Studies utilizing Global Positioning System (GPS) telemetry rarely result in 100% fix success rates (FSR). Many assessments of wildlife resource use do not account for missing data, either assuming data loss is random or because a lack of practical treatment for systematic data loss. Several studies have explored how the environment, technological features, and animal behavior influence rates of missing data in GPS telemetry, but previous spatially explicit models developed to correct for sampling bias have been specified to small study areas, on a small range of data loss, or to be species-specific, limiting their general utility. Here we explore environmental effects on GPS fix acquisition rates across a wide...
Types: Citation;
Tags: Arizona,
Bias,
Bias correction,
California,
Collarsl, All tags...
Cougar,
Data Model,
Detection,
Fix Success Rate,
GPS,
Global Positioning Systems,
Home range,
Landforms,
Mountain lion,
Nevada,
Northern Arizona,
Observation Model,
Positive openness,
Probability,
Puma concolor,
Python script,
Southwestern USA,
Telemetry,
Terrain measure,
Terrestrial,
Topographic exposure,
USA,
USGS Science Data Catalog (SDC),
United States,
Utah,
Viewshed,
Wildlife, Fewer tags
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