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GEOINFORMATION SYSTEM FOR PREDICTION OF PEAT FIRES AND ITS VALIDATION
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Filkov A.I. About the Creation of a Peat Fire Hazard System // Fires and Emergencies: Prevention, Elimination. 2013. No. 1. Pp. 18-24. (in Russian) International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org 15th International Multidisciplinary Scientific GeoConferences SGEM2015
Page, S.E., Siegert, F., Rieley, J.O., Boehm, H.D.V., Jaya, A., and Limin, S., 2002, The amount of carbon released from peat and forest fires in Indonesia during 1997: Nature, V. 420(6911), p. 61–65.
Chubarova, N.E., Gorbarenko, E.V., Nezval', E.I., Shilovtseva, O.A., 2011, Aerosol and radiation characteristics of the atmosphere during forest and peat fires in 1972, 2002, and 2010 in the region of Moscow: Izvestiya - Atmospheric and Ocean Physics, v. 47(6), p. 729-738.
Cruz M.G., Gould J. National Fire Behaviour Prediction System // Proc. of the Biennial Conference of the Institute of Foresters of Australia, Caloundra, Queensland, Australia, 2009. Pp. 285– 291.
Ager, A.A., Vaillant, N.M., Finney, M.A. Integrating fire behavior models and geospatial analysis for wildland fire risk assessment and fuel management planning (2011) Journal of Combustion, 2011, art. no. 572452
Assilzadeh, H., de Groot, W.J., Levy, J.K. Spatial modelling of wildland fire danger for risk analysis and conflict resolution in Malaysia: Linking Fire Danger Rating Systems (FDRS) with Wildfire Threat Rating Systems (WTRS) (2012) Geocarto International, 27 (4), pp. 291 -313.
Kalabokidis, K., Xanthopoulos, G., Moore, P., Caballero, D., Kallos, G., Llorens, J., Roussou, O., Vasilakos, C. Decision support system for forest fire protection in the Euro-Mediterranean region (2012) European Journal of Forest Research, 131 (3), pp. 597 -608.
Lee, B.S., Alexander, M.E., Hawkes, B.C., Lynham, T.J., Stocks, B.J., Englefield, P. Information systems in support of wildland fire management decision making in Canada (2002) Computers and Electronics in Agriculture, 37 (1-3), pp. 185- 198.
Santana, V.M., Marrs, R.H. Flammability properties of British heathland and moorland vegetation: Models for predicting fire ignition (2014) Journal of Environmental Management, 139, pp. 88-96.
Filkov A.I., Gladky D.A. Mathematical Modeling of the Low-Temperature Drying of Peat Layer // Tomsk State University Journal of Mathematics and Mechanics. 2012.No. 3 (19). PP. 93-106. (in Russian)
http://meteo.infospace.ru/win/wcarch/html/r_day_stn.sht num=1040.
Sinyutkina A.A. Classification of Bog Geosystems in the Tomsk region // Tomsk State University Journal. 2012 . No. 357. Pp. 192-195. (in Russian)
Kuznetsov V.T., Loboda E.L. Experimental Study of Peat Ignition by the Radiant Energy Flux // Combustion, Explosion and Shock Waves, 2010. No. 6. Pp. 86-92.
GOST P 22.1.09-99 "Safety in Emergencies. Monitoring and Prediction of Forest Fires. General Requirements "[Electronic resource], 2000 - Mode of access: http://rossert.narod.ru/alldoc/info/1z113/g22423.html . (in Russian) International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
Filkov A.I. About the Creation of a Peat Fire Hazard System // Fires and Emergencies: Prevention, Elimination. 2013. No. 1. Pp. 18-24. (in Russian) International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org 15th International Multidisciplinary Scientific GeoConferences SGEM2015
Page, S.E., Siegert, F., Rieley, J.O., Boehm, H.D.V., Jaya, A., and Limin, S., 2002, The amount of carbon released from peat and forest fires in Indonesia during 1997: Nature, V. 420(6911), p. 61–65.
Chubarova, N.E., Gorbarenko, E.V., Nezval', E.I., Shilovtseva, O.A., 2011, Aerosol and radiation characteristics of the atmosphere during forest and peat fires in 1972, 2002, and 2010 in the region of Moscow: Izvestiya - Atmospheric and Ocean Physics, v. 47(6), p. 729-738.
Cruz M.G., Gould J. National Fire Behaviour Prediction System // Proc. of the Biennial Conference of the Institute of Foresters of Australia, Caloundra, Queensland, Australia, 2009. Pp. 285– 291.
Ager, A.A., Vaillant, N.M., Finney, M.A. Integrating fire behavior models and geospatial analysis for wildland fire risk assessment and fuel management planning (2011) Journal of Combustion, 2011, art. no. 572452
Assilzadeh, H., de Groot, W.J., Levy, J.K. Spatial modelling of wildland fire danger for risk analysis and conflict resolution in Malaysia: Linking Fire Danger Rating Systems (FDRS) with Wildfire Threat Rating Systems (WTRS) (2012) Geocarto International, 27 (4), pp. 291 -313.
Kalabokidis, K., Xanthopoulos, G., Moore, P., Caballero, D., Kallos, G., Llorens, J., Roussou, O., Vasilakos, C. Decision support system for forest fire protection in the Euro-Mediterranean region (2012) European Journal of Forest Research, 131 (3), pp. 597 -608.
Lee, B.S., Alexander, M.E., Hawkes, B.C., Lynham, T.J., Stocks, B.J., Englefield, P. Information systems in support of wildland fire management decision making in Canada (2002) Computers and Electronics in Agriculture, 37 (1-3), pp. 185- 198.
Santana, V.M., Marrs, R.H. Flammability properties of British heathland and moorland vegetation: Models for predicting fire ignition (2014) Journal of Environmental Management, 139, pp. 88-96.
Filkov A.I., Gladky D.A. Mathematical Modeling of the Low-Temperature Drying of Peat Layer // Tomsk State University Journal of Mathematics and Mechanics. 2012.No. 3 (19). PP. 93-106. (in Russian)
http://meteo.infospace.ru/win/wcarch/html/r_day_stn.sht num=1040.
Sinyutkina A.A. Classification of Bog Geosystems in the Tomsk region // Tomsk State University Journal. 2012 . No. 357. Pp. 192-195. (in Russian)
Kuznetsov V.T., Loboda E.L. Experimental Study of Peat Ignition by the Radiant Energy Flux // Combustion, Explosion and Shock Waves, 2010. No. 6. Pp. 86-92.
GOST P 22.1.09-99 "Safety in Emergencies. Monitoring and Prediction of Forest Fires. General Requirements "[Electronic resource], 2000 - Mode of access: http://rossert.narod.ru/alldoc/info/1z113/g22423.html . (in Russian) International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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