Methods in Ecology and Evolution (Nov 2024)

Bringing circuit theory into spatial occupancy models to assess landscape connectivity

  • Maëlis Kervellec,
  • Thibaut Couturier,
  • Sarah Bauduin,
  • Delphine Chenesseau,
  • Pierre Defos du Rau,
  • Nolwenn Drouet‐Hoguet,
  • Christophe Duchamp,
  • Julien Steinmetz,
  • Jean‐Michel Vandel,
  • Olivier Gimenez

DOI
https://doi.org/10.1111/2041-210X.14418
Journal volume & issue
Vol. 15, no. 11
pp. 2141 – 2152

Abstract

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Abstract Occupancy models were originally developed to better understand species distribution while accounting for imperfect detection. Because species distribution is not only shaped by habitat quality but also by the ability of individuals to reach suitable habitats, spatial dynamic occupancy models have been proposed to extend the original framework by defining that site colonisation was a function of the Euclidean distance to occupied sites. However, not all sites in the landscape are equally accessible due to the presence of barriers, that of corridors, etc. To account for connectivity between sites, the Euclidean distance has recently been replaced by a least‐cost path distance, which explicitly accounts for landscape resistance, but assumes that individuals will follow the optimal route. To relax this assumption, we first developed a new spatial occupancy model that incorporates commute‐time distance derived from circuit theory to model accessibility across sites. This distance has the advantage of modelling movement as a random walk and accounting for the fact that colonisation could be achieved from multiple paths. Our approach allows for the explicit estimation of landscape connectivity from detection/non‐detection data and a direct measure of connectivity uncertainty. We implemented the model in the Bayesian framework using the nimble R package, which allows useful R connectivity functions to be called from within the model. Second, we carried out a simulation study to assess the performance of our model by considering four scenarios depicting an increasing level of landscape resistance. Third, to illustrate our new approach, we studied the recolonisation of two carnivores in France. We quantified the degree to which rivers facilitate Eurasian otter (Lutra lutra) colonisation and highways impede Eurasian lynx (Lynx lynx) colonisation. Overall, spatial occupancy models provide a flexible framework to accommodate any distance metric designed to align with species dispersal ecology.

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