Permafrost conditions in the Mediterranean region since the Last Glaciation

The relatively warm climate conditions prevailing today in the Mediterranean region limit cold geomorphological processes only to the highest mountain environments. However, climate variability during the Late Pleistocene and Holocene has led to significant spatio-temporal variations of the glacial...

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Published in:Earth-Science Reviews
Main Authors: Oliva, M., Žebre, M., Guglielmin, M., Hughes, P. D., Çiner, A., Vieira, G., Bodin, X., Andrés, N., Colucci, R. R., García-Hernández, C., Mora, C., Nofre, J., Palacios, D., Pérez-Alberti, A., Ribolini, A., Ruiz-Fernández, J., Sarıkaya, M. A., Serrano, E., Urdea, P., Valcárcel, M., Woodward, J. C., Yıldırım, C.
Format: Article in Journal/Newspaper
Language:English
Published: 2018
Subjects:
deglaciation
Holocene
Last Glacial Maximum
Mediterranean region
permafrost
Earth and Planetary Sciences (all)
Ice
Online Access:http://hdl.handle.net/11383/2077805
https://doi.org/10.1016/j.earscirev.2018.06.018
http://www.sciencedirect.com/science/journal/00128252
id ftuninsubriairis:oai:irinsubria.uninsubria.it:11383/2077805
record_format openpolar
spelling ftuninsubriairis:oai:irinsubria.uninsubria.it:11383/2077805 2024-04-21T08:04:27+00:00 Permafrost conditions in the Mediterranean region since the Last Glaciation Oliva, M. Žebre, M. Guglielmin, M. Hughes, P. D. Çiner, A. Vieira, G. Bodin, X. Andrés, N. Colucci, R. R. García-Hernández, C. Mora, C. Nofre, J. Palacios, D. Pérez-Alberti, A. Ribolini, A. Ruiz-Fernández, J. Sarıkaya, M. A. Serrano, E. Urdea, P. Valcárcel, M. Woodward, J. C. Yıldırım, C. Oliva, M. Žebre, M. Guglielmin, M. Hughes, P. D. Çiner, A. Vieira, G. Bodin, X. Andrés, N. Colucci, R. R. García-Hernández, C. Mora, C. Nofre, J. Palacios, D. Pérez-Alberti, A. Ribolini, A. Ruiz-Fernández, J. Sarıkaya, M. A. Serrano, E. Urdea, P. Valcárcel, M. Woodward, J. C. Yıldırım, C. 2018 http://hdl.handle.net/11383/2077805 https://doi.org/10.1016/j.earscirev.2018.06.018 http://www.sciencedirect.com/science/journal/00128252 eng eng info:eu-repo/semantics/altIdentifier/wos/WOS:000448493500020 volume:185 firstpage:397 lastpage:436 numberofpages:40 journal:EARTH-SCIENCE REVIEWS http://hdl.handle.net/11383/2077805 doi:10.1016/j.earscirev.2018.06.018 info:eu-repo/semantics/altIdentifier/scopus/2-s2.0-85049349109 http://www.sciencedirect.com/science/journal/00128252 deglaciation Holocene Last Glacial Maximum Mediterranean region permafrost Earth and Planetary Sciences (all) info:eu-repo/semantics/article 2018 ftuninsubriairis https://doi.org/10.1016/j.earscirev.2018.06.018 2024-03-28T01:23:47Z The relatively warm climate conditions prevailing today in the Mediterranean region limit cold geomorphological processes only to the highest mountain environments. However, climate variability during the Late Pleistocene and Holocene has led to significant spatio-temporal variations of the glacial and periglacial domain in these mountains, including permafrost conditions. Here, we examine the distribution and evolution of permafrost in the Mediterranean region considering five time periods: Last Glaciation, deglaciation, Holocene, Little Ice Age (LIA) and present-day. The distribution of inactive permafrost-derived features as well as sedimentary records indicates that the elevation limit of permafrost during the Last Glaciation was between 1000 m and even 2000 m lower than present. Permafrost was also widespread in non-glaciated slopes above the snowline forming rock glaciers and block streams, as well as meter-sized stone circles in relatively flat summit areas. As in most of the Northern Hemisphere, the onset of deglaciation in the Mediterranean region started around 19-20 ka. The ice-free terrain left by retreating glaciers was subject to paraglacial activity and intense periglacial processes under permafrost conditions. Many rock glaciers, protalus lobes and block streams formed in these recently deglaciated environments, though most of them became gradually inactive as temperatures kept rising, especially those at lower altitudes. Following the Younger Dryas glacial advance, the Early Holocene saw the last massive deglaciation in Mediterranean mountains accompanied by a progressive shift of permafrost conditions to higher elevations. It is unlikely that air temperatures recorded in Mediterranean mountains during the Holocene favoured the existence of widespread permafrost regimes, with the only exception of the highest massifs exceeding 2500-3000 m. LIA colder climate promoted a minor glacial advance and the spatial expansion of permafrost, with the development of new protalus lobes and rock glaciers in ... Article in Journal/Newspaper Ice permafrost IRInSubria - Institutional Repository Insubria (Università degli Studi dell’Insubria) Earth-Science Reviews 185 397 436
institution Open Polar
collection IRInSubria - Institutional Repository Insubria (Università degli Studi dell’Insubria)
op_collection_id ftuninsubriairis
language English
topic deglaciation
Holocene
Last Glacial Maximum
Mediterranean region
permafrost
Earth and Planetary Sciences (all)
spellingShingle deglaciation
Holocene
Last Glacial Maximum
Mediterranean region
permafrost
Earth and Planetary Sciences (all)
Oliva, M.
Žebre, M.
Guglielmin, M.
Hughes, P. D.
Çiner, A.
Vieira, G.
Bodin, X.
Andrés, N.
Colucci, R. R.
García-Hernández, C.
Mora, C.
Nofre, J.
Palacios, D.
Pérez-Alberti, A.
Ribolini, A.
Ruiz-Fernández, J.
Sarıkaya, M. A.
Serrano, E.
Urdea, P.
Valcárcel, M.
Woodward, J. C.
Yıldırım, C.
Permafrost conditions in the Mediterranean region since the Last Glaciation
topic_facet deglaciation
Holocene
Last Glacial Maximum
Mediterranean region
permafrost
Earth and Planetary Sciences (all)
description The relatively warm climate conditions prevailing today in the Mediterranean region limit cold geomorphological processes only to the highest mountain environments. However, climate variability during the Late Pleistocene and Holocene has led to significant spatio-temporal variations of the glacial and periglacial domain in these mountains, including permafrost conditions. Here, we examine the distribution and evolution of permafrost in the Mediterranean region considering five time periods: Last Glaciation, deglaciation, Holocene, Little Ice Age (LIA) and present-day. The distribution of inactive permafrost-derived features as well as sedimentary records indicates that the elevation limit of permafrost during the Last Glaciation was between 1000 m and even 2000 m lower than present. Permafrost was also widespread in non-glaciated slopes above the snowline forming rock glaciers and block streams, as well as meter-sized stone circles in relatively flat summit areas. As in most of the Northern Hemisphere, the onset of deglaciation in the Mediterranean region started around 19-20 ka. The ice-free terrain left by retreating glaciers was subject to paraglacial activity and intense periglacial processes under permafrost conditions. Many rock glaciers, protalus lobes and block streams formed in these recently deglaciated environments, though most of them became gradually inactive as temperatures kept rising, especially those at lower altitudes. Following the Younger Dryas glacial advance, the Early Holocene saw the last massive deglaciation in Mediterranean mountains accompanied by a progressive shift of permafrost conditions to higher elevations. It is unlikely that air temperatures recorded in Mediterranean mountains during the Holocene favoured the existence of widespread permafrost regimes, with the only exception of the highest massifs exceeding 2500-3000 m. LIA colder climate promoted a minor glacial advance and the spatial expansion of permafrost, with the development of new protalus lobes and rock glaciers in ...
author2 Oliva, M.
Žebre, M.
Guglielmin, M.
Hughes, P. D.
Çiner, A.
Vieira, G.
Bodin, X.
Andrés, N.
Colucci, R. R.
García-Hernández, C.
Mora, C.
Nofre, J.
Palacios, D.
Pérez-Alberti, A.
Ribolini, A.
Ruiz-Fernández, J.
Sarıkaya, M. A.
Serrano, E.
Urdea, P.
Valcárcel, M.
Woodward, J. C.
Yıldırım, C.
format Article in Journal/Newspaper
author Oliva, M.
Žebre, M.
Guglielmin, M.
Hughes, P. D.
Çiner, A.
Vieira, G.
Bodin, X.
Andrés, N.
Colucci, R. R.
García-Hernández, C.
Mora, C.
Nofre, J.
Palacios, D.
Pérez-Alberti, A.
Ribolini, A.
Ruiz-Fernández, J.
Sarıkaya, M. A.
Serrano, E.
Urdea, P.
Valcárcel, M.
Woodward, J. C.
Yıldırım, C.
author_facet Oliva, M.
Žebre, M.
Guglielmin, M.
Hughes, P. D.
Çiner, A.
Vieira, G.
Bodin, X.
Andrés, N.
Colucci, R. R.
García-Hernández, C.
Mora, C.
Nofre, J.
Palacios, D.
Pérez-Alberti, A.
Ribolini, A.
Ruiz-Fernández, J.
Sarıkaya, M. A.
Serrano, E.
Urdea, P.
Valcárcel, M.
Woodward, J. C.
Yıldırım, C.
author_sort Oliva, M.
title Permafrost conditions in the Mediterranean region since the Last Glaciation
title_short Permafrost conditions in the Mediterranean region since the Last Glaciation
title_full Permafrost conditions in the Mediterranean region since the Last Glaciation
title_fullStr Permafrost conditions in the Mediterranean region since the Last Glaciation
title_full_unstemmed Permafrost conditions in the Mediterranean region since the Last Glaciation
title_sort permafrost conditions in the mediterranean region since the last glaciation
publishDate 2018
url http://hdl.handle.net/11383/2077805
https://doi.org/10.1016/j.earscirev.2018.06.018
http://www.sciencedirect.com/science/journal/00128252
genre Ice
permafrost
genre_facet Ice
permafrost
op_relation info:eu-repo/semantics/altIdentifier/wos/WOS:000448493500020
volume:185
firstpage:397
lastpage:436
numberofpages:40
journal:EARTH-SCIENCE REVIEWS
http://hdl.handle.net/11383/2077805
doi:10.1016/j.earscirev.2018.06.018
info:eu-repo/semantics/altIdentifier/scopus/2-s2.0-85049349109
http://www.sciencedirect.com/science/journal/00128252
op_doi https://doi.org/10.1016/j.earscirev.2018.06.018
container_title Earth-Science Reviews
container_volume 185
container_start_page 397
op_container_end_page 436
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