or Sign up for free

    Disclaimer: The translated content is provided by third-party translation service providers, and IKCEST shall not assume any responsibility for the accuracy and legality of the content.
    Translate engine
    Article's language
    English
    中文
    Pусск
    Français
    Español
    العربية
    Português
    Kikongo
    Dutch
    kiswahili
    هَوُسَ
    IsiZulu
    Action
    Report Collection
    Share
    Related

    Report

    Select your report category*



    Reason*



    By pressing send, your feedback will be used to improve IKCEST. Your privacy will be protected.

    Submit
    Cancel
    ICP备案号:京ICP备14021735号-1    © 2008 - 2023 IKCEST All rights reserved | Sitemap | Contact | About IKCEST

    New sign-in location:     

    Last sign-in location:     

    Last sign-in date: