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Decoding organic compounds in lava tube sulfates to understand potential biomarkers in the Martian subsurface

Earth Sciences

Decoding organic compounds in lava tube sulfates to understand potential biomarkers in the Martian subsurface

V. Palma, J. M. D. L. Rosa, et al.

Discover groundbreaking insights from a study conducted by Vera Palma and colleagues, which explored sulfate speleothems in Lanzarote lava tubes as Mars analogs. The research uncovers potential biomarkers that could hint at microbial life on Mars through unique molecular and isotopic signatures.

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Playback language: English
Abstract
This study investigated sulfate speleothems from Lanzarote lava tubes as Mars analogs to understand potential biomarkers in the Martian subsurface. Molecular, isotopic, and mineralogical characterization revealed primarily calcium and sodium sulfates. Sulfur isotope analyses indicated volcanic and oceanic origins, while carbon isotope composition and pyrolysis analyses suggested vegetation and microbial influences. Lipid profiles, including branched and *n*-alkanes and palmitic and stearic acid methyl esters, suggested microbial origins. These findings contribute to understanding lava tube dynamics and recognizing potential biosignatures on Earth and other planets.
Publisher
Communications Earth & Environment
Published On
Authors
Vera Palma, José María De la Rosa, Bogdan Petroniu Onac, Francesco Sauro, Jesús Martínez-Frías, Ana Teresa Caldeira, José Antonio González-Pérez, Nicasio Tomás Jiménez-Morillo, Ana Zélia Miller
Tags
sulfate speleothems
Lanzarote
Mars analogs
biosignatures
microbial origins
isotopic analysis
lava tube dynamics

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