https://ije.ut.ac.ir/ Iranian journal of Ecohydrology en daily 1 Thu, 23 Sep 2021 00:00:00 +0330 Thu, 23 Sep 2021 00:00:00 +0330 https://ije.ut.ac.ir/article_82048.html A large part of Iran suffer from salinity which threatens sustainable agriculture and food security. Overexploitation of groundwater, where fresh and saline aquifers are adjacent to each other increasing saline water hydraulic gradient and solute transport toward fresh aquifer and increasing salinity. In Qazvin saltmarsh salinity is expanding toward upstream lands under the mentioned mechanism. An interception drain has been constructed in area in order to drive out saline water and control salinity. The purpose of this study is to assess interception drain ability in controlling salinity and the effect of hydraulic gradient increase and decrease on salinity expansion toward upstream lands. Thus first using observed data the HYDRUS-2D model was calibrated and validated. Then in six treatments, the effect of increasing and decreasing upstream input flow (10%, 20%, 30%) on drain operation in 5, 10, 15 and 20 year intervals was simulated. According to results at all time intervals, the greater the upstream inflow, the more solutes are leached out of area by interception drain. The simulation results also showed that the initial soil salinity at the drain flow decreased about 16.1 ds/m after 20 years. As upstream input flow decreases 10%, 20% and 30% this amount (16.1 ds/m) decreases 11%, 17% and 25% respectively. While increasing upstream input flow decreases salinity 22%, 28% and 40% further. https://ije.ut.ac.ir/article_82049.html Due to rapid economic growth and over-exploitation of groundwater, nitrate contamination in groundwater has become very serious. The main purpose of this study is to develop a DRASTIC model to identify the vulnerability of groundwater to nitrate contamination. Therefore, the standard DRASTIC model was presented considering the land use factor (DRASTIC-LU model) to demonstrate the vulnerability of groundwater. The novelty of the present study is the development of DRASTIC and DRASTIC-LU models by support vector machine (SVM) to prevent the error of overlap and index methods. For implementation and validation of the models, 21 samples of observation wells were collected in Birjand plain aquifer. RMSE values for DRASTIC, DRASTIC-LU, DRASTIC+SVM, and DRASTIC-LU+SVM models were calculated to be 0.821, 0.743, 0.612, and 0.490, respectively, which was found that the hybrid models using SVM shows a better correlation between the amount of vulnerability and nitrate contamination. It was also found that the DRASTIC-LU+SVM model has a higher accuracy for assessing the vulnerability of groundwater to nitrate. https://ije.ut.ac.ir/article_83562.html According to the results of the trend test, the changes in climatic variables have often been in an increasing trend in precipitation and temperature and a significant increasing or decreasing trend in evapotranspiration. The results also showed that peak discharge of high current pulses rates in Gonbad, Ghazaghli and Agh Ghala hydrometric stations are 28, 38 and 30.5 m3/s with a frequency of zero-, two- and one-day in the period after the construction of dams, respectively. The peak discharge indicator of small floods in Gonbad, Ghazaghli and Agh Ghala hydrometric stations are 46, 107 and 149.8 m3/s with a frequency of zero-day, respectively, Golestan and Voshmgir dams have been caused a decreasing trend in this indicator due to self-regularity of the dams. Finally, according to the large Flood indicators, it can be concluded that in Gonbad and Ghazaghli stations, peak discharge of the large floods indicator with a flow rate of zero m3/s has a decreasing trend and in Agh Ghala station with a flow rate of 274 m3/s shows a decreasing trend. Finnally, due to self-regulatory effect of Golestan and Voshmgir dams dams have been caused low monthly changes and large and small floods and in the most months of the year, the flow discharge is lower in the periods after the construction of the dams. The results of this analysis can be used the decision-making on sustainable water resources management issues for future watershed management plans. https://ije.ut.ac.ir/article_83564.html Optimizing the piezometric wells in the groundwater monitoring network is important in terms of reducing maintenance costs and improving efficiency and increasing the speed of data updating. Statistical methods or PCA are commonly used to identify significant wells. In geostatistical methods, optimization is performed according to the location of the samples but the temporal information of the wells is not taken into account. In the PCA method, indicator wells are determined in terms of temporal information of wells. In this research, an approach based on a combination of these two methods is presented to consider the spatiotemporal information of wells. The present study was conducted by obtaining data from 47 wells related to the first aquifer of Sarab plain in 1397 in three main stages: 1- Exploratory spatial data analysis (ESDA), 2- Determining the priority of wells based on temporal information of the wells in the neighborhood by PCA method, 3- Investigating the surface accuracy changes by kriging method assuming the removal of wells with low temporal priority. The results showed that 9 wells of Sarab plain (19%) have relative importance less than 0.3. By removing these wells and evaluating the RMSE error in the deleted points, the value of these wells can be calculated with 46cm error through spatial autocorrelation information. Therefore, the removed wells do not enter much spatial information, and by removing them, it is possible to increase the accuracy of measuring the water level in other wells and save time and cost with the same accuracy. https://ije.ut.ac.ir/article_83565.html In the present study, the phenomenon of land subsidence in the Urmia plain (west of Lake Urmia) has been investigated. In the study area, 53 observation wells were used to study the changes in groundwater depth. The groundwater depth of the plain varies between 1 and 50 meters and decreases from west to east. In the northwest of the plain in Nooshinshahr lands, the number of isothermal curves is 50 meters, which decreases to the east of the water table depth. Examining the information obtained from periodic subsidence visits, a number of piezometers were observed in the margins of the eastern margin of the Urmia aquifer, which led to the protrusion of the pipe and its fittings. The trend of subsidence at 18 piezometers was studied. Subsidence values in Urmia plain vary from 5 to 17 cm. Most subsidence has occurred in the north and northwest of the plain, which in terms of granulation has a higher percentage of fine sediments. In the area of Chai shrine to Shahrchay, it decreases and reaches 5 cm in Jarchilo well. The amount of subsidence between Shahrchay to Barandozchay Rivers has increased significantly towards Lake Urmia and varies between 6 cm to 13 cm. These changes are due to two main reasons, one is a sharp drop in the water table (uncontrolled withdrawals) and the other is the compaction of fine-grained sediments due to a drop in the water table and a decrease in hydrostatic pressure and weight gain of high sediments. https://ije.ut.ac.ir/article_82050.html Talar watershed with various land use, hydrological and vegetation characteristics is located in Mazandaran province In recent years, numerous devastating floods have occurred in this basin.In this study, flooding prioritization of Talar sub-basins under different hydrological and physiographic conditions were compared with an area of 189613.6/ha in agricultural, residential, rangeland and forest land-uses.First, the basin is divided into six sub-basins, including Shirgah, Karmozd, Drasleh, Polusfid, Arjangrudbar and Chashem and for each sub-basin, geometric, climatic, permeability and physiographic parameters such as; area, perimeter, length of main channel, length and slope of basin, time of concentration, CN, discharge, etc.have been calculated using GIS software.Time of concentration with methods of Branci Bay Williams, Johnson, Pilgrim-McDremat, Kirpich, California, Chow, Spey, Ventura was evaluated based on the characteristics of the basin but the Bransi-Williams method with 19.2 hours TC, showed the most suitable method for the all basin. Based on SCS method, the share of each sub-basin was determined in the flood of output from the whole basin. The results of the maximum stannous flood peak also showed that Polsefid with a flow of 380 cubic meters per second had the highest flow during the statistical period (1986-2019). Sub-basins are divided into three groups with high, medium and low flood potential in terms of similarity of flood potential, erosion, vegetation, and effects of human impact. The results showed that the highest amount of flooding in each of the sub-basins includes the sub-basin of Chashm with 29.19%, in Draseleh with 23.25% and finally shirgah with 16.76% https://ije.ut.ac.ir/article_82051.html The important role of land use and land cover in the Lake Urmia basin on the water consumption of this area due to better water management in the basin, has made it necessary to have in-depth knowledge of basic information such as land use and land cover. Unfortunately, the available information and statistical sources about LU/LC of basin sometimes are insufficient and contradictory. This study, as one of the important aspects affecting the address of the Urmia Lake issue, has determined the databases that provide land use maps from satellite images, also it examines the accuracy of these global products and compares them with the map which is created by object oriented method with eCognition software. The results of the overall accuracy assessment of the maps illustate that the land use maps extracted from the LCtype and GLCF global products are performing well, and Globecover has provided poor results in this regard. There was the best fit in the results of the MODIS product, so that the MODIS product is not only better in pixel dimensions than most products, but also has the longest land use extraction time in terms of time sequence. The results of this product in the study were in good agreement with the map produced by the object-oriented method, therefore it is recommended to use the MODIS land use product in studies related to the Urmia Lake basin. https://ije.ut.ac.ir/article_82200.html Abstract Despite the need to determine the threshold of sustainable use of rangeland ecosystems, especially in drought conditions, no significant progress has been made in recent years, and still time-consuming and costly sampling of species production in a period of 5 to 10 years is used. In this study, to determine and monitor the threshold of sustainable use of rangeland ecosystem, the satellite index and meteorological drought index has been used, while the satellite index was determined by field measurement of canopy cover in a one-year period 2018-2019 in part of the basin of the Karaj river watershed. In this regard, In 3, 6, 9 and 12 month time steps, And the maximum satellite index (NDVI) during the growth period in the target years was determined over a period of 20 years. The results showed that there is a correlation coefficient of about 60% between satellite index and plant density, and in the normal years the satellite index has a correlation coefficient of is about 70% with the index of meteorological drought and 9-month cumulative rainfall leading to the period of maximum growth. Using the permitted harvest coefficients, the operating thresholds for the allowable range of the satellite index were determined and eventually the value of satellite index (NDVI) for the sustainable exploitation of the rangeland was proposed as (0.07459 ± 0.00908) and (0.1799±0.0194) for dry and wet years respectively, is recommended. https://ije.ut.ac.ir/article_82201.html In this study, Iran's water consumption has been estimated in all provinces of Iran using the actual evapotranspiration product WaPOR which is developed by FAO. To considering the plains which have the main agricultural water consumption of Iran, the amount of water consumed was estimated for every province in the year 2010 to 2016, then the slope of changes in agricultural water consumption was determined for every one of them separately. The volume of water consumption in the agricultural area of Khuzestan, Tehran and Gilan provinces has the highest increasing trend in the period 2010 to 2016, respectively, and in other words, they have a positive slope changes. Hormozgan and Kermanshah provinces also had the largest decrease in the amount of water consumed in the agricultural area. The results of this 7-year statistical period illustrate that water consumption of agricultural and the volume of irrigation has been increasing in Iran since 2013. To evaluate the accuracy of WaPOR product, its values were compared with evapotranspiration from SEBAL algorithm and Lysimeter station statistics in Miandoab plain. The results present that in most areas, the evapotranspiration values of SEBAL algorithm are higher than the WaPOR, which reaches its maximum value by moving to an altitude of 2000 meters. The actual evapotranspiration values of the lysimeter of Tabriz University were in good agreement with the calculated values of the SEBAL algorithm, therefore the volume of water consumed calculated with WaPOR is less than the actual value. https://ije.ut.ac.ir/article_82302.html Natural hazards have always had devastating effects on human life, of which the flood is one of the most serious. Therefore, providing rapid flood identification methods for crisis management is necessary. The purpose of this study is to provide a method with proper accuracy and speed in preparing flood maps. In this study, two time series of Sentinel-1 and Landsat-8 data were used to prepare a flood intensity map by integrating statistical calculation and index extraction. The proposed algorithm is that first the map of permanent water surfaces is automatically prepared by optical images over a period of 5 years. Then, to determine the flood intensity in different regions, statistical calculations are used on the time series of radar images, and finally, using the Normalized difference flood index, which can quickly identify the flood, the final flood map is obtained. The proposed approach has been implemented following the occurrence of the flood of 1398 in two regions of Golestan and Khuzestan, which have different geographical conditions. Assessments performed with the help of ground truth maps and confusion matrices, and in addition, McNemar test was used for more complete analysis. The implementation of the algorithm in the Google-earth-engine environment showed that this method, in addition to having high accuracy, allows the use of hundreds of images without the need for special hardware. The overall accuracy in a period of time in Golestan and Khuzestan was 91.84 and 97.36, which indicates the high generalizability of the algorithm in regions with different extent. https://ije.ut.ac.ir/article_82420.html Lack of water, energy and food (WEF) resources due to rapid population growth, climate change, ecosystem imbalances and economic diversity are the biggest challenges for the world today. In this paper the optimal management of WEF resources is investigate with the nexus approach and using the concept of water footprint in the Dez basin located in Khuzestan province. In order, the water footprint of major horticultural crops cultivated calculated in this basin. Also, in order to provide strategic solutions in the optimal management of water resources with regard to the three components of WEF, the TOPSIS analytical method has been used. The results show that the highest index of water footprint of crops was related to mung bean, rice, sugarcane and rapeseed, respectively, which were equal to 4945, 2671, 1462 and 1227 cubic meters per ton, respectively. Finally, according to the analysis and priority of effective strategies on WEF resources management by TOPSIS method, five criteria such as optimal collection and extraction of WEF resources, changing irrigation pattern and implementation of low-demand methods, agricultural water resources quotas, development of risk management and crisis to prevent the loss of quantity and quality of WEF resources in order to improve agricultural products, recycling and reuse of water by emphasizing the replacement of effluents for agricultural use and green space by using new methods for water extraction; They are ranked first to fifth as important and effective strategies. https://ije.ut.ac.ir/article_82421.html Anzali Wetland in Iran as one of the most valuable wetlands registered in the Ramsar Convention is being destroyed by environmental factors and human activities. In the last two decades, among various satellite images, radar images have played a special role in wetland monitoring. Radar is an all-weather sensor and it is sensitive to surface roughness and moisture, they serve as a valuable source for quick and accurate monitoring of wetlands. However, similarities in backscattering coefficients of different wetland classes and relatively difficult processing – in comparison to optical images- are the most important factors that limit their application. In this study, the capabilities of SAR images in the classification of Anzali wetland and the three main land use classes around the wetland (i.e. agricultural lands, reeds, and built-up areas) were evaluated. Two radar images; Advanced Land Observing Satellite/Phased Array L-band Synthetic Aperture Radar (ALOS/PALSAR) and Sentinel 1 captured in 2018 were used. The texture parameters of the two images have been extracted. The images and their extracted texture layers have been fused by the feature-level method and further classified by the random forest method. The overall accuracy of feature-level fusion is equal to 75% and the kappa coefficient is equal to 0.62. The evaluation results related to producer and user accuracy are 100% and 83.33%, respectively, show the high capability of radar images in the classification and detection of wetlands. However, some errors have been observed in the separation of agricultural lands, reeds, and built-up areas. https://ije.ut.ac.ir/article_82422.html Flood is defined as one of the most dangerous kinds of natural disasters which have caused massive damages, deaths, and economic conflicts on the Latian river basin. Participatory planning is one of the recent planning approaches that has been utilized by planners in a variety of fields such as urban planning, urbanism, environmental planning, and crisis management through the last decades. In this study, with the consideration of the recent investigations over this river basin, region specifications, habitants, and conditions of the Latian river basin, the effective variables of participatory planning were selected. Economical, social, governmental, cultural, and environmental variables were chosen as effective variables in participatory planning in flood management. These variables were then compared with each other, for which the Analytic hierarchy process (AHP) method was used to compare and rank the variables because due to the multiplicity of expert opinions and the complete stability, it is possible to calculate the weight of each variable using the data normalization method. After analyzing the data, which are the results of the opinions of 21 experts, it can be concluded that the economic variable with the highest weight is in the highest rank compared to other variables, the governmental variable is placed after the economic variable in the second rank, the social and cultural variable is in the third place after the governmental variable, and the environmental variable is in the fourth place after the social and cultural variable. https://ije.ut.ac.ir/article_82488.html This study has tried to introduce the flora, biology and chorology of vegetation along the Beshar River, on Kohgilouyeh va Boyerahmad province, and its sediment seed bank to determine the role of the river in transferring seeds and the importance of alluvial sediments in maintaining and storing plant seeds. For this purpose, a floristic list of vegetation along the Beshar River on Dehno, Mokhtar, Darohan, Kabgian, and Rudashti areas was prepared by field surveys. Then, to determine status of the seed bank using the seedling generation method, the sediments along the river was sampled and transferred to the greenhouse for germination. The results showed that there were 32 and 25 plant species in the vegetation along the river and sediment seed bank, respectively. Among the identified species, 20 species are shared between the vegetation along the river and the sediment seed bank, while 5 species including Alyssum dasycarpum, Chenopodium botrys, Erodium cicutarium, Medicago rigidula, and Aeluropus littoralis are present only in the sediment seed bank. According to the results, hemicryptophytes, therophytes, and geophytes along the river are 50%, 48.87% and 3.12%, respectively. In sediment seed bank, 36% of the species are hemicryptophytes and 64% of the species are trophites. The ANOVA shows that there is a significant difference between sediment seed bank in different areas of the river in terms of number of seedlings grown. The comparison of the mean, also, indicates the existence of a significant difference between the seed bank of sediments in all areas except Kabgian-Dehno. https://ije.ut.ac.ir/article_83104.html Population increase, excessive consumption, agriculture development and climate change have caused a severe decrease in water sources. This dilemma is more tangible in developing countries such as Iran. Therefore it is necessary to adopt important policies in order to improve water management and decrease the water loss. The aim of this research is helping to improve the management of water distribution in irrigation and drainage network in GharaZia-addin city using Spatial Information Systems and Ant Colony Optimization. In this paper, the optimum area for each crop was calculated by designing an objective function and applying constraints such as minimum and maximum plant area for each crop. Then these areas were prioritized by Ant Colony Optimization method and particularly by the travelling salesman problem’s approach in a way that the crops with higher irrigation water demands and more irrigation periods to be planted in the beginning of the network channel. The aim of prioritization is to prevent the water loss during the transportation of water in the water network system. At the end, the obtained areas were used as the input data into GIS to analyze and evaluate the results on the case study field. The results of the study show that by applying Ant Colony Optimization method and the Travelling Salesman Problem, it is possible to improve water management in irrigation and drainage networks. In addition to prevention of water loss in the pipes, the net profit of the agricultural activities has increased 10% by using the method mentioned above https://ije.ut.ac.ir/article_83105.html Groundwater is an important source of exploitation in arid and semi-arid regions. For this reason, in order to maintain groundwater quality and its optimal management, it is important to know their spatial and temporal distribution and their monitoring and zoning should be considered as an important principle in the country's water resources planning. The aim of this study was to zoning the electrical conductivity of groundwater in the Mashhad plain aquifer using 5 methods of distance inverse geostatistics (IDW), local estimator (GPI), general estimator (LPI), kriging and cokriging and also evaluating the gene expression programming model in predicting this The parameter is using spatial data. For the present study, data from 122 observation wells in the aquifer area of Mashhad plain were used. To compare the methods used, two squares evaluation criteria were the mean squared error (RMSE) and the mean absolute error (MAE). The semi-variable plot in GS + showed that the electrical conductivity data fit best in the spherical model. The results of the present study showed that among the mentioned methods, the inverse distance method (IDW) with error rate RMSE=0.3 mos/cm and MAE=0.16 mos/cm and then the model of gene expression programming with RMSE=275.54 mos/cm MAE=223.15 mos/cm with the highest accuracy and local estimator method (GPI) with RMSE=996.11 mos/cm and MAE=755.56 mos/cm, had the least accuracy in this field. https://ije.ut.ac.ir/article_83106.html Due to the advances made in remote sensing technology, collecting information on the quality of surface water resources by this technology, while reducing the cost and time of traditional sampling, can cover all surface water areas. To monitor. In this study, the capability of Sentinel-2 and Landsat-8 satellite images to estimate the concentration of water quality parameters including acidity, electrical conductivity, total soluble solids, alkalinity and surface water temperature were investigated. First, the Sentinel-2 and Landsat-8 satellite images were pre-processed and then the appropriate bands were determined to identify a significant relationship between the values of each water quality parameter and the images were determined using linear regression and their accuracy was calculated for the actual values. The results show the superiority of Sentinel-2 images with Pearson coefficient, standard error and RMSe for PH parameter equal to 0.58, 0.28 and 0.29, EC equal to 0.847, 78.7 and 77.22, TDS equal to 0.895, 45.8 and 44.37 and for the alkalinity parameter only through Landsat-8 images with Pearson coefficient, standard error and RMSe equal to 0.473, 22 and 21.8, respectively. Both satellite images can be used for the water surface temperature parameter due to the high Pearson coefficient. These values are 0.871, 2.9 and 2.85 for Landsat-8 and 0.752 for Sentinel-2, respectively. 0, 14.4 and 4.06. https://ije.ut.ac.ir/article_83155.html Drought is a climatic phenomenon that affects different parts the environment during its continuation. Most drought assessment systems are mainly based on rainfall data. short statistical period of many data, insufficient density of stations and poor quality of ground rainfall data, reduces the ability show the spatial pattern of drought. the current paper aims at monitoring drought in Tehran province using rainfall network data. Thus, monthly precipitation data six synoptic stations in Tehran province and monthly precipitation data of TRMM satellite with spatial resolution of.25 × .25 degrees during the period (1998-2019) have been used. The results show that output of the 12-month SPI index for TRMM points is in good agreement with synoptic stations and the drought characteristics at different stations are consistent with different points of the TRMM network. In 36% of the study period, the rainfall in the province is in normal range and in 64% the rainfall is not normal. In all parts of the province, frequency dry and wet periods is equal and each of which with 31.8%. In terms of severity, most precipitation anomalies in Tehran province are mild and moderate, so that the frequency of mild drought is 18%, moderate drought is 9% and severe drought is about 4.5%. Extremely severe drought has not occurred in any part of the province in the last 22 years. Also, 2001, 2008, 2013 and 2014 are the most severe periods of widespread severe drought in the province, with most areas suffering from moderate to severe drought. https://ije.ut.ac.ir/article_83409.html Determining the potential of mineral springs is one of the important and essential issues in water resources management. In this study, the potential map of the spring for the management and planning of groundwater resources was performed using statistical models of frequency ratio (FR) and weight of evidence (WOE) in the Vazrood Watershed. For this purpose, 57 springs were identified randomly in the calibration (34) and validation (23) phases. In the implementation of both models, the effective factors in spring potential were used include: slope percentage and aspect, hypsometry, plan and profile, geology, land use, topographic wetness index, distance from fault, fault density, drainge density, distance from the river and the road. The results showed that the accuracy of the FR model was 84.4% and the accuracy of the WOE model was 77.2%. These results indicate a very good accuracy of these two models in determining the potential areas of springs in the Vazrood Watershed. According to the results, the accuracy of the FR model is also higher than the WOE model. Finally, 39.7% and 34.9% of Vazroud watershed in high and very high classes in terms of spring potential are in two models of WOE and FR models, respectively. Finally, the potential maps of the springs can be used to provide the basic infrastructure to clean the springs from human damage and the entry of investors to build a drinking water spring factory and ultimately the prosperity of the local economy of the Watershed residents of Vazroud.