Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium

Among ice core drilling sites in the European Alps, Colle Gnifetti (CG) is the only non-temperate glacier to offer climate records dating back at least 1000 years. This unique long-term archive is the result of an exceptionally low net accumulation driven by wind erosion and rapid annual layer thinn...

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Published in:Climate of the Past
Main Authors: Bohleber, Pascal, Erhardt, Tobias, Spaulding, Nicole, Hoffmann, Helene, Fischer, Hubertus, Mayewski, Paul
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2018
Subjects:
530 Physics
ice core
Online Access:https://boris.unibe.ch/109376/1/bohleber18clp.pdf
https://boris.unibe.ch/109376/
id ftunivbern:oai:boris.unibe.ch:109376
record_format openpolar
spelling ftunivbern:oai:boris.unibe.ch:109376 2023-08-20T04:07:11+02:00 Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium Bohleber, Pascal Erhardt, Tobias Spaulding, Nicole Hoffmann, Helene Fischer, Hubertus Mayewski, Paul 2018 application/pdf https://boris.unibe.ch/109376/1/bohleber18clp.pdf https://boris.unibe.ch/109376/ eng eng Copernicus Publications https://boris.unibe.ch/109376/ info:eu-repo/semantics/openAccess Bohleber, Pascal; Erhardt, Tobias; Spaulding, Nicole; Hoffmann, Helene; Fischer, Hubertus; Mayewski, Paul (2018). Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium. Climate of the past, 14(1), pp. 21-37. Copernicus Publications 10.5194/cp-14-21-2018 <http://dx.doi.org/10.5194/cp-14-21-2018> 530 Physics info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion PeerReviewed 2018 ftunivbern https://doi.org/10.5194/cp-14-21-2018 2023-07-31T21:40:05Z Among ice core drilling sites in the European Alps, Colle Gnifetti (CG) is the only non-temperate glacier to offer climate records dating back at least 1000 years. This unique long-term archive is the result of an exceptionally low net accumulation driven by wind erosion and rapid annual layer thinning. However, the full exploitation of the CG time series has been hampered by considerable dating uncertainties and the seasonal summer bias in snow preservation. Using a new core drilled in 2013 we extend annual layer count- ing, for the first time at CG, over the last 1000 years and add additional constraints to the resulting age scale from radio-carbon dating. Based on this improved age scale, and using a multi-core approach with a neighbouring ice core, we explore the time series of stable water isotopes and the mineral dust proxies Ca²⁺ and insoluble particles. Also in our latest ice core we face the already known limitation to the quantitative use of the stable isotope variability based on a high and potentially non-stationary isotope/temperature sensitivity at CG. Decadal trends in Ca²⁺ reveal substantial agreement with instrumental temperature and are explored here as a potential site-specific supplement to the isotope-based temperature reconstruction. The observed coupling between temperature and Ca²⁺ trends likely results from snow preservation effects and the advection of dust-rich air masses coinciding with warm temperatures. We find that if calibrated against instrumental data, the Ca²⁺-based temperature reconstruction is in robust agreement with the latest proxy-based summer temperature reconstruction, including a “Little Ice Age” cold period as well as a medieval climate anomaly. Part of the medieval climate period around AD 1100–1200 clearly stands out through an increased occurrence of dust events, potentially resulting from a relative increase in meridional flow and/or dry conditions over the Mediterranean. Article in Journal/Newspaper ice core BORIS (Bern Open Repository and Information System, University of Bern) Climate of the Past 14 1 21 37
institution Open Polar
collection BORIS (Bern Open Repository and Information System, University of Bern)
op_collection_id ftunivbern
language English
topic 530 Physics
spellingShingle 530 Physics
Bohleber, Pascal
Erhardt, Tobias
Spaulding, Nicole
Hoffmann, Helene
Fischer, Hubertus
Mayewski, Paul
Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium
topic_facet 530 Physics
description Among ice core drilling sites in the European Alps, Colle Gnifetti (CG) is the only non-temperate glacier to offer climate records dating back at least 1000 years. This unique long-term archive is the result of an exceptionally low net accumulation driven by wind erosion and rapid annual layer thinning. However, the full exploitation of the CG time series has been hampered by considerable dating uncertainties and the seasonal summer bias in snow preservation. Using a new core drilled in 2013 we extend annual layer count- ing, for the first time at CG, over the last 1000 years and add additional constraints to the resulting age scale from radio-carbon dating. Based on this improved age scale, and using a multi-core approach with a neighbouring ice core, we explore the time series of stable water isotopes and the mineral dust proxies Ca²⁺ and insoluble particles. Also in our latest ice core we face the already known limitation to the quantitative use of the stable isotope variability based on a high and potentially non-stationary isotope/temperature sensitivity at CG. Decadal trends in Ca²⁺ reveal substantial agreement with instrumental temperature and are explored here as a potential site-specific supplement to the isotope-based temperature reconstruction. The observed coupling between temperature and Ca²⁺ trends likely results from snow preservation effects and the advection of dust-rich air masses coinciding with warm temperatures. We find that if calibrated against instrumental data, the Ca²⁺-based temperature reconstruction is in robust agreement with the latest proxy-based summer temperature reconstruction, including a “Little Ice Age” cold period as well as a medieval climate anomaly. Part of the medieval climate period around AD 1100–1200 clearly stands out through an increased occurrence of dust events, potentially resulting from a relative increase in meridional flow and/or dry conditions over the Mediterranean.
format Article in Journal/Newspaper
author Bohleber, Pascal
Erhardt, Tobias
Spaulding, Nicole
Hoffmann, Helene
Fischer, Hubertus
Mayewski, Paul
author_facet Bohleber, Pascal
Erhardt, Tobias
Spaulding, Nicole
Hoffmann, Helene
Fischer, Hubertus
Mayewski, Paul
author_sort Bohleber, Pascal
title Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium
title_short Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium
title_full Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium
title_fullStr Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium
title_full_unstemmed Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium
title_sort temperature and mineral dust variability recorded in two low-accumulation alpine ice cores over the last millennium
publisher Copernicus Publications
publishDate 2018
url https://boris.unibe.ch/109376/1/bohleber18clp.pdf
https://boris.unibe.ch/109376/
genre ice core
genre_facet ice core
op_source Bohleber, Pascal; Erhardt, Tobias; Spaulding, Nicole; Hoffmann, Helene; Fischer, Hubertus; Mayewski, Paul (2018). Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium. Climate of the past, 14(1), pp. 21-37. Copernicus Publications 10.5194/cp-14-21-2018 <http://dx.doi.org/10.5194/cp-14-21-2018>
op_relation https://boris.unibe.ch/109376/
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.5194/cp-14-21-2018
container_title Climate of the Past
container_volume 14
container_issue 1
container_start_page 21
op_container_end_page 37
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