Add to ORKGThere is a growing interest in managing wetland restoration and conservation projects to maximize carbon sequestration. We measured soil organic carbon storage and methane flux from two southern California salt marshes which had been restored for 2 and 22 years. We hypothesized that organic carbon would accumulate following restoration and that methane flux would be negligible in both sites. While methane flux was minimal, soil organic carbon content was generally higher in the more recently restored site. Although there is a potential for carbon sequestration in salt marshes, tracking this process through time may be complicated by initial site conditions
Although methane (CH4) dynamics are known to differ at broad scales among peatland types and with cl...
Tidal marshes are broad flat wetlands that have some of the highest carbon stocks of any ecosystem. ...
Coastal wetlands are a significant carbon (C) sink since they store carbon in anoxic soils. This eco...
There is a growing interest in managing wetland restoration and conservation projects to maximize ca...
Chromophoric dissolved organic matter (CDOM) optical properties were measured in surface and porewat...
Dominant plant functional groups (PFGs) found in boreal rich fens include sedges, grasses, horsetail...
Wetland soils are globally important carbon stores, and natural wetlands provide a sink for atmosphe...
Dissolved organic matter (DOM) in lakes across elevation gradients is a complex function of topograp...
For energetic reasons, iron reduction suppresses methanogenesis in tidal freshwater wetlands; howeve...
Without a substantial reduction in the billions of tons of anthropogenic greenhouse gases emitted an...
Salt marshes play an important role in the global carbon cycle as reservoirs of atmospheric CO2 and ...
© 2018 British Society of Soil Science Tidal marshes are coastal and estuarine ecosystems that store...
Each new student is thrust into the unknown of a different situation. Kelsey Gray... explores the be...
Increased recognition of the global importance of salt marshes as \u27blue carbon\u27 (C) sinks has ...
Wetland carbon sequestration is offset by carbon dioxide (CO2) and methane (CH4) emissions for which...
Although methane (CH4) dynamics are known to differ at broad scales among peatland types and with cl...
Tidal marshes are broad flat wetlands that have some of the highest carbon stocks of any ecosystem. ...
Coastal wetlands are a significant carbon (C) sink since they store carbon in anoxic soils. This eco...
There is a growing interest in managing wetland restoration and conservation projects to maximize ca...
Chromophoric dissolved organic matter (CDOM) optical properties were measured in surface and porewat...
Dominant plant functional groups (PFGs) found in boreal rich fens include sedges, grasses, horsetail...
Wetland soils are globally important carbon stores, and natural wetlands provide a sink for atmosphe...
Dissolved organic matter (DOM) in lakes across elevation gradients is a complex function of topograp...
For energetic reasons, iron reduction suppresses methanogenesis in tidal freshwater wetlands; howeve...
Without a substantial reduction in the billions of tons of anthropogenic greenhouse gases emitted an...
Salt marshes play an important role in the global carbon cycle as reservoirs of atmospheric CO2 and ...
© 2018 British Society of Soil Science Tidal marshes are coastal and estuarine ecosystems that store...
Each new student is thrust into the unknown of a different situation. Kelsey Gray... explores the be...
Increased recognition of the global importance of salt marshes as \u27blue carbon\u27 (C) sinks has ...
Wetland carbon sequestration is offset by carbon dioxide (CO2) and methane (CH4) emissions for which...
Although methane (CH4) dynamics are known to differ at broad scales among peatland types and with cl...
Tidal marshes are broad flat wetlands that have some of the highest carbon stocks of any ecosystem. ...
Coastal wetlands are a significant carbon (C) sink since they store carbon in anoxic soils. This eco...