0 2476-3594 Isfahan University of Technology 2916 Ggeneral Comparison Effect of Phytoremediation in Cadmium and Chromium Contaminated Soil in Spinacia oleracea and Lepidium sativum Jahanbakhshi S. b Rezaei M. R. c Sayyari-Zahan M. H. d b Dept. of Environ., College of Agric., Univ. of Birjand, Birjand, Iran. c Dept. of Environ., College of Agric., Univ. of Birjand, Birjand, Iran. d Dept. of Soil Sci., College of Agric., Univ. of Birjand, Birjand, Iran. 1 3 2015 18 70 1 12 09 03 2015 09 03 2015 Phytoremediation is one of the cleanup methods of polluted soil that is possible accumulation of heavy metals in plant tissues, exclusion of these elements from contaminated soil. Therefore, to achievement the objective, this research was done in pot culture using completely randomized design at the University of Birjand in 2011. Two species Spinacia oleracea and Lepidium sativum were used to remove or reduce the concentration of Cadmium (Cd) and Chromium (Cr). In this study, different levels of Cadmium (CdCl2) concentrations including 5, 50, 100 mg kg-1 and also chromium (CrCl3) concentrations 50, 100, 150 mg kg-1 were used respectively and control as well for each species with three replications. Results indicated that the Cd and Cr concentration in shoot of Spinacia oleracea and Lepidium sativum significantly affected by their concentration in soil (p<0/01). Results revealed that increasing of Cd and Cr concentrations in soil, showed an increase concentration of both metal in shoot of Spinacia oleracea. increasing of Cd concentrations in soil, showed an increase concentration of it in shoot of Lepidium sativum but the concentration of Cr was less. Also, comparison of cadmium and chromium concentrations in shoot of Spinacia oleracea and Lepidium sativum showed that two species showed same behavior of Cd and different behavior Cr concentration. So the analysis of data showed that both of species are appropriate for absorption of Cd and Cr and phytoremediation technology as well. It can be concluded that in high soil Cr concentration for phytoremediation Lepidium sativum is not appropriate.
2917 Ggeneral Modeling Nitrate Leaching from a Potato Field Using Adaptive Network-Based Fuzzy Inference System Combined With Genetic Algorithm Shekofteh H. e Afyuni M. f Hajabbasi M. A. g Nezamabadi-pour H. h Abbasi F. i Sheikholeslam F. j e Dept. of Soil Sci., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. f Dept. of Soil Sci., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. g Dept. of Soil Sci., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. h College of Electrical Eng. and Computer, Shahid Bahounar Univ. of Kerman, Kerman, Iran. i Agric. Eng. Res. Institute, Karaj, Iran. j College of Electrical Eng. and Computer, Isf. Univ. of Technol., Isfahan, Iran. 1 3 2015 18 70 13 24 09 03 2015 09 03 2015 The conventional application of nitrogen fertilizers via irrigation is likely to be responsible for the increased nitrate concentration in groundwater of areas dominated by irrigated agriculture. This requires appropriate water and nutrient management to minimize groundwater pollution and to maximize nutrient use efficiency and production. To fulfill these requirements, drip fertigation is an important alternative. Design and operation of drip fertigation system requires understanding of nutrient leaching behavior in cases of shallow rooted crops such as potatoes, which cannot extract nutrient from lower soil depth. This study deals with neuro-fuzzy modeling of nitrate leaching from a potato field under a drip fertigation system. In the first part of the study, a two-dimensional solute transport model (HYDRUS-2D) was used to simulate nitrate leaching from a sandy soil with varying emitter discharge rates and various amounts of fertilizer. The results from the modeling were used to train and validate an adaptive network-based fuzzy inference system (ANFIS) in order to estimate nitrate leaching. Radii of clusters in ANFIS were tuned and optimized by genetic algorithm. Relative mean absolute error percentage (RMAEP) and correlation coefficient (R) between measured and obtained data from HYDRUS were 0.64 and 0.99, respectively. Results showed that ANFIS can accurately predict nitrate leaching in soil. The proposed methodology can be used to reduce the effect of uncertainties in relation to field data. 2918 Ggeneral Effects of Land Use Change on Organic Carbon Amount and Some Other Parameters in Vertisols (Case Study: Bilehvar Area, Kermanshah Province) Parsamanesh N. k Zarrinkafsh M. l Shahoei S. S. m Wisany Weria n k Dept. of Soil Sci., College of Agric., Islamic Azad Univ., Karaj, Iran. l Dept. of Soil Sci., College of Agric., Islamic Azad Univ., Karaj, Iran. m Dept .of Soil Sci., College of Agric., Kurdistan Univ., Iran. n Dept. of Agro., Collage of Agric., Kurdistan Univ., Iran. 1 3 2015 18 70 25 34 09 03 2015 09 03 2015 Reduction of quality and soil productivity due to organic carbon losses is one of the most important consequences of land use changes, that creates irreparable effects on the soil. To evaluate the land use effect on the amount of soil organic carbon in Vertisols, Sartip Abad series with extent of 1850 hectare in south of Bilehvar area in Kermanshah province was studied by using the completely randomized block design in factorial experiment with 10 repeats in farmland and grassland, some soil physical and chemical properties in two Lands compared with each other. The results showed that the soil organic carbon in surface horizons of grassland has been more than farmland and accordingly increase the amount of sequestrated carbon in grassland. No significant differences were found in the amount of soil organic carbon in lower horizons of two lands. Due to land use change from grassland to farmland, noticeably increase in Bulk density, Nitrogen, Acidity, soil Electrical Conductivity and decrease the organic carbon percent and the soil organic material. Pedutorbation, clay amount (higher of 50%), numerous small subsoil, and stable structure are the important factors in saving the organic carbon of vertisols that can reduce the effects of land use changes on organic carbon amount. Generally, it can be conclude that: the land use changes not only can create the severe damage on soil physical and chemical properties but with the carbon losses and more release of greenhouse gases exacerbate the pollution of environment which endangers the life in a earth planet. 2919 Ggeneral Effect of Fine-Grained Soil on Shear Strength of Wind Deposits to Reduce Erodibility (Case study: Golestan Province) Rezaei H. o Lashkaripour Gh. R. p Ghafori M. Hafezi Moghadas N. o 1. Dept. of Geology, College of Sci., Golestan Univ. Gorgan, Iran. p 2. Dept. of Geology, Ferdowsi, Univ., Mashhad, Iran. 2. Dept. of Geology, Ferdowsi, Univ., Mashhad, Iran. 2. Dept. of Geology, Ferdowsi, Univ., Mashhad, Iran. 1 3 2015 18 70 35 46 09 03 2015 09 03 2015 Fine-grained materials of Clayey Loess deposits of Gorgan region were mixed with sand dune in the lab with various rations and their shear behavior was measured and evaluated by direct shear test. The result of the study showed that the increase of fine-grained clay in sand dune was directly related to the adhesion force and inversely to the internal friction angle. The increase or reduction in shear strength was affected by the fine-grain percentage. Dry condition and saturation of the test and sand dune had a less influence on shear parameters but in the mixed samples in dry condition and saturation, shear parameters revealed a considerable difference. The results of this study can be used in sand stabilization, erosion prevention, slope stability, embankment construction, compaction increase, and environmental pollution, and dust and water channels avoidance. 2920 Ggeneral Effect of Wetting and Drying Cycles on Estimation of Stress at Compaction Threshold of Fine-Textured Soil Salehian Dastjerdi M. Hemmat A. Dept. of Agric. Machinery Eng., College of Agri., Isf. Univ. of Technol., Isfahan, Iran Dept. of Agric. Machinery Eng., College of Agri., Isf. Univ. of Technol., Isfahan, Iran 1 3 2015 18 70 47 58 09 03 2015 09 03 2015 Flood irrigation after planting induces wetting and drying cycles in arable soils. For this reason, the effect of this process on load-bearing capacity (pre-compaction stress pc) of a fine textured soil (silty clay) was studied. In this research, large air-dry disturbed soil specimens were prepared and some of them were exposed to five wetting and drying cycles. Next, the large soil specimens with/without wetting and drying cycles were compressed under three preloads (0, 100 or 200 kPa) and then the centre section of the preloaded soil specimen was firstly submitted to a plate sinkage test (PST). Then immediately one cylindrical sample was cored for confined compression test (CCT). The results showed that for reconstructed soil samples without wetting-drying cycles, the predicted pc using PST didn;#39t significantly differ from the applied preload. Therefore, the PST can be used to determine the load-support capacity of the tilled soils. In PST, with an increase in soil water content from 0.9PL to 1.1PL, the amount of over-prediction in pc decreased. However, wetting-drying process significantly increased over-prediction in pc at the same water content. Hence, soil compressibility does not simply depend on the actual soil water content but also on the previous history of water content changes (i.e., wetting-drying cycles). 2921 Ggeneral Spatial Variability of Salinity and Extractable Boron in Soils of Hossein Abad Area, Yazd Mosalaei M. Shirani H. Mozafari V. Esfandiarpour I. Dept. of Soil Sci., College of Agric., Vali- e- Asr Univ., Rafsanjan, Iran. Dept. of Soil Sci., College of Agric., Vali- e- Asr Univ., Rafsanjan, Iran. Dept. of Soil Sci., College of Agric., Vali- e- Asr Univ., Rafsanjan, Iran. Dept. of Soil Sci., College of Agric., Vali- e- Asr Univ., Rafsanjan, Iran. 1 3 2015 18 70 59 68 09 03 2015 09 03 2015 Salinity and ions toxicity are one of the main problems of agricultural lands in arid and semi-arid regions, such as Iran. In addition to the salinity problem, some other marks like boron toxicity in crops have been seen in Hossein Abad area as one of the main agricultural regions of Yazd. Therefore, this study intends to evaluate and analyze spatial variability of soil salinity as an aspect of soil degradation, and prepares soil salinity and boron maps. A regular grid sampling scheme was done through a 150 m interval. Salinity and boron were measured at the depth of 0 to 30 cm. Totally 104 samples were measured. After statistical analysis of the data and studying their distribution, Kriging estimator was used for mapping the mentioned variables. Results showed that the region has a salinity problem and does not have any boron toxicity. According to the relationship of nugget effect and sill, there was a strong dependency among all the measured factors except for boron and pH factors. The least salinity was observed in cultivated areas due to the leaching process. The boron range was between 0.07 and 1.6 mg kg-1. Salinity and soil boron were significantly correlated at 99 % confidence level. Based on the Spearman and Pearson tests, there was a positive correlation between SAR and salinity at 99 % confidence level, which shows the region has more sodic salts than others. Also, pH of the region did not present any problem for growing crops. 2922 Ggeneral Evaluating the Accuracy of Revised USDA-NRCS Method in Estimating Infiltration Parameters in Amir Kabir Agro Industrial Fields\' Furrow Irrigation Systems Ghahremannejad M. Boroomandnasab S. Behzad M. Naseri A.A Sheini Dashtgol A. Dept. of Irrigation and Drainage, College of Water Sci. Eng., Shahid Chamran Univ., Ahwaz, Iran. Dept. of Irrigation and Drainage, College of Water Sci. Eng., Shahid Chamran Univ., Ahwaz, Iran. Dept. of Irrigation and Drainage, College of Water Sci. Eng., Shahid Chamran Univ., Ahwaz, Iran. Dept. of Irrigation and Drainage, College of Water Sci. Eng., Shahid Chamran Univ., Ahwaz, Iran. Sugarcane Research and Training Development, Khuzestan, Iran 1 3 2015 18 70 69 79 09 03 2015 09 03 2015 Infiltration is the most crucial process affecting surface irrigation uniformity and efficiency as it is the mechanism that transfers and distributes water from the surface to the soil profile. As a direct method of infiltration measurement, the volume balance method requires time, accuracy and high costs. Moreover, before the land preparation and at the research phase the use of this method is not feasible. The revised USDA- NRCS method is used to convert the infiltration parameters to different hydraulic conditions. In this study, the accuracy of the original and revised USDA-NRCS method in the estimation of furrow irrigation infiltration parameters in Amir Kabir Agro Industrial sugarcane fields of Ahvaz was evaluated. For this purpose, infiltration parameters and the cumulative 6 hour infiltration for furrow irrigation systems of this region were estimated using four methods of original USDA- NRCS, revised USDA- NRCS for border irrigation, revised USDA- NRCS for furrow irrigation and field measurement (inflow-outflow). For evaluation of the results, four indices including average prediction error of model (Er), distribution into 45° line (&lambda;), determination coefficient (R2) and average relative error of model (Ea) were used. According to the results, the revised USDA- NRCS method for border irrigation with average values of &lambda;, R2, Er and Ea equal to 0.95, 97, 6.5 and 7.6 percent, respectively was the best estimate of cumulative infiltration. 2923 Ggeneral Influence of Some Organic Fertilizers on Chemical Forms of Zinc in Soil Solid Phase in Relation to Zinc Uptake in Wheat Norouzi M. Khoshgoftarmanesh A. H. Afyuni M. Dept. of Soil Sci., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. Dept. of Soil Sci., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. Dept. of Soil Sci., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. 1 3 2015 18 70 81 90 09 03 2015 09 03 2015 Organic fertilizers affect soil chemical and physical properties, particularly chemical forms of zinc in soil solid phase and thereby improve soil Zn availability. The present field study was aimed to evaluate the effects of organic and chemical fertilizer (zinc sulfate) on different zinc fractions in soil solid phase of rhizosphere in two successive years in Rudasht Research Field, Isfahan. Treatments consisted of sewage sludge (5 and 10 t ha-1), cow manure (5 and 10 t ha-1), and ZnSO4 (40 Kg ha-1). The control had no added Zn. Three weeks after applying fertilizer treatments, Back Cross genotype of wheat was cultivated in each plot. Our results showed that the organic fertilizers increased Zn concentration in exchangeable fraction (EXCH-Zn), the organically bound Zn form (ORG-Zn), and Zn bound to iron and manganese oxides (FeMnOX-Zn). However, the changes in Zn fractions were dependent on the fertilizer type. Positive and significant correlation between EXCH-Zn, ORG-Zn, and FeMnOX-Zn, and the total Zn uptake by wheat indicated that these pools of Zn in solid phase are labile pools with a significant role in supplying Zn for plants. 2924 Ggeneral Determining the Most Appropriate Model for Water Uptake Reduction in Rasht Hashmi Rice under Salinity and Water Stress Conditions Navabian M. Aghajani M. Rezaei M. Dept. of Water Eng. College of Agric. Sci., Univ. of Guilan, Guilan, Iran. Dept. of Water Eng., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. Institute of Rice Res, Iran. 1 3 2015 18 70 91 100 10 03 2015 10 03 2015 Water Uptake by the root under salinity and water Stress in unsaturated soils was investigated through mathematical equations in three Groups of additive, multiplicative and non-consumptive. This study was an effort to assess six water uptake functions of van Genuchten (additive and multiplicative), Dirksen et al., Van Dam et al, Skaggs et al, and Homaee, for Rasht Hashemi rice under salinity and water stress conditions. Based on field observations of Hashemi Rasht rice in 1386 and 1389, crop growth simulation model of SWAP was calibrated and validated with a correlation coefficient of 0.97 and 0.95, respectively. Water Uptake Reduction Models;#39 parameters were determined by the simulated data using SAS statistical software. Results showed that for the anticipated reduction of Water Uptake in rice water and salinity stress conditions for Rasht Hashemi rice, Homaee model is best. 2925 Ggeneral Soil Quality Assessment in Different Land Uses Using Multivariate Statistical Analysis Zarei W. Sheklabadi M. Dept. of Soil Sci., College of Agric., Bu-Ali Sina Univ., Hamedan, Iran. Dept. of Soil Sci., College of Agric., Bu-Ali Sina Univ., Hamedan, Iran. 1 3 2015 18 70 101 111 10 03 2015 10 03 2015 The aim of the study was to investigate the effects of land use on soil quality parameters using multivariate statistical analysis. Soil samples (0-25 and 25-50 cm depths) were taken from three land uses in forest area of Marivan including forest, rangeland, and cultivated land. Soil characteristics of pH, EC, sand, silt, clay and CaCO3 content, water-stable aggregates and their organic carbon content were measured. Principal component, cluster and discriminant analyses were used to evaluate the soil quality. Principal component analysis classified soil properties into five factors. The most important factors were soil aggregates organic carbon content and aggregate stability indices. Schematic distribution of factors and also cluster analysis showed the same pattern. Soil aggregates organic carbon content, water-stable aggregates and aggregate stability indices were the most sensitive factors to land use changes. These soil properties and factors had the same pattern in forest and rangeland, but significantly reduced in the cultivated land use. Land use change from forest to cultivated land resulted in significant decrease of aggregates organic carbon content, water-stable aggregates and also an increase of pH. The results showed the usefulness of multivariate statistical methods for integration of the soil properties and determination of different soil quality indices. 2926 Ggeneral Effect of Tape and Furrow Irrigation Systems in One and Two Planting Patterns on Yield and Water Use Efficiency of Corn Samadvand S. Tajbakhsh M. Anvari K. Ahmadaali J. Dept. of Agron. and Plant Breed., College of Agric., Urmia Univ., Urmia, Iran. Dept. of Agron. and Plant Breed., College of Agric., Urmia Univ., Urmia, Iran. Miyandoab Agric. Res. Station, Miyandoab, West Azarbayjan, Iran. West Azarbayjan Agric. and Natur. Resour. Res. Center, Urmia, Iran. 1 3 2015 18 70 113 120 10 03 2015 10 03 2015 An experiment was performed at the Miyandoab Agricultural Research Station to study yield and water use efficiency of furrow and tape irrigation systems in one-row and two-row planting patterns, and to investigate density of grain corn SC704. The experimental design was a completely randomized block arranged in Strip Split Plots with three replications in 2010. Irrigation treatments were applied in vertical plots, and planting arrays of different densities were applied in horizontal plots in the form of split plots. The vertical plots were comprised of four irrigation treatments, including three levels (80%, 100% and 120%) of water requirement by use of drip tape irrigation and 100% of water requirement in furrow irrigation, and the horizontal factor was a planting array in the form of single-row and two-row planting patterns and the sub factor was comprised of three levels: 75, 90 and 105 thousand plants per hectare. The results showed that furrow irrigation had the highest rate of grain yield, about 18.6 ton per hectare, and the treatments of tape irrigation of 120%, 100% and 80% had 18.4, 18.2 and 14.9 tons per hectare, respectively. Although the furrow irrigation treatment had higher yield than the rest, there was no significant difference between treatments except for the 80% of tape irrigation. Thus, by utilizing tape irrigation without a great decrease in the yield, water use efficiency improved. The comparison between treatments of tape irrigation of 80%, 100%, 120% and furrow irrigation led to grain yields of 2.3, 2.2, 1.9 and 1.4 kg/m3, respectively. Also, the highest water use efficiency and maximum yield were obtained from 90000 plants per hectare. 2927 Ggeneral Soil Structural Stability Assessment Using Wet-Sieving Method in Selected Rangeland Sites in Isfahan Province Mollaei M. Bashari H. Basiri M. Mosaddeghi M. R. Dept. of Range and Watershd Manage. College of Natur. Res., Isf. Univ. of Technol., Isfahan, Iran. Dept. of Range and Watershd Manage. College of Natur. Res., Isf. Univ. of Technol., Isfahan, Iran. Dept. of Range and Watershd Manage. College of Natur. Res., Isf. Univ. of Technol., Isfahan, Iran. Dept .of Soil Sci., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. 1 3 2015 18 70 121 133 10 03 2015 10 03 2015 Soil aggregate stability is considered as a key indicator of soil quality and health assessments in rangelands. Many factors and properties such as soil texture, organic carbon, calcium carbonate, sodium adsorption ratio, and electrical conductivity might affect soil aggregate stability. The effects of these factors on aggregate stability of 71 soil samples collected from 4 rangeland sites (2 in semi-arid and 2 in arid lands) in Isfahan province were investigated. Aggregate stability was measured using the wet-sieving method. To optimize the trial conditions for the investigated soils, three shaking times (5, 10 and 15 minutes) were used to impose different hydromechanical stresses on the aggregates of ten soils selected out of the studied soils. The structural stability was assessed using mean weight diameter (MWD) and geometric mean diameter (GMD) of the water-stable aggregates. Significant differences of MWD were observed between the shaking times. The 10-min shaking was selected as best for structural stability assessment in the studied regions because it resulted in better differentiation of soils on the basis of structural stability. Among the intrinsic properties, soil organic carbon content had the most important role in aggregate stability in all zones. However, electrical conductivity (in addition to organic carbon content) had an important role in aggregate stability in the arid rangelands. Log-normal distribution and GMD could represent better the aggregate size distribution when compared with normal distribution and MWD in the studied regions. Overall, wet-sieving method with shaking time of 10 min is suggested to assess the soil structural stability in rangelands of Isfahan province. Therefore, soil aggregate stability and the factors affecting this vital indicator can be used efficiently for assessing and monitoring management effectiveness and rangeland functionality trend. 2928 Ggeneral Assessing Effect of End Sill with Different Forms on Hydraulic Jump Characteristics Ahmadi A. Honar T. Dept. of Water Eng. College of Agric., Shiraz Univ., Shiraz, Iran. Dept. of Water Eng. College of Agric., Shiraz Univ., Shiraz, Iran. 1 3 2015 18 70 135 145 10 03 2015 10 03 2015 One of the most important problems in the design of a stilling basin is determination of the exact location of the hydraulic jump or stabilization of the hydraulic jump. In the present study, the effects of different forms of end sills on hydraulic jump characteristics were studied. The experiments were carried out for three different forms of end sills, rectangular, square and stepped, with three heights in two distances and for Froude numbers in the range of 4.7-8.23. The results showed that the end sill with larger cross section (square and stepped) will have a greater effect on reducing sequent depths of hydraulic jump and increasing energy loss than narrow end sills. However, in this type of end sills, water fall and the risk of erosion at downstream is greater. 2929 Ggeneral Responses of Bulk Density, Some Agronomic Characteristics and Yield of Rainfed Barley to Different Tillage Methods in Hamedan Region Hamzei J. Seyedi M. Dept. of Agron. and Plant Breeding, College of Agric., Bu-Ali Sina Univ. Hamedan, Iran. Dept. of Agron. and Plant Breeding, College of Agric., Bu-Ali Sina Univ. Hamedan, Iran. 1 3 2015 18 70 147 157 10 03 2015 10 03 2015 This experiment was carried out at the Agricultural Research Station of Bu-Ali Sina University to study the effect of different tillage methods on bulk density, yield, and yield components of barley (Hordeum vulgare) cultivars under rainfed conditions. Three levels of tillage (CT: conventional tillage, MT: minimum tillage and NT: no tillage) and five barely cultivars (V1: Local V2: AbidarV3: Valfagr V4: Bahman and V5: Makouei) were evaluated in a factorial arrangement in a completely randomized block design with three replications in the growing season of 2010-11. Traits of bulk density plant height, grain yield, yield components, biological yield, and harvest index (HI) were evaluated. The results showed that maximum value of bulk density (1.09, 1.26 and 1.29 g cm-3 for 0-10, 10-20 and 20-30 cm of sampling depth, respectively) was observed at MT treatment. But, there was no significant difference between MT and NT treatments for this trait. In comparison of cultivars, maximum bulk density was achieved with Valfagr cultivar. Using chisel plow (MT treatment) produced maximum plant height (70 cm) and yield components (513 numbers of spike m-2 and 19.2 grain spik-1). Also, among cultivars maximum plant height (72.7 cm) and grain number spike-1 (23.2 grain spike-1) belonged to Valfagr cultivar. Also, results showed that V3×MT treatment had the highest grain yield (3100 kg ha-1). Therefore, the findings of the study recommend using chisel plow (MT treatment) and Valfagr cultivar. 2930 Ggeneral Effects of Topography and Land Use on the Soil Magnetic Susceptibility, Case Study: Madvan Plain, Kohgilouye Province Owliaie H. R. Najafi Ghiri M. Dept. of Soil Sci., College of Agric., Yasouj Univ. Yasouj, Iran. Dept. of Soil Sci., College of Agric. and Natur. Res., Shiraz Univ. Darab, Iran. 1 3 2015 18 70 159 170 10 03 2015 10 03 2015 Topography and land use are among the most important factors affecting the soil formation. Chemical forms of Fe and magnetic susceptibility (&chi;) are widely used for the evaluation of soil development. This study was conducted in order to determine the effect of these factors on &chi;. A toposequence was selected in Madvan Plain, Northern Yasouj. Nine soil profiles (paddy and dryland soils) were dug and sampled from diagnostic horizons. Magnetic susceptibility was measured by Bartington Dual Frequency, MS2 Meter at frequencies of 0.46 and 4.6 KHz. Results indicated that less amounts of &chi;, frequency dependence of &chi; (&chi;fd%) and CBD extractable Fe (Fed) (3.1, 2.6 and 2.7 times, respectively), and more quantities of oxalate extractable Fe (Feo) and Feo/Fed ratio (5 and 7.2 times, respectively) were measured in paddy soils. The highest value of &chi; was observed in pedons located on plateau and piedmont plains, and the lowest belonged to those located on river terraces with aquic conditions. Compared to paddy soils, &chi; enhancement at soil surface was greater (17%) in dryland soils. A positive correlation existed between &chi; and some soil characteristics such as Fed, clay content and &chi;fd%. 2931 Ggeneral Sorption Reversibility of Cadmium from Aqueous Solutions on Natural Firoozkoh Zeolite Alsadat Hodaee Koskkoee F. Shariatmadari H. Hamidrpour M. Shirvani M. Dept. of Soil Sci., Isf. Univ. of Technol., Isfahan, Iran. Dept. of Soil Sci., Isf. Univ. of Technol., Isfahan, Iran. Dept .Soil Sci., Vali-e-Asr Univ. of Rafsanjan, Rafsanjan, Iran. Dept. of Soil Sci., Isf. Univ. of Technol., Isfahan, Iran. 1 3 2015 18 70 171 179 10 03 2015 10 03 2015 Sorption hysteresis in soil constituents has important environmental implications such as pollutant transport and bioavailability. This research was carried out to study sorption reversibility of cadmium (Cd) on natural zeolite. Sorption isotherms were derived by sorption of Cd (П) from solutions containing different concentrations of Cd in the range of 1 to 10 mg L-1 using a 24h batch equilibration experiment. Desorption of Cd(II) was studied with the clay samples initially treated with the metal loadings of 50 and 100% maximum sorption capacity (SCmax) during the sorption study. Sorption isotherms of Cd were well described by the Freundlich and Coble-Korrigan models (R2=0.96). Desorption isotherms of Cd from zeolite showed little deviation from sorption data indicating reversible sorption. On the other hand, the results revealed no hysteresis. The average amount of 71.75 % of the initially sorbed Cd was desorbed from zeolite after five successive desorption steps. Release of such a relatively high proportion of sorbed Cd indicates that zeolite is an effective sorbent for the repeated purification of polluted water and wastewater. 2932 Ggeneral Prioritizing Effective Factors in Landslide Occurrence and its Susceptibility Mapping Using Shannon’s Entropy Index Pourghasemi H.R. Moradi H.R. Fatemi Aghda S.M. Dept. of Watershed Manage. Eng., College of Natur. Res. and Marine Sci., Tarbiat Modares Univ., Noor, Mazandaran, Iran. Dept. of Watershed Manage. Eng., College of Natur. Res. and Marine Sci., Tarbiat Modares Univ., Noor, Mazandaran, Iran. Dept. of Geology, Tarbiat Moallem (Kharazmi) Univ., Tehran, Iran. 1 3 2015 18 70 181 192 10 03 2015 10 03 2015 The objective of the current research was to prioritize effective factors in landslide occurrence and its susceptibility zonation using Shannon’s entropy index in North of Tehran metropolitan. To this end, 528 landslide locations were identified using satellite images such as Geoeye (2011-2012), SPOT-5 (2010), and field surveys, and then landslide inventory map was created for the study area in ArcGIS environment. Data layers such as slope degree, slope aspect, plan curvature, altitude, lithology, land use, distance of road, distance of fault, distance of drainage, drainage density, road density, sediment transport index (STI), stream power index (SPI), topographic wetness index (TWI), normalized difference vegetation index (NDVI), surface area ratio (SAR) and topographic position index (TPI) were created and the mentioned maps were digitized in GIS environment. Prioritization of effective factors by Shannon’s entropy index showed that the layers such as land use, lithology, slope degree, stream power index, and NDVI had the most effect on landslide occurrence. However, factors of topographic position index and plan curvature had the least effect. Also, landslide susceptibility zoning by the mentioned model and its accuracy assessment using relative operating characteristics (ROC) curve and 30 percent of landslide locations showed an accuracy of 82.83% with a standard error of 0.0233 in the study area. 2933 Ggeneral Developing PMF56-Hybrid Model and its Application to Predict Reference Evapotranspiration (ET0) in the Lake Urmia Basin Erfanian M. Babaei Hessar S. Dept. of Range and Watershed Manage., Urmia Univ., Urmia, Iran. Dept. of Range and Watershed Manage., Urmia Univ., Urmia, Iran. 1 3 2015 18 70 193 205 10 03 2015 10 03 2015 Concerning the drying problem of the Lake Urmia in Iran, so far the relevant scientific research has not been conducted based on watershed management principles. The surface solar radiation (Rs) is one of the key input parameters in most of reference evapotranspiration (ET0) prediction models. In the present research, four solar radiation models were evaluated to predict the monthly-mean values of daily ET0 at seven synoptic stations located in the Lake Urmia basin during the 1985-2005 period. For the ET0 prediction, we applied the Penman-Monteith-FAO 56 model (PMF56). At first, we evaluated four radiation models consisting of Hybrid: H, Ångström-Prescott: AP, Modified Daneshyar: MD, and Modified Sabbagh: MS. Four statistical criteria used included the mean error (ME), the mean absolute error (MAE), the root mean square error (RMSE), and the mean percentage error (MPE). The mean RMSE value of hybrid model was 1.7 MJ/m2/day while the RMSEs for the AP, the MD and the MS models were 2.9, 2.3, and 2.9 MJ /m2/day, respectively. The results revealed a higher performance of hybrid model to predict the monthly radiation. In addition, the Rs models used in the original PMF56 model were compared with a case in which the measured daily Rs data was used. Finally, by integrating the hybrid model and the PMF56, we developed a coupled model as PMF56-Hybrid. The application of the Hybrid and the MD models resulted in a decrease in the RMSEs. The AP model used in the PMF56 showed about 19% overestimation. 2934 Ggeneral Evaluating the Rate of Atmospheric Dust Deposition in Different Locations of Kerman City Jafari F. Khademi H. Dept. of Soil Sci., College of Agriculture, Isf. Univ. of Technol., Isfahan, Iran. Dept. of Soil Sci., College of Agriculture, Isf. Univ. of Technol., Isfahan, Iran. 1 3 2015 18 70 207 217 10 03 2015 10 03 2015 Dust deposition occurs extensively in arid and semiarid regions of the world. Since dust particles are fine-sized, they have a high adsorption capacity and also high contamination potential. The objective of this study was to evaluate the temporal and spatial distribution of the rate of atmospheric dust deposition in different locations in Kerman urban area. Dust samples were collected monthly using glass traps installed on the roof of 35 one-story buildings in Kerman for 7 months from April 20 to Nov. 20, 2012 (a total of 245 samples). After each monthly sampling, traps were washed and dust samples transferred to the laboratory and weighed. The mean dust deposition rate of 7 months was mapped using the inverse distance weighting (IDW) approach. The wind rose of Kerman was drawn by WRPLOT 7.0.0. The results showed that the average rate of dust deposition decreased during the 7 months studied from 17.4 to 5 g/m2. month, which could be attributed to the decrease in wind velocity. The spatial distribution of the samples also showed that the dust deposition rate varied from 4.84 in the southern parts to 14.84 g/m2.month, mostly in the northern locations of the city. The wind rose based on the average wind speed of the 7 months of sampling indicated the prevailing wind blows from north, northeast and northwest and the dust spatial distribution well follows the wind direction. In general, the rate of dust deposition in Kerman city is high and therefore, the source of dust has to be well detected and proper management practices are necessary. 2935 Ggeneral Comparative Ability of Three Alfalfa Cultivars to Take up Potassium from Phlogopite Mousavi Dastenaei M. S. Khademi H. Dept. of Soil Sci., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. Dept. of Soil Sci., College of Agric., Isf. Univ. of Technol., Isfahan, Iran. 1 3 2015 18 70 219 229 10 03 2015 10 03 2015 Few investigations have been carried out on the ability of different plants to take up non-exchangeable potassium (K). The objective of this investigation was to examine the ability of different alfalfa cultivars to absorb K from phlogopite. An experiment was carried out with a completely randomized design with 3 alfalfa cultivars including Pickseed 2065 (MF), Rehnani (R) and Hamadani (H) grown in a quartz sand medium containing <53 micron sized phlogopite under complete and K-free nutrient solutions for a period of 6 months. During the growth period, the shoot was harvested 4 times. At the end of the experiment, the root was also separated from the growth medium and collected. Plant samples were extracted using the dry ash method and their K concentration was determined. Under the K-free nutrient solution, the highest shoot and root K concentration and uptake were found for the MF cultivar. The shoot and root K concentration in this cultivar were respectively 1.6 and 1.5 times higher than those in the R cultivar and 1.8 times greater than those in the H cultivar. The K uptake in the shoot and root of the MF cultivar was respectively 1.6 and 1.9 times higher than that of the H cultivar and 1.6 and 1.5 times higher than that of the R cultivar. Thus, in addition to other parameters, the type of plant variety should be taken into account when K requirement is evaluated. 2936 Ggeneral Regional Frequency Analysis of Low Flow in Northern Karoon Watershed Shamaeizadeh M. Soltani S. Dept. of De-desertification, Collage of Natur. Eng. Isf. Univ. of Technol., Isfahan, Iran. Dept. of De-desertification, Collage of Natur. Eng. Isf. Univ. of Technol., Isfahan, Iran. 1 3 2015 18 70 231 243 10 03 2015 10 03 2015 Hydrologic drought which usually affects wide regions can be studied through Low flow index. In this study, to predict hydrologic drought in North Karoon watershed, 14 stations with suitable and long enough duration data were recorded in the 1387-88 water year. Then 13 physiographic and climatic characteristics of the chosen stations were used to perform homogeneity test for cluster analysis. 7 day low flow series were calculated in each station and according to chi-square and Kolomogragh smirnov tests and parameter, 2 parameter gamma distribution was selected as the best regional distribution for this region. Therefore, a seven day low flow index was estimated using FREQ for 5,10,20,50,100 return periods. Regional analysis was performed using a multiple regression method. Moreover, flow duration curves were delineated to obtain Q95 index. Then, zoning maps for Q95، Q7,2 ،Q7,10, Q7,100 were prepared. The results of regional analysis indicated that the averages of height and slope were the two most effective parameters in low flow in this watershed. The investigation of zoning maps showed that southeastern part of this watershed experiences severe droughts compared with other parts. 2937 Ggeneral Effect of Furrow Irrigation Methods and Deficit Irrigation on Yield and Water Use Efficiency of Maize in Mazandaran Akbari Nodehi D. Dept. of Irrigation, Islamic Azad Univ. of Qaemshahr Branch, Qaemshahr, Iran. 1 3 2015 18 70 245 255 10 03 2015 10 03 2015 In order to investigate the effects of furrow irrigation and amount of irrigation water on yield and water use efficiency of corn, an experiment was conducted as a split plot based on a randomized complete block design with three replications for a period of two years at Agriculture Center of Mazandaran. Treatments included three levels of 100, 80 and 60 percent water requirement as the main treatments, and three irrigation methods included fixed every-other- furrow, alternative every-other- furrow and every-furrow irrigation as the subsidiary treatments. Statistical analysis of the results of two years;#39 data showed that treatment with 100% water requirement with every-furrow irrigation and treatment with 60% irrigation water requirement with fixed every-other-furrow had the highest and lowest yield, respectively. The highest water use efficiency was in 60 percent irrigation water requirement with a fixed every-other- furrow treatment and the lowest water use efficiency was related to the treatment with 100 percent irrigation water requirement with alternative every-other- furrow. The value of ky was obtained 0.8 for the total growth stage. 2938 Ggeneral Use of the Intelligent Models to Estimate the Soil Cation Exchange Capacity in North and North West of Iran Shoaibi Nobariyan M. R. Torabi Golsefidi H. Darbandi Sabereh Dept. of Soil Sci., College of Agric. Sci., Tarbiat Modares, Tehran, Iran. Dept. of Soil Sci., College of Agric. Sci., Shahed Univ., Tehran, Iran. Dept. of Water Eng., College of Agric.l Sci., Tabriz Univ., Tabriz, Iran. 1 3 2015 18 70 257 268 10 03 2015 10 03 2015 CEC of the soil is the exchange sites of organic and inorganic soil colloids. Modeling and Estimation of CEC is a useful indicator for fertility. The new alternative approaches for estimating CEC are indirect methods based on intelligent models. In this research in order to estimate CEC, 485 soil samples were prepared from two regions, chaparsar (Mazandaran in northern Iran) and Bostanabad (North of West Azarbaijan, Iran).In this paper introduces the application of genetic programming. Input parameters that are percent Clay, Organic Carbon and Silt, evaluate using genetic programming, neural network and Neural Inference Systems-Fuzzy models. The results indicate a good ability to intelligent models for CEC Estimation According to indices used in this study. Genetic programming model with a root mean square error of 1.78 and coefficient of determination 0.95 compared to other models have been more efficient and is able to provide satisfactory results, Also are the explicit solutions that reflect the relationship between input an output variable, was presented based on genetic programming. This preferred the genetic programming model adds the other models. Stepwise regression analysis to determine the contribution of each of the parameters indicated in the CEC that organic materials having Most coefficient of variation of 84% is justified CEC and clay and silt, respectively, with a correlation coefficient of 10% and 6% respectively. 2939 Ggeneral Different Forms of Iron and Some Physico-Chemical Properties as Soil Development Parameters in a Chronosequence on Karaj River Terraces in Hassan-Abad, Southern Tehran Torabi H. Moradinasab V. Dept. of Soil Sci., College of Agric Sci., Shahed Univ., Tehran, Iran. Dept. of Soil Science, Collage of Agric. Isf. Univ. of Technol., Isfahan, Iran. 1 3 2015 18 70 269 281 10 03 2015 10 03 2015 Terraces are old geomorphic surfaces that are not related to present streams and are best places to study the effect of time on soil formation (chronosequence). This research was carried out to study some physico-chemical parameters especially different forms of iron as soil development indices on terraces of Karaj River in Hassan-Abad, southern Tehran. To determine soil development indices in 4 profiles occurring on 4 terraces, some physical and chemical properties were measured and free iron(Fed), aluminum(Ald), silica(Sid) and manganese(Mnd), amorphous Fe(Feo), Al(Alo), Si(Sio), Mn(Mno) and Fe, Al, Si-humus complexes were extracted. Results showed that clay, fine clay/total clay, CEC, the color redness and leaching of calcium carbonate increase toward higher terraces. Contents of Fed, Ald and Sid increases from lower terrace (T1) to the higher terrace (T4). Fed-Feo and Feo/Fed as the most important indices of soil development were enhanced and reduced from lower terrace (T1) to higher terrace (T4) soils, respectively, which indicate an increase in iron oxides crystalinity and soil profile development. Contents of Fed-Feo in the B horizons from T1 to T4 were 600, 800, 1000, and 1400 mg/kg soil, respectively. Calculation of Ferrihydrate and Fe-hydr(oxide) such as goethite and hematite showed that the amounts of these components were increased from T1 to T4 terraces confirming the variation of (Fed-Feo), (Feo/Fed) and (Feo-Fep) indices. 2940 Ggeneral Biological Removal of Cadmium by Aquatic Macrophyte Lemna Gibba (A Potential Method for the Phytoremediation of Polluted Water and Wastewater) Parnian A. Chorom M. Jafarzadeh Haghighi Fard N. Dinarvand M. Dept. of Soil Sci., Collage of Agric., Shahid Chamran Univ., Ahvaz, Iran. Dept. of Soil Sci., Collage of Agric., Shahid Chamran Univ., Ahvaz, Iran. School of Health, Ahvaz Jundishahpur Univ. of Medical Sci., Ahvaz, Iran.; Environ. Technol. Res. Center, Ahvaz Jundishahpur Univ. of Medical Sci., Ahvaz, Iran. Khuzestan Res. Center of Agric. and Natur. Resour., Ahvaz and Collage of Science., Dept. of Biol., Ferdowsi Univ. of Mashhad, Iran. 1 3 2015 18 70 283 294 10 03 2015 10 03 2015 Cadmium is a trace element which is harmful to life and is considered as a dangerous pollutant. This element leads to pollution and reduction of water quality and sometimes even to toxicity through contaminated sources such as wastewater (municipal and industrial). Due to the growing population;#39s need for more water resources and increased water resource pollution, a need for new and inexpensive methods for remediation and improving water quality is felt. Phytoremediation with aquatic macrophytes is an effective and inexpensive method for improving water quality and wastewater. In this study, biological removal of cadmium from simulated wastewater was reviewed within 11 days of cultivation of Lemna gibba in Hoagland nutrient solution, at four different concentrations of cadmium (0, 1, 2, 4, and 6 mg L-1). Maximum Bioconcentration Factor and maximum Uptake Index were calculated from 6 mg L-1 metal concentration. Maximum (4.71 g/day) and minimum (2 g/day) Biomass production measurement was obtained from 0 mg L-1 and 6 mg L-1 of pollutant concentration. The plant used in this study was able to accumulated cadmium with the efficiency of up to 91%. However, the pollutant remediation was not completed in a short time. Thus, pollutants;#39 bioremediation from wastewater solutions by Lemna gibba, a native hydrophyte of southern Iran’s pounds, is efficient and appropriate. 2941 Ggeneral Assessment of Erosion Value and Sediment Delivery Ratio in the Unsealed and Forest Roads Vahabzadeh Gh. Safari A. Farhoudi M.H. Abdollahi H.R. Fathizad H. Khosravi Gh.R. Natur. Res. Collage, Sari Agric. Sci. and Natur. Res. Univ. Sari, Iran. Dept. of Watershed Management, Sari Agric. Sci. and Natur. Res. Univ., Sari, Iran. Dept. of Watershed Management, Sari Agric. Sci. and Natur. Res. Univ., Sari, Iran. Dept. of Watershed Management, Sari Agric. Sci. and Natur. Res. Univ., Sari, Iran. Dept.of Combating Desertification, Agric. Collage, Ilam Univ., Ilam, Iran Dept.of Watershed Management, Hormozgan Univ., Hormozgan, Iran. 1 3 2015 18 70 295 313 10 03 2015 10 03 2015 In this research, sediment production and delivery amount by Darabkola forest roads was estimated using the SEDMODL model. To evaluate the model results, the sedimentation rate in the above roads was directly measured using rainfall simulator. Also, the paired t-test, BIAS, RE and RMSE were used to assess the results. The analysis showed that the rate of sediment production from study roads;#39 surface using the SEDMODL model and direct measurement under the rainfall simulation were 420.97 and 341.19 tons per year, respectively, and rate of sediment delivered to the stream with sediment delivery ratios of 42% and 51%, respectively, was about 177.58 and 174.02 tons per year. Also, results of the statistical methods of BIAS, RE and RMSE for the aforesaid model were 0.04, 17.59 and 0.71, respectively, and at 95% confidence level, no significant difference was obtained between the observed and estimated data. Therefore, the aforesaid model has the appropriate accuracy and efficiency to estimate the sedimentation rate of the Darabkola forest roads. It was also found that from among the input parameters of model, longitudinal slope of road, precipitation and sediment delivery factors were the most influential factors in the sediment production and transport, respectively. 2942 Ggeneral Comparison of Empirical Models for Estimation of Groundwater Potential Recharge in a Semi-Arid Region Utilizing Lysimeter Data Banimahd S. A. Khalili D. Kamgar-Haghighi A. A. Zand-Parsa Sh. Dept. of Water Eng., College of Agriculture, Shiraz University, Shiraz, Iran. Dept. of Water Eng., College of Agriculture, Shiraz University, Shiraz, Iran. Dept. of Water Eng., College of Agriculture, Shiraz University, Shiraz, Iran. Dept. of Water Eng., College of Agriculture, Shiraz University, Shiraz, Iran. 1 3 2015 18 70 315 325 10 03 2015 10 03 2015 In the present research, the performances of six empirical models, i.e., simple threshold exceedance, fixed proportion exceedance, quadratic function of storage, power function of storage, cubic function of storage, and exponential function of storage were investigated for estimation of groundwater potential recharge in a semi-arid region. First, the FAO Dual Crop procedure was used to calibrate evaporation from bare soil during the occurrence of potential recharge period. Then, the empirical models were calibrated utilizing soil moisture and potential recharge data. For validation of empirical models, soil moisture and potential recharge were simultaneously estimated for an independent event. Results indicated that 5 of the six models (except for the simple threshold exceedance model) were able to estimate potential recharge with a reasonable accuracy, showing the maximum computed value of NRMSE (Normalized Root Mean Square Errors) of 24.4 percent. According to validation results, exponential, cubic, and power function models provided better estimation of potential recharge in comparison with the linear models. Also, all of the applied empirical models were able to simulate soil moisture during the recharge period with an acceptable accuracy. Finally, the exponential model with minimum NRMSE value for soil water simulation and also acceptable performance of potential recharge estimation was recommended for estimation of potential recharge in the study area. 2943 Ggeneral Comparison of Methods of Determining Texture Fractal Dimension: A Case Study of the Soils of Taqanak, Shahrekord Beigi. Harchegani H. Banitalebi G Dept. of Soil Sci., Univ. of Shahrekord, Shahrekord, Iran. Dept. of Soil Sci., Univ. of Shahrekord, Shahrekord, Iran. 1 3 2015 18 70 327 339 10 03 2015 10 03 2015 Texture fractal dimension is a physical index to describe soil particle size distribution having a variety of applications. Fractal dimension may be calculated from three relations of mass-time, mass-diameter and modified mass-diameter (Kravchenko-Zhang) with two linear and nonlinear options for fittings. The aim of the present study was to compare methods and select an appropriate one and fitting option for determining the fractal dimension using hydrometer data. Sixty soil samples were collected from four fields of Taqanak, near Shahrekord. After removal of organic matter and other initial treatments, hydrometer readings were obtained at 0.67, 1, 2, 5, 15, 30, 60, 120, 180, 1440 and 2880 minutes and were converted to mass-time or mass-diameter data. Nonlinear fitting of the Kravchenko-Zhang mass-diameter relation was selected as the most appropriate method of calculating the fractal dimension of solid particles, due to its highest coefficient of determination and smallest mean square error and lowest Akaike Information Criteria. Error analysis also confirmed this conclusion. There was a significant, though not very strong, relationship between the fractal dimension obtained by linear and nonlinear fitting of mass- diameter and Kravchenko-Zhang mass-diameter methods. These relationships can be used to correct the fractal dimension determined by other methods and fitting options. 2944 Ggeneral Sorption Reversibility of Cadmium from Aqueous Solutions on Natural Firoozkoh Zeolite Pooladi F Hamidrpour M Dept. of Soil Sci., Isf. Univ. of Technol., Isfahan, Iran. Dept. of Soil Sci., Vali-e-Asr University of Rafsanjan, Rafsanjan, Iran. 1 3 2015 18 70 341 350 10 03 2015 10 03 2015 Removal of boron from aqueous environments (soil and water) is difficult, because it is present as B(OH)3 and B(OH)4- species. This research was done to study the sorption of boron by HDTMA-modified zeolite. The sorption of B on modified zeolite was studied as a function of pH (B concentration: 1 and 10 mg L-1) in the range of 6-9.5, and as a function of ionic strength (0.03 and 0.06 M Ca(NO3)2 or Mg(NO3)2) at a constant B concentration of 5 mg L-1. Sorption isotherm was performed for the solutions containing initial B concentration in the range of 1-15 mg L-1 using a 24h batch equilibration experiment. The results revealed that surfactant-modified zeolite exhibited the best performance at pH 9.5, and sorption of B increased with the increase of suspension pH. Greater B adsorption in the Ca system over the Mg system was clearly observed for the modified zeolite. Sorption isotherm of B were well described by the Freundlich and Langmuir models but the Freundlich sorption model described the interaction between B and the mineral material better than the Langmuir model. Maximum sorption capacity (qmax) of the sorbent was 120 mmol kg-1. The experimental data showed that HDTMA-modified zeolite used in this study had a reasonable sorption capacity for B. 2945 Ggeneral Developing a Regression Relation for Erosion Rate of Cohesive Sediments Using Experimental Data and Numerical Modeling Hosseini Kh. Kheirkhahn M. Dept. of Hydraulic Structures, Collage of Civil Eng., Semnan Univ. Semnan, Iran. Dept. of Hydraulic Structures, Collage of Civil Eng., Semnan Univ. Semnan, Iran. 1 3 2015 18 70 351 361 10 03 2015 10 03 2015 Cohesive sediments have large specific surfaces which enable them to absorb other cohesive sediments and polar particles such as mud and sodium. Floccules form by joining these particles. The behavior of cohesive sediments in aquatic environments is completely different from that of granular sediments. Under certain value of shear stress, the structure formed from cohesive sediments is divided into smaller particles, which can be eroded easily. Up to now, researchers have proposed empirical formulas which correlate the rate of erosion to the bed shear stress and the rheological characteristics of cohesive sediments. In this study, the calibration and verification tests are performed on Mike21 software to attain the results more adjusted with the experimental data. Afterwards, the data are developed by the model and converted to the dimensionless form. Finally, an exponential function is proposed for the erosion rate in cohesive sediments. It is found that the coefficient of determination is 0.99