Dennis C. Duro scite author profile

Biodiversity is a multifaceted concept that often eludes simple operational definitions. As a result, a variety of definitions have been proposed each with varying levels of complexity and scope. While different definitions of biodiversity exist, the basic unit of measurement for the vast majority of studies is conducted at the species level. Traditional approaches to measuring species richness provide useful, yet spatially constrained information. Remote sensing offers the opportunity for large area characterizations of biodiversity in a systematic, repeatable, and spatially exhaustive manner. Based on this review we examine the potential for a national biodiversity monitoring system for Canada driven by remote sensing, a country approaching 1 billion ha in area, with the aim of producing recommendations that are transferable for regional or continental applications. A combination of direct and indirect approaches is proposed, with four selected key indicators of diversity that can be derived from Earth observation data: productivity, disturbance, topography, and land cover. Monitoring these indicators through time at an ecosystem level has the potential to provide a national early warning system, indicating where areas of potential biodiversity change may be occurring. We believe the large area biodiversity monitoring system as outlined would provide an initial stratification of key areas where regional and local scale analysis can be focused, while also providing context-specific information for species collection data.

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Multi-scale object-based image analysis and feature selection of multi-sensor earth observation imagery using random forests

Duro¹,

Franklin

Dubé

2012

International Journal of Remote Sensing

157

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The development of a Canadian dynamic habitat index using multi-temporal satellite estimates of canopy light absorbance

Coops

Wulder

Duro

et al. 2008

Ecological Indicators

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Dennis C. Duro

A comparison of pixel-based and object-based image analysis with selected machine learning algorithms for the classification of agricultural landscapes using SPOT-5 HRG imagery

Farmlands with smaller crop fields have higher within-field biodiversity

Development of a large area biodiversity monitoring system driven by remote sensing

Multi-scale object-based image analysis and feature selection of multi-sensor earth observation imagery using random forests

The development of a Canadian dynamic habitat index using multi-temporal satellite estimates of canopy light absorbance

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