Add to ORKGPeatland soils represent globally significant stores of carbon, and understanding carbon cycling pathways in these ecosystems has important implications for global climate change. We measured aceticlastic and autotrophic methanogenesis, sulfate reduction, denitrification, and iron reduction in a bog, an intermediate fen, and a rich fen in the Upper Peninsula of Michigan for one growing season. In 3-d anaerobic incubations of slurried peat, denitrification and iron reduction were minor components of anaerobic carbon mineralization. Experiments using 14C-labeled methanogenic substrates showed that methanogenesis in these peatlands was primarily through the aceticlastic pathway, except early in the growing season in more ombrotrophic peatlands...
The degradation of organic matter to CH4 and CO2 was investigated in three different boreal peatland...
Peatland restoration by inundation of drained areas can alter local greenhouse gas emissions as CO(2...
Nitrogen and sulfur deposition and water table level fluctuations have the potential to influence th...
Peatland soils represent globally significant stores of carbon, and understanding carbon cycling pat...
Peatlands store globally significant amounts of carbon and are important sources of the greenhouse g...
Future climate change and other anthropogenic activities are likely to increase nutrient availabilit...
Using an isotope-mass balance approach and assuming the equimolar production of CO2 and CH4 from met...
Using an isotope-mass balance approach and assuming the equimolar production of CO2 and CH4 from met...
44 pagesAlthough peatlands cover < 3% of the Earth’s surface, they are among the most important terr...
This study involved in vitro assays of peat soil to investigate the occurrence, importance and poten...
Peatlands represent massive global carbon (C) pools and sinks. Carbon accumulation depends on the ra...
Using an isotope-mass balance approach and assuming the equimolar production of CO2 and CH4 from met...
[1] Sulfur cycling in peatlands may affect global CH4 emissions by suppression of methanogenesis thr...
The macromolecular compositions of subfossil plants from boreal Sphagnum bogs and restiad bogs (New ...
The degradation of organic matter to CH4 and CO2 was investigated in three different boreal peatland...
The degradation of organic matter to CH4 and CO2 was investigated in three different boreal peatland...
Peatland restoration by inundation of drained areas can alter local greenhouse gas emissions as CO(2...
Nitrogen and sulfur deposition and water table level fluctuations have the potential to influence th...
Peatland soils represent globally significant stores of carbon, and understanding carbon cycling pat...
Peatlands store globally significant amounts of carbon and are important sources of the greenhouse g...
Future climate change and other anthropogenic activities are likely to increase nutrient availabilit...
Using an isotope-mass balance approach and assuming the equimolar production of CO2 and CH4 from met...
Using an isotope-mass balance approach and assuming the equimolar production of CO2 and CH4 from met...
44 pagesAlthough peatlands cover < 3% of the Earth’s surface, they are among the most important terr...
This study involved in vitro assays of peat soil to investigate the occurrence, importance and poten...
Peatlands represent massive global carbon (C) pools and sinks. Carbon accumulation depends on the ra...
Using an isotope-mass balance approach and assuming the equimolar production of CO2 and CH4 from met...
[1] Sulfur cycling in peatlands may affect global CH4 emissions by suppression of methanogenesis thr...
The macromolecular compositions of subfossil plants from boreal Sphagnum bogs and restiad bogs (New ...
The degradation of organic matter to CH4 and CO2 was investigated in three different boreal peatland...
The degradation of organic matter to CH4 and CO2 was investigated in three different boreal peatland...
Peatland restoration by inundation of drained areas can alter local greenhouse gas emissions as CO(2...
Nitrogen and sulfur deposition and water table level fluctuations have the potential to influence th...