بررسی شبیه‌‌سازی آتش با استفاده از مدل فارسایت (مطالعه موردی: ییلاق قصرداغ، شهرستان مشگین‌‌شهر)

امین املشی، مسعود، قدس خواه، مهرداد، اسلام بنیاد، امیر، پوربابایی، حسن، جعفری، مصطفی، وحید غلامی. 1395. شبیه سازی رفتار آتش با استفاده از مدل آتش FlamMap در برنامه Arcfuels (مطالعه موردی جنگل کاری های تخسم در استان گیلان). تحقیقات حمایت و حفاظت جنگلها و مراتع ایران، 14 (1)، 11-1.

بازاری جامخانه، محمد، میرباقری، بابک، شکیبا، علیرضا، علی اکبر متکان. 1392. شبیه­سازی گسترش آتش­سوزی در عرصه­های طبیعی با استفاده از مدل FARSITE (مطالعه موردی: جنگل های شهرستان نکا(. همایش ملی پژوهشهای محیط زیست ایران، همدان، ایران.

جهدی، رقیه، درویش صفت، علی اصغر، وحید اعتماد. 1392. پیش‌بینی گسترش آتش‌ جنگل با استفاده از مدل رفتار آتش (مطالعة موردی: جنگل ملکرود- سیاهکل). مجله جنگل ایران، 5 (4)، 430-419. 

جهدی، رقیه، درویش صفت، علی اصغر، وحید اعتماد. 1394. تهیه نقشه تیپ ماده سوختنی در مقیاس محلی و پیش بینی رفتار آتش سطحی با استفاده از FARSITE (مطالعه موردی: جنگل توشی- سیاهکل). فصلنامه پژوهشهای علوم و فناوری چوب و جنگل، 2، 225-203.

سازمان جنگلها، مراتع و آبخیزداری کشور. 1397. نقشه پوشش گیاهی ایران. دفتر مهندسی، سازمان جنگلها، مراتع و آبخیزداری کشور.

شریفی، جابر، فیاض، محمد، رستمی­کیا، یونس، عظیمی، فرزانه، پروانه عشوری. 1397. تیپ­های گیاهی عرصه­های منابع طبیعی استان اردبیل. طبیعت ایران، 4 (1)، 26-21.

طاووسی، تقی و قدیر دل­آرا. 1389. پهنه­بندی آب و هوایی استان اردبیل. نیوار، مجله علمی-ترویجی سازمان هواشناسی کشور، 34، 71-70.

محمدپور، مطهره و سولماز دشتی. 1398. پیش بینی شبیه سازی گسترش آتش­سوزی در اکوسیستم جنگلی به کمک مدل FARSITE (مطالعه موردی: جنگل­های استان ایلام). جغرافیا و مخاطرات محیطی، 9 (33)، https://doi.org/10.22067/geo.v0i0.74556.

مددی، المیرا، محسن ملکی. 1397. ارزیابی اثرات اجتماعی - اقتصادی پروژه­های منابع طبیعی اجرا شده از دید ذینفعان (مطالعه موردی: حوزه آبخیز اندبیل- شهرستان خلخال)، نشریۀ علمی پژوهشی مرتع، 12 (3)، 280-267.

Ager, A.A., Barros, A.M.G., Day, M.A., Preisler, H.K., Spies, T.A., Bolte, J. (2018). Analyzing fine-scale spatiotemporal drivers of wildfire in a forest landscape model. Ecological Modelling, 384: 87–102

Albini, F.A. (1976). Estimating wildfire behavior and effects. Gen. Tech. Rep. INT-30.Ogden, UT: U.S. Department of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station. 92 p.

Alcamo, J., Moreno, J.M., Novaky, B., Bindi, M., Corobov, R., Devoy, R.J.N., Giannakopoulos, C., Martin, E., Olesen, J.E., Shvidenko, A. (2007). Europe. In: Climate Change, 2007: Impacts, Adaptation and Vulnerability, Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, edited by: Parry ML, Canziani OF, Palutikof JP, van der Linden PJ, Hanson CE, Cambridge University Press, Cambridge, 541–580.

Alcasena, F.J., Salis, M., Ager, A.A., Arca, B., Molina, D., Spano, D. (2015). Assessing landscape scale wildfire exposure for highly valued resources in a Mediterranean area. Environmental Management. 55: 1200–1216.

Akyürek, Z., Tasel, E. (2005). Wildfire simulation modeling using remote sensing and GIS integration for Maramaris-Çetibeli wildfire, Turkey. New Strategies for European Remote Sensing, Olui􀃾 (ed.) © 2005 Millpress, Rotterdam, ISBN 90 5966 003 X.

Alexander, M.E., Thomas, D.A. (2003). Wildland fire behavior case studies and analyses: other examples, methods, reporting standards, and some practical advice, Fire Management Today, 63, 4, 4-12.

Arca, B., Duce, P., Laconi, M., Pellizzaro, G., Salis, M., Spano, D. (2007). Evaluation of FARSITE simulator in Mediterranean maquis. International Journal of Wildland Fire, 16: 563–572.

Brown, J.T., Hall, L.B., Westerling, L.A. (2004). The impact of twenty-first century climate change on wildland fire danger in the Western United States: An application perspective. Climate Change, 62: 365-388.

Butler, B.W., Bartlette, R.A., Bradshaw, L.S., Cohen, J.D., Andrews, P.L., Putnam, T., Mangan, R.J. (1998). Fire Behavior Associated with the 1994 South Canyon Fire on Storm King Mountain, Colorado, USDA Forest Service, Rocky Mountain Research Station. Research Paper RMRS-RP-9, 82 p.

Castellnou, M., Kraus, D., Miralles, M. (2010). Prescribed Burning and Suppression Fire Techniques: from Fuel to Landscape Management. In Montiel C and Kraus D (ed.), Best Practices of Fire Use-Prescribed Burning and Suppression Fire Programs in Selected Case-Study Regions in Europe.

Coen, J.L., Schroeder, W. (2013). Use of spatially refined satellite remote sensing fire detection data to initialize and evaluate coupled weather-wildfire growth model simulations. Geophysical Research Letters, 40: 5536–5541.

Deeming, J.E., Burgan, R.E., Cohen, J.D. (1977). The National Fire Danger Rating System. General Technical Report INT- 39. Ogden, UT: U.S. Department of Agriculture, Forest Service, International Forest and Range Experiment Station. 63 pp.

Dimitrakopoulos, A.P. (2002). Mediterranean fuel models and potential fire behavior in Greece. International Journal of Wildland Fire, 11: 127–130.

Dowdy, A.J., Ye, H., Pepler, A., Thatcher, M.,  Osbrough, SL., Evans, J.P.,  Virgilio, G.D. McCarthy N. (2019). Future changes in extreme weather and pyroconvection risk factors for Australian wildfires. Scientific Reports, 9: 10073.

Duguy, B., Alloza, J.A., Roder, A., Vallejo, R., Pastor, F. (2007). Modelling the effects of landscape fuel treatments on fire growth and behaviour in a Mediterranean landscape (eastern Spain). International Journal of Wildland Fire, 16: 619–632.

Fernandes, P., Luz, A., Loureiro, C., Godinho-Ferreira, P., Botelho, H. (2006). Fuel modelling and fire hazard assessment based on data from the Portuguese National Forest Inventory. V International Conference on Forest Fire Research D. X. Viegas (Ed.).

Finney, M.A. (2003). Calculation of fire spread rates across random landscapes. International Journal of Wildland Fire, 12: 167–174.

Finney, M.A. (2004). FARSITE: Fire Area Simulator–model development and evaluation. Research Paper RMRS-RP-4 Revised. Ogden, UT: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 47 pp

Flannigan, M.D. (2011). Weather, climate and wildland fires. International Conference on Fire Behaviour and Risk, Alghero, Italy, 4-6 October 2011

Flannigan, M.D., Wotton, B.M. (2001). Climate, weather and area burned. In: Johnson EA, Miyanishi K (ed) Forest Fires - Behaviour and Ecological Effects. Academic Press, San Diego, CA, pp 335-357

Jahdi, R., Salis, M., Darvishsefat, A.A., Alcasena, F., Etemad, V., Mostafavi, M.A., Munoz Lozano, O., Spano, D. (2015a). Calibration of FARSITE simulator in northern Iranian forests. Natural Hazards and Earth System Science, 15: 443-459.

Keane, R.E., Burgan, R., van Wagtendonk, J. (2001). Mapping wildland fuels for fire management across multiple scales: integrating remote sensing, GIS, and biophysical modeling. International Journal of Wildland Fire, 10: 301–319.

Krawchuk, M.A., Cumming, S.G., Flannigan, M.D., Wein, R.W. (2006). Biotic and abiotic regulation of lightning fire initiation in the mixedwood boreal forest, Ecology, 87: 458–468.

Legendre, P., Legendre, L. (1998). Numerical Ecology. 2nd edn. (Elsevier: Amsterdam),

Lozano, O.M., Salis, M., Ager, A.A., Arca, B., Alcasena, F.J., Monteiro, A.T., Finney, M.A., Giudice, L.D., Scoccimarro, E. Spano, D. (2016). Assessing Climate Change Impacts on Wildfire Exposure in Mediterranean Areas. Risk analysis 37 (10): 1898-1916.

Mccaffrey, S.M. (2004). Thinking of Wildfire as a Natural Hazard. Society and Natural Resources, 17(6): 509-516.

Mouillot, F., Rambal, S., Joffre, R. (2002). Simulating climate change impacts on fire frequency and vegetation dynamics in a Mediterranean-type ecosystem. Global Change Biology, 8: 423-437.

Nelson, R.M. (2000). Prediction of diurnal change in 10-h fuel sticks moisture content. Canadian Journal of Forest Research, 30, 1071-1087.

Ottmar, R.D., Sandberg, D.V., Riccardi, C.L., Prichard, S.J. (2007). An overview of the fuel characteristic classification system—quantifying, classifying, and creating fuel beds for resource planning. Canadian Journal of Forest Research, 37: 2383–2393.

Pausas, J.G. (2004). Changes in fire and climate in the Eastern Iberian Peninsula (Mediterranean Basin). Climate Change, 63: 337-350.

Pyne, S.J., Andrews, P.L., Laven, R.D. (1996). Introduction to Wildland Fire. 2nd Ed. John Wiley and Sons, New York.

Riano, D., Moreno-Ruiz, J.A., Isidoro, D., Ustin, S.L. (2007). Global spatial patterns and temporal trends of the burned area between 1981 and 2000 using NOAA-NASA Pathfinder. Global Change Biology, 13: 40–50.

Richards, G.D. (1990). An elliptical growth model of forest fire fronts and its numerical solution. International Journal for Numerical Methods in Engineering, 30: 1163-1179.

Rothermel, R.C. (1972). A mathematical model for predicting fire spread in wildland fuels. USDA For. Serv. Res. Paper INT-115.40 pp

Rothermel, R.C. (1993). Mann Gulch fire: a race that couldn’t be won, Gen. Tech. Rep. INT–142. Ogden, UT: USDA Forest Service, Intermountain Forest, and Range Experiment Station.

Salis, M., Ager, A.A., Alcasena, F., Arca, B., Finney, M., Pellizzaro, G., Spano, D. (2015). Analyzing seasonal patterns of wildfire exposure factors in Sardinia, Italy. Environmental Monitoring and Assessment, 187:4175.

Salis, M., Arca, B., Ager, A.A., Fois, C., Bacciu, V., Duce, P., Spano, D. (2012). Extreme wildfire spread and behavior: case studies from North Sardinia, Italy. Geophysical Research Abstracts, Vol. 14, 10052 p. ISSN 1607–7962.

Sandberg, D.V., Ottmar, R.D, Cushon, G.H. (2001). Characterizing fuels in the 21st Century. International Journal of Wildland Fire, 10: 381-387.

Sá, A.C.L., Benali, A., Fernandes, P.M., Pinto, R.M.S., Trigo, R.M. Salis, M., Russo, R., Jerez, S., Soares, P.M.M., Schroeder, W., Pereira, J.M.C. (2017). Evaluating fire growth simulations using satellite active fire data. Remote Sensing of Environment, 190: 302–317.

Schoennagel, T., Veblen, T.T., Romme, W.H. (2004). The interaction of fire, fuels, and climate across Rocky mountain forests, Bioscience, 54: 661–676.

Tavosi, T., Delara, G. (2010). Climate Classification of Ardabil Province. Nivar, Journal of Meteorological Organization, 12, 34, 47-52.

Tian, H., Liu, M., Zhang, C., Ren, W., Chen, G., Xu, X., Lu, C. (2005). DLEM-The Dynamic Land Ecosystem Model, User Manual. The EDGE Laboratory, Auburn University, Auburn, AL.

Trigo, R.M., Sousa, P.M., Pereira, M.G., Rasilla, D., Gouveia, C.M. (2013). Modeling wildfire activity in Iberia with different atmospheric circulation weather types. International Journal of Climatology, 36 (7): 2761-2778.              

Vacchiano, V., Foderi, C., Berretti, R., Marchi, E., Motta, E. (2018). Modeling anthropogenic and natural fire ignitions in an inner-alpine valley. Nat. Hazards Earth Syst. Sci., 18: 935–948.

van Wagner, C.E. (1993). Prediction of crown fire behavior in two stands of jack pine. Canadian Journal of Forest Research, 23, 442-449.

Viegas, D.X. (2009). Recent forest fire-related accidents in Europe, JRC-IES European Commission Joint Research Centre Institute for Environment and Sustainability.

Viegas, D.X., Abrantes, T., Palheiro, P., Santo, F.E., Viegas, M.T., Silva, J., Pessanha, L. (2006). Fire weather during the 2003, 2004, and 2005 fire seasons in Portugal. V International Conference on Forest Fire Research, Coimbra, Portugal, November 2006.

Viegas, D.X., Ribeiro, L.M., Viegas, M.T., Pita, L.P., Rossa, C. (2009). Impacts of fire on society: Extreme fire propagation issues, Pages 97-110 in Earth observation of wildland fires in the Mediterranean ecosystem, Chuvieco E. (Ed.), Springer-Verlag Berlin Heidelberg, German.