El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region

El Niño Southern Oscillation events have global implications both climatologically and socio-economically. One such climatological teleconnection is manifested in the Amundsen Sea region (ASR). The Amundsen sea low (ASL) is the dominant low pressure system located around the ASR and is important to...

Full description

Bibliographic Details
Main Author: Yiu, Yu Yeung Scott
Format: Text
Language:unknown
Published: 2018
Subjects:
Austral
Amundsen Sea
Pacific
Antarc*
Antarctica
Online Access:http://nora.nerc.ac.uk/id/eprint/520208/
https://www.repository.cam.ac.uk/handle/1810/276236
id ftnerc:oai:nora.nerc.ac.uk:520208
record_format openpolar
spelling ftnerc:oai:nora.nerc.ac.uk:520208 2023-05-15T13:23:49+02:00 El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region Yiu, Yu Yeung Scott 2018-05 http://nora.nerc.ac.uk/id/eprint/520208/ https://www.repository.cam.ac.uk/handle/1810/276236 unknown Yiu, Yu Yeung Scott. 2018 El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region. University of Cambridge, Chemistry, PhD Thesis. Publication - Thesis NonPeerReviewed 2018 ftnerc 2023-02-04T19:46:39Z El Niño Southern Oscillation events have global implications both climatologically and socio-economically. One such climatological teleconnection is manifested in the Amundsen Sea region (ASR). The Amundsen sea low (ASL) is the dominant low pressure system located around the ASR and is important to the climate of Western Antarctica. Therefore, it is important to understand the ASL and any phenomena that may affect it. This thesis focuses on the ENSO--ASR teleconnection under El Niño conditions and the mechanism behind it. The ENSO--ASR teleconnection was explored using the UM version 8.4 (HadGEM3) model. Time--slice experiments with various magnitudes of idealised perpetual ENSO events are imposed. Two sets of `switch on' experiments in which tropical Pacific SSTs were ramped up were also carried out to investigate the transient nature of the teleconnection. The seasonality of the ENSO--ASR teleconnection is known from previous studies to be stronger in winter compared to summer. The mechanism behind the seasonality was explored using the time--slice experiments. The seasonality is found to originate from the seasonal differences in the Southern Hemispheric jets. As the subtropical jet is only present in austral winter, Rossby wave source anomalies can only be generated in the mid--latitudes in winter. Furthermore, the propagation of the Rossby waves is not possible in summer due to the strong polar front jet. The lack of the source and propagation in summer explains the weaker ENSO--ASR teleconnection. A flowchart summarising the mechanism was created and then verified by the transient runs. The linearity of the ENSO--ASR teleconnection within El Niño has not been previously investigated. This is mainly due to insufficient reanalysis data available to overcome the high internal variability in the ASR. In this thesis, the linearity of the teleconnection under El Niño is studied using the time--slice runs. The results indicate linearity (within errorbars) for both the summer and winter seasons up to historically ... Text Amundsen Sea Antarc* Antarctica Natural Environment Research Council: NERC Open Research Archive Austral Amundsen Sea Pacific
institution Open Polar
collection Natural Environment Research Council: NERC Open Research Archive
op_collection_id ftnerc
language unknown
description El Niño Southern Oscillation events have global implications both climatologically and socio-economically. One such climatological teleconnection is manifested in the Amundsen Sea region (ASR). The Amundsen sea low (ASL) is the dominant low pressure system located around the ASR and is important to the climate of Western Antarctica. Therefore, it is important to understand the ASL and any phenomena that may affect it. This thesis focuses on the ENSO--ASR teleconnection under El Niño conditions and the mechanism behind it. The ENSO--ASR teleconnection was explored using the UM version 8.4 (HadGEM3) model. Time--slice experiments with various magnitudes of idealised perpetual ENSO events are imposed. Two sets of `switch on' experiments in which tropical Pacific SSTs were ramped up were also carried out to investigate the transient nature of the teleconnection. The seasonality of the ENSO--ASR teleconnection is known from previous studies to be stronger in winter compared to summer. The mechanism behind the seasonality was explored using the time--slice experiments. The seasonality is found to originate from the seasonal differences in the Southern Hemispheric jets. As the subtropical jet is only present in austral winter, Rossby wave source anomalies can only be generated in the mid--latitudes in winter. Furthermore, the propagation of the Rossby waves is not possible in summer due to the strong polar front jet. The lack of the source and propagation in summer explains the weaker ENSO--ASR teleconnection. A flowchart summarising the mechanism was created and then verified by the transient runs. The linearity of the ENSO--ASR teleconnection within El Niño has not been previously investigated. This is mainly due to insufficient reanalysis data available to overcome the high internal variability in the ASR. In this thesis, the linearity of the teleconnection under El Niño is studied using the time--slice runs. The results indicate linearity (within errorbars) for both the summer and winter seasons up to historically ...
format Text
author Yiu, Yu Yeung Scott
spellingShingle Yiu, Yu Yeung Scott
El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region
author_facet Yiu, Yu Yeung Scott
author_sort Yiu, Yu Yeung Scott
title El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region
title_short El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region
title_full El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region
title_fullStr El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region
title_full_unstemmed El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region
title_sort el niño southern oscillation teleconnections and their effects on the amundsen sea region
publishDate 2018
url http://nora.nerc.ac.uk/id/eprint/520208/
https://www.repository.cam.ac.uk/handle/1810/276236
geographic Austral
Amundsen Sea
Pacific
geographic_facet Austral
Amundsen Sea
Pacific
genre Amundsen Sea
Antarc*
Antarctica
genre_facet Amundsen Sea
Antarc*
Antarctica
op_relation Yiu, Yu Yeung Scott. 2018 El Niño Southern Oscillation teleconnections and their effects on the Amundsen Sea region. University of Cambridge, Chemistry, PhD Thesis.
_version_ 1766375634986074112

Similar Items