Climate change increases coastal blue carbon sequestration

January 25, 2021

Coastal Blue Carbon (BC), which includes mangrove and saltmarsh tidal wetlands, of which was first coined a decade ago to describe the disproportionately large contribution of coastal vegetated ecosystems to global carbon sequestration. The role of BC in climate change mitigation and adaptation has now reached international prominence. Recent studies have reported BC's unique role in mitigating climate change, projected coastal wetlands area change, carbon stocks in response to historical sea level rise fluctuations, and the future roadmap relative to carbon sequestration studies. However, several questions remain unanswered:

Q1. What is the global extent and spatial distribution of BC systems?
Q2. What factors influence BC burial rates?
Q3. How does climate change impact carbon accumulation in mature BC ecosystems?

In a recent publication in National Science Review, Prof. Wang and Prof. Sanders lead an international group to go beyond recent soil C stock estimates, to reveal global tidal wetland C accumulation and predict changes under relative sea level rise, temperature and precipitation. They use data from literature study sites (n=563) and new observations (n=49) spanning wide latitudinal gradients and 20 countries (Figure 1). They found that global tidal wetlands accumulate ~54 Tg C yr-1, which is ~30% of the organic C buried on the ocean floor (Figure 1). Modelling based on current climatic drivers and under projected emissions scenarios revealed an increase of up to ~300 g C m-2 yr-1 by 2100 as an average global C accumulation rate (Figure 2). This rapid increase was found here to be driven by sea-level rise in tidal marshes, and higher temperature and precipitation in mangroves. Their results highlight the feedbacks between climate change and C sequestration in tidal wetlands (Figure 2). The findings in this research show that even though these global tidal wetlands only occupy <0.1% global area, they could offset at least 0.6% of the current anthropogenic CO2 emissions, a spatial efficiency that is 15 times higher than terrestrial and 49 times higher than the open ocean per unit area. The results from this study demonstrate that preserving and rehabilitating mangroves and salt marshes will remain an effective approach in tackling global climate change with significant regional benefits in tidal wetland-rich countries.
-end-
See the article:

Wang F, Sanders CJ, Santos IR, Tang J, Schuerch M, Kirwan ML, Kopp RE, Zhu K, Li X, Yuan J, Liu W, Li Z (2020) Global blue carbon accumulation in tidal wetlands increases with climate change. National Science Review. doi: 10.1093/nsr/nwaa296.
https://doi.org/10.1093/nsr/nwaa296

Science China Press

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