10.18710/2ZG3EIHenden, John-AndréJohn-AndréHenden0000-0002-8825-1167UiT The Arctic University of NorwayReplication Data for: Accounting for food web dynamics when assessing the impact of mesopredator control on declining prey populationsDataverseNO2020Earth and Environmental SciencesEcologyHierarchical modelsConservation assessmentHenden, John-AndréUiT The Arctic University of NorwayUiT The Arctic University of NorwayUiT The Arctic University of NorwayUiT The Arctic University of Norway2020-11-032023-09-28Observational data10.1111/1365-2664.13793411060213489214text/plainapplication/gzipapplication/gziptype/x-r-syntax1.2CC0 1.0<p>These are files to be able to reproduce the analyses and plots in Henden et al. 2020 in Journal of Applied Ecology.</p> <p>Data on willow ptarmigan are based on line transect distance sampling. Small rodent data are based on an abundance index from sampling using the small quadrat sampling scheme.</p> <p>Carcass data comes from a national database of dead reindeer found Harvest data comes from detailed records from the main management and landowner, FeFo, in Finnmark.</p> <p>Data on red foxes comes from an ongoing fox decimation program on Varanger Peninsula.</p>Abstract from accepted paper in Journal of Applied Ecology <ol> <li>Increasing populations of mesopredators are suspected to cause declines in vulnerable wildlife to the extent that mesopredator decimation actions (culling) have become commonplace. Design constraints, especially a lack of spatial replication, often hamper the assessment of the impact of such actions. However, extensive temporal replication (i.e. time series) and accounting for potentially confounding variables may alleviate this problem.</li> <li>In alpine-arctic tundra, the red fox Vulpes vulpes is increasing, while many bird species are declining, likely due to increased predation. Here, we assessed the impact of a long-term (12-year) and spatially extensive (~3500km2) red fox culling action on the red listed willow ptarmigan Lagopus lagopus in the Norwegian Arctic. Ptarmigan populations were monitored annually in the impact area and in an adjacent no-action area, including a 5-year period before the action commenced. While logistical constraints prohibited monitoring of red fox population densities, the number of culled foxes and three influential food web covariates were monitored after the onset of the culling action.</li> <li>A Before-After-Control-Impact-Paired-Series (BACIPS) analysis without food web covariates indicated that red fox culling curbed the decline of the population in the impact area, and that ptarmigan population density became ~25 % higher than in the reference area.</li> <li>Spatially and temporally variable drivers within the food web confounded the simple BACIPS analysis. Accounting for three food web drivers as covariates in a linear mixed model after the onset of action, yielded a more unbiased impact estimate that amounted to ~40 % higher ptarmigan population density (4.3 more ptarmigan/km2) in the red fox impact area.</li> <li>Synthesis and applications. We provide the first evidence of the role of the recent expansion of red fox in the decline of bird populations in tundra. We also show that red fox culling may be able to curb such declines, given that management actions are large-scale and long-term. As mesopredator culling campaigns are often expensive and controversial, it is important that their impacts are accurately assessed. We demonstrate that the accuracy of impact assessments can be profoundly increased by monitoring drivers of food web dynamics that impinge on the target species so that such drivers can be included as covariates in the analysis. This applies in particular to declining bird populations in boreal and arctic food webs ruled by strong multi-annual interaction cycles.</li> </ol>