Annual Satellite Era Accumulation Patterns Over WAIS Divide: A Study Using Shallow Ice Cores, Near-Surface Radars and Satellites

Abstract: This award supports a project to broaden the knowledge of annual accumulation patterns over the West Antarctic Ice Sheet by processing existing near-surface radar data taken on the US ITASE traverse in 2000 and by gathering and validating new ultra/super-high-frequency (UHF) radar images o...

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Bibliographic Details
Main Author: Forster, Richard
Format: Dataset
Language:unknown
Published: IEDA: US Antarctic Program Data Center 2015
Subjects:
Airborne Radar
Antarctic Glaciology
WAIS Divide Ice Core
Geology/Geophysics - Other
Glaciology
Radar
Antarctica
Glaciers/Ice Sheet
Cryosphere
WAIS divide
US Antarctic Program Data Center (USAP-DC)
Antarctic
Reu
The Antarctic
West Antarctic Ice Sheet
Antarc*
ice core
Ice Sheet
Online Access:http://get.iedadata.org/metadata/iso/600146
id dataone:http://get.iedadata.org/metadata/iso/600146
record_format openpolar
institution Open Polar
collection IEDA: US Antarctic Program Data Center (via DataONE)
op_collection_id dataone:urn:node:IEDA_USAP
language unknown
topic Airborne Radar
Antarctic Glaciology
WAIS Divide Ice Core
Geology/Geophysics - Other
Glaciology
Radar
Antarctica
Glaciers/Ice Sheet
Cryosphere
WAIS divide
US Antarctic Program Data Center (USAP-DC)
spellingShingle Airborne Radar
Antarctic Glaciology
WAIS Divide Ice Core
Geology/Geophysics - Other
Glaciology
Radar
Antarctica
Glaciers/Ice Sheet
Cryosphere
WAIS divide
US Antarctic Program Data Center (USAP-DC)
Forster, Richard
Annual Satellite Era Accumulation Patterns Over WAIS Divide: A Study Using Shallow Ice Cores, Near-Surface Radars and Satellites
topic_facet Airborne Radar
Antarctic Glaciology
WAIS Divide Ice Core
Geology/Geophysics - Other
Glaciology
Radar
Antarctica
Glaciers/Ice Sheet
Cryosphere
WAIS divide
US Antarctic Program Data Center (USAP-DC)
description Abstract: This award supports a project to broaden the knowledge of annual accumulation patterns over the West Antarctic Ice Sheet by processing existing near-surface radar data taken on the US ITASE traverse in 2000 and by gathering and validating new ultra/super-high-frequency (UHF) radar images of near surface layers (to depths of ~15 m), expanding abilities to monitor recent annual accumulation patterns from point source ice cores to radar lines. Shallow (15 m) ice cores will be collected in conjunction with UHF radar images to confirm that radar echoed returns correspond with annual layers, and/or sub-annual density changes in the near-surface snow, as determined from ice core stable isotopes. This project will additionally improve accumulation monitoring from space-borne instruments by comparing the spatial-radar-derived-annual accumulation time series to the passive microwave time series dating back over 3 decades and covering most of Antarctica. The intellectual merit of this project is that mapping the spatial and temporal variations in accumulation rates over the Antarctic ice sheet is essential for understanding ice sheet responses to climate forcing. Antarctic precipitation rate is projected to increase up to 20% in the coming century from the predicted warming. Accumulation is a key component for determining ice sheet mass balance and, hence, sea level rise, yet our ability to measure annual accumulation variability over the past 5 decades (satellite era) is mostly limited to point-source ice cores. Developing a radar and ice core derived annual accumulation dataset will provide validation data for space-born remote sensing algorithms, climate models and, additionally, establish accumulation trends. The broader impacts of the project are that it will advance discovery and understanding within the climatology, glaciology and remote sensing communities by verifying the use of UHF radars to monitor annual layers as determined by visual, chemical and isotopic analysis from corresponding shallow ice cores and will provide a dataset of annual to near-annual accumulation measurements over the past ~5 decades across WAIS divide from existing radar data and proposed radar data. By determining if temporal changes in the passive microwave signal are correlated with temporal changes in accumulation will help assess the utility of passive microwave remote sensing to monitor accumulation rates over ice sheets for future decades. The project will promote teaching, training and learning, and increase representation of underrepresented groups by becoming involved in the NASA History of Winter project and Thermochron Mission and by providing K-12 teachers with training to monitor snow accumulation and temperature here in the US, linking polar research to the student's backyard. The project will train both undergraduate and graduate students in polar research and will encouraging young investigators to become involved in careers in science. In particular, two REU students will participate in original research projects as part of this larger project, from development of a hypothesis to presentation and publication of the results. The support of a new, young woman scientist will help to increase gender diversity in polar research.
format Dataset
author Forster, Richard
author_facet Forster, Richard
author_sort Forster, Richard
title Annual Satellite Era Accumulation Patterns Over WAIS Divide: A Study Using Shallow Ice Cores, Near-Surface Radars and Satellites
title_short Annual Satellite Era Accumulation Patterns Over WAIS Divide: A Study Using Shallow Ice Cores, Near-Surface Radars and Satellites
title_full Annual Satellite Era Accumulation Patterns Over WAIS Divide: A Study Using Shallow Ice Cores, Near-Surface Radars and Satellites
title_fullStr Annual Satellite Era Accumulation Patterns Over WAIS Divide: A Study Using Shallow Ice Cores, Near-Surface Radars and Satellites
title_full_unstemmed Annual Satellite Era Accumulation Patterns Over WAIS Divide: A Study Using Shallow Ice Cores, Near-Surface Radars and Satellites
title_sort annual satellite era accumulation patterns over wais divide: a study using shallow ice cores, near-surface radars and satellites
publisher IEDA: US Antarctic Program Data Center
publishDate 2015
url http://get.iedadata.org/metadata/iso/600146
op_coverage ENVELOPE(-119.4,-110.0,-78.1,-80.0)
BEGINDATE: 2010-08-01T00:00:00Z ENDDATE: 2015-07-31T00:00:00Z
long_lat ENVELOPE(65.600,65.600,-71.142,-71.142)
ENVELOPE(-119.4,-110.0,-78.1,-80.0)
geographic Antarctic
Reu
The Antarctic
West Antarctic Ice Sheet
geographic_facet Antarctic
Reu
The Antarctic
West Antarctic Ice Sheet
genre Antarc*
Antarctic
Antarctica
ice core
Ice Sheet
genre_facet Antarc*
Antarctic
Antarctica
ice core
Ice Sheet
_version_ 1800873011200393216
spelling dataone:http://get.iedadata.org/metadata/iso/600146 2024-06-03T18:46:24+00:00 Annual Satellite Era Accumulation Patterns Over WAIS Divide: A Study Using Shallow Ice Cores, Near-Surface Radars and Satellites Forster, Richard ENVELOPE(-119.4,-110.0,-78.1,-80.0) BEGINDATE: 2010-08-01T00:00:00Z ENDDATE: 2015-07-31T00:00:00Z 2015-01-01T00:00:00Z http://get.iedadata.org/metadata/iso/600146 unknown IEDA: US Antarctic Program Data Center Airborne Radar Antarctic Glaciology WAIS Divide Ice Core Geology/Geophysics - Other Glaciology Radar Antarctica Glaciers/Ice Sheet Cryosphere WAIS divide US Antarctic Program Data Center (USAP-DC) Dataset 2015 dataone:urn:node:IEDA_USAP 2024-06-03T18:11:58Z Abstract: This award supports a project to broaden the knowledge of annual accumulation patterns over the West Antarctic Ice Sheet by processing existing near-surface radar data taken on the US ITASE traverse in 2000 and by gathering and validating new ultra/super-high-frequency (UHF) radar images of near surface layers (to depths of ~15 m), expanding abilities to monitor recent annual accumulation patterns from point source ice cores to radar lines. Shallow (15 m) ice cores will be collected in conjunction with UHF radar images to confirm that radar echoed returns correspond with annual layers, and/or sub-annual density changes in the near-surface snow, as determined from ice core stable isotopes. This project will additionally improve accumulation monitoring from space-borne instruments by comparing the spatial-radar-derived-annual accumulation time series to the passive microwave time series dating back over 3 decades and covering most of Antarctica. The intellectual merit of this project is that mapping the spatial and temporal variations in accumulation rates over the Antarctic ice sheet is essential for understanding ice sheet responses to climate forcing. Antarctic precipitation rate is projected to increase up to 20% in the coming century from the predicted warming. Accumulation is a key component for determining ice sheet mass balance and, hence, sea level rise, yet our ability to measure annual accumulation variability over the past 5 decades (satellite era) is mostly limited to point-source ice cores. Developing a radar and ice core derived annual accumulation dataset will provide validation data for space-born remote sensing algorithms, climate models and, additionally, establish accumulation trends. The broader impacts of the project are that it will advance discovery and understanding within the climatology, glaciology and remote sensing communities by verifying the use of UHF radars to monitor annual layers as determined by visual, chemical and isotopic analysis from corresponding shallow ice cores and will provide a dataset of annual to near-annual accumulation measurements over the past ~5 decades across WAIS divide from existing radar data and proposed radar data. By determining if temporal changes in the passive microwave signal are correlated with temporal changes in accumulation will help assess the utility of passive microwave remote sensing to monitor accumulation rates over ice sheets for future decades. The project will promote teaching, training and learning, and increase representation of underrepresented groups by becoming involved in the NASA History of Winter project and Thermochron Mission and by providing K-12 teachers with training to monitor snow accumulation and temperature here in the US, linking polar research to the student's backyard. The project will train both undergraduate and graduate students in polar research and will encouraging young investigators to become involved in careers in science. In particular, two REU students will participate in original research projects as part of this larger project, from development of a hypothesis to presentation and publication of the results. The support of a new, young woman scientist will help to increase gender diversity in polar research. Dataset Antarc* Antarctic Antarctica ice core Ice Sheet IEDA: US Antarctic Program Data Center (via DataONE) Antarctic Reu ENVELOPE(65.600,65.600,-71.142,-71.142) The Antarctic West Antarctic Ice Sheet ENVELOPE(-119.4,-110.0,-78.1,-80.0)

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