Peat decomposition driven by soil metabolic processes is responsible for approximately 2%
of global annual anthropogenic greenhouse gas emissions. A peat soil's redox potential …

For decades, tropical peatlands in Indonesia have been deforested and converted to other
land uses, mainly oil palm plantations which now cover one-fourth of the degraded peatland …

Organic-rich agricultural soils, including drained peatlands, are hotspots for biogenic CO2
emissions. Due to microbial mineralisation, the organic carbon (OC) content of these soils …

Peat soils store a large part of the global soil carbon stock, which can potentially be lost
when they are drained and taken into cultivation, resulting in CO 2 emission and land …

Peatlands cover 3% of the Danish land area, but drainage of these areas contributes to
approximately 25% of the total agricultural greenhouse gas (GHG) emissions. Paludiculture …

Raising the water table is an effective way to abate greenhouse gas emissions from
cultivated peat soils. We experimented a gradual water table rise at a highly degraded …

Large-scale management, protection, and restoration of wetlands require knowledge of their
hydrology, ie, the status and dynamics of the groundwater table, which determine the …

We experimented a gradual water table rise at a highly degraded agricultural peat soil site
with plots of willow, forage and mixed vegetation (set-aside) in southern Finland. We …

Degraded peat has a high potential for use in agricultural production, especially food crops.
The water table, which impacts the production of greenhouse gases (GHGs), is the main …

To ensure that there is enough food produced for a growing population, trends in population
growth and food consumption must be monitored. Therefore, farmers adopt various …