Author:
Luisa Vissat Ludovica,Cain Shlomo,Toledo Sivan,Spiegel Orr,Getz Wayne M.
Abstract
AbstractBackgroundMovement is central to understanding the ecology of animals. The most robustly definable segments of an individual’s lifetime track are its diel activity routines (DARs). This robustness is due to fixed start and end points set by a 24-h clock that depends on the individual’s quotidian schedule. An analysis of day-to-day variation in the DARs of individuals, their comparisons among individuals, and the questions that can be asked, particularly in the context of lunar and annual cycles, depends on the relocation frequency and spatial accuracy of movement data. Here we present methods for categorizing the geometry of DARs for high frequency (seconds to minutes) movement data.MethodsOur method involves an initial categorization of DARs using data pooled across all individuals. We approached this categorization using a Ward clustering algorithm that employs four scalar “whole-path metrics” of trajectory geometry: 1. (distance between start and end points), 2. from start point, 3. , and 4. . We illustrate the general approach using reverse-GPS data obtained from 44 barn owls,Tyto alba, in north-eastern Israel. We conducted a principle components analysis (PCA) to obtain a factor, , that essentially captures the scale of movement. We then used a generalized linear mixed model with as the dependent variable to assess the effects of age and sex on movement.ResultsWe clustered 6230 individual DARs into 7 categories representing different shapes and scale of the owls nightly routines. Five categories based on size and elongation were classified as closed (i.e. returning to the same roost), one as partially open (returning to a nearby roost) and one as fully open (leaving for another region). Our PCA revealed that the DAR scale factor, , accounted for 86.5% of the existing variation. It also showed that captures the openness of the DAR and accounted for another 8.4% of the variation. We also constructed spatio-temporal distributions of DAR types for individuals and groups of individuals aggregated by age, sex, and seasonal quadrimester, as well as identify some idiosyncratic behavior of individuals within family groups in relation to location. Finally, we showed in two ways that DARs were significantly larger in young than adults and in males than females.ConclusionOur study offers a new method for using high-frequency movement data to classify animal diel movement routines. Insights into the types and distributions of the geometric shape and size of DARs in populations may well prove to be more invaluable for predicting the space-use response of individuals and populations to climate and land-use changes than other currently used movement track methods of analysis.
Funder
A. Starker Leopold Chair of Wildlife Ecology
Hoopoe Foundation
Society for the Protection of Nature in Israel
Ministry of Regional Cooperation, Israel
Ministry of Agriculture and Rural Development, Israel
Larry Kornhauser
Peter and Naomi Neustadter
Minerva Foundation
Israel Science Foundation
Koret-UC Berkeley-Tel Aviv University Initiative in Computational Biology and Bioinformatics
Data Science Center at Tel Aviv University
Publisher
Springer Science and Business Media LLC
Subject
Ecology, Evolution, Behavior and Systematics
Cited by
5 articles.
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