2018
DOI: 10.1002/jwmg.21466
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A spatially explicit, multi‐scale occupancy model for large‐scale population monitoring

Abstract: One of the continuing challenges in wildlife ecology and management is the ability to obtain reliable estimates of species’ distributions at large spatial extents. Multi‐scale occupancy models using a cluster sampling design offer the opportunity to increase the resolution of estimates and model processes occurring at multiple spatial scales, increasing the efficiency of large‐scale monitoring and mitigating the tradeoff between extent and grain. However, accounting for spatial correlation among subsamples in … Show more

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Cited by 5 publications
(9 citation statements)
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“…Surveys occurred 1–3 days after a snowfall event, and the probability δj of observable tracks being laid was a function of time elapsed since the last snowfall event, and was also a Markovian process where track‐laying was more likely at segment i if tracks were also laid at segment i − 1 (Crosby and Porter 2018). For the purpose of simulating data, we defined ψi and θij as in Crosby and Porter (2018); ψi was the probability that a transect passed through ≥1 home range, and θij-0.15em=-0.15emP(uij-0.15em=-0.15em1) was the probability that route segment j on route i intersected ≥1 home range. In our simulated data, uij-0.15em=-0.15em1 when a segment j in sample unit i intersected a home range.…”
Section: Methodsmentioning
confidence: 99%
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“…Surveys occurred 1–3 days after a snowfall event, and the probability δj of observable tracks being laid was a function of time elapsed since the last snowfall event, and was also a Markovian process where track‐laying was more likely at segment i if tracks were also laid at segment i − 1 (Crosby and Porter 2018). For the purpose of simulating data, we defined ψi and θij as in Crosby and Porter (2018); ψi was the probability that a transect passed through ≥1 home range, and θij-0.15em=-0.15emP(uij-0.15em=-0.15em1) was the probability that route segment j on route i intersected ≥1 home range. In our simulated data, uij-0.15em=-0.15em1 when a segment j in sample unit i intersected a home range.…”
Section: Methodsmentioning
confidence: 99%
“…If defined appropriately, road segments may approximate point sampling units and possibly mitigate biases expected with areal sampling units (Efford and Dawson 2012). We conducted a series of simulations where we used the occupancy model of Crosby and Porter (2018) to generate data from simulated survey routes, and we fitted the simulated data to several models that used either areal grid cells or 1‐km route segments (to approximate points) as sample units (Table 1). The Crosby and Porter (2018) model explicitly separates the probability of track‐laying δ from the probability of occupancy (or use), and models the former as a function of the number of days elapsed since the last snowfall event, assuming that track‐laying accumulates, and tracks persist over time.…”
Section: Methodsmentioning
confidence: 99%
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“…1). We relied on subsampling within a spatial unit rather than temporally repeated visits to obtain repeated surveys of the primary sample location (i.e., space-for-time substitution [Kendall & White 2009;Pavlacky et al 2012;Crosby & Porter 2018]) (Appendix S1). We considered a single U.S. Census tract (defined as a relatively small subdivision of a county containing 1200-8000 people [Fig.…”
Section: Nested Subsamples and Occupancy Estimationmentioning
confidence: 99%
“…Multispecies occupancy models provide robust parameter estimates for species infrequently encountered during biodiversity surveys while correcting for sampling bias ( 20 ). Moreover, the advent of multiscale occupancy models accounts for the complexity of habitat selection ( 21 ), but to date, applications have been limited to single-species approaches ( 22 , 23 ). Thus, the formal integration of multispecies methods within a multiscale framework provides a powerful statistical tool to capture hierarchical habitat selection for vulnerable and rare species.…”
mentioning
confidence: 99%