Role of the QBO in Modulating the Influence of the 11 Year Solar Cycle on the Atmosphere Using Constant Forcings

We present a set of six 20 year experiments made with a state of the art chemistry-climate model that incorporates the atmosphere from the surface to the lower thermosphere. The response of the middle atmosphere to the 11 year solar cycle, its impact on the troposphere, and especially the role of an...

Full description

Bibliographic Details
Main Authors: Matthes, Katja, Marsh, Daniel R, Garcia, Rolando R, Kinnison, Douglas E, Sassi, Fabrizio, Walters, Stacy
Other Authors: NAVAL RESEARCH LAB WASHINGTON DC
Format: Text
Language:English
Published: 2010
Subjects:
Astrophysics
Meteorology
Mechanics
*CLIMATE
*OSCILLATION
*SOLAR ATMOSPHERE
*SOLAR CYCLE
*STATE OF THE ART
ATMOSPHERES
CIRCULATION
LATITUDE
MODEL TESTS
OZONE
SEA WATER
SOUTHERN HEMISPHERE
STRATOSPHERE
SURFACE TEMPERATURE
TROPICAL REGIONS
TROPOSPHERE
QBO(QUASI-BIENNIAL OSCILLATION)
WACCM3(WHOLE ATMOSPHERE COMMUNITY CLIMATE MODEL)
polar night
Online Access:http://www.dtic.mil/docs/citations/ADA553484
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA553484
id ftdtic:ADA553484
record_format openpolar
spelling ftdtic:ADA553484 2023-05-15T18:02:18+02:00 Role of the QBO in Modulating the Influence of the 11 Year Solar Cycle on the Atmosphere Using Constant Forcings Matthes, Katja Marsh, Daniel R Garcia, Rolando R Kinnison, Douglas E Sassi, Fabrizio Walters, Stacy NAVAL RESEARCH LAB WASHINGTON DC 2010-09-21 text/html http://www.dtic.mil/docs/citations/ADA553484 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA553484 en eng http://www.dtic.mil/docs/citations/ADA553484 Approved for public release; distribution is unlimited. DTIC Astrophysics Meteorology Mechanics *CLIMATE *OSCILLATION *SOLAR ATMOSPHERE *SOLAR CYCLE *STATE OF THE ART ATMOSPHERES CIRCULATION LATITUDE MODEL TESTS OZONE SEA WATER SOUTHERN HEMISPHERE STRATOSPHERE SURFACE TEMPERATURE TROPICAL REGIONS TROPOSPHERE QBO(QUASI-BIENNIAL OSCILLATION) WACCM3(WHOLE ATMOSPHERE COMMUNITY CLIMATE MODEL) Text 2010 ftdtic 2016-02-23T09:50:10Z We present a set of six 20 year experiments made with a state of the art chemistry-climate model that incorporates the atmosphere from the surface to the lower thermosphere. The response of the middle atmosphere to the 11 year solar cycle, its impact on the troposphere, and especially the role of an externally prescribed stratospheric quasi biennial oscillation (QBO) is investigated with NCAR s Whole Atmosphere Community Climate Model (WACCM3). The model experiments use either fixed solar cycle inputs or fixed solar cycle together with prescribed QBO phase. The annual mean solar response in temperature and ozone in the upper stratosphere is in qualitative agreement with other modeling and observational studies and does not depend on the presence of the imposed QBO. However, the solar response in the middle to lower stratosphere differs significantly for the two QBO phases. During solar maxima a weaker Brewer Dobson circulation with relative downwelling, warming, and enhanced ozone occurs in the tropical lower stratosphere during QBO east conditions, while a stronger circulation, cooling, and decreased ozone exists during QBO west conditions. The net ozone increase during QBO east is the combined result of production and advection, whereas during QBO west the effects cancel each other and result in little net ozone changes. Especially during Southern Hemisphere late winter to early spring, the solar response at polar latitudes switches sign between the two QBO phases and qualitatively confirms observations and other recent model studies. During a poleward downward modulation of the polar night jet and a corresponding modulation of the Brewer Dobson circulation in time, solar signals are detected all the way down to the extratropical troposphere. Possible limitations of the model experiments with respect to the fixed solar cycle conditions or the prescribed QBO phases, as well as the constant sea surface temperatures, are discussed. Ppub. in Journal of Geophysical research, v115, p1-17, 2010. Text polar night Defense Technical Information Center: DTIC Technical Reports database
institution Open Polar
collection Defense Technical Information Center: DTIC Technical Reports database
op_collection_id ftdtic
language English
topic Astrophysics
Meteorology
Mechanics
*CLIMATE
*OSCILLATION
*SOLAR ATMOSPHERE
*SOLAR CYCLE
*STATE OF THE ART
ATMOSPHERES
CIRCULATION
LATITUDE
MODEL TESTS
OZONE
SEA WATER
SOUTHERN HEMISPHERE
STRATOSPHERE
SURFACE TEMPERATURE
TROPICAL REGIONS
TROPOSPHERE
QBO(QUASI-BIENNIAL OSCILLATION)
WACCM3(WHOLE ATMOSPHERE COMMUNITY CLIMATE MODEL)
spellingShingle Astrophysics
Meteorology
Mechanics
*CLIMATE
*OSCILLATION
*SOLAR ATMOSPHERE
*SOLAR CYCLE
*STATE OF THE ART
ATMOSPHERES
CIRCULATION
LATITUDE
MODEL TESTS
OZONE
SEA WATER
SOUTHERN HEMISPHERE
STRATOSPHERE
SURFACE TEMPERATURE
TROPICAL REGIONS
TROPOSPHERE
QBO(QUASI-BIENNIAL OSCILLATION)
WACCM3(WHOLE ATMOSPHERE COMMUNITY CLIMATE MODEL)
Matthes, Katja
Marsh, Daniel R
Garcia, Rolando R
Kinnison, Douglas E
Sassi, Fabrizio
Walters, Stacy
Role of the QBO in Modulating the Influence of the 11 Year Solar Cycle on the Atmosphere Using Constant Forcings
topic_facet Astrophysics
Meteorology
Mechanics
*CLIMATE
*OSCILLATION
*SOLAR ATMOSPHERE
*SOLAR CYCLE
*STATE OF THE ART
ATMOSPHERES
CIRCULATION
LATITUDE
MODEL TESTS
OZONE
SEA WATER
SOUTHERN HEMISPHERE
STRATOSPHERE
SURFACE TEMPERATURE
TROPICAL REGIONS
TROPOSPHERE
QBO(QUASI-BIENNIAL OSCILLATION)
WACCM3(WHOLE ATMOSPHERE COMMUNITY CLIMATE MODEL)
description We present a set of six 20 year experiments made with a state of the art chemistry-climate model that incorporates the atmosphere from the surface to the lower thermosphere. The response of the middle atmosphere to the 11 year solar cycle, its impact on the troposphere, and especially the role of an externally prescribed stratospheric quasi biennial oscillation (QBO) is investigated with NCAR s Whole Atmosphere Community Climate Model (WACCM3). The model experiments use either fixed solar cycle inputs or fixed solar cycle together with prescribed QBO phase. The annual mean solar response in temperature and ozone in the upper stratosphere is in qualitative agreement with other modeling and observational studies and does not depend on the presence of the imposed QBO. However, the solar response in the middle to lower stratosphere differs significantly for the two QBO phases. During solar maxima a weaker Brewer Dobson circulation with relative downwelling, warming, and enhanced ozone occurs in the tropical lower stratosphere during QBO east conditions, while a stronger circulation, cooling, and decreased ozone exists during QBO west conditions. The net ozone increase during QBO east is the combined result of production and advection, whereas during QBO west the effects cancel each other and result in little net ozone changes. Especially during Southern Hemisphere late winter to early spring, the solar response at polar latitudes switches sign between the two QBO phases and qualitatively confirms observations and other recent model studies. During a poleward downward modulation of the polar night jet and a corresponding modulation of the Brewer Dobson circulation in time, solar signals are detected all the way down to the extratropical troposphere. Possible limitations of the model experiments with respect to the fixed solar cycle conditions or the prescribed QBO phases, as well as the constant sea surface temperatures, are discussed. Ppub. in Journal of Geophysical research, v115, p1-17, 2010.
author2 NAVAL RESEARCH LAB WASHINGTON DC
format Text
author Matthes, Katja
Marsh, Daniel R
Garcia, Rolando R
Kinnison, Douglas E
Sassi, Fabrizio
Walters, Stacy
author_facet Matthes, Katja
Marsh, Daniel R
Garcia, Rolando R
Kinnison, Douglas E
Sassi, Fabrizio
Walters, Stacy
author_sort Matthes, Katja
title Role of the QBO in Modulating the Influence of the 11 Year Solar Cycle on the Atmosphere Using Constant Forcings
title_short Role of the QBO in Modulating the Influence of the 11 Year Solar Cycle on the Atmosphere Using Constant Forcings
title_full Role of the QBO in Modulating the Influence of the 11 Year Solar Cycle on the Atmosphere Using Constant Forcings
title_fullStr Role of the QBO in Modulating the Influence of the 11 Year Solar Cycle on the Atmosphere Using Constant Forcings
title_full_unstemmed Role of the QBO in Modulating the Influence of the 11 Year Solar Cycle on the Atmosphere Using Constant Forcings
title_sort role of the qbo in modulating the influence of the 11 year solar cycle on the atmosphere using constant forcings
publishDate 2010
url http://www.dtic.mil/docs/citations/ADA553484
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA553484
genre polar night
genre_facet polar night
op_source DTIC
op_relation http://www.dtic.mil/docs/citations/ADA553484
op_rights Approved for public release; distribution is unlimited.
_version_ 1766172114988040192

Similar Items