Abstract

Here we provide valuable information about the palaeoenvironmental evolution of Southwestern Mediterranean region during the last ca. 320 ka through a biomarker-based study of the longest continuous continental Quaternary record in the Iberian Peninsula. The n-alkane content and δ13C values of these lipids were measured in 300 samples taken from the uppermost 55 m of the Padul Basin (PB) record. The δ13C signal of long-chain n-alkanes was a reliable proxy for C4/C3 terrestrial vegetation composition in the basin, as emergent macrophytes made a minor contribution to these homologues. In contrast, the δ13C values of C23 and C25 alkanes reflected mainly phases of increasing water level of the lacustrine/palustrine water body since aquatic macrophytes contain a large proportion of these compounds. Low δ13C values were attributed to a marked contribution of plants using the C3 photosynthetic pathway. Intervals with the lowest δ13C values were attributed to an important input of angiosperms, although they could also be explained by changing environmental conditions or environmental stress, as large shifts in δ13C occurred in long-chain homologues typically abundant in terrestrial plants. Shifts in δ13C of medium-chain homologues reflected limited CO2 availability induced by water temperature, salinity, pH, enhanced productivity, low atmospheric pCO2, or stagnant barriers, rather than the abundance of aquatic macrophytes. Our results also suggest enhanced isotopic fractionation during lipid synthesis by aquatic macrophytes within MIS 7 and the Holocene, leading to increased δ13C values of bulk OM and of long-chain n-alkanes. Hence, the δ13C logs were ideal for studying the contribution of aquatic macrophytes to the lipid and isotopic composition of sediments and for the reconstruction of palaeoenvironmental conditions. These results confirmed that C4 plants had a low presence in the PB. Comparison with biomarker analysis and pollen data of the PB and other records of the Southwestern Mediterranean revealed that δ13C values of bulk OM and of long-chain n-alkanes reflected global climatic oscillations during MIS 7 and the episodes Heinrich Events 3, 2, 1 and Younger Dryas.

Highlights

  • Lacustrine and palustrine sediments provide excellent palaeoclimatic and palaeoenvironmental reconstructions from the study of a variety of proxies, including elemental, isotopic and molecular organic geochemical ones

  • The n-alkane content, and δ13C values of these lipids and of bulk organic matter (OM) allowed us to infer the palaeoenvironmental conditions of the Padul Basin (PB) in the last 320 ka

  • The δ13C signal of long-chain n-alkanes was a reliable proxy for ­C4 and ­C3 plant content in the basin, as emergent macrophytes made a minor contribution to these homologues

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Summary

Introduction

Lacustrine and palustrine sediments provide excellent palaeoclimatic and palaeoenvironmental reconstructions from the study of a variety of proxies, including elemental, isotopic and molecular organic geochemical ones. Short-chain n-alkanes ­(C17 and ­C19) are attributed mainly to algae and cyanobacteria (Cranwell et al 1987). Given these considerations, indexes like the average chain length (ACL) (Poynter 1989) have been developed to estimate the contribution of different types of vegetation to sediments. Indexes like the average chain length (ACL) (Poynter 1989) have been developed to estimate the contribution of different types of vegetation to sediments In this regard, the aquatic macrophyte proxy (Paq) (Ficken et al 2000) provides information about the input of aquatic macrophytes to marine, lacustrine and palustrine environments

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