Litcius/Paper detail

Physiology can predict animal activity, exploration, and dispersal

Nicholas C. Wu, Frank Seebacher

2022Communications Biology45 citationsDOIOpen Access PDF

Abstract

Physiology can underlie movement, including short-term activity, exploration of unfamiliar environments, and larger scale dispersal, and thereby influence species distributions in an environmentally sensitive manner. We conducted meta-analyses of the literature to establish, firstly, whether physiological traits underlie activity, exploration, and dispersal by individuals (88 studies), and secondly whether physiological characteristics differed between range core and edges of distributions (43 studies). We show that locomotor performance and metabolism influenced individual movement with varying levels of confidence. Range edges differed from cores in traits that may be associated with dispersal success, including metabolism, locomotor performance, corticosterone levels, and immunity, and differences increased with increasing time since separation. Physiological effects were particularly pronounced in birds and amphibians, but taxon-specific differences may reflect biased sampling in the literature, which also focussed primarily on North America, Europe, and Australia. Hence, physiology can influence movement, but undersampling and bias currently limits general conclusions.

Topics & Concepts

Biological dispersalBiologyEcologyRange (aeronautics)HabitatDemographyPopulationMaterials scienceComposite materialSociologyAnimal Behavior and ReproductionAmphibian and Reptile BiologyWildlife Ecology and Conservation