A condition metric for Eucalyptus woodland derived from expert evaluations

Autor:	Peter Griffioen, Steve J. Sinclair, Matt White, Amanda Dodd, Matthew J. Bruce
Rok vydání:	2017
Předmět:	0106 biological sciences Ecology Computer science business.industry 010604 marine biology & hydrobiology media_common.quotation_subject Decision tree Expert elicitation Woodland Machine learning computer.software_genre 010603 evolutionary biology 01 natural sciences Expert system Data set Quality (business) Multidimensional scaling Artificial intelligence Metric (unit) business computer Ecology Evolution Behavior and Systematics Nature and Landscape Conservation media_common
Zdroj:	Conservation Biology. 32:195-204
ISSN:	0888-8892
DOI:	10.1111/cobi.12941
Popis:	The evaluation of ecosystem quality is important for land-management and land-use planning. Evaluation is unavoidably subjective, and robust metrics must be based on consensus and the structured use of observations. We devised a transparent and repeatable process for building and testing ecosystem metrics based on expert data. We gathered quantitative evaluation data on the quality of hypothetical grassy woodland sites from experts. We used these data to train a model (an ensemble of 30 bagged regression trees) capable of predicting the perceived quality of similar hypothetical woodlands based on a set of 13 site variables as inputs (e.g., cover of shrubs, richness of native forbs). These variables can be measured at any site and the model implemented in a spreadsheet as a metric of woodland quality. We also investigated the number of experts required to produce an opinion data set sufficient for the construction of a metric. The model produced evaluations similar to those provided by experts, as shown by assessing the model's quality scores of expert-evaluated test sites not used to train the model. We applied the metric to 13 woodland conservation reserves and asked managers of these sites to independently evaluate their quality. To assess metric performance, we compared the model's evaluation of site quality with the managers' evaluations through multidimensional scaling. The metric performed relatively well, plotting close to the center of the space defined by the evaluators. Given the method provides data-driven consensus and repeatability, which no single human evaluator can provide, we suggest it is a valuable tool for evaluating ecosystem quality in real-world contexts. We believe our approach is applicable to any ecosystem.
Databáze:	OpenAIRE
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