Hydrogeomorphology
fatemeh menbari; Amjad Maleki; nayyeri hadi
Abstract
Morphometric analysis of a drainage basins and river network plays an vital role in understanding the hydrogeological behavior of the drainage basin . Therefore, the current research was conducted with the aim of modeling flood and its relationship with morphometric variables using multivariate regression. ...
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Morphometric analysis of a drainage basins and river network plays an vital role in understanding the hydrogeological behavior of the drainage basin . Therefore, the current research was conducted with the aim of modeling flood and its relationship with morphometric variables using multivariate regression. The research method is based on the destruction of morphometric parameters and statistical analysis, including correlation coefficient and linear regression analysis. In this regard, first, the studied basins have been selected using ARC GIS 10.5 software, and the limits of each one has been determined. Then, their morphometric characteristics have been extracted. The Flood discharge has also been reconstructed in return periods of 2 to 500 years using easy-fit software. For modeling, first, the linear relationship between each morphometric variable as an independent variable with flood discharge as a dependent variable was investigated. After ensuring the linear relationship between variables and flood discharge, correlation between each variable and flood discharge was calculated. The variables with the highest correlation were watershed area, basin length, and surface flow length. Using multivariate regression, modeling was used for independent variables and flood discharge. The results show that as the return period increases, the relationship between independent variables and flood discharge increases, So that the correlation of the area with the return period of 25 years is 0.609 and with the return period of 200 years is 0.677.also, the proposed models have more validity for flood prediction using multivariate regression analysis in return periods above 25 to 500 years.
hydrogeology
Hadi Nayyeri; Mamand Salari; Zhila Chardawli
Abstract
The soil erosion issue and lands' degradation is one of the most important issues in natural sciences. Soil erosion is the predominant geomorphic process on many land surfaces. In order to assess the environmental and economic consequences of soil erosion, quantitative data are needed. In this research, ...
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The soil erosion issue and lands' degradation is one of the most important issues in natural sciences. Soil erosion is the predominant geomorphic process on many land surfaces. In order to assess the environmental and economic consequences of soil erosion, quantitative data are needed. In this research, soil erosion is studied with of morphometric parameters. For this aim, Gheshlagh river basin iin Kurdistan province, was studied. Areas with a rating of more than 2 that entered directly into the main river were plotted as sub-basins for morphometric calculations. These areas included 47 sub-basins. The number of 16 morphometric parameters were calculated to determine the morphometric conditions of the basin and were considered as the input layer. Then, the results of these parameters were aggregated by four multi-criteria decision models TOPSIS, VIKOR, SAW and CF. In all four, the northern sub-basins were classified as areas with low and very low susceptibility to erosion. These basins are often located in volcanic rocks. In a general view, according to all four models studied, the basins in the lithology of dark gray shale (Sanandaj shale). Their sensitivity to erosion have been classified from moderate to very high. the final results showed that the multi-criteria decision-making methods, by presenting a classification, divide the region into several classes in terms of the degree of erosion sensitivity, and the VIKOR method, due to the greater coefficient of variation, has more accurate than the others.
Hadi Nayyeri; Khabat Amani; Hamid Ganjaeian
Volume 3, Issue 7 , October 2016, , Pages 19-38
Abstract
Hadi Nayyeri[1]* Khabat Amani[2] Hamid Ganjaeian[3] Abstract The rivers physical and morphological properties survey and study is one of the first and most important actions in hydrological plans design and implementation. The aims of this research is Tarval drainage basin physical, hydrological, hydrographic ...
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Hadi Nayyeri[1]* Khabat Amani[2] Hamid Ganjaeian[3] Abstract The rivers physical and morphological properties survey and study is one of the first and most important actions in hydrological plans design and implementation. The aims of this research is Tarval drainage basin physical, hydrological, hydrographic and hydro geomorphology's traits surveying using software and statistical methods in order to access the appropriate information's to planning and implementing the constructions and watershed management plans. Tarval stream is the Caspian Sea sub basin that its drainage basin area from confluence location with Ghezel Owzan is 6955 km2. According to present statistics from 1971 to 2011 years the annual average of meteorology and synoptic basin temperature are 12.5 centigrade degree and annual precipitation is 352 mm that shows semi-arid situation of basin climatologically. The result shown that the drainage net densities in this basin is low and the number of streams per unit area is few. By considering the study area dispersal coverage and is some cases are high-density, the runoff coefficient is 0.35 percent and the basin delay time is 1.65 hours, and its time of concentration is 2.75 hours. The results shows that by considering the factors such as precipitation rate, basin low slope, little discontinuous seed sediment, the basin runoff amount is very low and precipitation of this area speedily drops down. For this reason the soil erosion percentage in this basin is so little and be controllable. In addition, the flood debit curvy changes with time passing have a slight curve that represent the basin immunity against flooding. [1]- Assistant Professor in Dept. of Geomorphology, Faculty of Natural Resources, University of Kurdistan, (Corresponding Autor), Email:nayyerihadi@yahoo.com. [2]- Student Hydregeomorphlogy, University of Tehran. Graduate Student Hydregeomorphlogy, [3]- Student Hydregeomorphlogy, University of Tehran. Graduate Student Hydregeomorphlogy,