Testing our understanding of Arctic denitrification using MIPAS-E satellite measurements in winter 2002/2003

Observations of gas-phase HNO[Subscript: 3] and N[Subscript: 2]O in the polar stratosphere from the Michelson Interferometer for Passive Atmospheric Sounding aboard the ENVISAT satellite (MIPAS-E) were made during the cold Arctic winter of 2002/2003. Vortex temperatures were unusually low in early w...

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Bibliographic Details
Main Authors: S. Davies, G. W. Mann, K. S. Carslaw, M. P. Chipperfield, John J. Remedios, G. Allen, A. M. Waterfall, R. Spang, GC Toon
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2006
Subjects:
Uncategorized
Science & Technology
Physical Sciences
Meteorology & Atmospheric Sciences
LARGE HNO3-CONTAINING PARTICLES
STRATOSPHERIC AEROSOLS
MICROPHYSICAL MODEL
POLAR VORTEX
OZONE LOSS
HNO3
NUCLEATION
CLOUDS
CRISTA
NAT
Arctic
Online Access:https://figshare.com/articles/journal_contribution/Testing_our_understanding_of_Arctic_denitrification_using_MIPAS-E_satellite_measurements_in_winter_2002_2003/10160762
id ftleicesterunfig:oai:figshare.com:article/10160762
record_format openpolar
spelling ftleicesterunfig:oai:figshare.com:article/10160762 2023-05-15T14:55:53+02:00 Testing our understanding of Arctic denitrification using MIPAS-E satellite measurements in winter 2002/2003 S. Davies G. W. Mann K. S. Carslaw M. P. Chipperfield John J. Remedios G. Allen A. M. Waterfall R. Spang GC Toon 2006-07-31T00:00:00Z https://figshare.com/articles/journal_contribution/Testing_our_understanding_of_Arctic_denitrification_using_MIPAS-E_satellite_measurements_in_winter_2002_2003/10160762 unknown 2381/36657 https://figshare.com/articles/journal_contribution/Testing_our_understanding_of_Arctic_denitrification_using_MIPAS-E_satellite_measurements_in_winter_2002_2003/10160762 All Rights Reserved Uncategorized Science & Technology Physical Sciences Meteorology & Atmospheric Sciences LARGE HNO3-CONTAINING PARTICLES STRATOSPHERIC AEROSOLS MICROPHYSICAL MODEL POLAR VORTEX OZONE LOSS HNO3 NUCLEATION CLOUDS CRISTA NAT Text Journal contribution 2006 ftleicesterunfig 2021-11-11T19:42:53Z Observations of gas-phase HNO[Subscript: 3] and N[Subscript: 2]O in the polar stratosphere from the Michelson Interferometer for Passive Atmospheric Sounding aboard the ENVISAT satellite (MIPAS-E) were made during the cold Arctic winter of 2002/2003. Vortex temperatures were unusually low in early winter and remained favourable for polar stratospheric cloud formation and denitrification until mid-January. MIPAS-E observations provide the first dataset with sufficient coverage of the polar vortex in mid-winter which enables a reasonable estimate of the timing of onset and spatial distribution of denitrification of the Arctic lower stratosphere to be performed. We use the observations from MIPAS-E to test the evolution of denitrification in the DLAPSE (Denitrification by Lagrangian Particle Sedimentation) microphysical denitrification model coupled to the SLIMCAT chemical transport model. In addition, the predicted denitrification from a simple equilibrium nitric acid trihydrate-based scheme is also compared with MIPAS-E. Modelled denitrification is compared with in-vortex NOy and N2O observations from the balloon-borne MarkIV interferometer in mid-December. Denitrification was clearly observed by MIPAS-E in mid-December 2002 and reached 80% in the core of the vortex by early January 2003. The DLAPSE model is broadly able to capture both the timing of onset and the spatial distribution of the observed denitrification. A simple thermodynamic equilibrium scheme is able to reproduce the observed denitrification in the core of the vortex but overestimates denitrification closer to the vortex edge. This study also suggests that the onset of denitrification in simple thermodynamic schemes may be earlier than in the MIPAS-E observations. Other Non-Article Part of Journal/Newspaper Arctic University of Leicester: Figshare Arctic
institution Open Polar
collection University of Leicester: Figshare
op_collection_id ftleicesterunfig
language unknown
topic Uncategorized
Science & Technology
Physical Sciences
Meteorology & Atmospheric Sciences
LARGE HNO3-CONTAINING PARTICLES
STRATOSPHERIC AEROSOLS
MICROPHYSICAL MODEL
POLAR VORTEX
OZONE LOSS
HNO3
NUCLEATION
CLOUDS
CRISTA
NAT
spellingShingle Uncategorized
Science & Technology
Physical Sciences
Meteorology & Atmospheric Sciences
LARGE HNO3-CONTAINING PARTICLES
STRATOSPHERIC AEROSOLS
MICROPHYSICAL MODEL
POLAR VORTEX
OZONE LOSS
HNO3
NUCLEATION
CLOUDS
CRISTA
NAT
S. Davies
G. W. Mann
K. S. Carslaw
M. P. Chipperfield
John J. Remedios
G. Allen
A. M. Waterfall
R. Spang
GC Toon
Testing our understanding of Arctic denitrification using MIPAS-E satellite measurements in winter 2002/2003
topic_facet Uncategorized
Science & Technology
Physical Sciences
Meteorology & Atmospheric Sciences
LARGE HNO3-CONTAINING PARTICLES
STRATOSPHERIC AEROSOLS
MICROPHYSICAL MODEL
POLAR VORTEX
OZONE LOSS
HNO3
NUCLEATION
CLOUDS
CRISTA
NAT
description Observations of gas-phase HNO[Subscript: 3] and N[Subscript: 2]O in the polar stratosphere from the Michelson Interferometer for Passive Atmospheric Sounding aboard the ENVISAT satellite (MIPAS-E) were made during the cold Arctic winter of 2002/2003. Vortex temperatures were unusually low in early winter and remained favourable for polar stratospheric cloud formation and denitrification until mid-January. MIPAS-E observations provide the first dataset with sufficient coverage of the polar vortex in mid-winter which enables a reasonable estimate of the timing of onset and spatial distribution of denitrification of the Arctic lower stratosphere to be performed. We use the observations from MIPAS-E to test the evolution of denitrification in the DLAPSE (Denitrification by Lagrangian Particle Sedimentation) microphysical denitrification model coupled to the SLIMCAT chemical transport model. In addition, the predicted denitrification from a simple equilibrium nitric acid trihydrate-based scheme is also compared with MIPAS-E. Modelled denitrification is compared with in-vortex NOy and N2O observations from the balloon-borne MarkIV interferometer in mid-December. Denitrification was clearly observed by MIPAS-E in mid-December 2002 and reached 80% in the core of the vortex by early January 2003. The DLAPSE model is broadly able to capture both the timing of onset and the spatial distribution of the observed denitrification. A simple thermodynamic equilibrium scheme is able to reproduce the observed denitrification in the core of the vortex but overestimates denitrification closer to the vortex edge. This study also suggests that the onset of denitrification in simple thermodynamic schemes may be earlier than in the MIPAS-E observations.
format Other Non-Article Part of Journal/Newspaper
author S. Davies
G. W. Mann
K. S. Carslaw
M. P. Chipperfield
John J. Remedios
G. Allen
A. M. Waterfall
R. Spang
GC Toon
author_facet S. Davies
G. W. Mann
K. S. Carslaw
M. P. Chipperfield
John J. Remedios
G. Allen
A. M. Waterfall
R. Spang
GC Toon
author_sort S. Davies
title Testing our understanding of Arctic denitrification using MIPAS-E satellite measurements in winter 2002/2003
title_short Testing our understanding of Arctic denitrification using MIPAS-E satellite measurements in winter 2002/2003
title_full Testing our understanding of Arctic denitrification using MIPAS-E satellite measurements in winter 2002/2003
title_fullStr Testing our understanding of Arctic denitrification using MIPAS-E satellite measurements in winter 2002/2003
title_full_unstemmed Testing our understanding of Arctic denitrification using MIPAS-E satellite measurements in winter 2002/2003
title_sort testing our understanding of arctic denitrification using mipas-e satellite measurements in winter 2002/2003
publishDate 2006
url https://figshare.com/articles/journal_contribution/Testing_our_understanding_of_Arctic_denitrification_using_MIPAS-E_satellite_measurements_in_winter_2002_2003/10160762
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_relation 2381/36657
https://figshare.com/articles/journal_contribution/Testing_our_understanding_of_Arctic_denitrification_using_MIPAS-E_satellite_measurements_in_winter_2002_2003/10160762
op_rights All Rights Reserved
_version_ 1766327904073940992

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