Temperature Response of Aerobic Methane-Oxidizing Bacteria in Lake Sediments from King George Island, Maritime Antarctica
Diego M. Roldán, Daniel Carrizo, Laura Sánchez-García, Rodolfo Javier Menes

TL;DR
This study examines how temperature affects methane-oxidizing bacteria in Antarctic lake sediments, revealing shifts in bacterial communities and potential vulnerabilities to warming.
Contribution
The study provides new insights into how temperature influences the diversity and structure of methane-oxidizing bacteria in polar environments.
Findings
Methylobacter and Crenothrix were the main methane-oxidizing bacteria at both 5°C and 20°C.
Gammaproteobacterial biomarkers increased in concentration with rising temperature.
Higher temperatures reduced the diversity of methane-oxidizing bacteria, indicating functional vulnerability.
Abstract
Methane (CH4) is a major greenhouse gas that contributes substantially to global warming. The release of biogenic CH4 into the atmosphere is a critical factor in global climate change and can be enhanced by increasing temperature. Over the past 50 years, Maritime Antarctica has been among the most rapidly warming regions of the planet. Methane-oxidizing bacteria (MOB) can oxidize a substantial fraction of the CH4 produced by methanogenic archaea before it reaches the atmosphere. However, a major knowledge gap in the global CH4 cycle in the Southern Ocean and Antarctica concerns its biological consumption by MOB, which act as an important biological sink. Although temperature is known to strongly influence CH₄ oxidation rates, its effects on the structure of MOB communities and their associated phospholipid fatty acid (PLFA) profiles in polar environments remain poorly understood. In…
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Taxonomy
TopicsMethane Hydrates and Related Phenomena · Microbial Community Ecology and Physiology · Polar Research and Ecology
