MINErosion 4:使用倾斜水槽降雨模拟器设施的测量值来预测澳大利亚昆士兰州中部采矿后集水区/景观的侵蚀率

IF 7.3 1区 农林科学 Q1 ENVIRONMENTAL SCIENCES
Ashraf M. Khalifa , Hwat Bing So , Hossein Ghadiri , Chris Carroll , Peter Burger , Bofu Yu
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引用次数: 0

摘要

昆士兰露天矿使用拉铲铲清除覆盖层,形成了由长而平行的第三层覆盖层弃土堆组成的景观,这些弃土堆通常具有高盐度、分散性和高度易蚀性。这些弃土堆的高度可能超过原始景观上方50–60 m,边坡的休止角约为75%或37°。立法和公众舆论要求,这些高度受干扰的露天采后景观应令人满意地恢复为经批准的采后土地用途,并具有可接受的侵蚀率。因此,在恢复景观之前,必须减少这些斜坡。修复过程中最昂贵的部分是重新塑造和准备覆盖层,以创造适合植被生长的景观。由于土壤和覆盖层的可侵蚀性差异很大,如果在建造这些景观之前可以使用基于实验室的参数预测设计景观的土壤侵蚀,则可以最大限度地减少土方工程的范围和成本,并避免修复失败。本文描述了为此目的开发的一个模型。通过升级现有的山坡模型MIN侵蚀3(So等人,2018)并将其与ESRI ArcGIS 10.3或QGIS 3.16(免费软件)集成,开发了集水区或景观侵蚀模型MIN侵蚀4,以预测采后集水区或景观基于事件的年平均侵蚀率。MIN侵蚀3是一个模型,可用于使用实验室测量的可蚀性参数或常规测量的土壤物理和化学性质预测现场规模山坡的事件和年度侵蚀率,并得出合适的景观设计参数(坡度、坡长和植被覆盖率),从而产生可接受的侵蚀率。但它不能用于预测集水区或景观的沉积物输送。MIN侵蚀4是根据在昆士兰中部Curragh矿场的三个仪器集水区(面积高达0.91公顷)收集的数据进行验证的。预测值(Y)和测量值(X)之间的一致性非常好,回归方程为Y=0.92X,单个风暴事件的R2值为0.81,年均土壤流失的Y=1.47X和R2值为0.73。这可能是第一次通过实验室测量的可蚀性参数成功预测流域规模的侵蚀。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MINErosion 4: Using measurements from a tilting flume-rainfall simulator facility to predict erosion rates from post-mining catchments/landscapes in Central Queensland, Australia

The use of draglines to remove overburden in Queensland opencut mines, results in landscapes that consist of long parallel tertiary overburden spoil-piles that are generally highly saline, dispersive, and highly erodible. The height of these spoil-piles may exceed 50–60 m above the original landscapes and the slopes are at the angle of repose of around 75% or 37°. Legislation and public opinion require that these highly disturbed open-cut post-mining landscapes should be satisfactorily rehabilitated into an approved post-mining land use with acceptable erosion rates. Therefore, these slopes must be reduced before the landscape can be rehabilitated. The most expensive component of the rehabilitation process is the re-shaping and preparation of the overburden to create a suitable landscape for vegetation growth. As soils and overburden varies greatly in their erodibilities, the extent and cost of earthworks can be minimized, and rehabilitation failures avoided, if soil erosion from designed landscapes can be predicted using laboratory-based parameters prior to construction of these landscapes. This paper describes the development of a model for that purpose.

A catchment or landscape erosion model MINErosion 4 was developed by upscaling the existing hillslope model MINErosion 3 (So, et al., 2018) and integrate it with both ESRI ArcGIS 10.3 or QGIS 3.16 (freeware), to predict event based and mean annual erosion rate from a postmining catchment or landscape. MINErosion 3 is a model that can be used to predict event and annual erosion rates from field scale hillslopes using laboratory measured erodibility parameters or routinely measured soil physical and chemical properties, and to derive suitable landscape design parameters (slope gradient, slope length and vegetation cover) that will result in acceptable erosion rates. But it cannot be used to predict the sediment delivery from catchments or landscapes. MINErosion 4 was validated against data collected on three instrumented catchments (up to 0.91 ha in size) on the Curragh mine site in Central Queensland. The agreement between predicted (Y) and measured (X) values were very good with the regression equation of Y = 0.92X and an R2 value of 0.81 for individual storm events, and Y = 1.47X and an R2 value of 0.73 for the average annual soil loss. This is probably the first time that a catchment scale erosion is successfully predicted from laboratory measured erodibility parameters.

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来源期刊
International Soil and Water Conservation Research
International Soil and Water Conservation Research Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
12.00
自引率
3.10%
发文量
171
审稿时长
49 days
期刊介绍: The International Soil and Water Conservation Research (ISWCR), the official journal of World Association of Soil and Water Conservation (WASWAC) http://www.waswac.org, is a multidisciplinary journal of soil and water conservation research, practice, policy, and perspectives. It aims to disseminate new knowledge and promote the practice of soil and water conservation. The scope of International Soil and Water Conservation Research includes research, strategies, and technologies for prediction, prevention, and protection of soil and water resources. It deals with identification, characterization, and modeling; dynamic monitoring and evaluation; assessment and management of conservation practice and creation and implementation of quality standards. Examples of appropriate topical areas include (but are not limited to): • Conservation models, tools, and technologies • Conservation agricultural • Soil health resources, indicators, assessment, and management • Land degradation • Sustainable development • Soil erosion and its control • Soil erosion processes • Water resources assessment and management • Watershed management • Soil erosion models • Literature review on topics related soil and water conservation research
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