Yayah Parvizi; Zahra Gerami; Mahmood Arabkhedri
Abstract
The degradation of soil structure and reduced water permeability are indicators of soil destruction, contributing to diminished stability, compromised production quality, and environmental issues. To counteract soil degradation, soil conservation methods are widely employed to modify soil and water processes, ...
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The degradation of soil structure and reduced water permeability are indicators of soil destruction, contributing to diminished stability, compromised production quality, and environmental issues. To counteract soil degradation, soil conservation methods are widely employed to modify soil and water processes, enhancing properties like structure and permeability. However, limited research has evaluated the effectiveness of these methods. This study focuses on assessing the impact of soil management and protection measures on soil structure and permeability in the Rezin watershed of Kermanshah province. Eight restoration and protection techniques were chosen and examined in the study area. Following profile excavation and soil sampling, indices such as MWD, GMD, and WSA >0.25 were measured and computed. The final penetration speed was also assessed. Comparative analysis of MWD, GMD, WSA >0.25, and final infiltration rates between soil protection operations and control areas was conducted using a T-test for independent samples via SPSS software. Results indicated that the lowest MWD indices, at 0.15 and 0.35 mm, were associated with land leveling and planting, while the highest, at 1.9, 1.8, and 1.6 mm, were linked to 20- and 10-year gardens and forest areas, respectively. Notably, fodder operations and 10-year garden construction exhibited the highest WSA >0.25 index, indicating the formation of coarse and stable soil aggregates due to protection operations. Final infiltration rate results demonstrated changes in drylands to seedling cultivation, with 10-year gardens showing the highest increase at 21.8% compared to the control.
Athar Kaveh; Mohammad Hossein Mahdian; Yahya Parvizi; Reza Sokouti Oskuee; Mohammad Hassan Masih Abadi
Abstract
Carbon storage is one of the assessment criteria of ecosystem sustainability, so land improvement and reclamation can be followed by investigating the effective managerial factors. This study was conducted to investigate the management scenarios and their effects on carbon storage in Sar Firoozabad watershed, ...
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Carbon storage is one of the assessment criteria of ecosystem sustainability, so land improvement and reclamation can be followed by investigating the effective managerial factors. This study was conducted to investigate the management scenarios and their effects on carbon storage in Sar Firoozabad watershed, Kermanshah province, Iran. Mapping units were prepared with combination of slope and aspect layers. The common management systems in the form of scenarios of residue management, crop rotation, and tillage were investigated and relevant indices were quantified. In the next step, the watershed area was separated into homogeneous zones and soil sampling in the units, was performed using a randomized systematic method. After transporting the samples to laboratory, soil organic carbon storage was calculated by determining their bulk density, texture, and organic carbon. Results of multivariate analysis showed that seven variables of tillage index, cereal sequence, straw burning, manure application, rotation systems, winter fallow and plow direction predict 52 percent of the soil carbon storage variability with 0.724 correlation coefficient and 0.46 modeling efficiency, using the cluster analysis,. In general, it can be concluded that cluster analysis is recommended for investigating carbon storage in soils and rotation and tillage systems are significant examples of soil management components that are certainly very important in terms of carbon storage.