Aghili Dehkordi, K. (2013). Statistical Analysis of ThunderStorm (Case Study of Tabriz Station), First National Conference on Agriculture and Sustainable Natural Resources, Mehr Arvand Institute of Higher Education. (in Persian).
Barati, Gh., Moradi, M., & Salimi, R. (2015). Sampling of Rainy Rainfall in Zanjan Province, Natural Hazards, 6: 77-88. (in Persian).
Bentley, M.,T., Mote. (2002). Using Land Sat to Identify Thunderstorm Damage in Agricultural Regions, Bull, Amir , Meteor, Soc, Vol. 83, No. 3: 363-376.
Brooks, H. E., Doswell, C. A. & Cooper, J. (2003). On the Environments of Tornadic and Nontornadic Mesocyclones, Weather Forecast, 9: 606–618.
Changnon Stanley A. (2001). Thunderstorm Rainfall in the Conterminous United States, American Meteorological Society.Vol. 82. No. 9: 1925-1940.
Dai, A. (2001). Global Precipitation and Thunderstorm, Journal of Climate .14: 1092-1111.
Doswell, C. & Johns, R. (1992). Severe local Storms Forecasting. Weather and Forecasting, 7: 588-612.
Geshunove, A. L., Westerling, T. (2003). Climate and Wildfire in the Western United State, Bull, Amir, Meteor, Soc, Vol. 84, No.5: 595-604.
Ghavidel Rahimi, Y., Abbasi, I., & Farajzadeh, M. (2017). An Analysis of the Threat Storm Risk Properties Effect on the South Coast of Iran, Quarterly Journal of Space Planning and Development, Vol.2, 1: 279-293. (in Persian).
Ghavidel Rahimi, Y., Rezaei, M., Farajzadeh, M. (2015). Application of the Normalized Temperature Deviation Model in the Synoptic Identification and Analysis of the Risk of Temperatures of the Extreme in the South-Eastern Part of Iran, Quarterly Journal of Spatial Planning and Approximation, Period 19-4: 123-140. (in Persian).
Haj Babaei, N., Nasiri, A., & Brazani, M. (2005). Thunderstorm in Iran and its Synoptic Survey in East of Isfahan, First National Conference on Wind Erosion, Yazd University, Yazd. (in Persian).
Hejam, S., Khashkhoo, Y., & Shamsudin Vandi, R. (2009). Analysis of the Trend of Seasonal and Annual Rainfall Changes of Selected Stations in the Central Region of Iran using non-Parametric Methods, Geographic Research, 64: 157-168. (in Persian).
Hejazi Zadeh, Z. (2000). Study of Synoptic Factors of Rainfall and Storms with Thunderstorms in the West of the Country, Persian language and literature, 28 and 29: 5-26. (in Persian).
Iranpour, F., & Hanafi, A. (2015). Thermodynamic and Simulation Analysis of Thunderstorms in Hamedan Meteorological Station, Geography and Environmental Hazards, 13: 115-131. (in Persian).
Juraj M., Cunderlik, Taha B. M. J. Ouarada. (2009). Trends in the Timing and Magnitude of Floods in Canada, Journal of Hydrology, No. 375: 471-480.
Khuzestan Province Meteorological Administration. (2015). Meteorological Statistics of Climatic Elements of Synoptic Stations of Khuzestan Province. (in Persian).
Lashkarri, H., & Aghasi, H. (2013).Synoptic Analysis of Thunderstorm in Time (1996-1996), Geography and Planning, 45: 203-234. (in Persian).
Lashkari, H., & Kikhsravi, Q. (2008). Synoptic Statistical Analysis of Duststorms in Khorasan Razavi Province Between 1993-1993, Natural Geographic Research, 65: 17-33. (in Persian).
Maghari, A., & Khosravi, M. (2014). Investigation of the Relationship Between the Sudanese Low Pressure System and Precipitation in the Province of Kermanshah, May 3, 2004, Natural Hazards, Third year, 4: 61-80. (in Persian).
Manohar. G. k. (1999). Thunderstorm Activity over Indian Southwest Monsoon, Gepphys Journal of Research, 104: 4169-4188.
Meftahei Namin, Sh., & Salahi, B. (2013). Analysis of Statistical Characteristics of Thunderstorm in Astara, Second National Conference on Climate Change and its Impact on Agriculture and the Environment, Agricultural Research Center and Natural Resources of West Azarbaijan Province. (in Persian).
Nowzad, N., & Salahi, B. (2013). Storm A Climate Threat for Parsabad City, the First National Conference on Geography, Urban Development and Sustainable Development, Koomesh Environmental Society. (in Persian).
Rasmussen, E. & Blanc, hard, D. (1998). A Baseline Climatology of Sounding – Derived Supercells and Tornado Forecast Parameters. Weather and Forecasting, 13: 1148-1164.
Sánchez, J. L., Marcos, J. L., Dessens, J., López, L., Bustos, C., García-Ortega, E. (2013). Assessing Sounding-Derived Parameters as Storm Predictors in Different Latitudes. Atmos. Res. 93 : 446–456.
Salahi, B. ( 2010). Study of Statistical Characteristics and Harmony of Thunderstorms in Ardabil Province, Natural Geographic Research, 72: 129-142. (in Persian).
Soula, S, Chauzy S. (2001). Some Aspects of the Correlation between Lightning and Rain Activities in Thunderstorms, Atmospheric Research:. 355–373.
Stalker, J. & Knupp, K. (2002). A Method to Identify Convective Cells within Multicell Thunderstorms from Multiple Doppler radar Data. Monthly Weather Review, 130, pp. 188-195.
Sturtevant, S. (1995). The Severe Local Storm Forecasting, Primer, 197 pp.
Tafferner, A, and et al. (2008). Development and Propagation of Severe Thunderstorms in the Upper Danube Catchment Area: Towards an Integrated Now Casting and Forecasting System Using Real-Time Data and High- Resolution Simulations.
Taha'i, F., Solki, H., & Hejazi Zadeh, Z. (2016). Surveying the Patterns of Superheavy Precipitation in the West and Southwest of the Watershed of Urmia Lake, Quarterly Journal of Space Planning and Projection, Vol. 20, 1: 69-79. (in Persian).
Turgay, P. and Ercan K. (2005). Trend Analysis in Turkish Precipitation Data, Hydrological Processes, published online in Wiley Inter Science (www.Interscience.wiley .com).
Wallace, M. J. (1995). Diurnal Variations in Precipitation and Thunderstorm Frequency over the Conterminous United States, Monthly Weather Review, 103: 406-419.
Whiteman, C.D. (2003). Mountain Meteorology; Oxford University Press.
آمایش فضا و ژئوماتیک