FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1984402308> ?p ?o ?g. }

• W1984402308 endingPage "75" @default.
• W1984402308 startingPage "68" @default.
• W1984402308 abstract "The objective of this study was to explore the slope position and land use change effects on the variability in magnetic susceptibility and 137Cs inventory as the soil redistribution indicators in a hilly semiarid calcareous area in Iran. The selected study area is located in a hilly region with pasture and cultivation land use of Fereydunshahr, Isfahan Province in west-central Iran. In the two mentioned dominant ecosystems, four slope positions including summit, shoulder, backslope and footslope were identified and in each land use and slope position, three cores were selected to collect 72 soil samples from three depths (0–10, 10–20, 20–30 cm) in an area of 15 × 15 cm. Additional 28 soil samples were collected from the reference site for soil loss and deposition calculations by using the Cs-137 measurement. The results of the study with the use of the Cs-137 technique showed that the average soil loss in the pasture land (46.4 t ha− 1 yr− 1) was significantly (p < 0.05) lower than the average soil loss in the cultivated land (80.4 t ha− 1 yr− 1). The highest soil loss in both land uses was obtained in the shoulder position, 60.1 and 84.4 t ha− 1 yr− 1, respectively, for the pasture and cultivated lands. Moreover, the highest rates of soil deposition was observed in a footslope position in both land uses and they were 34 and 32.4 t ha− 1 yr− 1 for the pasture and cultivated lands, respectively. Magnetic susceptibility was significantly (p < 0.05) greater in pasture (χlf = 41.51 × 10− 8 m3/kg) than in the cultivated land (χlf = 34.90 × 10− 8 m3/kg). The pasture land with a lower soil loss rate, indicated significantly higher magnetic susceptibility in all landform positions as compared to that in the cultivated land. The results of the correlation analysis showed that among the studied soil physico-chemical properties, χlf (r = 0.83, p < 0.01) in the pasture land had the highest correlation with the Cs-137 inventory. Throughout the non-linear regression analysis, χlf was introduced for relating soil parameters and the cesium inventory explained 68% and 79% of the total variability of 137Cs in the pasture and cultivated lands, respectively. The results implied that the variability in the magnetic susceptibility within the hillslope is consistent with the variation of the Cs-inventory; and the results thus demonstrate the slope and land use effects on soil redistribution." @default.
• W1984402308 created "2016-06-24" @default.
• W1984402308 creator A5021358818 @default.
• W1984402308 creator A5039471600 @default.
• W1984402308 creator A5085936566 @default.
• W1984402308 date "2013-02-01" @default.
• W1984402308 modified "2023-10-17" @default.
• W1984402308 title "Magnetic susceptibility and Cs-137 inventory variability as influenced by land use change and slope positions in a hilly, semiarid region of west-central Iran" @default.
• W1984402308 cites W1967238563 @default.
• W1984402308 cites W1978296264 @default.
• W1984402308 cites W1982143443 @default.
• W1984402308 cites W1997429984 @default.
• W1984402308 cites W2009004453 @default.
• W1984402308 cites W2022184919 @default.
• W1984402308 cites W2024693238 @default.
• W1984402308 cites W2026160943 @default.
• W1984402308 cites W2036743753 @default.
• W1984402308 cites W2037406632 @default.
• W1984402308 cites W2041299715 @default.
• W1984402308 cites W2046486401 @default.
• W1984402308 cites W2048502070 @default.
• W1984402308 cites W2054737115 @default.
• W1984402308 cites W2062083272 @default.
• W1984402308 cites W2067521251 @default.
• W1984402308 cites W2068528207 @default.
• W1984402308 cites W2075880000 @default.
• W1984402308 cites W2079243474 @default.
• W1984402308 cites W2084681029 @default.
• W1984402308 cites W2087543103 @default.
• W1984402308 cites W2088828742 @default.
• W1984402308 cites W2095197988 @default.
• W1984402308 cites W2097065747 @default.
• W1984402308 cites W2127641510 @default.
• W1984402308 cites W2129067035 @default.
• W1984402308 cites W2319434218 @default.
• W1984402308 cites W4241449411 @default.
• W1984402308 cites W4255375128 @default.
• W1984402308 doi "https://doi.org/10.1016/j.jappgeo.2012.11.009" @default.
• W1984402308 hasPublicationYear "2013" @default.
• W1984402308 type Work @default.
• W1984402308 sameAs 1984402308 @default.
• W1984402308 citedByCount "51" @default.
• W1984402308 countsByYear W19844023082013 @default.
• W1984402308 countsByYear W19844023082014 @default.
• W1984402308 countsByYear W19844023082015 @default.
• W1984402308 countsByYear W19844023082016 @default.
• W1984402308 countsByYear W19844023082017 @default.
• W1984402308 countsByYear W19844023082018 @default.
• W1984402308 countsByYear W19844023082019 @default.
• W1984402308 countsByYear W19844023082020 @default.
• W1984402308 countsByYear W19844023082021 @default.
• W1984402308 countsByYear W19844023082022 @default.
• W1984402308 countsByYear W19844023082023 @default.
• W1984402308 crossrefType "journal-article" @default.
• W1984402308 hasAuthorship W1984402308A5021358818 @default.
• W1984402308 hasAuthorship W1984402308A5039471600 @default.
• W1984402308 hasAuthorship W1984402308A5085936566 @default.
• W1984402308 hasConcept C100970517 @default.
• W1984402308 hasConcept C114793014 @default.
• W1984402308 hasConcept C123552892 @default.
• W1984402308 hasConcept C127313418 @default.
• W1984402308 hasConcept C151730666 @default.
• W1984402308 hasConcept C159390177 @default.
• W1984402308 hasConcept C159750122 @default.
• W1984402308 hasConcept C187320778 @default.
• W1984402308 hasConcept C18903297 @default.
• W1984402308 hasConcept C205649164 @default.
• W1984402308 hasConcept C2778053677 @default.
• W1984402308 hasConcept C2816523 @default.
• W1984402308 hasConcept C39432304 @default.
• W1984402308 hasConcept C4792198 @default.
• W1984402308 hasConcept C50516716 @default.
• W1984402308 hasConcept C64297162 @default.
• W1984402308 hasConcept C76886044 @default.
• W1984402308 hasConcept C86803240 @default.
• W1984402308 hasConcept C97137747 @default.
• W1984402308 hasConceptScore W1984402308C100970517 @default.
• W1984402308 hasConceptScore W1984402308C114793014 @default.
• W1984402308 hasConceptScore W1984402308C123552892 @default.
• W1984402308 hasConceptScore W1984402308C127313418 @default.
• W1984402308 hasConceptScore W1984402308C151730666 @default.
• W1984402308 hasConceptScore W1984402308C159390177 @default.
• W1984402308 hasConceptScore W1984402308C159750122 @default.
• W1984402308 hasConceptScore W1984402308C187320778 @default.
• W1984402308 hasConceptScore W1984402308C18903297 @default.
• W1984402308 hasConceptScore W1984402308C205649164 @default.
• W1984402308 hasConceptScore W1984402308C2778053677 @default.
• W1984402308 hasConceptScore W1984402308C2816523 @default.
• W1984402308 hasConceptScore W1984402308C39432304 @default.
• W1984402308 hasConceptScore W1984402308C4792198 @default.
• W1984402308 hasConceptScore W1984402308C50516716 @default.
• W1984402308 hasConceptScore W1984402308C64297162 @default.
• W1984402308 hasConceptScore W1984402308C76886044 @default.
• W1984402308 hasConceptScore W1984402308C86803240 @default.
• W1984402308 hasConceptScore W1984402308C97137747 @default.
• W1984402308 hasLocation W19844023081 @default.
• W1984402308 hasOpenAccess W1984402308 @default.
• W1984402308 hasPrimaryLocation W19844023081 @default.

• next