Paleohydrological dynamics in the Western Mediterranean during the last glacial cycle

Antonio García-Alix, Jon Camuera, María José Ramos-Román, Jaime L. Toney, Dirk Sachse, Enno Schefuß, Gonzalo Jiménez-Moreno, Francisco J. Jiménez-Espejo, Alejandro López-Avilés, R. Scott Anderson, Yurena Yanes

Research output: Contribution to journalArticlepeer-review

Abstract

The transitional regions between the low and high latitudes of the Northern Hemisphere are highly vulnerable to future climate change yet most of the current climate models usually diverge in their projections. To better understand the dynamics in these regions, the reconstruction of past hydrological fluctuations and precipitation patterns is of paramount importance to accurately constrain present and future climate scenarios. In this study, we investigated paleohydrological dynamics in the western Mediterranean region, a transitional zone between low-mid latitudes and Atlantic - Mediterranean realms. We reconstruct precipitation and moisture source changes during the last ~35 ka in order to propose the potential mechanisms driving these oscillations. To do so, we use hydrogen isotopes from sedimentary leaf waxes, more specifically the C31 n-alkane homologue, and a precipitation proxy based on previously published pollen data from a sedimentary core (Padul-15-05) in southern Iberia (Padul wetland ~37° N). With this combination we disentangle the coupled effect of precipitation amount and source on the hydrogen isotopic signature of the studied C31 n-alkane record. Our results show three main periods characterized by different precipitation patterns. Low precipitation, mainly linked to a significant contribution from an isotopically-enriched Mediterranean precipitation source, occurred from ~30 to ~15.5 ka BP and during the last ~5 ka, whereas enhanced precipitation with a predominant isotopically-depleted Atlantic precipitation source prevailed from ~15.5 to ~5 ka BP. This latter stage is here defined as the Western Mediterranean Humid Period (WMHP). In addition, some occasional millennial-scale opposite precipitation patterns can be observed during these climatically distinct periods. These changes in the source of precipitation were likely coupled to a shift in the main rainy season from winter, when Atlantic precipitation prevailed, to late winter-early spring, when the contribution of Mediterranean moisture is higher. Comparison between the studied mid-latitude terrestrial Padul-15-05 core and a low-latitude marine record offshore of northwestern Africa shows clear long-term synchronous responses of both western Mediterranean precipitation and western African monsoon systems to northern Hemisphere atmospheric dynamics, ultimately controlled by orbital forcing and ice-sheets fluctuations.

Original languageEnglish (US)
Article number103527
JournalGlobal and Planetary Change
Volume202
DOIs
StatePublished - Jul 2021

Keywords

  • Holocene
  • Hydrogen isotopes
  • Last glacial-interglacial transition
  • Leaf waxes
  • Mid-low latitude rainfall systems
  • Paleohydrology
  • Southern Iberian Peninsula
  • West African monsoon
  • Western Mediterranean precipitation

ASJC Scopus subject areas

  • Global and Planetary Change
  • Oceanography

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