Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6368393 | Agricultural Systems | 2016 | 12 Pages |
Abstract
The current net GHG emissions of the farm models range from 10 to 12.9 tCO2e haâ 1 aâ 1, of which the peat soil-borne emissions make up a noticeable share. The rewetting and conversion of medium-drained grassland into wet grassland lead to considerable reductions of GHG emissions. However, in intensively managed dairy farms, the full emission mitigation potential of these peatland management options is not realized, because necessary adaptations increase emissions from other sources. Because of its low GHG mitigation potential, the conversion of arable land into medium drained intensive grassland leads to high abatement costs of up to 92 â¬/tCO2e, while the abatement costs of the rewetting and conversion into wet grassland range from 5 to 57 â¬/tCO2e. The results vary by farm type, intensity of agricultural peatland use to date and the share of peatland area on a farm. This stresses the need for individual farm approaches and impact analyses for planned peatland renaturations. The findings also show that the overall costs to compensate farmer income loss from planned peatland renaturations will be as high as they are for more intensively managed dairy farms, which will be located in and affected in the respective area. The modelling approach presented has the potential to be adapted to the needs of peatland farm systems in other countries of the temperate zone.
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Agricultural and Biological Sciences
Agricultural and Biological Sciences (General)
Authors
Tatjana Krimly, Elisabeth Angenendt, Enno Bahrs, Stephan Dabbert,