A numerical study for the interdecadal variation in the northern-hemisphere winter circulation

It has been revealed in previous studies that one possible mechanism responsible for the interdecadal change of the Northern-Hemisphere (NH) circulation is the interdecadal sea-surface temperature (SST) change. It is thus hypothesized that the interdecadal SST change is one of the possible mechanism...

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Main Author: Chen, Jau-Ming
Format: Text
Language:English
Published: Iowa State University Digital Repository 1995
Subjects:
Geological and atmospheric sciences
Meteorology
Atmospheric Sciences
Greenland
Pacific
North Atlantic
Online Access:https://lib.dr.iastate.edu/rtd/10888
https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=11887&context=rtd
id ftiowastateuniv:oai:lib.dr.iastate.edu:rtd-11887
record_format openpolar
spelling ftiowastateuniv:oai:lib.dr.iastate.edu:rtd-11887 2023-05-15T16:30:31+02:00 A numerical study for the interdecadal variation in the northern-hemisphere winter circulation Chen, Jau-Ming 1995-01-01T08:00:00Z application/pdf https://lib.dr.iastate.edu/rtd/10888 https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=11887&context=rtd en eng Iowa State University Digital Repository https://lib.dr.iastate.edu/rtd/10888 https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=11887&context=rtd Retrospective Theses and Dissertations Geological and atmospheric sciences Meteorology Atmospheric Sciences text 1995 ftiowastateuniv 2018-11-26T02:42:11Z It has been revealed in previous studies that one possible mechanism responsible for the interdecadal change of the Northern-Hemisphere (NH) circulation is the interdecadal sea-surface temperature (SST) change. It is thus hypothesized that the interdecadal SST change is one of the possible mechanisms to induce the interdecadal change of the NH winter circulation. To test this hypothesis, two multi-decade (1946-92) climate simulations were performed with the R15 resolution of the NCAR CCM1: one incorporating the 12 calendar month climatological SSTs, the other using the real-time SSTs. By contrasting the results of these two climate simulations, the effect of SST anomalies on the interdecadal change of the NH winter circulation was found to induce (1) the equatorward expansion of the circumpolar vortex, (2) the deepening of three climatological troughs, and (3) three interdecadal variation modes of stationary eddies: Pacific/North America (PNA), PNA west (PNAW), and North Atlantic (NA) modes. These three interdecadal modes were found to be equivalent barotropic in their vertical structure. Horizontally, both the PNA and PNAW modes exhibited a teleconnection pattern over the Pacific/North American region, while the NA mode possessed a north-south three-cell structure over the Greenland/North Atlantic region. The temporal variations of these three modes consisted of a decadal trend and 15-20 year low-frequency oscillations;The interdecadal variation of general circulation statistics is regulated by that of the atmospheric circulation. In the thermal field, the transient heat flux diverges out of the warm anomalies and converges toward the cold anomalies. In the dynamic field, the cyclone activity over the midlatitude storm track region is affected by the variability of the north-south wind shear which is induced by the equatorward expansion of the circumpolar vortex;It is further demonstrated by linearized model simulations that (1) the tropical heating anomalies dominate over the extratropical heating anomalies as the primary mechanism to maintain the interdecadal change of the NH winter circulation, (2) the transient forcing anomalies are not important to the interdecadal circulation variability, and (3) the effect of the polar cooling is to amplify the stationary eddies. Text Greenland North Atlantic Digital Repository @ Iowa State University Greenland Pacific
institution Open Polar
collection Digital Repository @ Iowa State University
op_collection_id ftiowastateuniv
language English
topic Geological and atmospheric sciences
Meteorology
Atmospheric Sciences
spellingShingle Geological and atmospheric sciences
Meteorology
Atmospheric Sciences
Chen, Jau-Ming
A numerical study for the interdecadal variation in the northern-hemisphere winter circulation
topic_facet Geological and atmospheric sciences
Meteorology
Atmospheric Sciences
description It has been revealed in previous studies that one possible mechanism responsible for the interdecadal change of the Northern-Hemisphere (NH) circulation is the interdecadal sea-surface temperature (SST) change. It is thus hypothesized that the interdecadal SST change is one of the possible mechanisms to induce the interdecadal change of the NH winter circulation. To test this hypothesis, two multi-decade (1946-92) climate simulations were performed with the R15 resolution of the NCAR CCM1: one incorporating the 12 calendar month climatological SSTs, the other using the real-time SSTs. By contrasting the results of these two climate simulations, the effect of SST anomalies on the interdecadal change of the NH winter circulation was found to induce (1) the equatorward expansion of the circumpolar vortex, (2) the deepening of three climatological troughs, and (3) three interdecadal variation modes of stationary eddies: Pacific/North America (PNA), PNA west (PNAW), and North Atlantic (NA) modes. These three interdecadal modes were found to be equivalent barotropic in their vertical structure. Horizontally, both the PNA and PNAW modes exhibited a teleconnection pattern over the Pacific/North American region, while the NA mode possessed a north-south three-cell structure over the Greenland/North Atlantic region. The temporal variations of these three modes consisted of a decadal trend and 15-20 year low-frequency oscillations;The interdecadal variation of general circulation statistics is regulated by that of the atmospheric circulation. In the thermal field, the transient heat flux diverges out of the warm anomalies and converges toward the cold anomalies. In the dynamic field, the cyclone activity over the midlatitude storm track region is affected by the variability of the north-south wind shear which is induced by the equatorward expansion of the circumpolar vortex;It is further demonstrated by linearized model simulations that (1) the tropical heating anomalies dominate over the extratropical heating anomalies as the primary mechanism to maintain the interdecadal change of the NH winter circulation, (2) the transient forcing anomalies are not important to the interdecadal circulation variability, and (3) the effect of the polar cooling is to amplify the stationary eddies.
format Text
author Chen, Jau-Ming
author_facet Chen, Jau-Ming
author_sort Chen, Jau-Ming
title A numerical study for the interdecadal variation in the northern-hemisphere winter circulation
title_short A numerical study for the interdecadal variation in the northern-hemisphere winter circulation
title_full A numerical study for the interdecadal variation in the northern-hemisphere winter circulation
title_fullStr A numerical study for the interdecadal variation in the northern-hemisphere winter circulation
title_full_unstemmed A numerical study for the interdecadal variation in the northern-hemisphere winter circulation
title_sort numerical study for the interdecadal variation in the northern-hemisphere winter circulation
publisher Iowa State University Digital Repository
publishDate 1995
url https://lib.dr.iastate.edu/rtd/10888
https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=11887&context=rtd
geographic Greenland
Pacific
geographic_facet Greenland
Pacific
genre Greenland
North Atlantic
genre_facet Greenland
North Atlantic
op_source Retrospective Theses and Dissertations
op_relation https://lib.dr.iastate.edu/rtd/10888
https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=11887&context=rtd
_version_ 1766020248149950464

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