Vegetation impacts ditch methane emissions from boreal forestry-drained peatlands—Moss-free ditches have an order-of-magnitude higher emissions than moss-covered ditches

Ditches of forestry-drained peatlands are an important source of methane (CH 4 ) to the atmosphere. These CH 4 emissions are currently estimated using the IPCC Tier 1 emission factor (21.7 g CH 4 m −2  y −1 ), which is based on a limited number of observations (11 study sites) and does not take into...

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Bibliographic Details
Published in:Frontiers in environmental science 2023-04, Vol.11
Main Authors: Rissanen, Antti J., Ojanen, Paavo, Stenberg, Leena, Larmola, Tuula, Anttila, Jani, Tuominen, Sakari, Minkkinen, Kari, Koskinen, Markku, Mäkipää, Raisa
Format: Article
Language:English
Subjects:
Accuracy
Classification
Datasets
ditch
Ditches
Drainage
Emission
Emission inventories
Emission measurements
Emission standards
Emissions
Environmental science
Estimates
Forestry
Greenhouse effect
greenhouse gas (GHG)
Greenhouse gases
Intergovernmental Panel on Climate Change
IPCC emission factor
Methane
Mosses
peatland
Peatlands
Plants
Sphagnum
Standard error
Vegetation
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Summary:Ditches of forestry-drained peatlands are an important source of methane (CH 4 ) to the atmosphere. These CH 4 emissions are currently estimated using the IPCC Tier 1 emission factor (21.7 g CH 4 m −2  y −1 ), which is based on a limited number of observations (11 study sites) and does not take into account that the emissions are affected by the condition and age of the ditches. Furthermore, the total area of different kinds of ditches remains insufficiently estimated. To construct more advanced ditch CH 4 emission factors for Finland, we measured CH 4 emissions in ditches of 3 forestry-drained peatland areas (manual chamber technique) and amended this dataset with previously measured unpublished and published data from 18 study areas. In a predetermined 2-type ditch classification scheme, the mean CH 4 emissions (±standard error) were 2.6 ± 0.8 g CH 4 m −2  y −1 and 20.6 ± 7.0 g CH 4 m -2  y −1 in moss-covered and moss-free ditches, respectively. In a more detailed 4-type classification scheme, the yearly emissions were 0.6 ± 0.3, 3.8 ± 1.1, 8.8 ± 3.2, and 25.1 ± 9.7 g CH 4 m −2  y −1 in Sphagnum -covered, Sphagnum - and vascular plant—covered, moss-free and vascular plant-covered, and plant - free ditches, respectively. Hence, we found that Tier 1 emission factor may overestimate ditch CH 4 emissions through overestimation of the emissions of moss-covered ditches, irrespective of whether they harbor potentially CH 4 conducing vascular plants. Based on the areal estimates and the CH 4 emission factors for moss-covered and moss-free ditches, CH 4 emissions of ditches of forestry-drained peatlands in Finland were 8,600 t a −1 , which is 63% lower than the current greenhouse gas inventory estimates for ditch CH 4 emissions (23,200 t a −1 ). We suggest that the Tier 1 emission factor should be replaced with more advanced emission factors in the estimation of ditch CH 4 emissions of boreal forestry-drained peatlands also in other countries than in Finland. Furthermore, our results suggest that the current practice in Finland to minimize ditch-network maintenance by ditch cleaning will likely decrease CH 4 emissions from ditches, since old moss-covered ditches have very low emissions.
ISSN:2296-665X
2296-665X
DOI:10.3389/fenvs.2023.1121969