Upper mantle viscosity underneath northern Marguerite Bay, Antarctic Peninsula constrained by bedrock uplift and ice mass variability

We constrain viscoelastic Earth rheology and recent ice-mass change in the northern Marguerite Bay region of the Antarctic Peninsula. Global Positioning System (GPS) time series from Rothera and San Martin stations show bedrock uplift range of ∼−0.8–1.8 mm/year over 1999–2005 and 2016–2020 but ∼3.5–...

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Bibliographic Details
Main Authors:	Nahidul Samrat, Matt A King, Christopher Watson, Andrea Hay, Valentina R Barletta, Andrea Bordoni
Format:	Other Non-Article Part of Journal/Newspaper
Language:	unknown
Published:	2021
Subjects:	Physical Geography and Environmental Geoscience not elsewhere classified Satellite geodesy Space geodetic surveys Antartica Dynamics of lithosphere and mantle Ice mass Rheology: lithosphere and mantle Meteorology & Atmospheric Sciences Antarctic Antarctic Peninsula Marguerite Marguerite Bay Rothera The Antarctic Antarc* antartic*
Online Access:	http://hdl.handle.net/10779/cqu.20103782.v1

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record_format	openpolar
spelling	ftcquniportalfig:oai:figshare.com:article/20103782 2023-05-15T13:40:47+02:00 Upper mantle viscosity underneath northern Marguerite Bay, Antarctic Peninsula constrained by bedrock uplift and ice mass variability Nahidul Samrat Matt A King Christopher Watson Andrea Hay Valentina R Barletta Andrea Bordoni 2021-12-28T00:00:00Z http://hdl.handle.net/10779/cqu.20103782.v1 unknown https://figshare.com/articles/journal_contribution/Upper_mantle_viscosity_underneath_northern_Marguerite_Bay_Antarctic_Peninsula_constrained_by_bedrock_uplift_and_ice_mass_variability/20103782 http://hdl.handle.net/10779/cqu.20103782.v1 CQUniversity General 1.0 Physical Geography and Environmental Geoscience not elsewhere classified Satellite geodesy Space geodetic surveys Antartica Dynamics of lithosphere and mantle Ice mass Rheology: lithosphere and mantle Meteorology & Atmospheric Sciences Text Journal contribution 2021 ftcquniportalfig 2022-08-05T11:51:40Z We constrain viscoelastic Earth rheology and recent ice-mass change in the northern Marguerite Bay region of the Antarctic Peninsula. Global Positioning System (GPS) time series from Rothera and San Martin stations show bedrock uplift range of ∼−0.8–1.8 mm/year over 1999–2005 and 2016–2020 but ∼3.5–6.0 mm/year over ∼2005–2016. Digital elevation models reveal substantial surface lowering, but at a lower rate since ∼2009. Using these data, we show that an elastic-only model cannot explain the non-linear uplift of the GPS sites but that a layered viscoelastic model can. We show close agreement between GPS uplift changes and viscoelastic models with effective elastic lithosphere thickness and upper-mantle viscosity ∼10–95 km and ∼0.1−9 × 1018 Pa s, respectively. Our viscosity estimate is consistent with a north-south gradient in viscosity suggested by previous studies focused on specific regions within the Antarctic Peninsula and adds further evidence of the low viscosity upper mantle in the northern Antarctic Peninsula. Other Non-Article Part of Journal/Newspaper Antarc* Antarctic Antarctic Peninsula antartic* CQUniversity: acquire Antarctic Antarctic Peninsula Marguerite ENVELOPE(141.378,141.378,-66.787,-66.787) Marguerite Bay ENVELOPE(-68.000,-68.000,-68.500,-68.500) Rothera ENVELOPE(-68.130,-68.130,-67.568,-67.568) The Antarctic
institution	Open Polar
collection	CQUniversity: acquire
op_collection_id	ftcquniportalfig
language	unknown
topic	Physical Geography and Environmental Geoscience not elsewhere classified Satellite geodesy Space geodetic surveys Antartica Dynamics of lithosphere and mantle Ice mass Rheology: lithosphere and mantle Meteorology & Atmospheric Sciences
spellingShingle	Physical Geography and Environmental Geoscience not elsewhere classified Satellite geodesy Space geodetic surveys Antartica Dynamics of lithosphere and mantle Ice mass Rheology: lithosphere and mantle Meteorology & Atmospheric Sciences Nahidul Samrat Matt A King Christopher Watson Andrea Hay Valentina R Barletta Andrea Bordoni Upper mantle viscosity underneath northern Marguerite Bay, Antarctic Peninsula constrained by bedrock uplift and ice mass variability
topic_facet	Physical Geography and Environmental Geoscience not elsewhere classified Satellite geodesy Space geodetic surveys Antartica Dynamics of lithosphere and mantle Ice mass Rheology: lithosphere and mantle Meteorology & Atmospheric Sciences
description	We constrain viscoelastic Earth rheology and recent ice-mass change in the northern Marguerite Bay region of the Antarctic Peninsula. Global Positioning System (GPS) time series from Rothera and San Martin stations show bedrock uplift range of ∼−0.8–1.8 mm/year over 1999–2005 and 2016–2020 but ∼3.5–6.0 mm/year over ∼2005–2016. Digital elevation models reveal substantial surface lowering, but at a lower rate since ∼2009. Using these data, we show that an elastic-only model cannot explain the non-linear uplift of the GPS sites but that a layered viscoelastic model can. We show close agreement between GPS uplift changes and viscoelastic models with effective elastic lithosphere thickness and upper-mantle viscosity ∼10–95 km and ∼0.1−9 × 1018 Pa s, respectively. Our viscosity estimate is consistent with a north-south gradient in viscosity suggested by previous studies focused on specific regions within the Antarctic Peninsula and adds further evidence of the low viscosity upper mantle in the northern Antarctic Peninsula.
format	Other Non-Article Part of Journal/Newspaper
author	Nahidul Samrat Matt A King Christopher Watson Andrea Hay Valentina R Barletta Andrea Bordoni
author_facet	Nahidul Samrat Matt A King Christopher Watson Andrea Hay Valentina R Barletta Andrea Bordoni
author_sort	Nahidul Samrat
title	Upper mantle viscosity underneath northern Marguerite Bay, Antarctic Peninsula constrained by bedrock uplift and ice mass variability
title_short	Upper mantle viscosity underneath northern Marguerite Bay, Antarctic Peninsula constrained by bedrock uplift and ice mass variability
title_full	Upper mantle viscosity underneath northern Marguerite Bay, Antarctic Peninsula constrained by bedrock uplift and ice mass variability
title_fullStr	Upper mantle viscosity underneath northern Marguerite Bay, Antarctic Peninsula constrained by bedrock uplift and ice mass variability
title_full_unstemmed	Upper mantle viscosity underneath northern Marguerite Bay, Antarctic Peninsula constrained by bedrock uplift and ice mass variability
title_sort	upper mantle viscosity underneath northern marguerite bay, antarctic peninsula constrained by bedrock uplift and ice mass variability
publishDate	2021
url	http://hdl.handle.net/10779/cqu.20103782.v1
long_lat	ENVELOPE(141.378,141.378,-66.787,-66.787) ENVELOPE(-68.000,-68.000,-68.500,-68.500) ENVELOPE(-68.130,-68.130,-67.568,-67.568)
geographic	Antarctic Antarctic Peninsula Marguerite Marguerite Bay Rothera The Antarctic
geographic_facet	Antarctic Antarctic Peninsula Marguerite Marguerite Bay Rothera The Antarctic
genre	Antarc* Antarctic Antarctic Peninsula antartic*
genre_facet	Antarc* Antarctic Antarctic Peninsula antartic*
op_relation	https://figshare.com/articles/journal_contribution/Upper_mantle_viscosity_underneath_northern_Marguerite_Bay_Antarctic_Peninsula_constrained_by_bedrock_uplift_and_ice_mass_variability/20103782 http://hdl.handle.net/10779/cqu.20103782.v1
op_rights	CQUniversity General 1.0
_version_	1766140071346438144

Upper mantle viscosity underneath northern Marguerite Bay, Antarctic Peninsula constrained by bedrock uplift and ice mass variability

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