Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/72430
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Type: Journal article
Title: Multi-scale marine biodiversity patterns inferred efficiently from habitat image processing
Author: Mellin, C.
Parrott, L.
Andrefouet, S.
Bradshaw, C.
MacNeil, M.
Caley, M.
Citation: Ecological Applications, 2012; 22(3):792-803
Publisher: Ecological Soc Amer
Issue Date: 2012
ISSN: 1051-0761
Statement of
Responsibility: 
Camille Mellin, Lael Parrott, Serge Andréfouët, Corey J. A. Bradshaw, M. Aaron MacNeil, and M. Julian Caley
Abstract: Cost-effective proxies of biodiversity and species abundance, applicable across a range of spatial scales, are needed for setting conservation priorities and planning action. We outline a rapid, efficient, and low-cost measure of spectral signal from digital habitat images that, being an effective proxy for habitat complexity, correlates with species diversity and requires little image processing or interpretation. We validated this method for coral reefs of the Great Barrier Reef (GBR), Australia, across a range of spatial scales (1 m to 10 km), using digital photographs of benthic communities at the transect scale and high-resolution Landsat satellite images at the reef scale. We calculated an index of image-derived spatial heterogeneity, the mean information gain (MIG), for each scale and related it to univariate (species richness and total abundance summed across species) and multivariate (species abundance matrix) measures of fish community structure, using two techniques that account for the hierarchical structure of the data: hierarchical (mixed-effect) linear models and distance-based partial redundancy analysis. Over the length and breadth of the GBR, MIG alone explained up to 29% of deviance in fish species richness, 33% in total fish abundance, and 25% in fish community structure at multiple scales, thus demonstrating the possibility of easily and rapidly exploiting spatial information contained in digital images to complement existing methods for inferring diversity and abundance patterns among fish communities. Thus, the spectral signal of unprocessed remotely sensed images provides an efficient and low-cost way to optimize the design of surveys used in conservation planning. In data-sparse situations, this simple approach also offers a viable method for rapid assessment of potential local biodiversity, particularly where there is little local capacity in terms of skills or resources for mounting in-depth biodiversity surveys.
Keywords: biodiversity; coral reef fish; ecological indicators; Great Barrier Reef, Australia; Landsat; mean information gain; multilevel mixed-effects model; photography; remote sensing; spectral signal
Rights: Copyright 2012 by the Ecological Society of America
RMID: 0020118759
DOI: 10.1890/11-2105.1
Appears in Collections:Earth and Environmental Sciences publications
Environment Institute Leaders publications
Environment Institute publications

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