Determining the Relative Contribution of Sub-basins to Sediment Production by Magnetic Susceptibility Data

The purpose of this study was to determine the relative contribution of sub-basin resources to sediment production by using magnetic susceptibility data as the tracer in Chehelgazi catchment, Sanandaj. For this purpose, 20 samples of the output 5 sub-basins were measured by harvesting and magnetic s...

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Main Authors: K. SeydiNaureh, S. Ayoubi, K. Nosrati
Format: Article
Language:fas
Published: Isfahan University of Technology 2019-12-01
Series:علوم آب و خاک
Subjects:
Online Access:http://jstnar.iut.ac.ir/article-1-3553-en.html
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spelling doaj-9e0dd1cfefaf497d9cb5b1ac0bd8c78a2021-04-20T08:18:21ZfasIsfahan University of Technology علوم آب و خاک2476-35942476-55542019-12-01234287298Determining the Relative Contribution of Sub-basins to Sediment Production by Magnetic Susceptibility DataK. SeydiNaureh0S. Ayoubi1K. Nosrati2 1. Department of Soil Science and Engineering, College of Agriculture, Isfahan University of Technology, Isfahan, Iran. 1. Department of Soil Science and Engineering, College of Agriculture, Isfahan University of Technology, Isfahan, Iran. 2. Department of Natural Geography, Faculty of Earth Sciences, Shahid Beheshti University, Tehran, Iran. The purpose of this study was to determine the relative contribution of sub-basin resources to sediment production by using magnetic susceptibility data as the tracer in Chehelgazi catchment, Sanandaj. For this purpose, 20 samples of the output 5 sub-basins were measured by harvesting and magnetic susceptibility. Kruskal-Wallis test results showed that in all three trackings, frequency high, low and dependent, at least two sources had the ability to differentiate. In the second step, the three tracers were tested on the discriminant analysis by the sub-basin source and two tracers with different power splitters showed the high frequency of 88% and the frequency dependence of 12%; power splitters both tracers together in the sub-basin splitters was 90%, so they were selected as the optimal combination; therefore, they have the capability to determine the relative contribution model of sediment. The results of Bayesian uncertainty model also indicated Todarsamadi sub-basin with 44.4% of the largest contribution and Doveyseh, Chatan and Cherendo sub-basins with 35.5, 7.9 and 4.5, respectively, and Madian Dol sub-basin with 4/4 percent had the lowest contribution to sediment production. Based on the available results, Todarsamadi and Doveyseh sub-basins had the highest amount of sediment production; so these results could be used in soil conservation and management planning.http://jstnar.iut.ac.ir/article-1-3553-en.htmlsediment fingerprintingmagnetic susceptibilitychehelgazi catchmentbayesian uncertainty model
collection DOAJ
language fas
format Article
sources DOAJ
author K. SeydiNaureh
S. Ayoubi
K. Nosrati
spellingShingle K. SeydiNaureh
S. Ayoubi
K. Nosrati
Determining the Relative Contribution of Sub-basins to Sediment Production by Magnetic Susceptibility Data
علوم آب و خاک
sediment fingerprinting
magnetic susceptibility
chehelgazi catchment
bayesian uncertainty model
author_facet K. SeydiNaureh
S. Ayoubi
K. Nosrati
author_sort K. SeydiNaureh
title Determining the Relative Contribution of Sub-basins to Sediment Production by Magnetic Susceptibility Data
title_short Determining the Relative Contribution of Sub-basins to Sediment Production by Magnetic Susceptibility Data
title_full Determining the Relative Contribution of Sub-basins to Sediment Production by Magnetic Susceptibility Data
title_fullStr Determining the Relative Contribution of Sub-basins to Sediment Production by Magnetic Susceptibility Data
title_full_unstemmed Determining the Relative Contribution of Sub-basins to Sediment Production by Magnetic Susceptibility Data
title_sort determining the relative contribution of sub-basins to sediment production by magnetic susceptibility data
publisher Isfahan University of Technology
series علوم آب و خاک
issn 2476-3594
2476-5554
publishDate 2019-12-01
description The purpose of this study was to determine the relative contribution of sub-basin resources to sediment production by using magnetic susceptibility data as the tracer in Chehelgazi catchment, Sanandaj. For this purpose, 20 samples of the output 5 sub-basins were measured by harvesting and magnetic susceptibility. Kruskal-Wallis test results showed that in all three trackings, frequency high, low and dependent, at least two sources had the ability to differentiate. In the second step, the three tracers were tested on the discriminant analysis by the sub-basin source and two tracers with different power splitters showed the high frequency of 88% and the frequency dependence of 12%; power splitters both tracers together in the sub-basin splitters was 90%, so they were selected as the optimal combination; therefore, they have the capability to determine the relative contribution model of sediment. The results of Bayesian uncertainty model also indicated Todarsamadi sub-basin with 44.4% of the largest contribution and Doveyseh, Chatan and Cherendo sub-basins with 35.5, 7.9 and 4.5, respectively, and Madian Dol sub-basin with 4/4 percent had the lowest contribution to sediment production. Based on the available results, Todarsamadi and Doveyseh sub-basins had the highest amount of sediment production; so these results could be used in soil conservation and management planning.
topic sediment fingerprinting
magnetic susceptibility
chehelgazi catchment
bayesian uncertainty model
url http://jstnar.iut.ac.ir/article-1-3553-en.html
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