Add to ORKGThis report was presented at the UK Organic Research 2002 Conference. Land emissions of N2O, CO2 and NH3 have been subject to little study under organic systems, yet form important aspects of sustainability of such systems. We describe innovative methods developed at SAC to assess trace gas emission using both automatic closed chamber systems (intensive, short term monitoring) and manually-operated closed chamber systems (occasional, long term monitoring). Long-term data were collected from organic ley-arable rotation trials in North-east of Scotland. Short term data were collected to show the effect of timing and depth of ploughing-out of the ley phase on gas emissions. Ploughing gave a shortterm stimulation of CO2 and, more markedly, of ...
Accounting for nitrogen (N) release from organic amendments (OA) can reduce the use of synthetic N-f...
This study examined the influence of different arable management practices in Canterbury, New Zealan...
Pristine peatlands are accumulators of organic material and large stores of carbon. During the past ...
Agricultural practices contribute considerably to emissions of greenhouse gases. So far, knowledge o...
Land-use extensification by shifting from conventional to organic arable farming is often discussed ...
The objective of the study was to evaluate whether N2O emissions from cropping systems are affected ...
Agricultural practices contribute considerably to emissions of greenhouse gases. So far, knowledge o...
Soil management practices shown to increase carbon sequestration include reduced tillage, amendments...
Conventional cropping systems rely on targeted short-term fertility management, whereas organic syst...
Farming practices are known to exert strong control over the soils’ function to act as sources or si...
Soil carbon storage and nitrous oxide (N2O) emissions are both important for the greenhouse gas bala...
Since industrialisation, the atmospheric concentration of greenhouse gases (GHG) has increased signi...
Drainage of peatlands for agriculture use leads to an increase in nitrogen turnover rate causing emi...
Increasing organic carbon (OC) stocks in soils reduce atmospheric CO2, but may also cause enhanced N...
Organic reduced tillage aims to combine the environmental benefits of organic farming and conservati...
Accounting for nitrogen (N) release from organic amendments (OA) can reduce the use of synthetic N-f...
This study examined the influence of different arable management practices in Canterbury, New Zealan...
Pristine peatlands are accumulators of organic material and large stores of carbon. During the past ...
Agricultural practices contribute considerably to emissions of greenhouse gases. So far, knowledge o...
Land-use extensification by shifting from conventional to organic arable farming is often discussed ...
The objective of the study was to evaluate whether N2O emissions from cropping systems are affected ...
Agricultural practices contribute considerably to emissions of greenhouse gases. So far, knowledge o...
Soil management practices shown to increase carbon sequestration include reduced tillage, amendments...
Conventional cropping systems rely on targeted short-term fertility management, whereas organic syst...
Farming practices are known to exert strong control over the soils’ function to act as sources or si...
Soil carbon storage and nitrous oxide (N2O) emissions are both important for the greenhouse gas bala...
Since industrialisation, the atmospheric concentration of greenhouse gases (GHG) has increased signi...
Drainage of peatlands for agriculture use leads to an increase in nitrogen turnover rate causing emi...
Increasing organic carbon (OC) stocks in soils reduce atmospheric CO2, but may also cause enhanced N...
Organic reduced tillage aims to combine the environmental benefits of organic farming and conservati...
Accounting for nitrogen (N) release from organic amendments (OA) can reduce the use of synthetic N-f...
This study examined the influence of different arable management practices in Canterbury, New Zealan...
Pristine peatlands are accumulators of organic material and large stores of carbon. During the past ...