Probing the basis of soil resilience

Soils need to be resilient to deliver the functions required of them when subjected to perturbations within the context of short‐ and long‐term environmental change. A better understanding of the basis of resilience will likely underpin improved management of poorer soils to enhance their resilience...

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Published inSoil use and management Vol. 31; no. S1; pp. 72 - 81
Main Authors Corstanje, R, Deeks, L. R, Whitmore, A. P, Gregory, A. S, Ritz, K
Format Journal Article
LanguageEnglish
Published Bedfordshire Published for the British Society of Soil Science by Blackwell Scientific Publications 01.10.2015
Wiley Subscription Services, Inc
Subjects
Bayesian Belief Networks
Classification Regression Trees
data collection
issues and policy
land use
Management
Mathematical models
modelling
organic matter
Policies
Recovery
Resilience
Soil (material)
soil management
soil microorganisms
Soil resilience
soil texture
Surface layer
Texture
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Summary:Soils need to be resilient to deliver the functions required of them when subjected to perturbations within the context of short‐ and long‐term environmental change. A better understanding of the basis of resilience will likely underpin improved management of poorer soils to enhance their resilience, as well as allowing effective management of all soils in the longer term. In this study, resilience was defined as resistance (degree of change) coupled with recovery (rate and extent of subsequent recovery) from a disturbance. Modelling of factors that drive resilience of a prescribed physical (void ratio) and biological (respiration) soil function was carried out on published data pertaining to 38 English and Scottish soils. This revealed that soil taxonomic class, parent material and soil texture appeared dominant in determining soil resilience in general, and aspects of the soil microbial community were also pertinent. It is notable that land use and organic matter content, which are commonly hypothesized to be influential in this regard, ranked amongst the lowest significant factors. However, these conclusions are based upon the very limited coherent data sets currently available. The key implication of an apparent context dependency of the resistance and resilience phenomena is that management of them is likely to be possible, but not via a single or direct approach. It may require specific approaches in particular circumstances, and it is possible that the system‐level configuration of the soil is of greater consequence than individual factors. Hence, a system‐level approach to management of soils is likely to be the most effective strategy, and this should be considered in developing policy scenarios in relation to soil management.
Bibliography:http://dx.doi.org/10.1111/sum.12107
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ISSN:0266-0032
1475-2743
DOI:10.1111/sum.12107