2013
DOI: 10.1371/journal.pone.0080988
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Using Satellite and Airborne LiDAR to Model Woodpecker Habitat Occupancy at the Landscape Scale

Abstract: Incorporating vertical vegetation structure into models of animal distributions can improve understanding of the patterns and processes governing habitat selection. LiDAR can provide such structural information, but these data are typically collected via aircraft and thus are limited in spatial extent. Our objective was to explore the utility of satellite-based LiDAR data from the Geoscience Laser Altimeter System (GLAS) relative to airborne-based LiDAR to model the north Idaho breeding distribution of a fores… Show more

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Cited by 38 publications
(35 citation statements)
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“…Measures of forest vertical structure (e.g., mean and standard deviation of canopy height) and horizontal patterns of vertical structure (assessed by both semivariograms and lacunarity analysis), together with elevation, land-cover and hydrography data were found useful in predictive distribution modelling for the red-cockaded woodpecker (Picoides borealis, Vieillot) in a forested catchment in North Carolina [31]. For the red-naped sapsucker (Sphyrapicus nuchalis) in northern Idaho, key airborne lidar variables for predicting breeding site selection were foliage height diversity, the distance between major strata in the canopy vertical profile, and vegetation density close to the ground [17]. Moving away from birds as the focal species, in a study of the Pacific fisher in the Sierra Nevada Mountains, California, tree height and slope were shown to be important variables within a 20 m radius of a denning tree, but forest structure and complexity became more important between 20 m and 50 m [19].…”
Section: Assessment Of Results Against Study Aimsmentioning
confidence: 99%
See 1 more Smart Citation
“…Measures of forest vertical structure (e.g., mean and standard deviation of canopy height) and horizontal patterns of vertical structure (assessed by both semivariograms and lacunarity analysis), together with elevation, land-cover and hydrography data were found useful in predictive distribution modelling for the red-cockaded woodpecker (Picoides borealis, Vieillot) in a forested catchment in North Carolina [31]. For the red-naped sapsucker (Sphyrapicus nuchalis) in northern Idaho, key airborne lidar variables for predicting breeding site selection were foliage height diversity, the distance between major strata in the canopy vertical profile, and vegetation density close to the ground [17]. Moving away from birds as the focal species, in a study of the Pacific fisher in the Sierra Nevada Mountains, California, tree height and slope were shown to be important variables within a 20 m radius of a denning tree, but forest structure and complexity became more important between 20 m and 50 m [19].…”
Section: Assessment Of Results Against Study Aimsmentioning
confidence: 99%
“…This makes use of lidar data as an explanatory tool to increase understanding (and quantification) of resource selection by species of known distribution [13]. Such studies have most frequently focussed on bird species [14][15][16][17], but with a growing number examining mammals, such as the bald-faced saki monkey (Pithecia irrorata) [18], Pacific fisher (Martes pennanti) [19], moose (Alces alces) [20], and red squirrel (Sciurus vulgaris) [21].…”
Section: Introductionmentioning
confidence: 99%
“…We used discrete return Light Detection and Ranging (LiDAR) to determine structural characteristics of vegetation important for elk hiding and thermal cover (Hill and Thomson , Vierling et al ). The LiDAR data were collected from aircraft by the United States Army Corps of Engineers when foliage was present in 2010.…”
Section: Methodsmentioning
confidence: 99%
“…The typical measures derived from both discrete and waveform airborne lidar were comparable, usually characterizing some aspect of canopy height, density, or the distribution of vegetation within specific height strata. The only study exploring spaceborne lidar for habitat assessment applications was Vierling et al (2013) who compared the utility of discrete airborne lidar metrics with those derived from satellite-based Geoscience Laser Altimeter Systems (GLAS) lidar for quantifying red-naped sapsucker habitat relationships.…”
Section: Lidar Wildlife Habitat Studiesmentioning
confidence: 99%