Tidal marshes are vegetated coastal ecosystems that are often considered as hotspots of
atmospheric CO 2 sequestration. Although large amounts of organic carbon (OC) are indeed …

Tidal marshes are sedimentary environments and are among the most productive
ecosystems on Earth. As a consequence they have the potential to reduce atmospheric …

Salt marshes and other blue carbon ecosystems have been increasingly recognized for their
carbon (C)‐sink function. Yet, an improved assessment of organic carbon (OC) stocks and C …

Salt marshes are recognized as blue carbon ecosystems for their ability to rapidly sequester
organic carbon (OC) via sedimentation. For this reason, there is growing interest in …

Carbon captured by marine organisms helps sequester atmospheric CO 2, especially in
shallow coastal ecosystems, where rates of primary production and burial of organic carbon …

Fluorescence was used to examine the quality of dissolved and particulate organic matter
(DOM and POM) exchanging between a tidal creek in a created salt marsh and its adjacent …

Purpose Soils of tidal marshes play an important role in regional carbon (C) cycles as they
are able to store considerable amounts of organic carbon (OC). However, the C dynamics of …

The age and ability of salt marshes to accumulate and sequester carbon is often assessed
using the carbon isotopic signatures (Δ 14 C and δ 13 C) of sedimentary organic matter …

Carbon captured by marine living organisms is called “blue carbon”, and seagrass
meadows are a dominant blue carbon sink. However, our knowledge of how seagrass …

Tidal marsh ecosystems are among earth's most efficient natural organic carbon (C) sinks
and provide myriad ecosystem services. However, approximately half have been 'reclaimed' …