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Översiktsartikel2023Vetenskapligt granskadÖppen tillgång

Reviews and syntheses: Greenhouse gas emissions from drained organic forest soils - synthesizing data for site-specific emission factors for boreal and cool temperate regions

Jauhiainen, Jyrki; Heikkinen, Juha; Clarke, Nicholas; He, Hongxing; Dalsgaard, Lise; Minkkinen, Kari; Ojanen, Paavo; Vesterdal, Lars; Alm, Jukka; Butlers, Aldis; Callesen, Ingeborg; Jordan, Sabine; Lohila, Annalea; Mander, Ulo; Oskarsson, Hlynur; Sigurdsson, Bjarni D.; Sogaard, Gunnhild; Soosaar, Kaido; Kasimir, Asa; Bjarnadottir, Brynhildur;
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We compiled published peer-reviewed CO 2 , CH 4 , and N 2 O data on managed drained organic forest soils in boreal and temperate zones to revisit the current Tier 1 default emission factors (EFs) provided in the IPCC (2014) Wetlands Supplement: to see whether their uncertainty may be reduced; to evaluate possibilities for breaking the broad categories used for the IPCC EFs into more site-type-specific ones; and to inspect the potential relevance of a number of environmental variables for predicting the annual soil greenhouse gas (GHG) balances, on which the EFs are based. Despite a considerable number of publications applicable for compiling EFs being added, only modest changes were found compared to the Tier 1 default EFs. However, the more specific site type categories generated in this study showed narrower confidence intervals compared to the default categories. Overall, the highest CO 2 EFs were found for temperate afforested agricultural lands and boreal forestry-drained sites with very low tree stand productivity. The highest CH 4 EFs in turn prevailed in boreal nutrient-poor forests with very low tree stand productivity and temperate forests irrespective of nutrient status, while the EFs for afforested sites were low or showed a sink function. The highest N 2 O EFs were found for afforested agricultural lands and forestry-drained nutrient-rich sites. The occasional wide confidence intervals could be mainly explained by single or a few highly deviating estimates rather than the broadness of the categories applied. Our EFs for the novel categories were further supported by the statistical models connecting the annual soil GHG balances to site-specific soil nutrient status indicators, tree stand characteristics, and temperature-associated weather and climate variables. The results of this synthesis have important implications for EF revisions and national emission reporting, e.g. by the use of different categories for afforested sites and forestry-drained sites, and more specific site productivity categories based on timber production potential.

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2023, Volym: 20, nummer: 23, sidor: 4819–4839

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