تهیه‌ی نقشه‌ی توزیع مکانی فرسایش آبی و رسوب متاثر از الگوریتم‌های مختلف شیب، توسط مدل watem/sedem در حوضه‌ی زوجی شوش

فرسایش خاک یکی از مهمترین عوامل تخریب خاک است که ویژگیهای توپوگرافیکی دارای تاثیرات معنی داری بر روی چگونگی وقوع و توزیع مکانی آن می باشد. در این پژوهش توزیع مکانی فرسایش خاک و رسوب در حوضه ی آبریز زوجی شوش واقع در استان خوزستان متاثر از الگوریتم های مختلف شیب، توسط مدل watem/sedem با در نظر گرفتن فرسایندگی باران (r)، فرسایش پذیری خاک (k)، پستی و بلندی (ls)، پوشش گیاهی (c) و مدیریت (p) ارزیابی شد. نتایج همبستگی بین پارامترهای ورودی مدل با میزان فرسایش خاک نشان داد که عامل ls دارای بیشترین میزان همبستگی با فرسایش خاک است که بیانگر بیشترین تاثیرگذاری عامل پستی و بلندی بر روی توزیع مکانی فرسایش خاک می باشد. همچنین نتایج نشان داد که بین مقادیر برآوردی رسوب در شکل های مختلف شامل کل رسوبات تولید شده، کل رسوبات ته نشین شده و کل رسوبات خروجی از حوضه، بین الگوریتم های مختلف شیب شامل گاورز (govers)، مک کوول، نییرینگ و ویشمایر اسمیت اختلاف وجود دارد. با توجه به مقایسه ی مقادیر برآورد شده با اندازه گیری شده، الگوریتم نییرینگ نتایجی به مراتب منطبق تر با مقادیر اندازه گیری شده ارایه داده است. نتایج شبیه سازی رابطه ی مطلوبی را با مقادیر اندازه گیری شده نشان داده است در نتیجه خروجی های مدل watem/sedem بر پایه ی الگوریتم های نییرینگ، امکان شناسایی مکان های بحرانی فرسایش و یا تولید رسوب در منطقه را فراهم نموده است، لذا ابزاری کارآمد جهت اتخاذ بهترین شیوه های مدیریتی (bmps) موثر برای کنترل مناطق بحرانی محسوب می شود.

Mapping of Water Erosion and Deposition Affected by Different LS Algorithms Using WaTEM/SEDEM Model

Introduction: Soil erosion is one of the most important forms of soil degradation which topographical characteristics are effective on its occurrence and spatial distribution. Actually, soil erosion is one form of soil degradation that includes onsite and offsite effects and the offsite effect is deposition and sedimentation. In recent decades, the potential of soil erosion has been recognized as a serious threat against soil sustainability. Topographical attributes such as slope gradient (S) and slope length (L) are considered as the most important land surface properties which control energy fluxes, overland and intrasoil transport of water and sediment, and vegetation cover distribution within a landscape. The L and S are two main factors in the USLE equation which are meaningfully effective on soil erosion. The development of modern techniques such as geomorphometry has made it possible to quantify these attributes in GIS environments. Geomorphometry or terrain analysis is a computer technologybased science in which morphometric and hydrological attributes are calculated by a series of mathematical algorithms from a digital elevation model (DEM). WaTEM/SEDEM is water and tillage erosion model/sedimentation which is possible to estimate water erosion and also different forms of sediments in the watershed and hydrographical network. The accuracy of DEM in this model is really important and effective on the quality of model outputs. Material and Methods: Landscape planning tools might help simplify the complexity of soil erosional processes. Furthermore, using predictive tools open up for the possibilities to investigate the effectiveness of different management scenarios on soil erosional responses to make a decision for improving soil properties by application of BMPs. Soil erosion modelling as a landscape planning tool is an efficient way to investigate the onsite and offsite effects of erosion. At the same time this tool opens up for an opportunity to perform scenario analysis with the respect to the placement of structural BMPs such as buffer zones. The soil erosion model WaTEM has been used as a landscape planning tool. WaTEM is a spatially distributed empirical model to simulate both erosion and deposition by water explicitly in a two dimensional landscape. This soil erosion model has been used as a landscape planning tool. The Universal Soil Loss Equation (USLE) has been developed to predict sheet and rill erosion. Desmet and Govers (1996) showed that using the 2Dcalculation of the LSfactor in WaTEM made it possible to predict rill, interrill, and ephemeral gully erosions. In this study the spatial distribution of soil erosion and deposition affected by different LSfactors were investigated using WaTEM/SEDEM model that including rainfall erosivity (Rfactor), soil erodibility (Kfactor), topography (LSfactor), crop cover (Cfactor) and management (Pfactor) as GIS layers (.rst format) in Zoji watershed located in Shush (Khuzestan province). The WaTEM/SEDEM includs three main input parts, the first part consist of DEM, parcel map and stream network. The second part is CP factor and the third part consist of LS algorithms. The variations of LS algorithms are a milestone of this model and provide the possibility to define different LS situations in the watershed. In order to evaluate the effectiveness of LS algorithms, in the simulation process Govers, McCool, Nearing and WishmeierSmith algorithms were defined for WaTEM/SEDEM model. Results and Discussion: Results of correlation (R=0.78) showed that topography had the highest effect on soil erosion distribution. Also our results illustrated that the amount of deposition in forms of total sediment production (TSP), total sediment deposition (TSD) and total sediment export (TSE) between different LS algorithms were disparate. Based on prediction of rill and interrill erosion, Nearing algorithm was the best LS algorithm and Govers algorithm was convenient in order to monitor and evaluate gully erosion. This study results showed that Govers algorithm estimated the highest amount of TSP because the Govers algorithm basically estimate the sheet, rill, interrill and gully erosion, therefore the amount of sediment in this algorithms is the highest one. For Govers algorithm the estimated TRE was the highest because the Gully erosion also was in the calculations and mostly the volume discharge originated from Gully was significantly higher than sheet and rill erosion. Therefore, regarding the types of prevailing erosion in each case the type of selected LS algorithm to simulate soil erosion and deposition distribution should be different. Conclusion: In general, WaTEM/SEDEM and its LS algorithms is a suitable tool to select and apply best management practices (BMPs) to control soil erosion at critical areas and hotspots. Our results confirmed that regarding the selection of each LS algorithm, the amount of sediment components and their distribution could be different.