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An approach to the implementation of spatial inventory of greenhouse gas sinks and emissions in forestry sector is presented. The algorithms for disaggregation of official statistical data on forests at the regional level, and formation of geodistributed database using the digital map of land use are proposed. As an example the forests of Subcarpathian Voivodeship of Poland were investigated. This study presents the results of modeling the flow of carbon in forest phytomass taking into account different tree species composition, age class and other characteristics. The ‘regional’ coefficients for phytomass and carbon deposited were clarified taking into account regional specificity. Also an algorithm for determining aboveground and underground phytomass of tree by its stock and forests of different types has been created. The correlation between the total area and stock for each species of forest-forming stands was analysed. The multilayer digital maps of deposited carbon, and greenhouse gas emissions in forests of Subcarpathian Voivodeship were created. For the spatial inventory of forest phytomass the territory of voivodeship was divided into square areas 2x2 kilometers in size, and stock phytomass in each such elementary area has been analised. Acheaved results were verified using GIS technology, and forest inventory data.
Czasopismo
Rocznik
Tom
Strony
95--104
Opis fizyczny
Bibliogr. 24 poz., tab., wykr., wz., zdj.
Twórcy
autor
- Department of Information Systems and Networks, Lviv Polytechnic National University
autor
- Department of Applied Mathematics, Lviv Polytechnic National University
autor
- Department of Applied Mathematics, Lviv Polytechnic National University
autor
- Department of Automatic Control Systems, Lviv Polytechnic National University
autor
- Department of Applied Mathematics, Lviv Polytechnic National University
- Department of Informatics, Academy of Business in Dabrowa Grnicza
Bibliografia
- 1. Biuro Urządzania Lasu i Geodezji Leśnej. 2011. Wielkoobszarowa inwentaryzacja stanu lasów w Polsce wyniki za okres 2006-2010, Sękocin Stary. (Poland)
- 2. Boychuk P., and Boychuk Kh., and Nahorski Z. and Horabik J. 2012. Spatial inventory of greenhouse gas emissions from the road transport in Poland, Econtechmod, Poland, vol. 1, n. 4, 9-16. (Poland)
- 3. Drzewa podkarpackich lasów. Available online at: http://www.zielonepodkarpacie.pl (Poland)
- 4. Forestry 2010. Statistical Information and Research. 2010. Central Statistical Office, Warsaw, 316. (Poland)
- 5. Forestry 2013. Statistical Information and Research. 2013, Central Statistical Office, Warsaw, 320. (Poland)
- 6. Information Technology for GHG Inventory and Forecasting Carbon Balance of Ukraine. 2004. R.Bun, M.Gusti, V.Dachuk et al., Ed. R.Bun, Lviv, UAH, 376. (Ukraine)
- 7. IPCC 2006, 2006 IPCC Guidelines for National Greenhouse Gas Inventories, Prepared by the National Greenhouse Gas Inventories Programme, Eggleston HS, Buendia L., Miwa K., Ngara T. and Tanabe K. (Eds). Published: IGES, Japan.
- 8. Kalinin M.І. 1991. Kornevedenie, Moscow, Ecology,176. (Russia)
- 9. Lakyda P.I. 2002. Phytomass of Ukraine forests, Ternopol, Zbruch, 256. (Ukraine)
- 10. Lasy Państwowe w Polsce. Available online at:http://www.bdl.info.pl/portal/ (Poland)
- 11. Lasy w Polsce 2010. Raport na podstawie materiałów Ministerstwa Środowiska, Dyrekcji Generalnej Lasów Państwowych, Instytutu Badawczego Leśnictwa, Biura Urządzania Lasu i Geodezji Leśnej, Głównego UrzęduStatystycznego oraz statystyk międzynarodowych. Centrum
- 12. Lasy w Polsce 2011. Raport na podstawie materiałow Ministerstwa Środowiska, Dyrekcji Generalnej Lasow Państwowych, Instytutu Badawczego Leśnictwa, Biura Urządzania Lasu i Geodezji Leśnej, Głownego Urzędu Statystycznego oraz statystyk międzynarodowych.Centrum Informacyjne Lasow Państwowych, 2011. (Poland)
- 13. Lesiv M., and Bun R., and Shpak N., and Danylo O., and Topylko P. 2012. Spatial analysis of GHG emissions in eastern polish regions: energy production and residential sector, Econtechmod, vol. 1, n. 2, 17 24. (Poland)
- 14. Ochrona przyrody. Małgorzata Haze. Available online at: http://www.lasy.gov.pl/o_lasach/ochrona_przyrody(Poland)
- 15. Poliakov L. and Popkov M. and Kyrylyuk S., and Pivovar S. 2003. Forests and forestry in Poland, Wood Business, n. 2, 37-44. (Poland)
- 16. Results of Science and Technology. 1975. Series: Forestry and Silvics, vol. 1, Utkin A., Dyrenkov S., and Chertov O., Moscow, 342. (Russia)
- 17. Semechkinа M. 1978. Structure of pine phytomass, Novosibirsk, "Nauka", 165. (Russia)
- 18. The IPCC software for estimating greenhouse gas emissions. IPCC Version 1.1, 1998.- http://www.ipccnggip.iges.or.jo/public/gl/software.htm
- 19. Turkovska O. and Gusti M. 2013. A conceptual scheme for modeling forestry and LUC CO2 emissions In Ukraine, Econtechmod, vol. 2, n. 1, 57-62. (Poland)
- 20. Usoltsev V.A. 1988. Growth and Structure of Stands Phytomass,– Novosibirsk, Nauka, 253.
- 21. Usoltsev V.A. 1985. Modeling of the Structure and Dynamics of Stands Phytomass, Krasnoyarsk, Krasnoyarsk University Press, 192. (Russia)
- 22. Utkin A.I. 1975. Вiological Productivity of Forests (Study Methods and Results), Vol. 1, Forests and Forestry, Moscow, 256. (Russia)
- 23. Vasylyshyn R.D., and Domashovets G.S. 2008. Phytomass and deposited forest carbon in Lviv region in the context of forest site zoning, Scientific Bulletin of National Forestry University of Ukraine, no. 18.3, 50-58.(Ukraine)
- 24. Vikhrov V.E. 1954. Structure and Physical-Mechanical Properties of Oak, Moscow, Academy of Science of the USSR, 259. (Russia)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d08076c5-1d07-4305-97dd-d11a5da6d6b1