Duijns, Sjoerd J. Niles, Lawrence Dey, Amanda Aubry, Yves Friis, Christian Koch, Stephanie Anderson, Alexandra M. Smith, Paul A. AICc comparison of the statistical model for arrival in James Bay; Locations of groupings of automated telemetry receivers in North America; Estimates of the relationship between residual mass (relative body condition) and arrival dates to the sub-Arctic from Body condition explains migratory performance of a long distant migrant Table S1. AICc comparison of the statistical model for arrival in James Bay. The top 5 models are displayed, with the best model in boldface. Timing of arrival in James Bay is the response variable in all models. Departure refers to the last detection of an individual in Delaware Bay and tailwind refers to the tailwind the first 3h of the trajectory.; Fig S1. Locations of groupings of automated telemetry receivers in North America (see main text for details). The white dot indicates the capture site of Delaware Bay and the grey dot represents James Bay, located at the southern edge of the breeding grounds. The red dots indicate the fall detection sites of the Mingan Archipelago the Bay of Fundy. Maps created using R 3.3.3 using packages ggplot2, ggmap, raster and RgoogleMaps (image data providers: US Dept. of State Geographer © 2016); Fig S2. Estimates of the relationship between residual mass (relative body condition) and arrival dates to the sub-Arctic. Birds in a higher condition at the stopover site arrive earlier at the breeding grounds. Data points are estimates of linear mixed models (see main text for details), and the gray area represents 95% confidence intervals. automated telemetry;Calidris canutus rufa;departure decision;migratory performance;shorebirds 2017-10-16
    https://rs.figshare.com/articles/journal_contribution/AICc_comparison_of_the_statistical_model_for_arrival_in_James_Bay_Locations_of_groupings_of_automated_telemetry_receivers_in_North_America_Estimates_of_the_relationship_between_residual_mass_relative_body_condition_and_arrival_dates_to_the_sub-Arctic_from/5501386
10.6084/m9.figshare.5501386.v1