Compensatory heterogeneity in spatially explicit capture–recapture data

Spatially explicit capture–recapture methods, used widely to estimate the abundance of large carnivores, allow for movement within home ranges during sampling. Probability of detection is a decreasing function of distance from the home range center, with one parameter for magnitude and another for s...

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Bibliographic Details
Main Authors: M. G. Efford, G. Mowat
Format: Article in Journal/Newspaper
Language:unknown
Published: Figshare 2016
Subjects:
Environmental Science
Ecology
FOS Biological sciences
Ursus arctos
Online Access:https://dx.doi.org/10.6084/m9.figshare.c.3306741
https://figshare.com/collections/Compensatory_heterogeneity_in_spatially_explicit_capture_recapture_data/3306741
Description
Summary:Spatially explicit capture–recapture methods, used widely to estimate the abundance of large carnivores, allow for movement within home ranges during sampling. Probability of detection is a decreasing function of distance from the home range center, with one parameter for magnitude and another for spatial scale. Sex-based and other differences in home range size potentially cause heterogeneity in individual detection and bias in estimates of density. The two parameters of detection have hitherto been treated as independent, but we suggest that an inverse relation is expected when detection probability depends on time spent near the detector. Variation in the spatial scale of detection is then compensated by reciprocal variation in the magnitude parameter. We define a net measure of detection (“single-detector sampling area,” a 0 ), and show by simulation that its coefficient of variation (CV) is a better predictor of bias than the CV of either component or the sum of their squared CVs. In an example using the grizzly bear Ursus arctos , the estimated sex variation in a 0 was small despite large variation in each component. From the simulations, the relative bias of density estimates was generally negligible (<5%) when CV( a 0 ) < 30%. Parameterization of the detection model in terms of a 0 and spatial scale can be more parsimonious and significantly aids the biological interpretation of detection parameters.

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