Microbial biosignatures in ancient deep‐sea hydrothermal sulfides

Runge, Eric Alexander ORCIDiD
Mansor, Muammar
Kappler, Andreas ORCIDiD
Duda, Jan‐Peter

DOI: https://doi.org/10.1111/gbi.12539
Persistent URL: http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/10697
Runge, Eric Alexander; Mansor, Muammar; Kappler, Andreas; Duda, Jan‐Peter, 2022: Microbial biosignatures in ancient deep‐sea hydrothermal sulfides. In: Geobiology, 21, 3, 355-377, DOI: https://doi.org/10.1111/gbi.12539. 
 
Mansor, Muammar; 2 Geomicrobiology, Department of Geosciences Tübingen University Tübingen Germany
Kappler, Andreas; 2 Geomicrobiology, Department of Geosciences Tübingen University Tübingen Germany
Duda, Jan‐Peter; 1 Sedimentology and Organic Geochemistry, Department of Geosciences Tübingen University Tübingen Germany

Abstract

Deep‐sea hydrothermal systems provide ideal conditions for prebiotic reactions and ancient metabolic pathways and, therefore, might have played a pivotal role in the emergence of life. To understand this role better, it is paramount to examine fundamental interactions between hydrothermal processes, non‐living matter, and microbial life in deep time. However, the distribution and diversity of microbial communities in ancient deep‐sea hydrothermal systems are still poorly constrained, so evolutionary, and ecological relationships remain unclear. One important reason is an insufficient understanding of the formation of diagnostic microbial biosignatures in such settings and their preservation through geological time. This contribution centers around microbial biosignatures in Precambrian deep‐sea hydrothermal sulfide deposits. Intending to provide a valuable resource for scientists from across the natural sciences whose research is concerned with the origins of life, we first introduce different types of biosignatures that can be preserved over geological timescales (rock fabrics and textures, microfossils, mineral precipitates, carbonaceous matter, trace metal, and isotope geochemical signatures). We then review selected reports of biosignatures from Precambrian deep‐sea hydrothermal sulfide deposits and discuss their geobiological significance. Our survey highlights that Precambrian hydrothermal sulfide deposits potentially encode valuable information on environmental conditions, the presence and nature of microbial life, and the complex interactions between fluids, micro‐organisms, and minerals. It further emphasizes that the geobiological interpretation of these records is challenging and requires the concerted application of analytical and experimental methods from various fields, including geology, mineralogy, geochemistry, and microbiology. Well‐orchestrated multidisciplinary studies allow us to understand the formation and preservation of microbial biosignatures in deep‐sea hydrothermal sulfide systems and thus help unravel the fundamental geobiology of ancient settings. This, in turn, is critical for reconstructing life's emergence and early evolution on Earth and the search for life elsewhere in the universe.