Estimating erosion vulnerability within agricultural fields by downscaling the Daily Erosion Project (DEP): the OFEtool

IF 2.8 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Eduardo Luquin, Chelsea Ferrie, Brian Gelder, Daryl Herzmann, Emily Zimmerman, David James, Richard Cruse, Thomas Isenhart
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引用次数: 0

Abstract

Agriculture continues to be one of the most important sources of nonpoint source pollution to surface water bodies. Consequently, it is critical to identify and prioritize high-contributing agricultural fields and sub-field areas for reducing soil erosion and sediment delivery by implementing best management practices (BMPs). Current erosion risk assessment tools are either complex modelling approaches or rely on a simplified reality and generalized assumption. The Daily Erosion Project (DEP) is a daily estimator of precipitation, hillslope runoff, detachment and soil loss covering ~630 000 km2 across the Midwest United States. These estimations are reported daily and publicly at the hydrologic unit code 12 watershed resolution (approximately 100 km2). The main objective of this study was to develop a new tool (named Overland Flow Element tool [OFEtool]) that downscales the watershed scale of DEP to estimate average runoff and soil displacement within a field, helping to locate erosive hotspots at multiple scales. We also demonstrated the applicability of OFEtool in Bennet Creek-Sugar Creek in East Central Iowa (the United States) and compared its results with other erosion vulnerability tools such as the Soil Vulnerability Index for Cultivated Cropland (SVI-cc) and a GIS-based Revised Universal Soil Loss Equation (RUSLE). The same erosion risk classes and ranges (low, moderate, moderately high and high) were implemented for all indexes. The advantages of the OFEtool compared to the SVI-cc and RUSLE models are related to the use of an event-based modelling approach, such as DEP, with updated soil loss estimates based on temporal changes in climate inputs and land use and management. The OFEtool uses a 6-year time frame and a more up-to-date field inputs, while RUSLE provides a long-term average and SVI-cc only considers soil and topographical factors for risk assessment. Results indicated that the spatial distribution of vulnerable fields (and parts of the fields) followed a similar trend as other tested indices. However, the risk level associated with each tool differed (SVI-cc > RUSLE > OFEtool). These differences could arise from intrinsic disparities within the tools (inputs, timing, processes considered, assumptions). While currently limited to the DEP domain and relying on the DEP random sampling scheme, further research is warranted to validate the tool at other Midwest locations and ensure it captures the watershed's landscape variability (combination of terrain, soil, land use and management) required to identifying critical erosion hotspots.

Abstract Image

通过缩小每日侵蚀项目(DEP)的规模估算农田内的侵蚀脆弱性:OFEtool
农业仍然是地表水体最重要的非点源污染源之一。因此,通过实施最佳管理实践 (BMP) 来减少土壤侵蚀和沉积物的输送,识别并优先处理高污染农田和副田区域至关重要。目前的侵蚀风险评估工具要么是复杂的建模方法,要么依赖于简化的现实和一般化的假设。每日侵蚀项目 (DEP) 是一个对降水、山坡径流、剥离和土壤流失进行每日估算的工具,覆盖美国中西部约 63 万平方公里的区域。这些估算数据按水文单元代码 12 流域分辨率(约 100 平方公里)每日公开报告。本研究的主要目的是开发一种新工具(命名为陆上流要素工具 [OFEtool]),该工具可缩小 DEP 的流域尺度,以估算田地内的平均径流和土壤位移,从而帮助定位多种尺度的侵蚀热点。我们还在美国爱荷华州中东部的 Bennet Creek-Sugar Creek 演示了 OFEtool 的适用性,并将其结果与其他侵蚀脆弱性工具进行了比较,如耕地土壤脆弱性指数 (SVI-cc) 和基于地理信息系统的修订通用土壤流失方程 (RUSLE)。所有指数均采用相同的侵蚀风险等级和范围(低、中、中高和高)。与 SVI-cc 和 RUSLE 模型相比,OFEtool 的优势在于使用了基于事件的建模方法(如 DEP),并根据气候输入、土地利用和管理的时间变化更新了土壤流失估算。OFEtool 使用 6 年的时间框架和最新的实地输入,而 RUSLE 提供长期平均值,SVI-cc 仅考虑土壤和地形因素进行风险评估。结果表明,脆弱田块(和部分田块)的空间分布与其他测试指数的趋势相似。然而,与每种工具相关的风险等级却各不相同(SVI-cc > RUSLE > OFEtool)。这些差异可能源于工具内部的内在差异(输入、时间、考虑的过程、假设)。虽然目前仅限于 DEP 领域并依赖于 DEP 随机抽样方案,但仍有必要开展进一步研究,以便在中西部其他地区验证该工具,并确保它能捕捉到识别关键侵蚀热点所需的流域景观变异性(地形、土壤、土地利用和管理的组合)。
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来源期刊
Earth Surface Processes and Landforms
Earth Surface Processes and Landforms 地学-地球科学综合
CiteScore
6.40
自引率
12.10%
发文量
215
审稿时长
4 months
期刊介绍: Earth Surface Processes and Landforms is an interdisciplinary international journal concerned with: the interactions between surface processes and landforms and landscapes; that lead to physical, chemical and biological changes; and which in turn create; current landscapes and the geological record of past landscapes. Its focus is core to both physical geographical and geological communities, and also the wider geosciences
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