Radiative power of wildfires in Siberia on the basis of TERRA/Modis imagery processing

Andreev Yu.A., Brukhanov A.V. 2011. Prevention, monitoring and control of wildfires (for example, the Altai-Sayan Ecoregion): A Reference Guide (in Russian), Krasnoyarsk.Search in Google Scholar

Bartalev S., Belward A., Erchov D.V., Isaev A.S. 2003. A new SPOT4-VEGETATION derived land cover map of Eurasia. International Journal of RemoteSensing, 24 (9), 1977-1982.Search in Google Scholar

Berezin E.V., Konovalov I.B., Ciais P., Broquet G., Wu L., Beekmann M., Hadji-Lazaro J., Clerbaux C., Meinrat O.A., Kaiser J.W., Schulze E.D. 2013. CO2 emissions from wildfires in Siberia: FRP measurement based estimates constrained by satellite and ground based observations of co-emitted species. Geophysical Research Abstracts, 15.Search in Google Scholar

Boschetti L., Roy D.P. 2009. Strategies for the fusion of satellite fire radiative power with burned area data for fire radiative energy derivation. Journal of GeophisicalResearch, 114, doi:10.1029/2008JD011645.10.1029/2008JD011645Search in Google Scholar

Conard S.G., Sukhinin A.I., Stocks B.J., Cahoon D.R., Davidenko E.P., Ivanova G.A. 2002. Determining effects of area burned and fire severity on carbon cycling and emissions in Siberia. Climatic Change, 55, (1/2), 197- 211.Search in Google Scholar

FIRESCAN Science Team. 2013. The Bor Forest Island Fire Experiment. Part 2. In: Prescribed Burning in Russia and Neighbouring Temperate-Boreal Eurasia (ed.: J.G. Goldammer), 149- 231. Global Fire Monitoring Center (GFMC) / Kessel Publishing House.Search in Google Scholar

Isaev A.S., Maltseva Yu.V., Semenоva V.N. 1994. Atlas of the Krasnoyarsk Krai and the Republic of Khakassia (in Russian). Roskartographiya.Search in Google Scholar

Isachenko A.G. 1988. Landscapes of USSR: scale 1 : 4000000 (in Russian). Moscow: GUGK, vol. 96.Search in Google Scholar

Ivanov V.A., Ivanova G.A., Moskalchenko S.A. 2011. Handbook to extinguish wildfires (in Russian). Krasnoyarsk.Search in Google Scholar

Justice C.O., Giglio L., Korontzi S., Owens J., Morisette J.T., Roy D., Descloitres J., Alleaume S., Petitcolin F., Kaufman Y. 2002. The MODIS fire products. Remote Sensing of Environment, 83, 244- 262.Search in Google Scholar

Kaufman Y.J., Justice C.O. 1998. MODIS ATBD: Fire Products // EOS ID#2741.Search in Google Scholar

Kaufman Y.J., Kleidman R.G., King M.D. 1998. SCARB fires in the tropics: Properties and remote sensing from EOS-MODIS. Journal of Geophisical Research, 103, 31955- 31968.Search in Google Scholar

Konev E.V. 1977. Physical basis of vegetation fuel burning (in Russian). Nauka, Novosibirsk.Search in Google Scholar

Korovin G.N., Andreev N.A. 1988. Aircraft forest protection (in Russian). Agropromizdat, Moscow.Search in Google Scholar

Kumar S.S., Roy D.P., Boschetti L., Kremens R. 2011. Exploiting the power law distribution properties of satellite fire radiative power retrievals: A method to estimate fire radiative energy and biomass burned from sparse satellite observations. Journal of GeophisicalResearch, 116, doi:10.1029/2011JD015676.10.1029/2011JD015676Search in Google Scholar

Kurbatski N.P., Sheshukov M.A. 1978. About forest fires in Khabarovski Krai (in Russian). Lesnoe khozyaystvo, 4, 79- 83.Search in Google Scholar

Loupian E.A., Mazurov A.A., Flitman E.V., Ershov D.V., Korovin G.N., Novik V.P., Abushenko N.A., Altyntsev D.A., Koshelev V.V., Tashchilin S.A., Tatarnikov A.V., Csiszar I., Sukhinin A.I., Ponomarev E.I., Afonin S.V., Belov V.V., Matvienko G.G., Loboda T. 2006. Satellite Monitoring Of Forest Fires in Russia at Federal And Regional Levels. Mitigationand Adaptation Strategies for Global Change, 11 (1), 113- 145.Search in Google Scholar

Mottram G.N., Wooster M.J., Balster H., George C., Gerrard F., Beisley J. 2005. The use of MODIS-derived fire radiative power to characterize Siberian boreal forest fires. In: Proc. of the 31st international symposium on remote sensing of environment, St. Petersburg, Russia.Search in Google Scholar

Nesterov V.G. 1949. Forest fire danger and methods of assessment (in Russian). Moscow, Leningrad.Search in Google Scholar

Panov A., Chi X., Winderlich J., Birmili W., Lavrič J., Ponomarev E., Andreae M. 2012. Assessment of biomass burning emissions to the atmosphere from the Zotino Tall Tower Observatory (ZOTTO) in Central Siberia. Int. workshop on Impact of Climate Change on Forest and Agricultural Ecosystems and Adaptation Strategies. Siberian State University, Krasnoyarsk.Search in Google Scholar

Ponomarev E.I., Valendik E.N., Kisilyakhov Y.K. 2012. Satellite Monitoring of Large Scale Wildfires in Siberia. Int. workshop on Impact of Climate Change on Forest and Agricultural Ecosystems and Adaptation Strategies. Krasnoyarsk, SFU.Search in Google Scholar

Shvidenko A.Z., Shchepashchenko D.G., Vaganov E.A., Sukhinin A.I., Maksyutov Sh. Sh., McCallum I., Lakyda I.P. 2011. Impact of Wildfire in Russia between 1998-2010 on Ecosystems and the Global Carbon Budget. Doklady Earth Sciences, 441, 1678- 1682.Search in Google Scholar

Soja A.J., Sukhinin A.I., Cahoon Jr. D.R., Shugart H.H., Stackhouse P.W. 2004. AVHRR-derived fire frequency, distribution and area burned in Siberia. International Journal of Remote Sensing, 25 (10), 1939- 1960, doi:10.1080/01431160310001609725.10.1080/01431160310001609725Search in Google Scholar

Sofiev M., Vankevich R., Lanne M., Koskinen J., Kukkonen J. 2008. On integration of a Fire Assimilation System and a chemical transport model for near-real-time monitoring of the impact of wildland fires on atmospheric composition and air quality. In: Modelling, Monitoring and Management of Forest Fire (ed.: J. de la Heras et al.). WITpress, 342- 351.Search in Google Scholar

Stocks B.J., Hartley G.R. 1995. Fire behavior in three jack pine fuel complexes. Great Lake Forestry Center, Canada, Sault Ste. Marie, Ontario.Search in Google Scholar

Sukhinin A.I. 2008. Space Monitoring and Analysis of Catastrophic Fires in Central Siberia and Far East. North-East Asia, A la Carte, vol.19, Center For North- East Asian Studies. Tohoku University, 19- 23.Search in Google Scholar

Valendik E.N., Kosov I.V. 2008. Thermal radiation of forest fires and its impact on tree stands (in Russian). Coniferous of Boreal Zone, 25 (/2), 88- 92.Search in Google Scholar

Wooster M.J., Zhukov B., Oertel D. 2003. Fire radiative energy for quantitative study of biomass burning: derivation from the bird experimental satellite and comparison to modis fire products. Remote Sensingof Environment, 86, 83- 107.Search in Google Scholar

Yurova A.Yu., Paramonova A.V., Konovalov I.B., Kuznetsova I.N., Beekmann M. 2013. Forecast of thermal radiation and aerosol emissions from forest fires in the Central European region (in Russian). Atmosphere and Ocean Optics, 26 (3), 203- 207. Search in Google Scholar