from 01.01.2017 until now Voronezh, Voronezh, Russian Federation
Russian Federation
Voronezh, Voronezh, Russian Federation
As a result of this work, conversion coefficients have been obtained, with the help of which it is possible to calculate the volume of carbon dioxide absorption during reforestation or reforestation per 1 hectare of land for the period from the beginning of reforestation until the transfer of these areas to the category of land covered with forest vegetation. All methods of reforestation (artificial and natural) for all the main breeds of the Voronezh region are considered. Within the framework of artificial reforestation, coefficients were obtained for 1 ha of forest crops when planted with an open and closed root system. When calculating the coefficients for young plants of natural origin, the timing of overgrowth of cuttings and harems, and the presence of preliminary renewal were tak-en into account.
reforestation; carbon deposition; conversion coefficients of greenhouse gas absorption.
1. Colombo S.J., Parker W.C., Luckai N., Dang Q., Cai T. He Effects of Forest Management on Carbon Storage in Ontario's Forests : Climate Change Research Report//TCCRR-03. - 2005. – 123 p.
2. Noormets A., Epron D., Domec J.C., McNulty S.G., Fox T., Sun G., King J.S. Effects of forest management on productivity and carbon sequestration: a review and hypothesis // Forest Ecology and Management. - 2015. - Vol. 355. - P. 124-140.
3. Cannell M.G.R. Growing trees to sequester carbon in the UK: answers to some common questions // Forestry. - 1999. - Vol. 72. - No. 3. – P. 237-247.
4. Ob utverzhdenii Pravil lesovosstanovleniya, sostava proekta lesovosstanovleniya, poryadka razrabotki proekta lesovosstanovleniya i vneseniya v nego izmeneniy: prikaz Ministerstva prirodnyh resursov i ekologii Rossiyskoy Federacii ot 04.12.2020 g. № 1014. URL:https://docs.cntd.ru/document/573123762.
5. Stecenko A.V., Safonov G.V. Investicii v lesa Rossii: Metodologicheskie osnovy. M.: MAKS Press, - 2010. - 134 s.
6. Rytter L., Rytter R.M. Growth and carbon capture of grey alder (Alnus incana (L.) Moench.) under north European conditions – Estimates based on reported research // Forest Ecology and Management. - 2016. - Vol. 373. - P. 56–65.
7. Uri V., Kukumägi M., Aosaar J., Varik M., Becker H., Aun K., Krasnova A., Morozov G., Ostonen I., Mander Ü., Lõhmus K., Rosenvald K., Kriiska K., Soosaar K.The carbon balance of a six-year-old Scots pine (Pinus sylvestris L.) ecosystem estimated by different methods // Forest Ecology and Management. - 2019. - Vol. 433. - P. 248-262.
8. Gahagan A., Giardina C.P., King J.S., Binkley D., Pregitzer K.S., Burton A.J. Carbon fluxes, storage and harvest removals through 60 years of stand development in red pine plantations and mixed hardwood stands in Northern Michigan, USA//Forest Ecology and Management. – 2015. - Vol. 337. - P. 88-97.
9. Shvidenko A.Z. [i dr.] Tablicy i modeli hoda rosta i produktivnosti nasazhdeniy osnovnyh lesoobrazuyuschih porod Severnoy Evrazii: normativno-spravochnye materialy. – 2-e izd., dop. – M., 2008. – 886 s.
