Add to ORKGDrainage of peatlands for agriculture use leads to an increase in nitrogen turnover rate causing emissions of N2O to the atmosphere. Agriculture contributes to a substantial part of the anthropogenic emissions of N2O therefore mitigation options for the farmers are important. Here we present a field study with the aim to investigate if the choice of cropping system can mitigate the emission of N2O from cultivated organic soils. The sites used in the study represent fen peat soils with a range of different soil properties located in different parts of southern Sweden. All sites are on active farms with good drainage
Agriculture is one of the most important contributors to GHG emission, notably through fertilized cr...
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...
Since industrialisation, the atmospheric concentration of greenhouse gases (GHG) has increased signi...
Pristine peatlands are accumulators of organic material and large stores of carbon. During the past ...
Pristine peatlands are accumulators of organic material and large stores of carbon. During the past ...
Conventional cropping systems rely on targeted short-term fertility management, whereas organic syst...
Conventional cropping systems rely on targeted short-term fertility management, whereas organic syst...
Conventional cropping systems rely on targeted short-term fertility management, whereas organic syst...
Nitrous oxide (N2O) emissions from agricultural land are variable at the landscape scale due to vari...
The objective of the study was to evaluate whether N2O emissions from cropping systems are affected ...
The large boreal peatland ecosystems sequester carbon and nitrogen from the atmosphere due to a low ...
The results of a literature study examining quantitative estimates of N2O emission rates are present...
Cultivated organic soils are a remarkable source of greenhouse gases (GHG) in some countries and rai...
We studied greenhouse gas (GHG) emissions (CH4 and N2O), agronomic performance and soil conditions i...
Agriculture is one of the most important contributors to GHG emission, notably through fertilized cr...
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...
Since industrialisation, the atmospheric concentration of greenhouse gases (GHG) has increased signi...
Pristine peatlands are accumulators of organic material and large stores of carbon. During the past ...
Pristine peatlands are accumulators of organic material and large stores of carbon. During the past ...
Conventional cropping systems rely on targeted short-term fertility management, whereas organic syst...
Conventional cropping systems rely on targeted short-term fertility management, whereas organic syst...
Conventional cropping systems rely on targeted short-term fertility management, whereas organic syst...
Nitrous oxide (N2O) emissions from agricultural land are variable at the landscape scale due to vari...
The objective of the study was to evaluate whether N2O emissions from cropping systems are affected ...
The large boreal peatland ecosystems sequester carbon and nitrogen from the atmosphere due to a low ...
The results of a literature study examining quantitative estimates of N2O emission rates are present...
Cultivated organic soils are a remarkable source of greenhouse gases (GHG) in some countries and rai...
We studied greenhouse gas (GHG) emissions (CH4 and N2O), agronomic performance and soil conditions i...
Agriculture is one of the most important contributors to GHG emission, notably through fertilized cr...
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...