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Application of Bayesian Belief Networks to quantify and map areas at risk to soil threats: Using soil compaction as an example

•We propose using Bayesian Belief Networks for assessing soil degradation risks.•We quantify the risk of soil compaction using a Bayesian Belief Network (BBN).•We apply the BBN to identify areas at risk of soil compaction across Scotland.•Uncertainty should be accounted for when assessing risk of so...

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Published in:Soil & tillage research 2013-08, Vol.132, p.56-68
Main Authors: Troldborg, Mads, Aalders, Inge, Towers, Willie, Hallett, Paul D., McKenzie, Blair M., Bengough, A. Glyn, Lilly, Allan, Ball, Bruce C., Hough, Rupert L.
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container_start_page 56
container_title Soil & tillage research
container_volume 132
creator Troldborg, Mads
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description •We propose using Bayesian Belief Networks for assessing soil degradation risks.•We quantify the risk of soil compaction using a Bayesian Belief Network (BBN).•We apply the BBN to identify areas at risk of soil compaction across Scotland.•Uncertainty should be accounted for when assessing risk of soil degradation. The assessment of areas at risk from various soil threats is a key task within the proposed EU Soil Framework Directive. Such assessment is, however, hampered by the complex nature of the soil threats, which result from the sometimes poorly understood interaction of various soil physical properties, climatic factors and land management practices. Methodologies for risk assessment of soil threats are needed to protect the soil quality for future generations and to target resources to the areas at greatest risk. We present here a generic risk framework for the development of Bayesian Belief Networks (BBNs) to estimate the risk from soil threats. The generic BBN structure follows a standard risk assessment approach, where the risk is quantified by combining assessments of vulnerability and exposure. The soil's vulnerability to a given threat is determined from inherent soil and site characteristics as well as from climatic factors influencing soil characteristics, while the exposure estimate is based on an evaluation of the stresses inflicted by land management and climate. The generic framework is demonstrated by taking soil compaction as an example. Soil compaction is a major threat to soil function particularly in highly managed agricultural systems and is known to have many adverse effects on farming systems including decreased crop yield and soil productivity, increased management costs, increased emissions of greenhouse gases, and decreased water infiltration into the soil leading to accelerated run-off and risk of soil erosion. Existing modelling approaches to predict soil compaction risk either require data on soil mechanical behaviour that are difficult and expensive to collect, or are expert-based systems that are highly subjective and sometimes cannot accommodate the myriad of processes underlying compaction risk. Using the generic framework, a detailed BBN for assessing the risk of soil compaction is developed. The BBN allows for combining available data from standard soil surveys and land use databases with qualitative expert knowledge and explicitly accounts for uncertainties in the assessment of the risk. The BBN is applied to identif
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ispartof Soil & tillage research, 2013-08, Vol.132, p.56-68
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subjects Agronomy. Soil science and plant productions
Bayesian Belief Network
Biological and medical sciences
Expert knowledge
Fundamental and applied biological sciences. Psychology
Risk assessment
Soil compaction
Soil Framework directive
Soil science
Uncertainty
title Application of Bayesian Belief Networks to quantify and map areas at risk to soil threats: Using soil compaction as an example
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