A Dynamic Occupancy Model for Interacting Species with Two Spatial Scales
Permanent link
https://hdl.handle.net/10037/30110Date
2023-04-10Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Kleiven, Eivind Flittie; Barraquand, Frédéric; Gimenez, Olivier; Henden, John-André; Ims, Rolf Anker; Soininen, Eeva M; Yoccoz, NigelAbstract
Occupancy models have been extended to account for either multiple spatial scales or
species interactions in a dynamic setting. However, as interacting species (e.g., predators
and prey) often operate at different spatial scales, including nested spatial structure might
be especially relevant to models of interacting species. Here we bridge these two model
frameworks by developing a multi-scale, two-species occupancy model. The model is
dynamic, i.e. it estimates initial occupancy, colonization and extinction probabilities—
including probabilities conditional to the other species’ presence. With a simulation
study, we demonstrate that the model is able to estimate most parameters without marked
bias under low, medium and high average occupancy probabilities, as well as low, medium
and high detection probabilities, with only a small bias for some parameters in lowdetection scenarios. We further evaluate the model’s ability to deal with sparse field data
by applying it to a multi-scale camera trapping dataset on a mustelid-rodent predator–
prey system. Most parameters are estimated with low uncertainty (i.e. narrow posterior
distributions). More broadly, our model framework creates opportunities to explicitly
account for the spatial structure found in many spatially nested study designs, and to
study interacting species that have contrasting movement ranges with camera traps.
Supplementary materials accompanying this paper appear online.
Publisher
SpringerCitation
Kleiven, Barraquand, Gimenez, Henden, Ims, Soininen, Yoccoz. A Dynamic Occupancy Model for Interacting Species with Two Spatial Scales. Journal of Agricultural Biological and Environmental Statistics. 2023Metadata
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