Fossil leaf wax hydrogen isotopes reveal variability of Atlantic and Mediterranean climate forcing on the southeast Iberian Peninsula between 6000 to 3000 cal. BP.

Nils Andersen,Julien Schirrmacher,Ralph R. Schneider,Peter F. Biehl,Mara Weinelt

doi:10.1371/journal.pone.0243662

Nils Andersen, Julien Schirrmacher + Show 3 more

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https://doi.org/10.1371/journal.pone.0243662

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Journal: PloS one	Publication Date: Dec 23, 2020
Citations: 4	License type: CC BY 4.0

Affiliation: Kiel University

Abstract

Many recently published papers have investigated the spatial and temporal manifestation of the 4.2 ka BP climate event at regional and global scales. However, questions with regard to the potential drivers of the associated climate change remain open. Here, we investigate the interaction between Atlantic and Mediterranean climate forcing on the south-eastern Iberian Peninsula during the mid- to late Holocene using compound-specific hydrogen isotopes from fossil leaf waxes preserved in marine sediments. Variability of hydrogen isotope values in the study area is primarily related to changes in the precipitation source and indicates three phases of increased Mediterranean sourced precipitation from 5450 to 5350 cal. BP, from 5150 to 4300 cal. BP including a short-term interruption around 4800 cal. BP, and from 3400 to 3000 cal. BP interrupted around 3200 cal. BP. These phases are in good agreement with times of prevailing positive modes of the North Atlantic Oscillation (NAO) and reduced storm activity in the Western Mediterranean suggesting that the NAO was the dominant modulator of relative variability in precipitation sources. However, as previously suggested other modes such as the Western Mediterranean Oscillation (WeMO) may have altered this overall relationship. In this regard, a decrease in Mediterranean moisture source coincident with a rapid reduction in warm season precipitation during the 4.2 ka BP event at the south-eastern Iberian Peninsula might have been related to negative WeMO conditions.

Highlights

In recent years much effort has been made in reconstructing and understanding the socioenvironmental dynamics associated with the 4.2 ka BP event
In order to investigate the interaction between Atlantic and Mediterranean climate at the south-eastern Iberian Peninsula during the mid- to late Holocene, compound-specific hydrogen and carbon isotopic records (δ13CCx) from fossil leaf waxes (i.e. n-alkanes) have been analysed
Detailed comparison with δ13CCx values, sea surface temperature variability, and changes in precipitation amount indicate that δDCx values and their weighted-mean average analysed in this study are related to changes in the precipitation source

Summary

Introduction

In recent years much effort has been made in reconstructing and understanding the socioenvironmental dynamics associated with the 4.2 ka BP event. The 4.2 ka BP event was described as an “archaeological event” in the Near East, where the Akkadian Empire potentially collapsed due to an increase in regional aridity [1]. Similar climatic related collapses or transformations within ancient societies at that time have been documented in different regions across the northern hemisphere [2,3,4] including southern Iberia [5, 6]. Regional heterogeneity in both, climatic conditions and social developments, have been. Fossil leaf wax hydrogen isotopes tracing Atlantic and Mediterranean climate forcing

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