Testing the area–altitude balance ratio (AABR) and accumulation–area ratio (AAR) methods of calculating glacier equilibrium-line altitudes

Abstract In this study, we compare equilibrium-line altitudes (ELAs) calculated using the area–altitude balance ratio (AABR) and the accumulation–area ratio (AAR) methods, with measured ELAs derived from direct field observations. We utilise a GIS toolbox to calculate the ELA for 64 extant glaciers...

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Published in:Journal of Glaciology
Main Authors: Oien, Rachel P., Rea, Brice R., Spagnolo, Matteo, Barr, Iestyn D., Bingham, Robert G.
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press (CUP) 2021
Subjects:
Ela
Journal of Glaciology
Online Access:http://dx.doi.org/10.1017/jog.2021.100
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0022143021001003
id crcambridgeupr:10.1017/jog.2021.100
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spelling crcambridgeupr:10.1017/jog.2021.100 2024-10-13T14:08:39+00:00 Testing the area–altitude balance ratio (AABR) and accumulation–area ratio (AAR) methods of calculating glacier equilibrium-line altitudes Oien, Rachel P. Rea, Brice R. Spagnolo, Matteo Barr, Iestyn D. Bingham, Robert G. 2021 http://dx.doi.org/10.1017/jog.2021.100 https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0022143021001003 en eng Cambridge University Press (CUP) http://creativecommons.org/licenses/by/4.0/ Journal of Glaciology volume 68, issue 268, page 357-368 ISSN 0022-1430 1727-5652 journal-article 2021 crcambridgeupr https://doi.org/10.1017/jog.2021.100 2024-09-18T04:04:00Z Abstract In this study, we compare equilibrium-line altitudes (ELAs) calculated using the area–altitude balance ratio (AABR) and the accumulation–area ratio (AAR) methods, with measured ELAs derived from direct field observations. We utilise a GIS toolbox to calculate the ELA for 64 extant glaciers by applying the AABR and AAR methods to DEMs and polygons of their geometry. The calculated ELAs (c-ELAs) are then compared to measured zero-net balance ELAs (znb-ELAs) obtained from mass-balance time series held by the WGMS for the same glaciers. The correlation between znb-ELAs and AABR (1.56)/AAR (0.58) c-ELAs is very strong, with an r 2 = 0.99. The smallest median difference between znb-ELAs and c-ELAs (i.e. 65.5 m) is obtained when a globally representative AABR of 1.56 is used. When applied to palaeoglacier-climate applications, this difference translates to ~0.42°C, well within the uncertainty of palaeotemperature proxies used to determine mean summer temperature at the ELA. The more widely used mean AABR of 1.75 is shown to be statistically invalid due to the skewness of the dataset. On this basis, when calculating glacier ELAs, we recommend the use of a global AABR value of 1.56. Article in Journal/Newspaper Journal of Glaciology Cambridge University Press Ela ENVELOPE(9.642,9.642,63.170,63.170) Journal of Glaciology 1 12
institution Open Polar
collection Cambridge University Press
op_collection_id crcambridgeupr
language English
description Abstract In this study, we compare equilibrium-line altitudes (ELAs) calculated using the area–altitude balance ratio (AABR) and the accumulation–area ratio (AAR) methods, with measured ELAs derived from direct field observations. We utilise a GIS toolbox to calculate the ELA for 64 extant glaciers by applying the AABR and AAR methods to DEMs and polygons of their geometry. The calculated ELAs (c-ELAs) are then compared to measured zero-net balance ELAs (znb-ELAs) obtained from mass-balance time series held by the WGMS for the same glaciers. The correlation between znb-ELAs and AABR (1.56)/AAR (0.58) c-ELAs is very strong, with an r 2 = 0.99. The smallest median difference between znb-ELAs and c-ELAs (i.e. 65.5 m) is obtained when a globally representative AABR of 1.56 is used. When applied to palaeoglacier-climate applications, this difference translates to ~0.42°C, well within the uncertainty of palaeotemperature proxies used to determine mean summer temperature at the ELA. The more widely used mean AABR of 1.75 is shown to be statistically invalid due to the skewness of the dataset. On this basis, when calculating glacier ELAs, we recommend the use of a global AABR value of 1.56.
format Article in Journal/Newspaper
author Oien, Rachel P.
Rea, Brice R.
Spagnolo, Matteo
Barr, Iestyn D.
Bingham, Robert G.
spellingShingle Oien, Rachel P.
Rea, Brice R.
Spagnolo, Matteo
Barr, Iestyn D.
Bingham, Robert G.
Testing the area–altitude balance ratio (AABR) and accumulation–area ratio (AAR) methods of calculating glacier equilibrium-line altitudes
author_facet Oien, Rachel P.
Rea, Brice R.
Spagnolo, Matteo
Barr, Iestyn D.
Bingham, Robert G.
author_sort Oien, Rachel P.
title Testing the area–altitude balance ratio (AABR) and accumulation–area ratio (AAR) methods of calculating glacier equilibrium-line altitudes
title_short Testing the area–altitude balance ratio (AABR) and accumulation–area ratio (AAR) methods of calculating glacier equilibrium-line altitudes
title_full Testing the area–altitude balance ratio (AABR) and accumulation–area ratio (AAR) methods of calculating glacier equilibrium-line altitudes
title_fullStr Testing the area–altitude balance ratio (AABR) and accumulation–area ratio (AAR) methods of calculating glacier equilibrium-line altitudes
title_full_unstemmed Testing the area–altitude balance ratio (AABR) and accumulation–area ratio (AAR) methods of calculating glacier equilibrium-line altitudes
title_sort testing the area–altitude balance ratio (aabr) and accumulation–area ratio (aar) methods of calculating glacier equilibrium-line altitudes
publisher Cambridge University Press (CUP)
publishDate 2021
url http://dx.doi.org/10.1017/jog.2021.100
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0022143021001003
long_lat ENVELOPE(9.642,9.642,63.170,63.170)
geographic Ela
geographic_facet Ela
genre Journal of Glaciology
genre_facet Journal of Glaciology
op_source Journal of Glaciology
volume 68, issue 268, page 357-368
ISSN 0022-1430 1727-5652
op_rights http://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.1017/jog.2021.100
container_title Journal of Glaciology
container_start_page 1
op_container_end_page 12
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