2024-03-29T12:35:18+04:30 http://jstnar.iut.ac.ir/browse.php?mag_id=66&slc_lang=fa&sid=1
66-2489 2024-03-29 10.1002
JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 The Effects of Some Soil Properties on Zn Availability for Corn in Certain Calcareous Soils in Isfahan Province H. Kheirabad kheirabadi@ymail.com A. H. Khoshgoftarmanesh Z. Khanmohamadi Due to soil and plant zinc (Zn) deficiency and its effect on reducing yield and quality of agricultural products, application of Zn fertilizers has been intensified in recent years. To achieve optimum fertilizer management, knowledge of factors affecting Zn availability in soil and its uptake by plant is required. Therefore, this study was carried out to investigate the effect of certain soil physiochemical properties on Zn availability in soil and its uptake by corn. The experiment was laid out in a completely randomized design with factorial combination and three replicates in the research greenhouse of Isfahan University of Technology, in winter 2009. In this greenhouse experiment, 11 soil series were exposed to two Zn levels (0 and 15 mg Zn kg−1 in the form of zinc sulfate). The results indicated that Zn application significantly increased the dry matter weight and shoot and root Zn concentration of corn, although the magnitude of this increase varied depending on the soil type. There was no significant correlation between the DTPA-extractable Zn and the uptake of this nutrient element by corn. There was a negative significant correlation (P < 0.05) between the equivalent calcium carbonate content and available P with the DTPA-extractable Zn. A significant linear relationship (R2 = 0.31) was found between the buffer capacity of soil for Zn and clay content. According to the results obtained from the stepwise regression analysis, the DTPA-extractable Zn and buffer capacity of soil for Zn were not correlated with other measured soil properties. Micronutrients Phytoavailability Calcium carbonate equivalent Buffer capacity. 2013 3 01 1 10 http://jstnar.iut.ac.ir/article-1-2489-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Evaluating Effective Factors in Erosion and Sediment Yield in Marl Lithology by Rain Simulator: (Case study, Hablehroud Basin in Semnan Province) A. Talebi a.talebi77@hotmail.com A. H. Charkhabi H. R. Peyrowan A. A. Hashemi H. Mosaddegh The Marls are unstable sedimentary formations that contain chemical materials and destructive particles. Marls Erosion processes are very intensive, so different forms of erosion on the marls as badlands are of specific characteristics in marl lands. Hence, recognition of effective characteristics in marls erodibility is necessary to adopt corrective measures and methods. In this research, for assessing marls erodibility in Hablehroud watershed portable rain simulator was used. Runoff and sediment amounts were measured in each marl unit. Then effective Factors were identified using statistical parameters. Finally, by factor analysis we determined the relationship between marls chemical properties and sediment yield. Therefore, effective parameters of erosion and sediment yield were determined. Results showed sediment yield is decreased in gypsum marl, sandy marl, salt marl and limy marl. In addition, erosion and sediment yield are increased with increasing EC, Na, Cl, SAR and with decreasing TNV, HCO3 Rain Simulator Erosion Sediment yield Marl Hablehroud basin. 2013 3 01 13 23 http://jstnar.iut.ac.ir/article-1-2490-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Effect of Citric and Oxalic Acid on Phosphorus Sorption Characteristics in Some Calcareous Soils N. Moradi M. H. Rasouli-Sadaghiani m.rsadaghiani@urmia.ac.ir E. Sepehr B. Abdolahi Organic acids can affect phosphorus (P) sorption. In order to evaluate the effect of citric acid and oxalic acid on phosphorus sorption characteristics in calcareous soils, five different soil samples (0-30 cm) were collected in West Azerbaijan province. Soil samples (2.5 g) were equilibrated with solutions of KH2PO4 containing 0 to 20 mg P l-1. Five mM organic acids were added to each tube and sorbed P was calculated. The sorption data were fitted to Langmuir, Freundlich and linear equations. The results showed phosphorus sorption data were well described by the Freundlich and linear equations. The average values of Kf (distribution coefficient), n and equilibrium buffering capacity (EBC) of linear equation in citric acid treatment were reduced to 29, 12 and 17 percent, respectively and for oxalic acid reduced to 43, 27 and 14 percent, respectively. Maximum sorption was reduced significantly by oxalic as compared to citric acid. Standard phosphorus requirement (SPR) was decreased by 57 % as a result of organic acids additions compared to control condition. It is concluded that organic acids additions to soils containing more calcium carbonate and high amount of clay can decrease P sorption. Sorption characteristics Citric acid Oxalic acid Phosphorus Calcareous soil 2013 3 01 25 33 http://jstnar.iut.ac.ir/article-1-2491-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Effects of Irrigation With Treated Municipal Sewage Effluent and Micro-Nutrients Foliar Spray on Foxtail Millet Growth and Nutrients Uptake in Zabol M. R. Asgharipour moas@uoz.ac.ir A. Ghanbari Bonjar H. Azizmoghadam A. R. Sirousmehr M. Heidari In this study the effects of irrigation with raw or diluted municipal effluents along with foliar micro-nutrients fertilizer spray were examined on the growth, yield and mineral nutrient in foxtail millet plants. The experimental design was a split-plot with three irrigation sources (namely raw sewage, 50% diluted sewage and well water) as main-treatment and four combinations of Mn and Zn foliar spraying as sub-treatments, which were applied with three replications. The experiment was conducted at the Zabol University research farm during 2009. The applied municipal effluents contained higher levels of macro and micro-nutrients than the well water. The experimental results indicated that irrigation of plants by raw or diluted sewage improved the measured growth parameters and productivity of foxtail millet plants. In addition macro and micro-nutrients concentrations were improved. These improvements were attributed to the presence of high levels of essential nutrients such as nitrogen, phosphorus, and organic matters in wastewater. Manganese and Zn supplied through sewage water alone were not able to raise the productivity of millet to the level obtained through fertilizers at the recommended level, which indicated that additional nutrients through fertilizers are required to obtain higher productivity of millet under sewage farming. Despite the differences in nutrients concentration among different irrigation water sources, the micro-nutrients foliar spray did not affect concentration of macro and micro-nutrients in foxtail millet plant. Overall, the results suggest that municipal sewage could be efficiently utilized as an important source of water and nutrients in growing foxtail millet Sewage water irrigation did not have any appreciable harmful effect on crop productivity. Municipal sewage effluent Micro-nutrients foliar application Foxtail millet Nutrient concentration Zabol. 2013 3 01 35 49 http://jstnar.iut.ac.ir/article-1-2492-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Sensitivity Analysis, Calibration and Validation of EUROSEM Model for Prediction of Runoff in the South Karoun Watershed M. Hamidpour mohsen_hamidpour@yahoo.com A. Jalalian M. Afyuni B. Ghorbani Models are helpful tools to predict runoff, sediment and soil erosion in watershed conservation practices. The objectives of this research were to investigate sensitivity analysis, calibration and validation of EUROSEM model in estimation of runoff in Tangh-e-Ravagh sub-basin of Karoun watershed. The model was tested in a one hectare experimental test site. The area was divided into nine elements according to EUROSEM user's manual. A triangular weir was installed at the outlet of the area to collect runoff in specified time periods for six rainfall events. Sensitivity analysis of the model was performed by a ±10% change in the dynamic parameters of the model and examining the outputs for a rainstorm. Sensitivity analysis showed that total runoff was sensitive to saturated hydraulic conductivity and insensitive to soil cohesion. Sensitivity analysis indicated that the model sensitivity depends on evaluation conditions and it is site-specific in nature. Calibration and validation of the model was performed on input parameters. Calibration of hydrographs was performed by decreasing saturated hydraulic conductivity and capillary drive and increasing initial soil moisture. Validation results showed that EUROSEM model simulated well the total runoff and peak of runoff discharge, but it could not simulate well the time of runoff, time to peak discharge Sensitivity analysis Runoff Eurosem model 2013 3 01 49 60 http://jstnar.iut.ac.ir/article-1-2493-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Deriving Regression Relationships between Soil Temperature at Different Depths and Meteorological Parameters (Case Study: Hamedan Station) N. Parsafar S. Marofi marofo@basu.ac.ir In this research, we estimated soil shallow depths temperatures using regression methods (Linear and Polynomial). The soil temperatures at soil depths (5, 10, 20, 30, 50 and 100 cm) were correlated with meteorological parameters. For this purpose, temperature data of Hamedan station (in the period 1992-2005) were employed. Soil temperature data were measured on a daily basis at 3 PM, 9 PM and 3 AM. MS Excel was used for deriving the regressions between soil temperature and meteorological parameters (air temperature, relative humidity and sunshine hours). The results showed that the highest coefficient of determination (R2) of the linear regression was between soil temperature in 20 cm soil depth and air temperature at 3 AM (R2= 98.15%) and the lowest value in 100 cm soil depth at 3PM (R2= 83.96%). Also, the highest R2 of non-linear regression was observed between soil temperature in 10 cm soil depth and air temperature at 3 AM (R2= 98.45%) and lowest value in 100 cm soil depth at 3PM (R2= 84.11%). The results showed that the highest and lowest values of R2 of linear relations between meteorological parameters (relative humidity and sunshine hours) and soil temperature were observed in 10 cm soil depth (at 3 AM) and in 100 cm soil depth, respectively. Correlations of soil temperature with air temperature were greater than those with the other two parameters. Moreover, R2 values of non- linear relation were higher than linear relation. Soil temperatures Meteorological parameters Correlation Regression Hamedan station. 2013 3 01 61 71 http://jstnar.iut.ac.ir/article-1-2494-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Effect of Water Quality on the Swelling Properties of an Expansive Soil During Wetting and Drying Cycles M. Moghadas m.moghadas@ut.ac.ir A. R. Estabragh J. Abdollahi Expansive soils swell and shrink periodically when subjected to seasonal water content changes. As a result, they are a constant source of problem in the design and construction of foundations. In this study, the behaviour of an expansive soil was studied through a number of experiments involving cycles of wetting and drying using three different water qualities. Laboratory tests were performed on statically-compacted samples of an expansive soil in a modified Oedometer under constant surcharge pressure of 10 kPa. Vertical deformation of the soil sample was recorded continuously, and during the test, void ratio and water content of the sample were determined at different stages. The results indicated that the equilibrium condition was reached after about six wetting-drying cycles. It is shown that the swelling potential changes with changes in water quality the saline water reduced the swelling potential of the soil compared to the distilled water during wetting and drying cycles. Furthermore, the results showed that the variations of water content-void ratio paths during wetting-drying were the same (no hysteresis) when the equilibrium condition was achieved Modified consolidation Wetting and drying cycles Swelling soils Water quality. 2013 3 01 73 83 http://jstnar.iut.ac.ir/article-1-2495-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Inverse Estimation of Soil Hydraulic Conductivity Using DRAINMOD Model M. Akbari mahmoodakbari@alumni.ut.ac.ir B. Nazari M. Parsinezhad H. Ebrahimian This study was conducted on subsurface drainage network under operation in Behshahr. DRAINMOD model was used to simulate drainage system using measured data in 2006. The model was evaluated to estimate soil hydraulic conductivity by comparing the measured and predicted values of water table depth and drain discharge for different values of hydraulic conductivity. The results of this method were compared with the results of output drainage water method (as a baseline method). Use of water table depth simulation results in estimating hydraulic conductivity model resulted in considerable error, while the simulation results of drain discharge rate could be used with good accuracy for estimating it. There was a small difference between the output drainage water method and the inverse solution of DRAINMOD model to estimate soil hydraulic conductivity (2.3 and 2.5 cm/h, respectively). Thus, the comparison between the measured and predicted values of drain discharge could be a good criterion to estimate soil hydraulic conductivity using the inverse solution of the DRAINMOD model B drain discharge Hydraulic conductivity Water table DRAINMOD. 2013 3 01 85 92 http://jstnar.iut.ac.ir/article-1-2496-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Simulation of Flow Pattern at a Natural Meander River by CCHE2D Numerical Model Case Study: Khoshk-e-Rud River. Farsan M. Fathi fathiapadana@gmail.com A. Honarbakhsh , M. Rostami A. Davoudian Dehkordi The present paper tries to describe the advantage and improvement of a numerical model when predicting government processes on Flow Rivers. With regard to the important effect of the flow velocity and shear stress forces on river bank erosion, we apply a Two-Dimensional numerical model, named CCHE2D, to simulate river flow pattern at a meandering river Khoshk-e-Rud River of Farsan, 30 Km west of Shahr-e- Kord. Various algorithms and parameters were implemented in a computational fluid dynamic model (CFD) for simulation of two-dimensional (2D) water flow to gain an insight into the capabilities of the numerical model. At this surveying, at first, we applied the topographic maps of the studied location and then, made the model geometry and calculation mesh with diverse dimensions. Finally, using the measured properties of the river flow and the Depth-Average, Two-Dimensional Hydrodynamic Model was run. Then, we obtained the results of model, such as depth and flow velocity at the river meander. Within the scope of the test cases, the model simulated water flow pattern processes at an intake, as well as a steady flow regime in a sine-shaped meandering channel by a 90_channel bend, which is the free-forming meander evolution of an initially straight channel. Because of high accuracy of this numerical model and multiple content of its internal parameters, the evaluation result of model, confirmed the measurement results. Therefore, the parameters gained from the model showed good conformity with measurement parameters at field cross-section. All results matched well with the measurements. The results also showed that using computational fluid dynamics for modeling water flow is one step closer to having a universal predictor for processes in Meandering Rivers Flow velocity Shear stress CCHE2D Numerical Model Meander Roughness coefficient. 2013 3 01 95 108 http://jstnar.iut.ac.ir/article-1-2497-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Landslide Hazard Zoning Using Bayesian Theory H. R. Pourghasemi H. R. Moradi hrmoradi@modares.ac.ir M. Mohammdi R. Mostafazadeh A. Goli Jirandeh The aim of present research is landslide hazard zoning using Bayesian theory in a part of Golestan province. For this purpose, landslides inventory map was created by landslide locations of landslide database (392 landslide locations). Then, the maps of effective parameters in landslide such as slope degree, aspect, altitude, slope curvature, geology, land use, distance of drainage, distance of road, distance of fault, stream power index (SPI), sediment transport index (STI), and rainfall were prepared in GIS environment. Relationship between effective factors and landslide locations were considered using Bayesian probability theory. In the next step, parameters classes weights were found and the landslide susceptibility mapping was achieved by fourteen modeling approaches (using whole parameters and deleting parameters one by one). The verification results by ROC curve and 30% landslide locations showed that the Bayesian probability model has 71.37% accuracy for the second approach of modeling in the study area. Landslide Bayesian theory Zoning ROC curve Golestan province. 2013 3 01 109 120 http://jstnar.iut.ac.ir/article-1-2498-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Estimation of Reference Evapotranspiration Using NOAA Satellite Images and M5 Model Tree for Irrigation Networks - Case Study: Gazvin Irrigation Network M. A. Moradi A. Rahimikhoob akhob@ut.ac.ir Reference evapotranspiration (ET0) is a necessary parameter for calculating crop water requirements and irrigation scheduling. In this study, a method was presented as ET0 is estimated with NOAA satellite imagery in the irrigation network. In this method, a pixel from a set of pixels within the irrigation network was chosen with the highest vegetation index, and its surface temperature (Ts) with extraterrestrial radiation parameter (Ra) was used as inputs of the model. The M5 model tree for converting Ta and Ra to ET0 was used as input variables. In this research, Gazvin irrigated area was selected as a case study. A total of 231 images of NOAA satellite related to irrigation season of the study area were used. The results obtained by the M5 model were compared with the Penman–Monteith results, and error values were found within acceptable limits. The coefficient of determination (R2), percentage root mean square error (PRMSE) and the percentage mean bias error (PMBE) were found to be 0.81, 8.5% and 2.5%, respectively, for the testing data set. Reference evapotranspiration NOAA satellite Land surface temperature Extraterrestrial radiation M5 Model tree Gazvin Irrigation Network 2013 3 01 123 135 http://jstnar.iut.ac.ir/article-1-2499-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Investigation of Seasonal Changes and Effect of Edaphical Factors on Sediment Productivity in Rangeland Use H. R. Moradi hrmoradi@modares.ac.ir M. Bakhshi Tiregani S. H. R. Sadeghi Climate situation changes over a year cause changes in some soil characteristics and soil sensitivity to erosion. Investigation of these changes and how they impact on erosion can be of particular importance. This study investigated changes in Sediment Productivity and soil factors affecting these changes in Tiregan rangeland located in Daregaz city in Khorasan Razavi province. In this study, using the position of the upper and lower hillside of eastern and western aspects, the sampling with rain simulator was performed. Characteristic features of sediment yield including runoff threshold, runoff volume, sediment and turbidity were measured. Soil samples were taken from each sample rain simulation and features of the initial moisture content, bulk density, electrical conductivity, pH and organic matter were measured. Sample was collected with the same intensity and duration of the instrument with fixed locations, and was repeated in four seasons. In order to obtain the position and orientation of each of the parameters in the data obtained at different seasons, the combined analysis of variance test was used. The effect of each of these parameters and the difference between them were evaluated using the Tukey test, and the graphs in 2007 Excel software were plotted. The results showed that all the parameters of sediment yield during the year have significantly changed. The maximum amount of sediment production rates occurred in autumn and was gradually reduced. Its decreasing in both winter and spring can be attributed to vegetation in the area. Sediment productivity Seasonal changes Land use Soil characteristic Tiregan watershed. 2013 3 01 137 147 http://jstnar.iut.ac.ir/article-1-2500-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Physical and Chemical Soil Properties as Affected by the Flood Spreading in Garehcharyan Plain, Zanjan A. R. Vaezi vaezi.alireza@gmail.com A. Hoseinshahi P. Abdinejad Flood spreading is one of the suitable methods to control the floods and conservation of soil and water in arid and semi-arid regions. Since soil properties may be influenced by the flood spreading, this study was carried out to investigate the effect of the flood spreading on physicochemical soil properties in Garacharyan plain located in North West of Zanjan in 2009. Three flooded areas and one control area were selected for soil sampling. Two hundred sixteen soil samples and twenty seven soil samples were taken from three flooded areas and control area, respectively. Soil infiltrability was also measured at three points both in the flooded areas and in control area. Results of the physical soil properties indicated that the soil infiltrability and available water content were significantly (p< 0.001) affected by the flood spreading in the study plains. With a decrease in sand percentage and an increase in clay in the flooded areas, soil infiltrability strongly declined. The available water content negatively correlated (p< 0.001) with clay in the areas. Soil chemical properties, including salinity, potassium, and bicarbonate, contrary to pH and total neutralizing carbonates and nitrogen, significantly (p< 0.001) increased in the flooded areas as compared with control area. Increasing of the salinity in the flood plains is associated with potassium in the flood plains (p< 0.001). There was no significant difference in organic matter and carbonate contents between the flooded areas and control area. The study revealed that controlling suspended load and solvent solids in the floods is necessary to prevent the degradation of the soil physicochemical properties (porosity, infiltration, plant water supply, and salinity and bicarbonate) and as a result improve the effectiveness of the flood spreading method in the flooded areas. Soil infiltrability Available water content Salinity Suspended load. 2013 3 01 149 161 http://jstnar.iut.ac.ir/article-1-2501-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Dynamic Sorption of Ammonium by a Sandy Loam Soil Treated with Zeolite and Evaluation of Convection-Dispersion and Mobile-Immobile Models M. Moradzadeh Moradzadeh.Mostafa@gmail.com H. Moazed G. Sayyad The objective of this study was to investigate the effect of potassium zeolite on ammonium ion sorption and retention in a saturated sandy loam soil in laboratory conditions with four treatments of 0, 2, 4 and 8 g zeolite per kg soil. The study was conducted as a completely randomized block design. Simulation of ammonium ion leaching was performed using Hydrus-1D model in the soil columns. Ammonium nitrate fertilizer with a concentration of 10g per liter was added to soil columns and then leaching was performed. Results of the study showed that adding potassium zeolite to soil causes reduction in the mobility of ammonium ion and increase in the retention of ammonium in soil. Also, the results of the Convection- Dispersion (CDE) and Mobile- Immobile (MIM) models investigation indicated that the ammonium ion sorption by soil followed the Freundlich isotherm model. Absorption isotherms and diffusion and dispersion coefficients were determined using the inverse modeling technique. Based on the results obtained, optimized values of Freundlich isotherm of model were much less than the observed amounts. This shows that the Hydrus-1D model is not able to predict the ammonium ion mobility in soil macropores, and as a result, reduces greatly the amount of absorption parameters. Because the soil was disturbed, CDE model estimation was closer to the observed values in all four treatments Ammonium Zeolite BTC curves Modeling Hydrus-1D. 2013 3 01 163 173 http://jstnar.iut.ac.ir/article-1-2502-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Digital Mapping of Soil Diagnostic Horizons and Great Groups in Zarand Region of Kerman A. Jafari H. Khademi hkhademi@cc.iut.ac.ir SH. Ayoubi Digital soil mapping includes soils, spatial prediction and their properties based on the relationship with covariates. This study was designed for digital soil mapping using binary logistic regression and boosted regression tree in Zarand region of Kerman. A stratified sampling scheme was adopted for the 90,000 ha area based on which, 123 soil profiles were described. In both approaches, the occurrence of relevant diagnostic horizons was first mapped, and subsequently, various maps were combined for a pixel-wise classification by combining the presence or absence of diagnostic horizons. Covariates included a geomorphology map, terrain attributes and remote sensing indices. Among the predictors, geomorphology map was identified as an important tool for digital soil mapping approaches as it helped increase the prediction accuracy. After geomorphic surfaces, the terrain attributes were identified as the most effective auxiliary parameters in predicting the diagnostic horizons. The methods predicted high probability of salic horizon in playa landform, gypsic horizon in gypsiferous hills and calcic horizon in alluvial fans. Both models predicted Calcigypsids with very low reliability and accuracy, while prediction of Haplosalids and Haplogypsids was carried out with high accuracy. Binary logistic regression Boosted regression tree Soil diagnostic horizon Soil class Soil taxonomy. 2013 3 01 177 193 http://jstnar.iut.ac.ir/article-1-2503-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Investigation of the Performance of Sand Filter Incorporating Tire Chips as Cover in Subsurface Drainage System J. Abedi koupai koupai@cc.iut.ac.ir S. S. Eslamian M. Khaleghi Crisis of quality and quantity of water resources is one of the most important problems in arid and semi-arid areas such as Iran. Wastewater treatment and reuse as a potential source of water can not only compensate for the water scarcity but also can prevent the hazardous pollutants from entering the groundwater and surface water resources. There are various methods to improve water quality, among which method of filtration is an effective and efficient method to remove elements. The most important issue for filter system is the selection of adsorbent materials. In this work, the tire chips were used as adsorbent. Column adsorption tests in a pilot system were conducted in two distinct steps using two types of water, including salt water and industrial effluents. Each test was conducted as a factorial experiment with three factors based on a completely randomized design with three replications. Three factors were studied including particle size (2-5 mm and 3-5 cm), filter thickness (10, 30 and 50 cm) and sorbent contact time with solution. The results showed that adsorption rate increased by increasing the thickness of the filter and sorbent contact time with solution. The best performance of reducing the salinity was observed in the treatment with 50 centimeter thickness and 24 contact hours. The salinity of this treatment was reduced by 20.3 percent (in the test with salt water) and 11.2 percent (in the test with industrial effluents). This filter reduced the heavy metals of lead, zinc and manganese up to 99, 72.1 and 41.4 percent, respectively. Also, the performance of millimeter and centimeter particles did not show a significant difference. Generally, the tire chips showed a proper performance to improve the water quality especially for industrial wastewater. Wastewater treatment Unconventional waters Filtration method Tire chips Column absorption Subsurface drainage. 2013 3 01 193 203 http://jstnar.iut.ac.ir/article-1-2504-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Laboratory Investigation of the Effect of Diversion Dam Underflow on the Hydraulic Jump Characteristics M. Toozandehjani toozandeh.m.986@gmail.com M. Kashefipour One of the usual ways to dissipate excess energy in the dam's downstream is hydraulic jump. Hydraulic jump is a rapidly varied flow, in which the flow conditions change from supercritical to sub-critical with a large amount of energy loss. In this research, a combination of two water jets in the form of overflow dam and underflow through a slot on the body of an ogee dam with the USBR standard was established in order to decrease the length and sequent depth in a hydraulic jump. In these experiments, the underflow from the slot was designed with three out passages of 0, 45, and 90 degrees in respect horizontal line. Six different discharge ratios were used for each slot and the effect of each experiment conditions on decreasing of the length and sequent depth of hydraulic jump was investigated. The results showed that the confluence of two jets with 45 degrees from the slot had the maximum effect on the reducing of the length of hydraulic jump and sequent depth, and when 26 percent of the total discharge passed through the slot as underflow, it caused the length of hydraulic jump to be reduced by 50 percent in comparison with the classic jump. This slot not only decreases the length and sequent depth of hydraulic jump but also the sediment behind the dam can be evacuated through it. Moreover, it increases the discharge coefficient. hydraulic jump length reduction combination flow ogee spillway sediments evacuation spillway discharge coefficient 2013 3 01 205 216 http://jstnar.iut.ac.ir/article-1-2505-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Study of Chemical Forms of Fe and Mn in a Soil Catena in Yasouj Region H. R. Owliaie h_owliaie@yahoo.com Iron and manganese oxides as well as hydroxide minerals are among active constituents in soils because they are sensitive to environmental changes and often move frequently along soil profile. Therefore, their chemical forms content and their ratios are used as a soil developmental criterion. The present study was conducted in order to evaluate the effects of topography and drainage conditions on chemical forms of Fe and Mn along a soil catena in Dasht-e- Roum plain, in Kohgilouye Province. According to the results, maximum pedogenic Fe and Mn (Fed and Mnd) was found in more stable geomorphic surfaces. Higher values of Fed and Mnd were mostly observed in surface horizons compared to soil depth. Aquic soils exhibited higher contents of poorly crystalline Fe and Mn (Feo and Mno) and higher contents of Fed and Mnd. A significant correlation between clay content and Feo, Mno, Fet and Mnt contents was found. In addition, aquic condition increased Feo/Fed, Mno/Mnd and Mnd/Fed, 3.1, 4.3 and 1.9 times respectively but decreased the Fe crystallinity index 2.6 times. Aquic soils seem to have more favorable conditions for the formation of pedogenic Mn compared to pedogenic Fe, hence higher content of Mnd/Fed was observed in these soils Fe-Mn oxides Topography Soil Drainage condition Chemical forms. 2013 3 01 217 226 http://jstnar.iut.ac.ir/article-1-2506-en.pdf
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JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Numerical Analysis of Earth – Rockfill Dams Behavior, During Construction and First Stage Impounding (Case Study: Masjed-e-Soleyman Dam) S. M. A. Zomorodian mzomorod@shirazu.ac.ir H. Chochi Excess pore water pressure in clay core dams during construction and primary filling reservoir (first impounding) causes initiation and progression of hydraulic fracture. In this research, the instrumentation data during construction and first filling reservoir (first impounding) was analyzed. It measured internal deformations, pore water pressures and total vertical stresses and compared with the analysis results in Masjed-e-Soleiman dam. To do this analysis, GEOSTUDIO 2004 V. 6.02 software was used. The staged construction of the dam was the model in the form of 2D coupled consolidation. The Non-linear elastic model for the core material and Linear Elastic model for other zones were incorporated into the models. For exact assessment and to obtain correct parameters of the constitutive model, the triaxial tests were performed on the core material of Masjed-e-Soleiman Dam and acceptable results were obtained. Pore water pressure Instrument Masjed-e-soleiman dam Non-linear elastic model Linear elastic model Coupled consolidation 2013 3 01 229 242 http://jstnar.iut.ac.ir/article-1-2507-en.pdf
66-2508 2024-03-29 10.1002
JWSS - Isfahan University of Technology jwss 2476-3594 2476-5554 10.47176/jwss 2013 16 62 Application of Lime and Pozzolan for Stabilization of Silty Sand Soils in Irrigation and Drainage Networks N. Abbasi nader_iaeri@yahoo.com M. Mahdieh M. H. Davoudi Stabilization of the silty sand soils which cover large areas of Iran and world is inevitable as their geotechnical properties are weak. In this research, the effects of different contents of lime and pozzolan admixtures on compressive strength of silty sand soil were investigated. To do this, different treatments were prepared by adding five levels of lime including 0, 1, 3, 5 and 7 percent by weight of silty sand soil, and four levels of pozzolan including 0, 5, 10, and 15 percent. Then, different specimens with 3 replications were remolded and cured for 7, 14 and 28 days and tested for determination of their unconfined compressive strength. Statistical analysis was made using SPSS software and the results showed that addition of lime and pozzolan increases optimum moisture content and decreases maximum dry density of the soil. Moreover, it was found that the addition of lime and pozzolan to the soil increases compressive strength considerably Compared with when applied individually. In this way, the compressive strength of the samples can be increased up to 16 times more than the natural soil strength. Based on the overall results of laboratory tests and statistical analysis, the combination of 3 percent lime and 15 percent pozzolan was determined as the optimum mixture for stabilization of silty sand soils Silty sand soil Compressive strength Pozzolan Lime. 2013 3 01 245 257 http://jstnar.iut.ac.ir/article-1-2508-en.pdf