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Taking movement data to new depths: Inferring prey availability and patch profitability from seabird foraging behavior
Authors:Marianna Chimienti  Thomas Cornulier  Ellie Owen  Mark Bolton  Ian M. Davies  Justin M. J. Travis  Beth E. Scott
Affiliation:1. School of Biological Sciences, University of Aberdeen, Aberdeen, UK;2. Marine Scotland Science, Marine Laboratory, Scottish Government, Aberdeen, UK;3. RSPB Centre for Conservation Science, North Scotland Office, Inverness, UK;4. RSPB Centre for Conservation Science, The Lodge, Sandy, Bedfordshire, UK
Abstract:Detailed information acquired using tracking technology has the potential to provide accurate pictures of the types of movements and behaviors performed by animals. To date, such data have not been widely exploited to provide inferred information about the foraging habitat. We collected data using multiple sensors (GPS, time depth recorders, and accelerometers) from two species of diving seabirds, razorbills (Alca torda,= 5, from Fair Isle, UK) and common guillemots (Uria aalge,= 2 from Fair Isle and = 2 from Colonsay, UK). We used a clustering algorithm to identify pursuit and catching events and the time spent pursuing and catching underwater, which we then used as indicators for inferring prey encounters throughout the water column and responses to changes in prey availability of the areas visited at two levels: individual dives and groups of dives. For each individual dive (= 661 for guillemots, 6214 for razorbills), we modeled the number of pursuit and catching events, in relation to dive depth, duration, and type of dive performed (benthic vs. pelagic). For groups of dives (= 58 for guillemots, 156 for razorbills), we modeled the total time spent pursuing and catching in relation to time spent underwater. Razorbills performed only pelagic dives, most likely exploiting prey available at shallow depths as indicated by the vertical distribution of pursuit and catching events. In contrast, guillemots were more flexible in their behavior, switching between benthic and pelagic dives. Capture attempt rates indicated that they were exploiting deep prey aggregations. The study highlights how novel analysis of movement data can give new insights into how animals exploit food patches, offering a unique opportunity to comprehend the behavioral ecology behind different movement patterns and understand how animals might respond to changes in prey distributions.
Keywords:animal movements  foraging strategies  patch profitability  predators  prey availability
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