From carbon polygon to carbon farm: The potential and ways of developing the sequestration carbon industry in the Leningrad Region and St Petersburg

Pub Date : 2023-01-01 DOI:10.21638/spbu07.2023.105
M. Makarova, E. Abakumov, Evgeny V. Shevchenko, N. Paramonova, N. Pakhomova, N. Lvova, M. A. Vetrova, S. Foka, Yu.N. Guzov, V. Ivakhov, D. Ionov, Anton V. Khoroshavin, V. Kostsov, S. Mikushev, E. Mikhailov, Artem A. Pavlovsky, V. Titov
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Abstract

Climate change is one of the most important global problems of the 21st century. The territory of Russia is located in an area of significant observed and forecasted climate change. Achieving Russia's carbon neutrality by 2060 requires the development of a national system for monitoring greenhouse gas emissions and uptake. To achieve this goal, the Ministry of Science and Higher Education launched a pilot programme to create a national network of carbon polygons. St Petersburg State University together with Voeikov Main Geophysical Observatory created the concept of Ladoga carbon polygon focusing the study the greenhouse gas absorption (or sequestration) potential of forest ecosystems typical for Northwest Russia. The evolution of this project assumes the establishment of a forest carbon farm (nature-based solutions). Based on the assumption that the territories of forest areas that were previously part of the state agricultural lands of the Leningrad region can be used for carbon farms (afforestation, enhanced carbon uptake by changing land use), an estimate of CO2 absorption has been made. For the total area of forest carbon farms of 677.9 · 103 ha, it was evaluated of 3700 ± 1900 kt CO2/year or (1000 ± 520) ·106kg С/ year. It is shown that the CO2 absorption of such carbon farms can offset up to 20 % of the total CO2 emission of the Leningrad Region and not more than 8 % of the total CO2 emission for the combined region consisting of Leningrad Region and St Petersburg. The economic effect of the operation of forest carbon farms can only be achieved in the long term. At the current price level per tonne of CO2 (35 USD/(t CO2 )), a 1 hectare of forest carbon farm would yield an income of 9500 USD over a 75-year lifetime. This determines the economic feasibility of creating carbon farms, which is also due to the potential for the production of carbon units based on them, which will either be traded on carbon exchanges or be taken into account as the results of activities aimed at reducing carbon emissions.
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从碳多边形到碳农场:列宁格勒地区和圣彼得堡发展固碳工业的潜力和途径
气候变化是21世纪最重要的全球性问题之一。俄罗斯领土位于观测和预测气候变化显著的地区。要在2060年前实现俄罗斯的碳中和,就需要建立一个监测温室气体排放和吸收的国家体系。为了实现这一目标,科学和高等教育部启动了一个试点项目,以创建一个全国碳多边形网络。圣彼得堡国立大学与Voeikov主要地球物理观测站一起创造了拉多加碳多边形的概念,重点研究俄罗斯西北部典型森林生态系统的温室气体吸收(或封存)潜力。该项目的演变假设建立一个森林碳农场(基于自然的解决方案)。基于假设列宁格勒地区以前作为国家农业用地一部分的森林地区可以用于碳农场(造林,通过改变土地利用增强碳吸收),对二氧化碳吸收进行了估计。对于677.9·103 ha的森林碳场总面积,估算为3700±1900 kt CO2/年或(1000±520)·106kg С/年。研究表明,这些碳农场的二氧化碳吸收可以抵消列宁格勒地区二氧化碳排放总量的20%,而列宁格勒地区和圣彼得堡组成的联合地区的二氧化碳排放总量不超过8%。森林碳农场的经济效益只有长期才能实现。按照目前每吨二氧化碳的价格水平(35美元/吨二氧化碳),1公顷的森林碳农场在75年的生命周期内将产生9500美元的收入。这决定了创建碳农场的经济可行性,这也是由于基于它们生产碳单位的潜力,这些碳单位要么在碳交易所进行交易,要么被视为旨在减少碳排放的活动的结果。
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