Mehdi Bashari; Hamid Reza Moradi; Mir Masoud Kheirkhah3; Majid Jafari Khaledi
Abstract
Study of soil erosion without simplification of experimental conditions is difficult and sometimes impossible. Soil clay content has significant relationships with soil aggregates stability and infiltration, that these relationships in various clay contents may be positive or negative. Many properties ...
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Study of soil erosion without simplification of experimental conditions is difficult and sometimes impossible. Soil clay content has significant relationships with soil aggregates stability and infiltration, that these relationships in various clay contents may be positive or negative. Many properties of soil in successive rainfalls can be changed and also affect on runoff and sediment production. Hence, this study attempted to investigate the effect of soil clay content on runoff and sediment production during successive rainfalls under rainfall simulator using erosion plots and eliminates the effects of the overlapping factors. To achieve these aims, 1.5 m2 erosion plots containing soil without clay, combined with 0, 10, 20, 30, 40 and 50 percent of clay soil in three replications, respectively (totally 18 plots) and then were subjected to two successive runs under 70 mmh-1 rainfall intensity for 30 minutes and 24-hours intervals. Sampling and measuring the volume of runoff during rainfall was done each 2.5 minutes. Based on observed data, the amounts of observed sediment in the second runs were 1.5 to 2 times higher than those found in first runs (with a total average of 9/2 and 15/0 grams per liter, respectively for first and second runs), but amounts of runoff in 0 and 10 percent of clay soil mixtures were higher in first runs (2613 and 2045 volumes in milliliters, respectively), whereas for the other mixtures, runoff volume in second runs were higher (2694, 2677, 2315 and 2752 volumes in milliliters for 20, 30, 40 and 50 percent of clay mixtures, respectively). Finally, the statistical analysis showed that in both successive runs in all mentioned soils containing various clay soil mixtures, runoff and sediment values were different significantly (p<0.01). The results showed that there are significant temporal variations within soil properties and also soil clay content has great effects on the quality and quantity of soil erosion process.
Mehdi Bashari; Hamid Reza Moradi; Mir Masuod Kheirkhah; Majid Jafari Khaledi
Abstract
Soils containing rock fragments are covering major parts of land surfaces. Physical and chemical properties of soil are affected by rock fragments as they also affect on the hydrological and erosional processes. So far, many studies have shown the effect of surface rock fragments on soil erosion and ...
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Soils containing rock fragments are covering major parts of land surfaces. Physical and chemical properties of soil are affected by rock fragments as they also affect on the hydrological and erosional processes. So far, many studies have shown the effect of surface rock fragments on soil erosion and runoff. Sediment production is a complex and ambiguous process and a notice to these effects is necessity. Hence this study examines the soil erosion reactions in different impermeable coverage of rocks with erosion plots and rainfall simulator. For this purpose, plots were covered with 0, 5, 10, 15, 20 and 25 percent of rocks, respectively. The results of sediment sampling and measuring the volume of runoff during 30 minutes of rainfall with an intensity of 70 mm/h were analyzed and the results showed that increasing of rock fragment coverage had no effect on runoff volume. But, the amount of sediment increased significantly (p<0/05) in soils containing rock fragments compared to soils without rock fragments. Although, results did not show a linear relationship between sediment values and rock fragment coverage percentage. The highest value of runoff and sediment concentrations observed in soils containing 10 and 20 percent of rock fragment coverage in comparison to other treatments. Finally, by increasing of surface rock fragments to 25 percent, the value of runoff and sediment decreased significantly. The results of this study confirmed the threshold levels in surface rock fragments to increase runoff and sediment values and also their dual roles at different levels.
Mehdi Bashari; Seyed Hamid Reza Sadeghi; Abdolsaleh Rangavar
Abstract
Investigation of effective factors on soil erosion and their variability analysis is essential for soil and water conservation projects. The present research was carried out to survey the role of two north and south facing slope plots on soil erosion on storm basis at Sanganeh watershed located in Khorasan ...
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Investigation of effective factors on soil erosion and their variability analysis is essential for soil and water conservation projects. The present research was carried out to survey the role of two north and south facing slope plots on soil erosion on storm basis at Sanganeh watershed located in Khorasan Razavi province, Iran. The study was conducted using a pair of small plots with dimensions of 2×2 meters. The plots were be designed using metal sheets and their outlet was directed towards collecting tanks. These plots were established close to each other at two different aspects. The generated runoff and sediment from plots caused by 12 storm events during October 2006 and May 2007 were collected and sediment concentration was ultimately calculated. The results of sediment concentration analysis verified a significant difference (p<0.01) between soil erosion study plots with very low quantities in plots installed in northern aspect. The difference was clearly associated with effect of slope aspects on vegetation cover.
