Overlooked sources of methane emissions from trees: branches and wounds

Tree stems have been identified as globally significant methane (C[H.sub.4]) sources; however, little information exists on emissions from tree wounds and branches. C[H.sub.4] emissions can occur from the decomposition of anaerobic heartwood, which is also associated with wounds; C[H.sub.4] may also...

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Veröffentlicht in:	Canadian journal of forest research 2022-08, Vol.52 (8), p.1165-1175
Hauptverfasser:	Gorgolewski, Adam S, Vantellingen, Juliana, Caspersen, John P, Thomas, Sean C
Format:	Artikel
Sprache:	eng
Schlagworte:	Branches Dominant species Emission Emissions Emissions (Pollution) Environmental aspects Methane Physiological aspects Plant species Soils Stems Temperate forests Transpiration Trees Wounds
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creator	Gorgolewski, Adam S Vantellingen, Juliana Caspersen, John P Thomas, Sean C
description	Tree stems have been identified as globally significant methane (C[H.sub.4]) sources; however, little information exists on emissions from tree wounds and branches. C[H.sub.4] emissions can occur from the decomposition of anaerobic heartwood, which is also associated with wounds; C[H.sub.4] may also be transported through the transpiration stream and emitted from branches. We compared C[H.sub.4] emissions between tree stems and branches and assessed whether trees with major wounds emit more than those without. C[H.sub.4] fluxes were measured from stems, branches, and wounds (classified as major or minor) of two dominant tree species in an upland temperate forest, and from the soil, and scaled up to the stand level. Branches and stems of both species emitted C[H.sub.4], and the per unit area emission rates from branches were similar to (or in some cases greater than) stems. Trees with major wounds had greater C[H.sub.4] emission rates than those without, from unblemished sections of their stems and from the wounds. At the stand scale, branches, stems, and wounds accounted for 83%, 9%, and 8% of net C[H.sub.4] emissions from trees, respectively, and collectively offset 63% of the soil C[H.sub.4] sink. These results indicate that tree branches and wounds can be important C[H.sub.4] sources in forests.
doi_str_mv	10.1139/cjfr-2021-0289
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C[H.sub.4] emissions can occur from the decomposition of anaerobic heartwood, which is also associated with wounds; C[H.sub.4] may also be transported through the transpiration stream and emitted from branches. We compared C[H.sub.4] emissions between tree stems and branches and assessed whether trees with major wounds emit more than those without. C[H.sub.4] fluxes were measured from stems, branches, and wounds (classified as major or minor) of two dominant tree species in an upland temperate forest, and from the soil, and scaled up to the stand level. Branches and stems of both species emitted C[H.sub.4], and the per unit area emission rates from branches were similar to (or in some cases greater than) stems. Trees with major wounds had greater C[H.sub.4] emission rates than those without, from unblemished sections of their stems and from the wounds. At the stand scale, branches, stems, and wounds accounted for 83%, 9%, and 8% of net C[H.sub.4] emissions from trees, respectively, and collectively offset 63% of the soil C[H.sub.4] sink. 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C[H.sub.4] emissions can occur from the decomposition of anaerobic heartwood, which is also associated with wounds; C[H.sub.4] may also be transported through the transpiration stream and emitted from branches. We compared C[H.sub.4] emissions between tree stems and branches and assessed whether trees with major wounds emit more than those without. C[H.sub.4] fluxes were measured from stems, branches, and wounds (classified as major or minor) of two dominant tree species in an upland temperate forest, and from the soil, and scaled up to the stand level. Branches and stems of both species emitted C[H.sub.4], and the per unit area emission rates from branches were similar to (or in some cases greater than) stems. Trees with major wounds had greater C[H.sub.4] emission rates than those without, from unblemished sections of their stems and from the wounds. At the stand scale, branches, stems, and wounds accounted for 83%, 9%, and 8% of net C[H.sub.4] emissions from trees, respectively, and collectively offset 63% of the soil C[H.sub.4] sink. 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subjects	Branches Dominant species Emission Emissions Emissions (Pollution) Environmental aspects Methane Physiological aspects Plant species Soils Stems Temperate forests Transpiration Trees Wounds
title	Overlooked sources of methane emissions from trees: branches and wounds
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