Selecting biological indicators for monitoring soils: a framework for balancing scientific opinion to assist policy development
Ritz, Karl; Black, Helaina I. J.; Campbell, Colin D.; Harris, Jim A.; Wood, Claire. 2009 Selecting biological indicators for monitoring soils: a framework for balancing scientific opinion to assist policy development. Ecological Indicators, 9 (6). 1212-1221. 10.1016/j.ecolind.2009.02.009Before downloading, please read NORA policies.
RitzN006062PP.pdf - Accepted Version
Soils are one of the most important features of the natural capital of terrestrial ecosystems. There is a strong and increasing policy requirement for effective monitoring of soils at local, regional and national scales. However, it remains unclear which properties of soils are most appropriately monitored. This is partly due to the wide range of goods and services that soils provide, but also their inherent chemical, physical and biological complexity. Given that the biota plays such fundamental roles in the majority of ecosystem services provided by soils, biological properties are logical candidates as effective indicators, to complement other physico-chemical properties. A plethora of biological methods have been suggested as indicators for monitoring soils but few are used in national scale monitoring or are published as international standards. A framework for selecting ecologically-relevant biological indicators of soil quality for national-scale soil monitoring that covers the full range of ecological functions and services of soil was devised. The literature was surveyed to identify 183 candidate biological indicators which were then scored by experts and stakeholders against a wide range of scientific and technical criteria. The framework used the scores and weightings to then rank, prioritise and select the indicators. This semi-objective approach using a “logical-sieve” allowed repeated iterations to take account of end-user requirements and expert opinion. A ranked list of 21 indicators was produced that covered a range of genotypic-, phenotypic- and functional-based indicators for different trophic groups. Four of these were not deemed sufficiently robust for ready deployment in a national-scale monitoring scheme without further methodological development. The suite of indicators identified offers the strongest potential candidates for deployment in national-scale soil monitoring schemes provided standard operating procedures are defined and their inherent sensitivity, ability to discriminate between soil:land-use combinations, and provide ecologically interpretable signals is confirmed. The power of the approach adopted here is that it provides a clear record and audit trail on the decision-making process, enables different priorities to be set contingent on the nature of the desired monitoring, and can direct and allow the inclusion of further methods or indicators into the framework.
|Item Type:||Publication - Article|
|Digital Object Identifier (DOI):||10.1016/j.ecolind.2009.02.009|
|Programmes:||CEH Programmes pre-2009 publications > Biodiversity|
|Additional Information. Not used in RCUK Gateway to Research.:||The definitive version of this article is available from www.elsevier.com|
|Additional Keywords:||biological indicators, soil health, soil quality, monitoring|
|NORA Subject Terms:||Agriculture and Soil Science
Biology and Microbiology
Ecology and Environment
|Date made live:||10 Jun 2009 14:49|
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