Cybernetics Disabled the coefficient of expansion of civil areas of Shiraz that most prone to flood in the context of hydrogeomorphic during 1951 to 2001 decades
Natural events from the beginning to the present day is always an integral part of human life. So, engineers and researchers use various methods and softwares to predict and estimate the risk factors by analyzinge and calculating. Flood is one of the phenomena that is considerd as the top priority in all projects and planning system among engineer consultants. The aim of this study is to consider the spatial development of the areas most prone to shiraz civilization in context of Hydrogeomorphic during the decades 1951, 1971, 1981 and 2001. Therefore, aerial photographs and topographic maps with a scale of the city decades 1/50000 as well as geological maps with a scale 1/100000 were used. Then, the plots related to flood index by softwares such as GIS and Graphers are calculated and analyzed by Gravelius coefficient formula for drawing. The results showed that the flood basin of Shiraz is 1 to 1.9 which indicates the average area of the flood. Then the coefficients calculated for growth and development in the basin cyclical city of Shiraz in the decades 1951, 1971, 1981 and 2001, respectively, between 1/85 to 1/86, 1/67 and 1/75, 1/46, 1/66 and 1/47 to 1/67 in terms of flooding. Generally, it can be mentioned that urban development section of Shiraz in relation to Hydrogeomorphic is located in the flood path. Cyclical development of Shiraz in some regions in the decades of 1981 and 2001 has been improved in flood path from average to maximum. The interesting point is that the index flood was inactive, but these areas in term geomorphology parameter have been progressed dynamicly and actively such as Morphotectonic region.
Ahmadi, Mahmoud, David Ashurlu and Mehdi Narngyfard (2012). "Thermal patterns and use of city space-time changes using Landsat + TM & ETM» Issue Fourth, martyr Beheshti University, pp. 56-64, in Persian
Alizadeh, Amin (2011). "Principles Applied Hydrology" University of Mashhad, the thirty-third edition, pp. 492-507, in Persian
Abedini, Moussa (2009). "Quantitative Analysis Hydrogeomorphology issues with emphasis on soil erosion and sedimentation basin Lakeway tea (South East Ardebil province)" Journal of Geography and Development, the fifteenth, pp. 71-88,in Persian
Atai, Hooshmand and M. Sheeran (2010). "Identify the sub hydrological terms of geomorphological factors affecting the flood with Cluster Analysis (Case Study Crohn's Plain)," Journal of Geography and Environmental Planning, Vol. 22, No. 2 (42), pp 79-98,in Persian
Breil, P., Radojevic, B., Chocat, B., (2010). Urban development and extreme flow regime changes. IAHS Publ. 340, 314–319.
Chin, A., (2006). Urban transformation of river landscapes in a global context.Geomorphology 79, 460–487.
Boldaji, Pooyandeh, Ismail, M. Sufi, Ali Murad Hasanli (2009). "The factors affecting flooding in dry river basin Shiraz" Iran's Fifth National Conference on Watershed Management Science and Engineering, pp. 1-12,in Persian
Chin, A., Gregory, K.J., (2005).Managing urban river channel adjustments.Geomorphology 69, 28–45.
Doll, B.A., Wise-Frederick, D.E., Buckner, C.M., Wilkerson, S.D., Harman, W.A., Smith, R.E., Spooner, J., (2002). Hydraulic geometry relationships for urban streams throughout the piedmont of North Carolina. J. Am. Water Resour. Assoc. 38 (3), 641–651.
Escoufier, B., (1979).Traitementsimultané de variables quantitativesetqualitatives en analysefactorielle. Les cahiers de l’analyse des données 4 (2), 137–146.
Ezzatiyan, Victoria and Zabihullah Daneshamuz(2012). "Hydrogeomorphology watershed characterization Kheirabad" Land use planning Journal, the fourth periodnumber second, pp. 113-140,in Persian
Heydari, Ali and Ashraf Asadi (2011). "Analysis of changes in temperature and precipitation series of Shiraz during the period 2500-1951," Journal of Geography and Environmental Planning, pp. 137-152,in Persian
Kamanah, and Saleh Ali Naderi, Abdullah Taheri, Majid saket(2011). "Spatial analysis of geomorphic and hydrologic basin deaf relying on arguments," Journal of Regional Planning, the first year, the first issue, pp. 72-83,in Persian
Kamanah, and Haidar Abdul Qadri and Shahida Dehqan (2015). "Feedback climatology and geomorphology planned urban development (Case Study Metropolis Shiraz)" Journal of Regional Planning, Issue the nineteenth, pp. 187-198,in Persian
Kianfar, A. (2008). "Zoning Knchanchm flooding potential in the catchment area using the GIS» Master thesis, University of Yazd,in Persian
Kasai, A. (2003). "The flood, the causes and complications from it (check the flood of Neka in 1378)," World insurance news magazinenumber 67, Pages 703-708,in Persian
Mozaffari, G. (2010). "Urban Hydrology" Yazd University Press, first edition, p. 20,in Persian
Mohamadzadeh, R. (2007). "The environmental impact of rapid physical development with an emphasis on Tehran and Tabriz cities" Journal of Geography and Regional Developmentnumber the ninth, pp. 94-107,in Persian
Moqimi, Abraham, Saffar (2008). "Geomorphological evaluation of urban development in the realm of surface drainage basins Case Study Metropolis Tehran," Journal of Humanities lecturer, Volume fourteenthnumber 1, pp. 2-28,in Persian
Negaresh, H. (2003). "Application of Geomorphology in locating cities and its consequences." Journal of Geography and Development 1 (1) pp. 133-150,in Persian
Niehoff, D., Fritsch, U., Bronstert, A., (2002). Land-use impacts on storm-runoff generation: scenarios of land-use change and simulation of hydrological response in a meso-scale catchment in SW-Germany. J. Hydrol. 267(2-1).80-93.
Omidvar, Kamal (2011). "natural hazard" Yazd University Press, First Edition, Page 197,in Persian
Ott, B., Uhlenbrook, S., (2004).Quantifying the impact of land-use changes at the event and seasonal time scale using a process-oriented catchment model.Hydrol. Earth Syst. Sci. 8 (1), 62–78
Poff, N.L., Bledsoe, B.P., Cuhaciyan, C.O., 2006. Hydrologic variation with land use across the contiguous United States: geomorphic and ecological consequences for stream ecosystems. In: James, L.A., Marcus, W.A. (Eds.). The Human Role in Changing Fluvial Systems 79, 264–285. doi:10.1016/j.geomorph.2006.06.032.
Preusser,F.,Schmitt,L.,Delile,D.,Grosprêtre,L.,2011.Optically StimulatedLuminescence (OSL) dating of the sedimentation history of the Yzeron basin (Chaudanne sub-catchment), Rhône Valley, France. Quaternaire 22 (1), 73–83.
Panday,S.,Huyakorn,P.S.,(2004).Afullycoupledphysically-based spatiallydistributed model for evaluation of surface/subsurface flow. Adv. Water Resour. 27, 361–382.
Riahi, Vahid and Zamani Luqman (2015). "The geographic factors affecting the flood in rural areas (Case Study of Rural city Sarvabad" Journal of Regional Planning, Issue the seventeenth, pp. 91-102,in Persian
Semadeni-Davies, A., Hernebring, C., Svensson, G., Gustafsson, L.G., (2008). The impacts of climate change and urbanisation on drainage in Helsingborg, Sweden: combined sewer system. J. Hydrol. 350 (1–2), 100–113.
Yusofi, S. (2006). "Urban development patterns in the Middle Ages, the history of Iran," Journal of Human Sciencesnumber 52, pp. 319-350, in Persian
Yamani, M. and Nazafryn Behnoud (2012). "Feasibility study on the impact of physical development kiashahr Hydrogeomor" Journal of Physical Geographynumber the fifteenth, pp 21-31, in Persian
Zomorodian, MJ and M. Khakpoor, provincial Saadallah (2012). "Hydrogeomor landforms analysis Maharloo Lake basin based on interactive relationships Morphotectonics processes, Morphogenetic and Hydromorphic" Journal of Geography and Regional Development, No. the nineteenth, pp. 48-68 , in Persian.
Omidvar, K., & Eftekhar, H. (2017). Cybernetics Disabled the coefficient of expansion of civil areas of Shiraz that most prone to flood in the context of hydrogeomorphic during 1951 to 2001 decades. Regional Planning, 7(25), 166-178.
MLA
Kamal Omidvar; Hasan Eftekhar. "Cybernetics Disabled the coefficient of expansion of civil areas of Shiraz that most prone to flood in the context of hydrogeomorphic during 1951 to 2001 decades". Regional Planning, 7, 25, 2017, 166-178.
HARVARD
Omidvar, K., Eftekhar, H. (2017). 'Cybernetics Disabled the coefficient of expansion of civil areas of Shiraz that most prone to flood in the context of hydrogeomorphic during 1951 to 2001 decades', Regional Planning, 7(25), pp. 166-178.
VANCOUVER
Omidvar, K., Eftekhar, H. Cybernetics Disabled the coefficient of expansion of civil areas of Shiraz that most prone to flood in the context of hydrogeomorphic during 1951 to 2001 decades. Regional Planning, 2017; 7(25): 166-178.