Carbon deposition by Russian forests on the example of taiga and forest-steppe zones

Due to the global warming of the climate, the assessment of the carbon cycle in forest ecosystems has become particularly important. One method for determining deposited carbon is based on the use of biomass expansion factors (BEF) and State Forest Inventory (SFI) data. By combining BEF models with...

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Bibliographic Details
Main Authors: Usoltsev, V. A., Zukow, W., Tsepordey, I. S.
Format: Article in Journal/Newspaper
Language:English
Published: Nicolaus Copernicus University 2021
Subjects:
CARBON DEPOSITION
EXPANSION FACTORS
FOREST INVENTORY DATA
FOREST-STEPPE
RUSSIAN FORESTS
TAIGA
BIOMASS
BOREAL FOREST
CARBON CYCLE
ECOREGION
FOREST ECOSYSTEM
GLOBAL WARMING
SOIL CARBON
CHINA
JAPAN
RUSSIAN FEDERATION
taiga
Online Access:https://elar.usfeu.ru/handle/123456789/10857
id fturalstatefe:oai:elar.usfeu.ru:123456789/10857
record_format openpolar
spelling fturalstatefe:oai:elar.usfeu.ru:123456789/10857 2023-12-10T09:54:11+01:00 Carbon deposition by Russian forests on the example of taiga and forest-steppe zones Usoltsev, V. A. Zukow, W. Tsepordey, I. S. 2021 https://elar.usfeu.ru/handle/123456789/10857 en eng Nicolaus Copernicus University Usoltsev, V. A. Carbon deposition by Russian forests on the example of taiga and forest-steppe zones / V. A. Usoltsev, W. Zukow, I. S. Tsepordey // Ecological Questions. – 2021. – Vol. 32. – Iss. 3. – P. 49-57. 1644-7298 https://elar.usfeu.ru/handle/123456789/10857 Open Access Ecological Questions CARBON DEPOSITION EXPANSION FACTORS FOREST INVENTORY DATA FOREST-STEPPE RUSSIAN FORESTS TAIGA BIOMASS BOREAL FOREST CARBON CYCLE ECOREGION FOREST ECOSYSTEM GLOBAL WARMING SOIL CARBON CHINA JAPAN RUSSIAN FEDERATION Article info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2021 fturalstatefe 2023-11-14T01:17:24Z Due to the global warming of the climate, the assessment of the carbon cycle in forest ecosystems has become particularly important. One method for determining deposited carbon is based on the use of biomass expansion factors (BEF) and State Forest Inventory (SFI) data. By combining BEF models with SFI data in two ecoregions of Russia - taiga and forest-steppe - it was found that over a 20-25-year period, accumulating the carbon deposition in the taiga zone is significantly less (5%) compared to the forest-steppe zone (39%). Comparable results were obtained by the same method in different ecoregions of the planet (from 8% in 5 years in China to 68% in 50 years in Japan). A comparison of the results obtained by the proposed method and the IIASA method showed a minimal discrepancy (3 %), which gives reason to consider the above estimates of carbon deposition close to reality. However, uncertainties remain related to the quality of the SFI data and the carbon deposition in the soil. © 2021 Nicolaus Copernicus University. All rights reserved. Article in Journal/Newspaper taiga Ural State Forest Engineering University (USFEU): Electronic Archive
institution Open Polar
collection Ural State Forest Engineering University (USFEU): Electronic Archive
op_collection_id fturalstatefe
language English
topic CARBON DEPOSITION
EXPANSION FACTORS
FOREST INVENTORY DATA
FOREST-STEPPE
RUSSIAN FORESTS
TAIGA
BIOMASS
BOREAL FOREST
CARBON CYCLE
ECOREGION
FOREST ECOSYSTEM
GLOBAL WARMING
SOIL CARBON
CHINA
JAPAN
RUSSIAN FEDERATION
spellingShingle CARBON DEPOSITION
EXPANSION FACTORS
FOREST INVENTORY DATA
FOREST-STEPPE
RUSSIAN FORESTS
TAIGA
BIOMASS
BOREAL FOREST
CARBON CYCLE
ECOREGION
FOREST ECOSYSTEM
GLOBAL WARMING
SOIL CARBON
CHINA
JAPAN
RUSSIAN FEDERATION
Usoltsev, V. A.
Zukow, W.
Tsepordey, I. S.
Carbon deposition by Russian forests on the example of taiga and forest-steppe zones
topic_facet CARBON DEPOSITION
EXPANSION FACTORS
FOREST INVENTORY DATA
FOREST-STEPPE
RUSSIAN FORESTS
TAIGA
BIOMASS
BOREAL FOREST
CARBON CYCLE
ECOREGION
FOREST ECOSYSTEM
GLOBAL WARMING
SOIL CARBON
CHINA
JAPAN
RUSSIAN FEDERATION
description Due to the global warming of the climate, the assessment of the carbon cycle in forest ecosystems has become particularly important. One method for determining deposited carbon is based on the use of biomass expansion factors (BEF) and State Forest Inventory (SFI) data. By combining BEF models with SFI data in two ecoregions of Russia - taiga and forest-steppe - it was found that over a 20-25-year period, accumulating the carbon deposition in the taiga zone is significantly less (5%) compared to the forest-steppe zone (39%). Comparable results were obtained by the same method in different ecoregions of the planet (from 8% in 5 years in China to 68% in 50 years in Japan). A comparison of the results obtained by the proposed method and the IIASA method showed a minimal discrepancy (3 %), which gives reason to consider the above estimates of carbon deposition close to reality. However, uncertainties remain related to the quality of the SFI data and the carbon deposition in the soil. © 2021 Nicolaus Copernicus University. All rights reserved.
format Article in Journal/Newspaper
author Usoltsev, V. A.
Zukow, W.
Tsepordey, I. S.
author_facet Usoltsev, V. A.
Zukow, W.
Tsepordey, I. S.
author_sort Usoltsev, V. A.
title Carbon deposition by Russian forests on the example of taiga and forest-steppe zones
title_short Carbon deposition by Russian forests on the example of taiga and forest-steppe zones
title_full Carbon deposition by Russian forests on the example of taiga and forest-steppe zones
title_fullStr Carbon deposition by Russian forests on the example of taiga and forest-steppe zones
title_full_unstemmed Carbon deposition by Russian forests on the example of taiga and forest-steppe zones
title_sort carbon deposition by russian forests on the example of taiga and forest-steppe zones
publisher Nicolaus Copernicus University
publishDate 2021
url https://elar.usfeu.ru/handle/123456789/10857
genre taiga
genre_facet taiga
op_source Ecological Questions
op_relation Usoltsev, V. A. Carbon deposition by Russian forests on the example of taiga and forest-steppe zones / V. A. Usoltsev, W. Zukow, I. S. Tsepordey // Ecological Questions. – 2021. – Vol. 32. – Iss. 3. – P. 49-57.
1644-7298
https://elar.usfeu.ru/handle/123456789/10857
op_rights Open Access
_version_ 1784901501360013312

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