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Growth in stratospheric chlorine from short-lived chemicals not controlled by the Montreal Protocol

Authors :
Hossaini, R.
Chipperfield, M.P.
Saiz-Lopez, A.
Harrison, J.J.
Glasow, Roland
Sommariva, R.
Atlas, Elliot L.
Navarro, M. A.
Montzka, S.A.
Feng, W.
Dhomse, S.
Harth, C.
Mühle, J.
Lunder, C.
O'Doherty, S.
Young, D.
Reimann, S.
Vollmer, M.K.
Krummel, P.B.
Bernath, P.F.
Hossaini, R.
Chipperfield, M.P.
Saiz-Lopez, A.
Harrison, J.J.
Glasow, Roland
Sommariva, R.
Atlas, Elliot L.
Navarro, M. A.
Montzka, S.A.
Feng, W.
Dhomse, S.
Harth, C.
Mühle, J.
Lunder, C.
O'Doherty, S.
Young, D.
Reimann, S.
Vollmer, M.K.
Krummel, P.B.
Bernath, P.F.
Publication Year :
2015

Abstract

©2015. The Authors. We have developed a chemical mechanism describing the tropospheric degradation of chlorine containing very short-lived substances (VSLS). The scheme was included in a global atmospheric model and used to quantify the stratospheric injection of chlorine from anthropogenic VSLS (ClyVSLS) between 2005 and 2013. By constraining the model with surface measurements of chloroform (CHCl3), dichloromethane (CH2Cl2), tetrachloroethene (C2Cl4), trichloroethene (C2HCl3), and 1,2-dichloroethane (CH2ClCH2Cl), we infer a 2013 ClyVSLS mixing ratio of 123 parts per trillion (ppt). Stratospheric injection of source gases dominates this supply, accounting for ∼83% of the total. The remainder comes from VSLS-derived organic products, phosgene (COCl2, 7%) and formyl chloride (CHClO, 2%), and also hydrogen chloride (HCl, 8%). Stratospheric ClyVSLS increased by ∼52% between 2005 and 2013, with a mean growth rate of 3.7 ppt Cl/yr. This increase is due to recent and ongoing growth in anthropogenic CH2Cl2 - the most abundant chlorinated VSLS not controlled by the Montreal Protocol.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1104782783
Document Type :
Electronic Resource