Abstract. Tidal wetlands, such as tidal marshes and mangroves, are hotspots for carbon
sequestration. The preservation of organic matter (OM) is a critical process
by which tidal wetlands exert influence over the global carbon cycle and at
the same time gain elevation to keep pace with sea-level rise (SLR). The
present study assessed the effects of temperature and relative sea level on
the decomposition rate and stabilization of OM in tidal wetlands worldwide,
utilizing commercially available standardized litter. While effects on
decomposition rate per se were minor, we show strong negative effects of
temperature and relative sea level on stabilization, as based on the fraction
of labile, rapidly hydrolyzable OM that becomes stabilized during deployment.
Across study sites, OM stabilization was 29 % lower in low, more frequently
flooded vs. high, less frequently flooded zones. Stabilization declined by
∼ 75 % over the studied temperature gradient from 10.9 to
28.5 ∘C. Additionally, data from the Plum Island long-term
ecological research site in Massachusetts, USA, show a pronounced reduction in
OM stabilization by > 70 % in response to simulated coastal
eutrophication, confirming the potentially high sensitivity of OM
stabilization to global change. We therefore provide evidence that rising
temperature, accelerated SLR, and coastal eutrophication may decrease the
future capacity of tidal wetlands to sequester carbon by affecting the
initial transformations of recent OM inputs to soil OM.
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