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Climate of the Past An interactive open-access journal of the European Geosciences Union
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Volume 7, issue 4
Clim. Past, 7, 1395–1414, 2011
https://doi.org/10.5194/cp-7-1395-2011
© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue: Characterization of climatic variability in the Iberian Peninsula...

Clim. Past, 7, 1395–1414, 2011
https://doi.org/10.5194/cp-7-1395-2011
© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.

Research article 13 Dec 2011

Research article | 13 Dec 2011

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

V. Nieto-Moreno1, F. Martínez-Ruiz1, S. Giralt2, F. Jiménez-Espejo1, D. Gallego-Torres1,3, M. Rodrigo-Gámiz1, J. García-Orellana4, M. Ortega-Huertas3, and G. J. de Lange5 V. Nieto-Moreno et al.
  • 1Instituto Andaluz de Ciencias de la Tierra (CSIC-UGR), Avenida de las Palmeras no. 4, 18100 Armilla, Granada, Spain
  • 2Institute of Earth Sciences Jaume Almera (CSIC), Lluís Solé i Sabarís s/n, 08028 Barcelona, Spain
  • 3Departamento de Mineralogía y Petrología, Facultad de Ciencias, Universidad de Granada, Campus Fuentenueva s/n, 18002 Granada, Spain
  • 4Departament de Física – Institut de Ciència i Tecnologia Ambientals (ICTA), Universitat Autònoma de Barcelona, 08193 Bellaterra, Spain
  • 5Marine Geochemistry and Chemical Oceanography, Geosciences Faculty, Utrecht University, Budapestlaan 4, 3584 CD Utrecht, The Netherlands

Abstract. 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.

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