Absorption capacity of Russia’s forests and carbon dioxide emissions of fuel and energy systems

Fedorov, B. G.; Moiseev, B. N.; Sinyak, Yu. V.

doi:10.1134/s107570071103004x

Cited by 6 publications

(4 citation statements)

References 2 publications

(3 reference statements)

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“…The analysis, generalization and systematization of literature data suggest that a significant number of publications are devoted to various aspects of the carbon budget of forests in Russia [1,[3][4][5][6]. The majority of these publications are considering separate forest formations and carbon cycle processes in different regions of the country, in the so-called "managed forests".…”

Section: Resultsmentioning

confidence: 99%

“…However, up to now, there is no consensus on the amount of atmospheric carbon dioxide flow in the forests. So in the works of D. G. Zamolodchikov, et al [7], B. G. Fedorov, et al [5], A. J. Dolman, et al [8] the assessments of carbon balance in Russian forests are ranging from 200 to 700 Mt C yr -1 , differing by more than three times. The researchers consider that such situation is caused by a large spatial and temporal variability of the studied process.…”

Section: Resultsmentioning

confidence: 99%

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Use of Bioinformation Technologies in Carbon Cycle Assessment in Managed Technogenic Forests in Primorskiy Krai

Krupskaya

Зверева

Rastanina

et al. 2017

AMM

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The paper describes the results of bioinformation technologies study in assessment of carbon cycle in managed technogenic forests in Primorskiy Krai. Therefore, the aim of the research was the assessment of carbon cycle in managed technogenic forests using bioinformation technologies. Computation was performed in the «ROBUL» program. Analysis, generalization and systematization of literary evidence suggest that a significant number of publications are devoted to various aspects of the carbon budget of the forests in Russia. The types of forest ecosystems in Primorskiy Krai have been identified, and the main forestry operations in this region were analyzed and described. It was found that in the global carbon cycle the forests play an important role, as they are characterized by the largest phytomass supply. However, the growth of anthropogenic activities leads to disruption of the balance of the carbon cycle on the Earth. The results of the research show decrease of carbon reserve in the study area in 2015 compared to 2003. With technogenic influence increase there is a gradual increase of carbon dioxide emissions into atmosphere for managed forests in Primorskiy Krai.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Use of Bioinformation Technologies in Carbon Cycle Assessment in Managed Technogenic Forests in Primorskiy Krai

Krupskaya

Зверева

Rastanina

et al. 2017

AMM

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“…приводится удельная поглощающая способность некоторых видов древесных растений за один вегетационный период. Так, ель поглощает 6,6 т CO2/га, осина -7,1 т CO2/га, береза -8,1 т CO2/га, сосна -11 т CO2/га, липа -16,5 т CO2/га, дуб -29,7 т CO2/га, тополь -46,2 т CO2/га [2] В работе Б. Красуцкого приводится удельная поглощающая способность растительных сообществ в соответствии с природно-климатическими зонами. Так, в таежных лесах годовая величина улавливания углекислого газа составляет 3,8-7,4 т/га, в зоне смешанных лесов -4,2-11,6 т/га, субтропических -5,7-17,5 т/га [5].…”

Section: анализ предметной областиunclassified

“…Рассматривая вопрос воспроизводства растительности как основного способа секвестрации углекислого газа, можно уверенно говорить об увеличении интенсивности поглощения углекислого газа при увеличении биомассы растительности [1]. Однако полномасштабные научные исследования, проводимые в этой области в последнее десятилетие, позволяют утверждать, что помимо естественной биомассы растительности на интенсивность поглощения углекислого газа из атмосферы влияет также поглощающая способность отдельных видов растительных сообществ [2]. В таком случае, говоря о принудительном увеличении интенсивности секвестрации углекислого газа растительными сообществами, можно опираться не только на увеличение проективного покрытия зеленых насаждений и прирост их биомассы, но также и на выбор определенных видов растительных сообществ, обладающих максимальной поглощающей способностью [3].…”

Section: Introductionunclassified

Studying the vegetation impact of terrestrial ecosystems on reducing the carbon footprint in in the territory of the Russian Federation

Пашкевич

Korotaeva

2021

Vestn. Ross. univ. družby nar., Ser. Èkol. bezop. žiznedeât.

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Plant communities of terrestrial ecosystems of the Russian Federation are studied in terms of their ability to reduce the carbon footprint as a result of carbon dioxide sequestration. The classification of typical plant communities and the division of the territory depending on the climatic and regional characteristics is given, with further provision of values of the specific absorption capacity of growing plant communities according to the division presented. To assess the biomass of vegetation, as well as its dynamics of change, an analysis of the remote sensing method was carried out as the most preferred method for determining biomass in real time. The characteristics of currently used remote sensing systems, including IKONOS, Quickbird, Worldview, ZY-3, SPOT, Sentinel, Landsat and MODIS are given. The main indicators used for the indexation assessment of vegetation biomass are listed, with subsequent prediction based on them of the efficiency of carbon dioxide uptake by plant communities.

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Comparison of greenhouse gas emission forecasts in Russia’s energy sector for 2010–2060

Башмаков

Myshak

2014

Stud. Russ. Econ. Dev.

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Absorption capacity of Russia’s forests and carbon dioxide emissions of fuel and energy systems

Cited by 6 publications

References 2 publications

Use of Bioinformation Technologies in Carbon Cycle Assessment in Managed Technogenic Forests in Primorskiy Krai

Use of Bioinformation Technologies in Carbon Cycle Assessment in Managed Technogenic Forests in Primorskiy Krai

Studying the vegetation impact of terrestrial ecosystems on reducing the carbon footprint in in the territory of the Russian Federation

Comparison of greenhouse gas emission forecasts in Russia’s energy sector for 2010–2060

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