Carbon Pools and Fluxes in Mixed Coniferous–Small-Leaved Forests and Clearcut Areas

Carbon Pools and Fluxes in Mixed Coniferous–Small-Leaved Forests and Clearcut Areas

The results of a quantitative assessment of carbon pools and fluxes and their changes in the first year after clearcutting in the middle-taiga mixed coniferous–small-leaved forest of the Komi Republic are presented. The carbon stock in the initial forest was up to 14.7 kg C/m 2 with the main carbon...

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Veröffentlicht in:Eurasian soil science 2024-11, Vol.57 (11), p.1867-1878
Hauptverfasser: Dymov, A. A., Osipov, A. F., Startsev, V. V., Gorbach, N. M., Severgina, D. A., Ogorodnyaya, S. A., Kutyavin, I. N., Manov, A. V.
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Sprache:eng
Schlagworte:
Carbon
Carbon cycle
Carbon dioxide
Carbon dioxide emissions
Carbon dioxide removal
carbon sinks
Clearcutting
coarse woody debris
Coniferous forests
Data logging
Debris
Earth and Environmental Science
Earth Sciences
Ecosystems
Fluxes
forest litter
Forests
Geotechnical Engineering & Applied Earth Sciences
Ground cover
Litter fall
Logging
Organic Matter of Soils of Secondary Forest Ecosystems
phytomass
Russia
Soil
Soil surfaces
stemwood
Taiga
trees
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container_end_page 1878
container_issue 11
container_start_page 1867
container_title Eurasian soil science
container_volume 57
creator Dymov, A. A.
Osipov, A. F.
Startsev, V. V.
Gorbach, N. M.
Severgina, D. A.
Ogorodnyaya, S. A.
Kutyavin, I. N.
Manov, A. V.
description The results of a quantitative assessment of carbon pools and fluxes and their changes in the first year after clearcutting in the middle-taiga mixed coniferous–small-leaved forest of the Komi Republic are presented. The carbon stock in the initial forest was up to 14.7 kg C/m 2 with the main carbon pools in the stand (62.4%), soil (35.5%), biomass of ground cover (1.1%), and coarse woody debris (1.0%). During logging, 6.6 kg C/m 2 was removed as part of the stem wood (44.8% of the ecosystem carbon stock or 71.8% of the stand phytomass carbon). In the first year after logging, the ecosystem carbon stock decreased to 8.1 kg C/m 2 , including 7.1% in the forest vegetation and 66.8% (5.4 kg C/m 2 ) in the soil. The proportion of coarse woody debris increased significantly in the felled area to 1.9 kg C/m 2 (23.4% the ecosystem carbon stock) due to the appearance of logging residues, which in the future should contribute to the emission of carbon dioxide into the atmosphere from the felled area. As a result of clearcutting, the input of tree litterfall onto the soil surface reduced by 42 times. An insignificant (≈10%) increase in the carbon dioxide emissions from the soil surface was detected in the felled area. Logging leads to a decrease in the removal of carbon from the forest litter into lysimetric waters. The data obtained will find application in assessing the impact of clearcutting on the carbon cycle in taiga ecosystems.
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In the first year after logging, the ecosystem carbon stock decreased to 8.1 kg C/m 2 , including 7.1% in the forest vegetation and 66.8% (5.4 kg C/m 2 ) in the soil. The proportion of coarse woody debris increased significantly in the felled area to 1.9 kg C/m 2 (23.4% the ecosystem carbon stock) due to the appearance of logging residues, which in the future should contribute to the emission of carbon dioxide into the atmosphere from the felled area. As a result of clearcutting, the input of tree litterfall onto the soil surface reduced by 42 times. An insignificant (≈10%) increase in the carbon dioxide emissions from the soil surface was detected in the felled area. Logging leads to a decrease in the removal of carbon from the forest litter into lysimetric waters. 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During logging, 6.6 kg C/m 2 was removed as part of the stem wood (44.8% of the ecosystem carbon stock or 71.8% of the stand phytomass carbon). In the first year after logging, the ecosystem carbon stock decreased to 8.1 kg C/m 2 , including 7.1% in the forest vegetation and 66.8% (5.4 kg C/m 2 ) in the soil. The proportion of coarse woody debris increased significantly in the felled area to 1.9 kg C/m 2 (23.4% the ecosystem carbon stock) due to the appearance of logging residues, which in the future should contribute to the emission of carbon dioxide into the atmosphere from the felled area. As a result of clearcutting, the input of tree litterfall onto the soil surface reduced by 42 times. An insignificant (≈10%) increase in the carbon dioxide emissions from the soil surface was detected in the felled area. Logging leads to a decrease in the removal of carbon from the forest litter into lysimetric waters. 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The carbon stock in the initial forest was up to 14.7 kg C/m 2 with the main carbon pools in the stand (62.4%), soil (35.5%), biomass of ground cover (1.1%), and coarse woody debris (1.0%). During logging, 6.6 kg C/m 2 was removed as part of the stem wood (44.8% of the ecosystem carbon stock or 71.8% of the stand phytomass carbon). In the first year after logging, the ecosystem carbon stock decreased to 8.1 kg C/m 2 , including 7.1% in the forest vegetation and 66.8% (5.4 kg C/m 2 ) in the soil. The proportion of coarse woody debris increased significantly in the felled area to 1.9 kg C/m 2 (23.4% the ecosystem carbon stock) due to the appearance of logging residues, which in the future should contribute to the emission of carbon dioxide into the atmosphere from the felled area. As a result of clearcutting, the input of tree litterfall onto the soil surface reduced by 42 times. An insignificant (≈10%) increase in the carbon dioxide emissions from the soil surface was detected in the felled area. Logging leads to a decrease in the removal of carbon from the forest litter into lysimetric waters. The data obtained will find application in assessing the impact of clearcutting on the carbon cycle in taiga ecosystems.</abstract><cop>Moscow</cop><pub>Pleiades Publishing</pub><doi>10.1134/S1064229324601847</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0003-1563-8587</orcidid><orcidid>https://orcid.org/0000-0002-3464-2744</orcidid><orcidid>https://orcid.org/0000-0002-7612-2544</orcidid><orcidid>https://orcid.org/0000-0002-5070-0078</orcidid><orcidid>https://orcid.org/0000-0002-1284-082X</orcidid><orcidid>https://orcid.org/0000-0002-6425-6502</orcidid><orcidid>https://orcid.org/0000-0002-5099-6868</orcidid><orcidid>https://orcid.org/0000-0002-7840-1934</orcidid></addata></record>
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identifier ISSN: 1064-2293
ispartof Eurasian soil science, 2024-11, Vol.57 (11), p.1867-1878
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subjects Carbon
Carbon cycle
Carbon dioxide
Carbon dioxide emissions
Carbon dioxide removal
carbon sinks
Clearcutting
coarse woody debris
Coniferous forests
Data logging
Debris
Earth and Environmental Science
Earth Sciences
Ecosystems
Fluxes
forest litter
Forests
Geotechnical Engineering & Applied Earth Sciences
Ground cover
Litter fall
Logging
Organic Matter of Soils of Secondary Forest Ecosystems
phytomass
Russia
Soil
Soil surfaces
stemwood
Taiga
trees
title Carbon Pools and Fluxes in Mixed Coniferous–Small-Leaved Forests and Clearcut Areas
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