Glacier calving rates due to subglacial discharge, fjord circulation, and free convection

We would like to thank the New Hampshire Space Grant Consortium (award # NNX15AH79H) for the training grant to fund KMS; the ConocoPhillips-Ludin Northern Area Program (under the CRIOS project) and the Dartmouth Graduate Studies Travel fund for their financial support to conduct fieldwork and travel...

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Published in:Journal of Geophysical Research: Earth Surface
Main Authors: Schild, K. M., Renshaw, C. E., Benn, D. I., Luckman, A., Hawley, R. L., How, P., Trusel, L., Cottier, F. R., Pramanik, A., Hulton, N. R. J.
Other Authors: University of St Andrews. School of Geography & Sustainable Development, University of St Andrews. Bell-Edwards Geographic Data Institute
Format: Article in Journal/Newspaper
Language:English
Published: 2018
Subjects:
Calving
Tidewater glacier
Iceberg
Submarine melt
Time-lapse camera
Svalbard
QE Geology
DAS
QE
Kongsbreen
Norway
glacier
Kongsfjord*
Kongsfjorden
Tidewater
Online Access:http://hdl.handle.net/10023/16037
https://doi.org/10.1029/2017JF004520
id ftstandrewserep:oai:research-repository.st-andrews.ac.uk:10023/16037
record_format openpolar
spelling ftstandrewserep:oai:research-repository.st-andrews.ac.uk:10023/16037 2023-07-02T03:32:20+02:00 Glacier calving rates due to subglacial discharge, fjord circulation, and free convection Schild, K. M. Renshaw, C. E. Benn, D. I. Luckman, A. Hawley, R. L. How, P. Trusel, L. Cottier, F. R. Pramanik, A. Hulton, N. R. J. University of St Andrews. School of Geography & Sustainable Development University of St Andrews. Bell-Edwards Geographic Data Institute 2018-09-17T13:30:12Z 16 application/pdf http://hdl.handle.net/10023/16037 https://doi.org/10.1029/2017JF004520 eng eng Journal of Geophysical Research - Earth Surface Schild , K M , Renshaw , C E , Benn , D I , Luckman , A , Hawley , R L , How , P , Trusel , L , Cottier , F R , Pramanik , A & Hulton , N R J 2018 , ' Glacier calving rates due to subglacial discharge, fjord circulation, and free convection ' , Journal of Geophysical Research - Earth Surface , vol. Early View . https://doi.org/10.1029/2017JF004520 2169-9003 PURE: 255554054 PURE UUID: 769cb14c-c39c-4f1d-9a93-e8938a12c43b RIS: urn:7529AF84AC1C35883189B719E840A7CD Scopus: 85053452304 WOS: 000446990400007 ORCID: /0000-0002-3604-0886/work/64697378 http://hdl.handle.net/10023/16037 https://doi.org/10.1029/2017JF004520 ©2018. The Authors. This is an open access article under the terms of the Creative Commons Attribution‐NonCommercial‐NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made. Calving Tidewater glacier Iceberg Submarine melt Time-lapse camera Svalbard QE Geology DAS QE Journal article 2018 ftstandrewserep https://doi.org/10.1029/2017JF004520 2023-06-13T18:29:05Z We would like to thank the New Hampshire Space Grant Consortium (award # NNX15AH79H) for the training grant to fund KMS; the ConocoPhillips-Ludin Northern Area Program (under the CRIOS project) and the Dartmouth Graduate Studies Travel fund for their financial support to conduct fieldwork and travel for data dissemination; the Polar Geospatial Center for arranging access to the WorldView-2 imagery; the UK Natural Environmental Research Council (NERK) Oceans 2025 and Northern Sea Program for mooring work support, with further support from the Research Council of Norway (NFR) projects: Circa (214271), Cleopatra (178766), Cleopatra II (216537), and Marine Night (226471); Alex Hart and the GeoSciences Mechanical Workshop at the University of Edinburgh for manufacturing the time-lapse camera enclosure that was used in this study; Colin Oriffiths for overseeing the collection of mooring data in Kongsfjorden since 2002; ESA for processing the Copernicus Sentinel data (2016). Tidewater glacier calving provides the most direct mechanism of ice transfer from land to the ocean. However, the physical melt processes influencing calving remain challenging to constrain. In this study we focus on calving rates at Kongsbreen, a tidewater glacier in Svalbard, due to three mechanisms of submarine melt: 1) free convection, 2) horizontal fjord circulation, and 3) meltwater discharge. To calculate an overall calving rate, we measure glacier velocity and terminus change using Sentinel imagery. We calculate free convection, fjord circulation, and meltwater discharge calving using mooring data for mid-fjord ocean temperature (30-80 m depth), reanalysis results for meltwater runoff, and georectified time-lapse imagery to track icebergs and infer surface circulation. Results show the total glacier calving rate is highly correlated with ocean temperature during the 2016 melt season. When runoff was present, we found that subglacial discharge accounted for calving rates an order of magnitude greater than the maximum calving rates assigned ... Article in Journal/Newspaper glacier glacier Kongsfjord* Kongsfjorden Svalbard Tidewater University of St Andrews: Digital Research Repository Kongsbreen ENVELOPE(12.475,12.475,78.984,78.984) Norway Svalbard Journal of Geophysical Research: Earth Surface 123 9 2189 2204
institution Open Polar
collection University of St Andrews: Digital Research Repository
op_collection_id ftstandrewserep
language English
topic Calving
Tidewater glacier
Iceberg
Submarine melt
Time-lapse camera
Svalbard
QE Geology
DAS
QE
spellingShingle Calving
Tidewater glacier
Iceberg
Submarine melt
Time-lapse camera
Svalbard
QE Geology
DAS
QE
Schild, K. M.
Renshaw, C. E.
Benn, D. I.
Luckman, A.
Hawley, R. L.
How, P.
Trusel, L.
Cottier, F. R.
Pramanik, A.
Hulton, N. R. J.
Glacier calving rates due to subglacial discharge, fjord circulation, and free convection
topic_facet Calving
Tidewater glacier
Iceberg
Submarine melt
Time-lapse camera
Svalbard
QE Geology
DAS
QE
description We would like to thank the New Hampshire Space Grant Consortium (award # NNX15AH79H) for the training grant to fund KMS; the ConocoPhillips-Ludin Northern Area Program (under the CRIOS project) and the Dartmouth Graduate Studies Travel fund for their financial support to conduct fieldwork and travel for data dissemination; the Polar Geospatial Center for arranging access to the WorldView-2 imagery; the UK Natural Environmental Research Council (NERK) Oceans 2025 and Northern Sea Program for mooring work support, with further support from the Research Council of Norway (NFR) projects: Circa (214271), Cleopatra (178766), Cleopatra II (216537), and Marine Night (226471); Alex Hart and the GeoSciences Mechanical Workshop at the University of Edinburgh for manufacturing the time-lapse camera enclosure that was used in this study; Colin Oriffiths for overseeing the collection of mooring data in Kongsfjorden since 2002; ESA for processing the Copernicus Sentinel data (2016). Tidewater glacier calving provides the most direct mechanism of ice transfer from land to the ocean. However, the physical melt processes influencing calving remain challenging to constrain. In this study we focus on calving rates at Kongsbreen, a tidewater glacier in Svalbard, due to three mechanisms of submarine melt: 1) free convection, 2) horizontal fjord circulation, and 3) meltwater discharge. To calculate an overall calving rate, we measure glacier velocity and terminus change using Sentinel imagery. We calculate free convection, fjord circulation, and meltwater discharge calving using mooring data for mid-fjord ocean temperature (30-80 m depth), reanalysis results for meltwater runoff, and georectified time-lapse imagery to track icebergs and infer surface circulation. Results show the total glacier calving rate is highly correlated with ocean temperature during the 2016 melt season. When runoff was present, we found that subglacial discharge accounted for calving rates an order of magnitude greater than the maximum calving rates assigned ...
author2 University of St Andrews. School of Geography & Sustainable Development
University of St Andrews. Bell-Edwards Geographic Data Institute
format Article in Journal/Newspaper
author Schild, K. M.
Renshaw, C. E.
Benn, D. I.
Luckman, A.
Hawley, R. L.
How, P.
Trusel, L.
Cottier, F. R.
Pramanik, A.
Hulton, N. R. J.
author_facet Schild, K. M.
Renshaw, C. E.
Benn, D. I.
Luckman, A.
Hawley, R. L.
How, P.
Trusel, L.
Cottier, F. R.
Pramanik, A.
Hulton, N. R. J.
author_sort Schild, K. M.
title Glacier calving rates due to subglacial discharge, fjord circulation, and free convection
title_short Glacier calving rates due to subglacial discharge, fjord circulation, and free convection
title_full Glacier calving rates due to subglacial discharge, fjord circulation, and free convection
title_fullStr Glacier calving rates due to subglacial discharge, fjord circulation, and free convection
title_full_unstemmed Glacier calving rates due to subglacial discharge, fjord circulation, and free convection
title_sort glacier calving rates due to subglacial discharge, fjord circulation, and free convection
publishDate 2018
url http://hdl.handle.net/10023/16037
https://doi.org/10.1029/2017JF004520
long_lat ENVELOPE(12.475,12.475,78.984,78.984)
geographic Kongsbreen
Norway
Svalbard
geographic_facet Kongsbreen
Norway
Svalbard
genre glacier
glacier
Kongsfjord*
Kongsfjorden
Svalbard
Tidewater
genre_facet glacier
glacier
Kongsfjord*
Kongsfjorden
Svalbard
Tidewater
op_relation Journal of Geophysical Research - Earth Surface
Schild , K M , Renshaw , C E , Benn , D I , Luckman , A , Hawley , R L , How , P , Trusel , L , Cottier , F R , Pramanik , A & Hulton , N R J 2018 , ' Glacier calving rates due to subglacial discharge, fjord circulation, and free convection ' , Journal of Geophysical Research - Earth Surface , vol. Early View . https://doi.org/10.1029/2017JF004520
2169-9003
PURE: 255554054
PURE UUID: 769cb14c-c39c-4f1d-9a93-e8938a12c43b
RIS: urn:7529AF84AC1C35883189B719E840A7CD
Scopus: 85053452304
WOS: 000446990400007
ORCID: /0000-0002-3604-0886/work/64697378
http://hdl.handle.net/10023/16037
https://doi.org/10.1029/2017JF004520
op_rights ©2018. The Authors. This is an open access article under the terms of the Creative Commons Attribution‐NonCommercial‐NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
op_doi https://doi.org/10.1029/2017JF004520
container_title Journal of Geophysical Research: Earth Surface
container_volume 123
container_issue 9
container_start_page 2189
op_container_end_page 2204
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