Precipitation changes in the Mediterranean basin during the Holocene from terrestrial and marine pollen records: a model–data comparison

Climate evolution of the Mediterranean region during the Holocene exhibits strong spatial and temporal variability, which is notoriously difficult for models to reproduce. We propose here a new proxy-based climate synthesis synthesis and its comparison – at a regional (∼ 100 km) level – with a regio...

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Published in:Climate of the Past
Main Authors: Peyron, Odile, Combourieu-Nebout, Nathalie, Brayshaw, David, Goring, Simon, Andrieu-Ponel, Valérie, Desprat, Stéphanie, Fletcher, Will, Gambin, Belinda, Ioakim, Chryssanthi, Joannin, Sébastien, Kotthoff, Ulrich, Kouli, Katerina, Montade, Vincent, Pross, Jörg, Sadori, Laura, Magny, Michel
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2017
Subjects:
article
Verlagsveröffentlichung
Arctic
North Atlantic
North Atlantic oscillation
Online Access:https://doi.org/10.5194/cp-13-249-2017
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language English
topic article
Verlagsveröffentlichung
spellingShingle article
Verlagsveröffentlichung
Peyron, Odile
Combourieu-Nebout, Nathalie
Brayshaw, David
Goring, Simon
Andrieu-Ponel, Valérie
Desprat, Stéphanie
Fletcher, Will
Gambin, Belinda
Ioakim, Chryssanthi
Joannin, Sébastien
Kotthoff, Ulrich
Kouli, Katerina
Montade, Vincent
Pross, Jörg
Sadori, Laura
Magny, Michel
Precipitation changes in the Mediterranean basin during the Holocene from terrestrial and marine pollen records: a model–data comparison
topic_facet article
Verlagsveröffentlichung
description Climate evolution of the Mediterranean region during the Holocene exhibits strong spatial and temporal variability, which is notoriously difficult for models to reproduce. We propose here a new proxy-based climate synthesis synthesis and its comparison – at a regional (∼ 100 km) level – with a regional climate model to examine (i) opposing northern and southern precipitation regimes and (ii) an east-to-west precipitation dipole during the Holocene across the Mediterranean basin. Using precipitation estimates inferred from marine and terrestrial pollen archives, we focus on the early to mid-Holocene (8000 to 6000 cal yr BP) and the late Holocene (4000 to 2000 cal yr BP), to test these hypotheses on a Mediterranean-wide scale. Special attention was given to the reconstruction of season-specific climate information, notably summer and winter precipitation. The reconstructed climatic trends corroborate the north–south partition of precipitation regimes during the Holocene. During the early Holocene, relatively wet conditions occurred in the south–central and eastern Mediterranean regions, while drier conditions prevailed from 45° N northwards. These patterns then reverse during the late Holocene. With regard to the existence of a west–east precipitation dipole during the Holocene, our results show that the strength of this dipole is strongly linked to the reconstructed seasonal parameter; early-Holocene summers show a clear east–west division, with summer precipitation having been highest in Greece and the eastern Mediterranean and lowest over Italy and the western Mediterranean. Summer precipitation in the east remained above modern values, even during the late-Holocene interval. In contrast, winter precipitation signals are less spatially coherent during the early Holocene but low precipitation is evidenced during the late Holocene. A general drying trend occurred from the early to late Holocene, particularly in the central and eastern Mediterranean. For the same time intervals, pollen-inferred precipitation estimates were compared with model outputs, based on a regional-scale downscaling (HadRM3) of a set of global climate-model simulations (HadAM3). The high-resolution detail achieved through the downscaling is intended to enable a better comparison between site-based paleo-reconstructions and gridded model data in the complex terrain of the Mediterranean; the model outputs and pollen-inferred precipitation estimates show some overall correspondence, though modeled changes are small and at the absolute margins of statistical significance. There are suggestions that the eastern Mediterranean experienced wetter summer conditions than present during the early and late Holocene; the drying trend in winter from the early to the late Holocene also appears to be simulated. The use of this high-resolution regional climate model highlights how the inherently patchy nature of climate signals and paleo-records in the Mediterranean basin may lead to local signals that are much stronger than the large-scale pattern would suggest. Nevertheless, the east-to-west division in summer precipitation seems more marked in the pollen reconstruction than in the model outputs. The footprint of the anomalies (like today, or dry winters and wet summers) has some similarities to modern analogue atmospheric circulation patterns associated with a strong westerly circulation in winter (positive Arctic Oscillation–North Atlantic Oscillation (AO–NAO)) and a weak westerly circulation in summer associated with anticyclonic blocking; however, there also remain important differences between the paleo-simulations and these analogues. The regional climate model, consistent with other global models, does not suggest an extension of the African summer monsoon into the Mediterranean. Therefore, the extent to which summer monsoonal precipitation may have existed in the southern and eastern Mediterranean during the mid-Holocene remains an outstanding question.
format Article in Journal/Newspaper
author Peyron, Odile
Combourieu-Nebout, Nathalie
Brayshaw, David
Goring, Simon
Andrieu-Ponel, Valérie
Desprat, Stéphanie
Fletcher, Will
Gambin, Belinda
Ioakim, Chryssanthi
Joannin, Sébastien
Kotthoff, Ulrich
Kouli, Katerina
Montade, Vincent
Pross, Jörg
Sadori, Laura
Magny, Michel
author_facet Peyron, Odile
Combourieu-Nebout, Nathalie
Brayshaw, David
Goring, Simon
Andrieu-Ponel, Valérie
Desprat, Stéphanie
Fletcher, Will
Gambin, Belinda
Ioakim, Chryssanthi
Joannin, Sébastien
Kotthoff, Ulrich
Kouli, Katerina
Montade, Vincent
Pross, Jörg
Sadori, Laura
Magny, Michel
author_sort Peyron, Odile
title Precipitation changes in the Mediterranean basin during the Holocene from terrestrial and marine pollen records: a model–data comparison
title_short Precipitation changes in the Mediterranean basin during the Holocene from terrestrial and marine pollen records: a model–data comparison
title_full Precipitation changes in the Mediterranean basin during the Holocene from terrestrial and marine pollen records: a model–data comparison
title_fullStr Precipitation changes in the Mediterranean basin during the Holocene from terrestrial and marine pollen records: a model–data comparison
title_full_unstemmed Precipitation changes in the Mediterranean basin during the Holocene from terrestrial and marine pollen records: a model–data comparison
title_sort precipitation changes in the mediterranean basin during the holocene from terrestrial and marine pollen records: a model–data comparison
publisher Copernicus Publications
publishDate 2017
url https://doi.org/10.5194/cp-13-249-2017
https://noa.gwlb.de/receive/cop_mods_00042554
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00042174/cp-13-249-2017.pdf
https://cp.copernicus.org/articles/13/249/2017/cp-13-249-2017.pdf
geographic Arctic
geographic_facet Arctic
genre Arctic
North Atlantic
North Atlantic oscillation
genre_facet Arctic
North Atlantic
North Atlantic oscillation
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https://doi.org/10.5194/cp-13-249-2017
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spelling ftnonlinearchiv:oai:noa.gwlb.de:cop_mods_00042554 2023-05-15T15:20:10+02:00 Precipitation changes in the Mediterranean basin during the Holocene from terrestrial and marine pollen records: a model–data comparison Peyron, Odile Combourieu-Nebout, Nathalie Brayshaw, David Goring, Simon Andrieu-Ponel, Valérie Desprat, Stéphanie Fletcher, Will Gambin, Belinda Ioakim, Chryssanthi Joannin, Sébastien Kotthoff, Ulrich Kouli, Katerina Montade, Vincent Pross, Jörg Sadori, Laura Magny, Michel 2017-03 electronic https://doi.org/10.5194/cp-13-249-2017 https://noa.gwlb.de/receive/cop_mods_00042554 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00042174/cp-13-249-2017.pdf https://cp.copernicus.org/articles/13/249/2017/cp-13-249-2017.pdf eng eng Copernicus Publications Climate of the Past -- http://www.copernicus.org/EGU/cp/cp/published_papers.html -- http://www.bibliothek.uni-regensburg.de/ezeit/?2217985 -- 1814-9332 https://doi.org/10.5194/cp-13-249-2017 https://noa.gwlb.de/receive/cop_mods_00042554 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00042174/cp-13-249-2017.pdf https://cp.copernicus.org/articles/13/249/2017/cp-13-249-2017.pdf uneingeschränkt info:eu-repo/semantics/openAccess article Verlagsveröffentlichung article Text doc-type:article 2017 ftnonlinearchiv https://doi.org/10.5194/cp-13-249-2017 2022-02-08T22:41:01Z Climate evolution of the Mediterranean region during the Holocene exhibits strong spatial and temporal variability, which is notoriously difficult for models to reproduce. We propose here a new proxy-based climate synthesis synthesis and its comparison – at a regional (∼ 100 km) level – with a regional climate model to examine (i) opposing northern and southern precipitation regimes and (ii) an east-to-west precipitation dipole during the Holocene across the Mediterranean basin. Using precipitation estimates inferred from marine and terrestrial pollen archives, we focus on the early to mid-Holocene (8000 to 6000 cal yr BP) and the late Holocene (4000 to 2000 cal yr BP), to test these hypotheses on a Mediterranean-wide scale. Special attention was given to the reconstruction of season-specific climate information, notably summer and winter precipitation. The reconstructed climatic trends corroborate the north–south partition of precipitation regimes during the Holocene. During the early Holocene, relatively wet conditions occurred in the south–central and eastern Mediterranean regions, while drier conditions prevailed from 45° N northwards. These patterns then reverse during the late Holocene. With regard to the existence of a west–east precipitation dipole during the Holocene, our results show that the strength of this dipole is strongly linked to the reconstructed seasonal parameter; early-Holocene summers show a clear east–west division, with summer precipitation having been highest in Greece and the eastern Mediterranean and lowest over Italy and the western Mediterranean. Summer precipitation in the east remained above modern values, even during the late-Holocene interval. In contrast, winter precipitation signals are less spatially coherent during the early Holocene but low precipitation is evidenced during the late Holocene. A general drying trend occurred from the early to late Holocene, particularly in the central and eastern Mediterranean. For the same time intervals, pollen-inferred precipitation estimates were compared with model outputs, based on a regional-scale downscaling (HadRM3) of a set of global climate-model simulations (HadAM3). The high-resolution detail achieved through the downscaling is intended to enable a better comparison between site-based paleo-reconstructions and gridded model data in the complex terrain of the Mediterranean; the model outputs and pollen-inferred precipitation estimates show some overall correspondence, though modeled changes are small and at the absolute margins of statistical significance. There are suggestions that the eastern Mediterranean experienced wetter summer conditions than present during the early and late Holocene; the drying trend in winter from the early to the late Holocene also appears to be simulated. The use of this high-resolution regional climate model highlights how the inherently patchy nature of climate signals and paleo-records in the Mediterranean basin may lead to local signals that are much stronger than the large-scale pattern would suggest. Nevertheless, the east-to-west division in summer precipitation seems more marked in the pollen reconstruction than in the model outputs. The footprint of the anomalies (like today, or dry winters and wet summers) has some similarities to modern analogue atmospheric circulation patterns associated with a strong westerly circulation in winter (positive Arctic Oscillation–North Atlantic Oscillation (AO–NAO)) and a weak westerly circulation in summer associated with anticyclonic blocking; however, there also remain important differences between the paleo-simulations and these analogues. The regional climate model, consistent with other global models, does not suggest an extension of the African summer monsoon into the Mediterranean. Therefore, the extent to which summer monsoonal precipitation may have existed in the southern and eastern Mediterranean during the mid-Holocene remains an outstanding question. Article in Journal/Newspaper Arctic North Atlantic North Atlantic oscillation Niedersächsisches Online-Archiv NOA Arctic Climate of the Past 13 3 249 265

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