R. Kyle Derby
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View article: The secret life of tidal marshes and mangroves: camera trapping as a window into wildlife using North American coastal wetlands
The secret life of tidal marshes and mangroves: camera trapping as a window into wildlife using North American coastal wetlands Open
View article: Controls on spatial variation in porewater methane concentrations across United States tidal wetlands
Controls on spatial variation in porewater methane concentrations across United States tidal wetlands Open
Tidal wetlands can be a substantial sink of greenhouse gases, which can be offset by variable methane (CH4) emissions under certain environmental conditions and anthropogenic interventions. Land managers and policymakers need ma…
View article: Methane fluxes in tidal marshes of the conterminous United States
Methane fluxes in tidal marshes of the conterminous United States Open
Methane (CH 4 ) is a potent greenhouse gas (GHG) with atmospheric concentrations that have nearly tripled since pre‐industrial times. Wetlands account for a large share of global CH 4 emissions, yet the magnitude and factors controlling CH…
View article: Soil, Plant, and Microbiome Tracers of Coastal Wetland Migration
Soil, Plant, and Microbiome Tracers of Coastal Wetland Migration Open
View article: Vegetation and hydrology stratification as proxies to estimate methane emission from tidal marshes
Vegetation and hydrology stratification as proxies to estimate methane emission from tidal marshes Open
Direct measurement of methane emissions is cost-prohibitive for greenhouse gas offset projects, necessitating the development of alternative accounting methods such as proxies. Salinity is a useful proxy for tidal marsh CH 4 emissions when…
View article: Stratifying by Vegetation and Hydrology Improves Tidal Marsh Methane Emission Accounting
Stratifying by Vegetation and Hydrology Improves Tidal Marsh Methane Emission Accounting Open
Methane emissions must be directly measured or estimated using methods such as proxies when managing wetlands for greenhouse gas offset activities. Salinity is a useful proxy for tidal marsh CH4 emissions when comparing across a…
View article: Methane Emissions From A Tidal Brackish Marsh On Maryland's Eastern Shore and the Factors Impacting Them
Methane Emissions From A Tidal Brackish Marsh On Maryland's Eastern Shore and the Factors Impacting Them Open
Methane is a potent greenhouse gas and may offset a significant portion of the carbon sequestration benefit of many brackish marshes. The objective of this study was to determine whether methane emissions varied across different hydrologic…