Tracking climate variability in the western Mediterranean during the Late Holocene: a multiproxy approach

Climate variability in the western Mediterranean is reconstructed for the last 4000 yr using marine sediments recovered in the west Algerian-Balearic Basin, near the Alboran Basin. Fluctuations in chemical and mineralogical sediment composition as well as grain size distribution are linked to fluvia...

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Published in:Climate of the Past
Main Authors: Nieto-Moreno, V., Martínez-Ruiz, F., Giralt, S., Jiménez-Espejo, F., Gallego-Torres, D., Rodrigo-Gámiz, M., García-Orellana, J., Ortega-Huertas, M., Lange, G. J.
Format: Text
Language:English
Published: 2018
Subjects:
North Atlantic
North Atlantic oscillation
Online Access:https://doi.org/10.5194/cp-7-1395-2011
https://cp.copernicus.org/articles/7/1395/2011/
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spelling ftcopernicus:oai:publications.copernicus.org:cp10341 2023-05-15T17:36:35+02:00 Tracking climate variability in the western Mediterranean during the Late Holocene: a multiproxy approach Nieto-Moreno, V. Martínez-Ruiz, F. Giralt, S. Jiménez-Espejo, F. Gallego-Torres, D. Rodrigo-Gámiz, M. García-Orellana, J. Ortega-Huertas, M. Lange, G. J. 2018-09-27 application/pdf https://doi.org/10.5194/cp-7-1395-2011 https://cp.copernicus.org/articles/7/1395/2011/ eng eng doi:10.5194/cp-7-1395-2011 https://cp.copernicus.org/articles/7/1395/2011/ eISSN: 1814-9332 Text 2018 ftcopernicus https://doi.org/10.5194/cp-7-1395-2011 2020-07-20T16:25:57Z Climate variability in the western Mediterranean is reconstructed for the last 4000 yr using marine sediments recovered in the west Algerian-Balearic Basin, near the Alboran Basin. Fluctuations in chemical and mineralogical sediment composition as well as grain size distribution are linked to fluvial-eolian oscillations, changes in redox conditions and paleocurrent intensity. Multivariate analyses allowed us to characterize three main groups of geochemical and mineralogical proxies determining the sedimentary record of this region. These three statistical groups were applied to reconstruct paleoclimate conditions at high resolution during the Late Holocene. An increase in riverine input (fluvial-derived elements – Rb/Al, Ba/Al, REE/Al, Si/Al, Ti/Al, Mg/Al and K/Al ratios), and a decrease in Saharan eolian input (Zr/Al ratio) depict the Roman Humid Period and the Little Ice Age, while drier environmental conditions are recognized during the Late Bronze Age-Iron Age, the Dark Ages and the Medieval Climate Anomaly. Additionally, faster bottom currents and more energetic hydrodynamic conditions for the former periods are evidenced by enhanced sortable silt (10-63 μm) and quartz content, and by better oxygenated bottom waters – as reflected by decreasing redox-sensitive elements (V/Al, Cr/Al, Ni/Al and Zn/Al ratios). In contrast, opposite paleoceanographic conditions are distinguished during the latter periods, i.e. the Late Bronze Age-Iron Age, the Dark Ages and the Medieval Climate Anomaly. Although no Ba excess was registered, other paleoproductivity indicators (total organic carbon content, Br/Al ratio, and organometallic ligands such as U and Cu) display the highest values during the Roman Humid Period, and together with increasing preservation of organic matter, this period exhibits by far the most intense productivity of the last 4000 yr. Fluctuations in detrital input into the basin as the main process managing deposition, reflected by the first eigenvector defined by the Principal Component Analyses, point to solar irradiance and the North Atlantic Oscillation variability as the main driving mechanisms behind natural climate variability over decadal to centennial time-scales for the last 4000 yr. Text North Atlantic North Atlantic oscillation Copernicus Publications: E-Journals Climate of the Past 7 4 1395 1414
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Climate variability in the western Mediterranean is reconstructed for the last 4000 yr using marine sediments recovered in the west Algerian-Balearic Basin, near the Alboran Basin. Fluctuations in chemical and mineralogical sediment composition as well as grain size distribution are linked to fluvial-eolian oscillations, changes in redox conditions and paleocurrent intensity. Multivariate analyses allowed us to characterize three main groups of geochemical and mineralogical proxies determining the sedimentary record of this region. These three statistical groups were applied to reconstruct paleoclimate conditions at high resolution during the Late Holocene. An increase in riverine input (fluvial-derived elements – Rb/Al, Ba/Al, REE/Al, Si/Al, Ti/Al, Mg/Al and K/Al ratios), and a decrease in Saharan eolian input (Zr/Al ratio) depict the Roman Humid Period and the Little Ice Age, while drier environmental conditions are recognized during the Late Bronze Age-Iron Age, the Dark Ages and the Medieval Climate Anomaly. Additionally, faster bottom currents and more energetic hydrodynamic conditions for the former periods are evidenced by enhanced sortable silt (10-63 μm) and quartz content, and by better oxygenated bottom waters – as reflected by decreasing redox-sensitive elements (V/Al, Cr/Al, Ni/Al and Zn/Al ratios). In contrast, opposite paleoceanographic conditions are distinguished during the latter periods, i.e. the Late Bronze Age-Iron Age, the Dark Ages and the Medieval Climate Anomaly. Although no Ba excess was registered, other paleoproductivity indicators (total organic carbon content, Br/Al ratio, and organometallic ligands such as U and Cu) display the highest values during the Roman Humid Period, and together with increasing preservation of organic matter, this period exhibits by far the most intense productivity of the last 4000 yr. Fluctuations in detrital input into the basin as the main process managing deposition, reflected by the first eigenvector defined by the Principal Component Analyses, point to solar irradiance and the North Atlantic Oscillation variability as the main driving mechanisms behind natural climate variability over decadal to centennial time-scales for the last 4000 yr.
format Text
author Nieto-Moreno, V.
Martínez-Ruiz, F.
Giralt, S.
Jiménez-Espejo, F.
Gallego-Torres, D.
Rodrigo-Gámiz, M.
García-Orellana, J.
Ortega-Huertas, M.
Lange, G. J.
spellingShingle Nieto-Moreno, V.
Martínez-Ruiz, F.
Giralt, S.
Jiménez-Espejo, F.
Gallego-Torres, D.
Rodrigo-Gámiz, M.
García-Orellana, J.
Ortega-Huertas, M.
Lange, G. J.
Tracking climate variability in the western Mediterranean during the Late Holocene: a multiproxy approach
author_facet Nieto-Moreno, V.
Martínez-Ruiz, F.
Giralt, S.
Jiménez-Espejo, F.
Gallego-Torres, D.
Rodrigo-Gámiz, M.
García-Orellana, J.
Ortega-Huertas, M.
Lange, G. J.
author_sort Nieto-Moreno, V.
title Tracking climate variability in the western Mediterranean during the Late Holocene: a multiproxy approach
title_short Tracking climate variability in the western Mediterranean during the Late Holocene: a multiproxy approach
title_full Tracking climate variability in the western Mediterranean during the Late Holocene: a multiproxy approach
title_fullStr Tracking climate variability in the western Mediterranean during the Late Holocene: a multiproxy approach
title_full_unstemmed Tracking climate variability in the western Mediterranean during the Late Holocene: a multiproxy approach
title_sort tracking climate variability in the western mediterranean during the late holocene: a multiproxy approach
publishDate 2018
url https://doi.org/10.5194/cp-7-1395-2011
https://cp.copernicus.org/articles/7/1395/2011/
genre North Atlantic
North Atlantic oscillation
genre_facet North Atlantic
North Atlantic oscillation
op_source eISSN: 1814-9332
op_relation doi:10.5194/cp-7-1395-2011
https://cp.copernicus.org/articles/7/1395/2011/
op_doi https://doi.org/10.5194/cp-7-1395-2011
container_title Climate of the Past
container_volume 7
container_issue 4
container_start_page 1395
op_container_end_page 1414
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