Sakineh Damadi; Abdolhamid Dehvari; Mohammad reza Dahmardeh ghaleno; Mahboobeh Ebrahimiyan
Abstract
Every year, floods destroy the economic and social structure of communities and cause a lot of financial and human losses. One of the effective factors in the occurrence of floods is the development of urbanization around rivers. Due to climate change, in recent decades, Sistan and Baluchestan Province ...
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Every year, floods destroy the economic and social structure of communities and cause a lot of financial and human losses. One of the effective factors in the occurrence of floods is the development of urbanization around rivers. Due to climate change, in recent decades, Sistan and Baluchestan Province with hot and dry climate, is prone to floods. The aim of the present study is to zoning the flood of Sarbaz Watershed using HEC-RAS hydraulic model. To conduct the research, the SCS model of the area was first determined according to satellite images, land use map and runoff curve number. Then, the flood discharge of the basin with 10, 25, 50 and 100 years return periods was simulated using the HEC-HMS hydrological model. The simulation results resulted in the occurrence of peak flood discharges of 3363.8, 4563.7, 54462 and 6359.3 m3s-1 for return periods of 10, 25, 50 and 100 years in the study basin, respectively. In order to evaluate the efficiency of the model in calibration and validation stage, Nash-Sutcliffe evaluation indices and the mean square error were used, the results of which indicate the optimal performance of the model. Then, the flood zoning map of Sarbaz Watershed in Rusk City was prepared in desired return period with the help of HEC-RAS hydraulic model. The results showed that with the return periods of 10, 25, 50 and 100 years, 366.86, 397.12, 449.95 and 580.78 hectares of flood zone of Sarbaz Watershed in Rask City area will increase, respectively.
Saeedeh Khaledi; Mohammad Nohtani; Mohammad reza Dahmardeh ghaleno
Abstract
In arid areas, water resources management and utilization is of great importance in minimizing the damage caused by water shortages in these areas while maximizing water resources efficiency. The present research aims to assess water resources management in Sistan with an approach to cope with dust storms ...
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In arid areas, water resources management and utilization is of great importance in minimizing the damage caused by water shortages in these areas while maximizing water resources efficiency. The present research aims to assess water resources management in Sistan with an approach to cope with dust storms and desertification phenomena using lexicographic goal programming method. Lexicographic goal programming is one of the most important multi-objective optimization problem solving methods. GAMS programming was considered to design research model. The results showed that according to the experts, in order to coping with dusts phenomenon, followed by meeting domestic demands in Sistan, water transfer priorities are related to critical control point of Hamoon Wetland and plantation areas in wind sedimentation. For this, once research model was run and under optimal water resources management, in addition to meeting all domestic consumption demands, the amount of water transmitted to Hamoon Lake to supply its minimum water requirement was 61.4 million cubic meters. Hence, the water needed for the stabilization of the critical control point of Hamoon Wetland was fully supplied. In addition, under optimal management conditions, water transportation to plantation farms of northern Mohammad Shahkarm and Jazinak cities was increased by 13.22 and 7.76 million cubic meters, respectively, i.e. up to twice a current value. As a result, all of water demands in these sectors have been met completely. According to the results, under optimal water management conditions in addition to meeting basic needs, water transferring to critical control point of fine grain sediment origins to stabilize them.
Mohammad Reza Dahmardeh Ghaleno; Mohammad Nohtani; Saeedeh Khaledi
Abstract
Human interventions on natural trend and overexploitation of natural resources, altogether have interrupted nature reclamation and accelerated its degradation. The present research aims to determine anthropogenic factors on wind erosion intensification in Hamun area, Sistan. The study populations included ...
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Human interventions on natural trend and overexploitation of natural resources, altogether have interrupted nature reclamation and accelerated its degradation. The present research aims to determine anthropogenic factors on wind erosion intensification in Hamun area, Sistan. The study populations included two groups, first all experts in the natural resources sector in city of Zabol (36 experts) which were surveyed and second group included all households in Hamoon area of Sistan which their number was 4121 households and according to Cochran formula, the sample size was obtained 221 households. The results of the questionnaires responded by experts showed that off-season cultivation of melon Hamoon lake bed, Excavation of water storing pits and manipulation of stabilized Lake bed and overgrazing vegetation in Hamoon bed are found to be the most important factors in exacerbation of wind erosion in this area. Pearson correlation coefficient was used to determine anthropogenic factors affecting the above three factors. Data analysis showed that experience of stakeholders and number of stockholders family members both have positive significant role in increasing our off-season cultivation of melons on the lake bed, Excavation of water storing pits and grazing on lake bed in 99% confidence level. On the other hand those stakeholders owning greater farmlands, high education level and income have fewer tendencies to overexploitation and degrade area.
Mohammad Reza Dahmardeh Ghaleno; Mohammad Nohtani; Sadegh Askari Dehno
Abstract
The purpose of this research is to study the changes in some features of the topsoil and vegetation in the land affected by flood and comparing its results with the control area in koh khajeh flood spreading station in hamoon area of Sistan. For this purpose, four sites were considered as flood spreading ...
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The purpose of this research is to study the changes in some features of the topsoil and vegetation in the land affected by flood and comparing its results with the control area in koh khajeh flood spreading station in hamoon area of Sistan. For this purpose, four sites were considered as flood spreading area and two sites were selected as control area. Samples were taken in six sites using the random-systematic method. To this aim, 3 transects of 100 meters was established in each field and each one had 10 plots of 1 square meters regarding the dispersion of vegetation. Canopy cover percentage and density were calculated through use of plots and clipping and weighing was used to measure current year's growth as production. Also, to measure soil properties, sampling along each transect and in six points (3 points in shrubs understory and three points in bare soil), and factors as EC, pH, nitrogen percentage of the soil, and organic matter percentage were calculated. In order to compare the results regarding soil features, we used 2*2 factorial tests and for the factors regarding vegetation we used non-paired t test in spss. Data normality was assessed using Kolmogorov test. The results indicated that flood water spreading has a significant effect on canopy cover percentage and plant production respectively in probability level of 5 and 1 percent, but there is not significant difference between vegetation density in flooded and control area. Results showed that flood has led to significant increases in soil nitrogen percent and organic matter as well as low acidity and EC in probability level of 5 %.at the same time, organic matter, nitrogen and acidity are low compared to shrub understory soil in both treatments. However, EC in soil under shrub is higher than bare soil in both treatments