Seasonality of methane and carbon dioxide emissions in tropical seagrass and unvegetated ecosystems

• Published in: Communications earth & environment Vol. 4; no. 1; pp. 99 - 10
• Main Authors: Saderne, Vincent, Dunne, Aislinn Francesca, Rich, Walter Ambrose, Cadiz, Ronald, Carvalho, Susana, Cúrdia, Joao, Kattan, Alexander
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group 01.12.2023; Nature Portfolio
• Subjects: Carbon dioxide; Carbon dioxide emissions; Carbon sequestration; Carbon sinks; Carbon sources; Climate change; Climate change mitigation; Ecosystems; Emissions; Global warming; Greenhouse effect; Greenhouse gases; Lagoons; Methane; Mud flats; Organic matter; Sea grasses; Seagrasses; Seasonal variations; Sediments; Temporal resolution; Red Sea
• ISSN: 2662-4435; 2662-4435
• DOI: 10.1038/s43247-023-00759-9

Abstract Seagrass ecosystems are important carbon dioxide sinks that can sequester carbon for centuries as organic matter in sediment. They are also a major source of methane, a potent greenhouse gas, which limits their carbon sink capacity. However, data are lacking on their methane emission dynamics. Here, we conduct a one-year survey of carbon dioxide and methane concentrations and air-sea fluxes in Red Sea seagrass, mudflat, and coral backreef ecosystems. All ecosystems were sources of methane and carbon dioxide. Methane concentrations were lowest in the reef lagoon. We suggest that lagoons may be a globally important source of greenhouse gases. Methane concentrations were lower in seagrass than mudflat ecosystems at temperatures below 29.2 °C. Seagrass had the highest annual methane air-sea fluxes but the lowest global warming potential in carbon dioxide equivalent due to a decrease in its flux. Hence, seagrasses can help climate change mitigation compared to bare sediments.