Peat particulate organic matter accepts electrons during in situ incubation in the anoxic subsurface of ombrotrophic bogs
N Obradović, RA Schmitz, F Haffter… - Journal of …, 2024 - Wiley Online Library
Peat particulate organic matter (POM) in the anoxic subsurface of peatlands is increasingly
recognized as an important terminal electron acceptor (TEA) in anaerobic respiration. While …
recognized as an important terminal electron acceptor (TEA) in anaerobic respiration. While …
Reoxidation of Reduced Peat Organic Matter by Dissolved Oxygen: Combined Laboratory Column‐Breakthrough Experiments and In‐Field Push‐Pull Tests
Electron transfer to peat particulate organic matter (POM) as terminal electron acceptor
(TEA) in anaerobic respiration has been hypothesized to lower methane emissions from …
(TEA) in anaerobic respiration has been hypothesized to lower methane emissions from …
Warming promotes the use of organic matter as an electron acceptor in a peatland
Peatlands store approximately one-half of terrestrial soil organic carbon (C) and the future of
this C in the face of ongoing global change remains a key question in global …
this C in the face of ongoing global change remains a key question in global …
Redox properties of peat particulate organic matter: Quantification of electron accepting capacities and assessment of electron transfer reversibility
Peat particulate organic matter (POM) has been hypothesized to act as a terminal electron
acceptor (TEA) for anaerobic microbial respiration in northern peatlands, thereby lowering …
acceptor (TEA) for anaerobic microbial respiration in northern peatlands, thereby lowering …
Oxidation of reduced peat particulate organic matter by dissolved oxygen: quantification of apparent rate constants in the field
Peat particulate organic matter (POM) is an important terminal electron acceptor for
anaerobic respiration in northern peatlands provided that the electron-accepting capacity of …
anaerobic respiration in northern peatlands provided that the electron-accepting capacity of …
Microbial organic matter reduction regulates methane and carbon dioxide production across an ombrotrophic-minerotrophic peatland gradient
Unraveling the mechanistic controls of methane (CH 4) cycling in northern peatland
ecosystems is crucial for understanding peatland-climate feedbacks. Growing evidence …
ecosystems is crucial for understanding peatland-climate feedbacks. Growing evidence …
Soil type and water level treatments influence peatland CO2 efflux in simulated restoration
K Napora, J Steven, RB Atkinson - Bios, 2021 - BioOne
Peatlands are characterized by accumulation of organic matter primarily in response to soil
anoxia and soil saturation. In the Cavalier Wildlife Management Area (CWMA) of …
anoxia and soil saturation. In the Cavalier Wildlife Management Area (CWMA) of …
[PDF][PDF] Is Long Term Peat Storage for Future Restoration Viable?
IR DETREY - 2021 - pure.uhi.ac.uk
Covering less than 3% of the Earth's landmass but containing around a third of all organic
soil carbon, peatlands are both one of the world rarest and most important habitats in terms …
soil carbon, peatlands are both one of the world rarest and most important habitats in terms …
Quantification and Redox Dynamics of Phenols and Quinones in Organic Matter from Northern Peatlands
N Walpen - 2018 - research-collection.ethz.ch
Northern peatlands store significant amounts of carbon as organic matter in water-saturated,
anoxic peat. Redox transformations of electron-donating phenols and electron-accepting …
anoxic peat. Redox transformations of electron-donating phenols and electron-accepting …
[图书][B] The microbiology and metal attenuation in a natural wetland impacted by acid mine drainage
OEA Vargas - 2018 - search.proquest.com
A natural wetland that has historically received acid mine drainage (AMD) from the
abandoned metal mine at Parys Mountain (Anglesey, UK) has proved efficient in the …
abandoned metal mine at Parys Mountain (Anglesey, UK) has proved efficient in the …