Add to ORKGWe studied greenhouse gas (GHG) emissions (CH4 and N2O), agronomic performance and soil conditions in a grassland on an inverted peat soil that was earlier cultivated and tile-drained, and compared it with grassland on conventionally tile-drained peat. A neighbouring undrained peat was used as a reference for GHG emissions. Preliminary results (2-year field data) revealed reduced GHG emissions from the inverted peat relative to the tile-drained peat, mainly caused by lower CH4 emissions. Our data suggest that peat inversion can improve the agronomic feasibility of forage production in cool-moist areas with abundant organic soils, and can offer a way of agronomic adaptation to a climate with increased precipitation. At the same time it may r...
It is generally known that managed, drained peatlands act as carbon sources. In this study we examin...
Background Cultivated peatlands are widespread in temperate and boreal climate zones. For example, i...
Drainage of peatlands for agriculture use leads to an increase in nitrogen turnover rate causing emi...
We studied greenhouse gas (GHG) emissions (CH4 and N2O), agronomic performance and soil conditions i...
We studied greenhouse gas (GHG) emissions (CH4 and N2O), agronomic performance and soil conditions i...
We studied greenhouse gas (GHG) emissions (CH4 and N2O), agronomic performance and soil conditions i...
SUMMARY Peat pastures in the Dutch province of Friesland emit high amounts of greenhouse gases (CO2...
Cultivated organic soils are a remarkable source of greenhouse gases (GHG) in some countries and rai...
Natural peatland are efficient ecosystems in storing carbon and serve as a net sink of atmospheric C...
The large boreal peatland ecosystems sequester carbon and nitrogen from the atmosphere due to a low ...
Methane (CH4) is the most important greenhouse gas next to CO2 and as such it contributes to the enh...
It is generally known that managed, drained peatlands act as carbon sources. In this study we examin...
It is generally known that managed, drained peatlands act as carbon sources. In this study we examin...
Methane (CH4) is the most important greenhouse gas next to CO2 and as such it contributes to the enh...
Background Cultivated peatlands are widespread in temperate and boreal climate zones. For example, i...
It is generally known that managed, drained peatlands act as carbon sources. In this study we examin...
Background Cultivated peatlands are widespread in temperate and boreal climate zones. For example, i...
Drainage of peatlands for agriculture use leads to an increase in nitrogen turnover rate causing emi...
We studied greenhouse gas (GHG) emissions (CH4 and N2O), agronomic performance and soil conditions i...
We studied greenhouse gas (GHG) emissions (CH4 and N2O), agronomic performance and soil conditions i...
We studied greenhouse gas (GHG) emissions (CH4 and N2O), agronomic performance and soil conditions i...
SUMMARY Peat pastures in the Dutch province of Friesland emit high amounts of greenhouse gases (CO2...
Cultivated organic soils are a remarkable source of greenhouse gases (GHG) in some countries and rai...
Natural peatland are efficient ecosystems in storing carbon and serve as a net sink of atmospheric C...
The large boreal peatland ecosystems sequester carbon and nitrogen from the atmosphere due to a low ...
Methane (CH4) is the most important greenhouse gas next to CO2 and as such it contributes to the enh...
It is generally known that managed, drained peatlands act as carbon sources. In this study we examin...
It is generally known that managed, drained peatlands act as carbon sources. In this study we examin...
Methane (CH4) is the most important greenhouse gas next to CO2 and as such it contributes to the enh...
Background Cultivated peatlands are widespread in temperate and boreal climate zones. For example, i...
It is generally known that managed, drained peatlands act as carbon sources. In this study we examin...
Background Cultivated peatlands are widespread in temperate and boreal climate zones. For example, i...
Drainage of peatlands for agriculture use leads to an increase in nitrogen turnover rate causing emi...