Controls on Spatial and Temporal Variation in Snow Accumulation on Glaciers in the Southern Alps, New Zealand

Mountain glaciers are already responding to climatic warming, and are expected to make a substantial contribution to sea-level rise in the coming decades. The aim of this investigation in the New Zealand Southern Alps was to improve our understanding of snow accumulation variability on mid-latitude...

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Main Author:	Purdie, Heather (11676058)
Format:	Thesis
Language:	unknown
Published:	2011
Subjects:	Earth Sciences not elsewhere classified Glacier Mass balance New Zealand School: Antarctic Research Centre 049999 Earth Sciences not elsewhere classified Marsden: 260115 Glaciology Degree Discipline: Geology Degree Level: Doctoral Degree Name: Doctor of Philosophy Antarctic Marsden Antarc* ice core
Online Access:	https://doi.org/10.26686/wgtn.16984816.v1

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record_format	openpolar
spelling	ftsmithonian:oai:figshare.com:article/16984816 2023-05-15T13:55:31+02:00 Controls on Spatial and Temporal Variation in Snow Accumulation on Glaciers in the Southern Alps, New Zealand Purdie, Heather (11676058) 2011-01-01T00:00:00Z https://doi.org/10.26686/wgtn.16984816.v1 unknown https://figshare.com/articles/thesis/Controls_on_Spatial_and_Temporal_Variation_in_Snow_Accumulation_on_Glaciers_in_the_Southern_Alps_New_Zealand/16984816 doi:10.26686/wgtn.16984816.v1 Author Retains Copyright Earth Sciences not elsewhere classified Glacier Mass balance New Zealand School: Antarctic Research Centre 049999 Earth Sciences not elsewhere classified Marsden: 260115 Glaciology Degree Discipline: Geology Degree Level: Doctoral Degree Name: Doctor of Philosophy Text Thesis 2011 ftsmithonian https://doi.org/10.26686/wgtn.16984816.v1 2021-12-19T22:12:50Z Mountain glaciers are already responding to climatic warming, and are expected to make a substantial contribution to sea-level rise in the coming decades. The aim of this investigation in the New Zealand Southern Alps was to improve our understanding of snow accumulation variability on mid-latitude maritime glaciers, in order to allow for better estimation of future glacier mass balance. The specific aim was to investigate snow accumulation processes at a range of spatial and temporal scales, focussing on synoptic-scale atmospheric circulation influences, moisture sources for snow accumulation and local-scale dependencies of snow accumulation in relation to topography. A range of methods were utilised including direct measurement, snow and ice core analysis, statistical analysis and modelling. Snow accumulation in the Southern Alps was found to be derived predominantly from the Tasman Sea, and deposited during low pressure troughs and fronts. Although precipitation increased with elevation, wind processes redistributed this mass. On a ~monthly timescale this redistribution caused an unexpected result, namely that wind deflation of snow on Franz Josef Glacier countered the effects of greater accumulation, and total accumulation was similar at both Franz Josef and Tasman Glaciers over this period. These processes make it challenging to simulate snow accumulation patterns by simply extrapolating snowfall over an orographic barrier from lowland climate station data. On an inter-annual basis, temperature, especially during the ablation season, had most influence on net accumulation, and warm summers served to homogenise winter variability. Consequently, atmospheric circulation patterns that affect summer temperature, for example the El Niño Southern Oscillation (ENSO) and the Southern Annular Mode (SAM) also influence inter-annual variability in net accumulation. Together, these results highlight the dependence of maritime glaciers in the New Zealand Southern Alps on the prevailing westerly circulation. Although some uncertainty surrounds how global warming will affect atmospheric circulation and synoptic weather patterns, the results of this research indicate that New Zealand glaciers can be expected to lose significant mass in the coming decades if the current positive trend in the SAM continues, and if La Niña events (positive ENSO) become more frequent. Thesis Antarc* Antarctic ice core Unknown Antarctic New Zealand Marsden ENVELOPE(66.067,66.067,-67.867,-67.867)
institution	Open Polar
collection	Unknown
op_collection_id	ftsmithonian
language	unknown
topic	Earth Sciences not elsewhere classified Glacier Mass balance New Zealand School: Antarctic Research Centre 049999 Earth Sciences not elsewhere classified Marsden: 260115 Glaciology Degree Discipline: Geology Degree Level: Doctoral Degree Name: Doctor of Philosophy
spellingShingle	Earth Sciences not elsewhere classified Glacier Mass balance New Zealand School: Antarctic Research Centre 049999 Earth Sciences not elsewhere classified Marsden: 260115 Glaciology Degree Discipline: Geology Degree Level: Doctoral Degree Name: Doctor of Philosophy Purdie, Heather (11676058) Controls on Spatial and Temporal Variation in Snow Accumulation on Glaciers in the Southern Alps, New Zealand
topic_facet	Earth Sciences not elsewhere classified Glacier Mass balance New Zealand School: Antarctic Research Centre 049999 Earth Sciences not elsewhere classified Marsden: 260115 Glaciology Degree Discipline: Geology Degree Level: Doctoral Degree Name: Doctor of Philosophy
description	Mountain glaciers are already responding to climatic warming, and are expected to make a substantial contribution to sea-level rise in the coming decades. The aim of this investigation in the New Zealand Southern Alps was to improve our understanding of snow accumulation variability on mid-latitude maritime glaciers, in order to allow for better estimation of future glacier mass balance. The specific aim was to investigate snow accumulation processes at a range of spatial and temporal scales, focussing on synoptic-scale atmospheric circulation influences, moisture sources for snow accumulation and local-scale dependencies of snow accumulation in relation to topography. A range of methods were utilised including direct measurement, snow and ice core analysis, statistical analysis and modelling. Snow accumulation in the Southern Alps was found to be derived predominantly from the Tasman Sea, and deposited during low pressure troughs and fronts. Although precipitation increased with elevation, wind processes redistributed this mass. On a ~monthly timescale this redistribution caused an unexpected result, namely that wind deflation of snow on Franz Josef Glacier countered the effects of greater accumulation, and total accumulation was similar at both Franz Josef and Tasman Glaciers over this period. These processes make it challenging to simulate snow accumulation patterns by simply extrapolating snowfall over an orographic barrier from lowland climate station data. On an inter-annual basis, temperature, especially during the ablation season, had most influence on net accumulation, and warm summers served to homogenise winter variability. Consequently, atmospheric circulation patterns that affect summer temperature, for example the El Niño Southern Oscillation (ENSO) and the Southern Annular Mode (SAM) also influence inter-annual variability in net accumulation. Together, these results highlight the dependence of maritime glaciers in the New Zealand Southern Alps on the prevailing westerly circulation. Although some uncertainty surrounds how global warming will affect atmospheric circulation and synoptic weather patterns, the results of this research indicate that New Zealand glaciers can be expected to lose significant mass in the coming decades if the current positive trend in the SAM continues, and if La Niña events (positive ENSO) become more frequent.
format	Thesis
author	Purdie, Heather (11676058)
author_facet	Purdie, Heather (11676058)
author_sort	Purdie, Heather (11676058)
title	Controls on Spatial and Temporal Variation in Snow Accumulation on Glaciers in the Southern Alps, New Zealand
title_short	Controls on Spatial and Temporal Variation in Snow Accumulation on Glaciers in the Southern Alps, New Zealand
title_full	Controls on Spatial and Temporal Variation in Snow Accumulation on Glaciers in the Southern Alps, New Zealand
title_fullStr	Controls on Spatial and Temporal Variation in Snow Accumulation on Glaciers in the Southern Alps, New Zealand
title_full_unstemmed	Controls on Spatial and Temporal Variation in Snow Accumulation on Glaciers in the Southern Alps, New Zealand
title_sort	controls on spatial and temporal variation in snow accumulation on glaciers in the southern alps, new zealand
publishDate	2011
url	https://doi.org/10.26686/wgtn.16984816.v1
long_lat	ENVELOPE(66.067,66.067,-67.867,-67.867)
geographic	Antarctic New Zealand Marsden
geographic_facet	Antarctic New Zealand Marsden
genre	Antarc* Antarctic ice core
genre_facet	Antarc* Antarctic ice core
op_relation	https://figshare.com/articles/thesis/Controls_on_Spatial_and_Temporal_Variation_in_Snow_Accumulation_on_Glaciers_in_the_Southern_Alps_New_Zealand/16984816 doi:10.26686/wgtn.16984816.v1
op_rights	Author Retains Copyright
op_doi	https://doi.org/10.26686/wgtn.16984816.v1
_version_	1766262192495132672

Controls on Spatial and Temporal Variation in Snow Accumulation on Glaciers in the Southern Alps, New Zealand

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