INVESTIGATING DYNAMIC GLACIER PROCESSES, MASS LOSS, AND COUPLED INTERACTIONS WITH THE SOLID EARTH USING SATELLITE GEODESY

196 pages Glaciers outside of the Greenland and Antarctic ice sheets currently comprise ~1/3 of the cryosphere’s contribution to sea level rise (SLR) and are expected to remain a significant contributor during the 21st century. Glaciers represent vast reservoirs of fresh water, and their melt waters...

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Main Author: Durkin, William Joseph
Other Authors: Pritchard, Matthew, Cathles, Lawrence M., Silberstein, Meredith
Format: Thesis
Language:English
Published: 2019
Subjects:
Antarctic
Greenland
Antarc*
glacier
glaciers
Iceland
Tidewater
Alaska
Online Access:https://hdl.handle.net/1813/70017
http://dissertations.umi.com/cornellgrad:11760
https://doi.org/10.7298/tt6c-hk66
id ftcornelluniv:oai:ecommons.cornell.edu:1813/70017
record_format openpolar
spelling ftcornelluniv:oai:ecommons.cornell.edu:1813/70017 2023-07-30T03:56:22+02:00 INVESTIGATING DYNAMIC GLACIER PROCESSES, MASS LOSS, AND COUPLED INTERACTIONS WITH THE SOLID EARTH USING SATELLITE GEODESY Durkin, William Joseph Pritchard, Matthew Cathles, Lawrence M. Silberstein, Meredith 2019-12 application/pdf https://hdl.handle.net/1813/70017 http://dissertations.umi.com/cornellgrad:11760 https://doi.org/10.7298/tt6c-hk66 en eng Durkin_cornellgrad_0058F_11760 http://dissertations.umi.com/cornellgrad:11760 https://hdl.handle.net/1813/70017 https://doi.org/10.7298/tt6c-hk66 Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/ dissertation or thesis 2019 ftcornelluniv https://doi.org/10.7298/tt6c-hk66 2023-07-15T18:42:56Z 196 pages Glaciers outside of the Greenland and Antarctic ice sheets currently comprise ~1/3 of the cryosphere’s contribution to sea level rise (SLR) and are expected to remain a significant contributor during the 21st century. Glaciers represent vast reservoirs of fresh water, and their melt waters are often an important component of hydropower and agriculture for communities living in glacierized watersheds. In addition to surface melt, glaciers that terminate in the ocean (i.e., marine terminating or tidewater glaciers) can rapidly retreat and discharge large amounts ice from upper regions into the ocean. These processes are largely decoupled from climate and represent a major source of uncertainty in SLR projections. As glaciers redistribute their mass through ice discharge and melting, they evoke a deformational response of the solid Earth that can be used to better understand these processes or, conversely, probe the mechanical properties of the Earth’s interior. In this thesis, I use a variety of geodetic data and numerical models to quantify the changes to the cryosphere and the response of the sold Earth in Alaska and Iceland. I begin by investigating the processes promoting the advance of the marine terminating Yahtse Glacier in southern Alaska. Using the pixel tracking technique with satellite imagery, I construct a time series of the glacier’s velocity spanning the years 1985 – 2016. Rates of ice elevation change during years 2000 – 2014 are estimated from a time series of satellite-derived digital elevation maps (DEMs) by fitting a trend to the elevations on a pixel-by-pixel basis. We find that the development of a submarine shoal stabilizes the glacier’s terminus, causing the terminus to compressively thicken by ~6 m/yr and decelerate by ~45%. A steep (up to 35% slope) icefall prevents these stabilities from reaching the majority of the glacier. The continued influx of ice to an increasingly stable terminus promotes the glacier’s advance and highlights the important role of geometric controls in ... Thesis Antarc* Antarctic glacier glacier glacier glaciers Greenland Iceland Tidewater Alaska Cornell University: eCommons@Cornell Antarctic Greenland
institution Open Polar
collection Cornell University: eCommons@Cornell
op_collection_id ftcornelluniv
language English
description 196 pages Glaciers outside of the Greenland and Antarctic ice sheets currently comprise ~1/3 of the cryosphere’s contribution to sea level rise (SLR) and are expected to remain a significant contributor during the 21st century. Glaciers represent vast reservoirs of fresh water, and their melt waters are often an important component of hydropower and agriculture for communities living in glacierized watersheds. In addition to surface melt, glaciers that terminate in the ocean (i.e., marine terminating or tidewater glaciers) can rapidly retreat and discharge large amounts ice from upper regions into the ocean. These processes are largely decoupled from climate and represent a major source of uncertainty in SLR projections. As glaciers redistribute their mass through ice discharge and melting, they evoke a deformational response of the solid Earth that can be used to better understand these processes or, conversely, probe the mechanical properties of the Earth’s interior. In this thesis, I use a variety of geodetic data and numerical models to quantify the changes to the cryosphere and the response of the sold Earth in Alaska and Iceland. I begin by investigating the processes promoting the advance of the marine terminating Yahtse Glacier in southern Alaska. Using the pixel tracking technique with satellite imagery, I construct a time series of the glacier’s velocity spanning the years 1985 – 2016. Rates of ice elevation change during years 2000 – 2014 are estimated from a time series of satellite-derived digital elevation maps (DEMs) by fitting a trend to the elevations on a pixel-by-pixel basis. We find that the development of a submarine shoal stabilizes the glacier’s terminus, causing the terminus to compressively thicken by ~6 m/yr and decelerate by ~45%. A steep (up to 35% slope) icefall prevents these stabilities from reaching the majority of the glacier. The continued influx of ice to an increasingly stable terminus promotes the glacier’s advance and highlights the important role of geometric controls in ...
author2 Pritchard, Matthew
Cathles, Lawrence M.
Silberstein, Meredith
format Thesis
author Durkin, William Joseph
spellingShingle Durkin, William Joseph
INVESTIGATING DYNAMIC GLACIER PROCESSES, MASS LOSS, AND COUPLED INTERACTIONS WITH THE SOLID EARTH USING SATELLITE GEODESY
author_facet Durkin, William Joseph
author_sort Durkin, William Joseph
title INVESTIGATING DYNAMIC GLACIER PROCESSES, MASS LOSS, AND COUPLED INTERACTIONS WITH THE SOLID EARTH USING SATELLITE GEODESY
title_short INVESTIGATING DYNAMIC GLACIER PROCESSES, MASS LOSS, AND COUPLED INTERACTIONS WITH THE SOLID EARTH USING SATELLITE GEODESY
title_full INVESTIGATING DYNAMIC GLACIER PROCESSES, MASS LOSS, AND COUPLED INTERACTIONS WITH THE SOLID EARTH USING SATELLITE GEODESY
title_fullStr INVESTIGATING DYNAMIC GLACIER PROCESSES, MASS LOSS, AND COUPLED INTERACTIONS WITH THE SOLID EARTH USING SATELLITE GEODESY
title_full_unstemmed INVESTIGATING DYNAMIC GLACIER PROCESSES, MASS LOSS, AND COUPLED INTERACTIONS WITH THE SOLID EARTH USING SATELLITE GEODESY
title_sort investigating dynamic glacier processes, mass loss, and coupled interactions with the solid earth using satellite geodesy
publishDate 2019
url https://hdl.handle.net/1813/70017
http://dissertations.umi.com/cornellgrad:11760
https://doi.org/10.7298/tt6c-hk66
geographic Antarctic
Greenland
geographic_facet Antarctic
Greenland
genre Antarc*
Antarctic
glacier
glacier
glacier
glaciers
Greenland
Iceland
Tidewater
Alaska
genre_facet Antarc*
Antarctic
glacier
glacier
glacier
glaciers
Greenland
Iceland
Tidewater
Alaska
op_relation Durkin_cornellgrad_0058F_11760
http://dissertations.umi.com/cornellgrad:11760
https://hdl.handle.net/1813/70017
https://doi.org/10.7298/tt6c-hk66
op_rights Attribution 4.0 International
https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.7298/tt6c-hk66
_version_ 1772812993311014912

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