Abstract
Intraspecific competition in large aggregations of animals should generate density-dependent effects on foraging patterns. To test how large differences in colony size affect foraging movements, we tracked seasonal movements of the African straw-coloured fruit bat (Eidolon helvum) from four colonies that range from 4000 up to 10 million animals. Contrary to initial predictions, we found that mean distance flown per night (9–99 km), number of nightly foraging sites (2–3) and foraging and commuting times were largely independent of colony size. Bats showed classic central-place foraging and typically returned to the same day roost each night. However, roost switching was evident among individuals in three of the four colonies especially towards the onset of migration. The relatively consistent foraging patterns across seasons and colonies indicate that these bats seek out roosts close to highly productive landscapes. Once foraging effort starts to increase due to local resource depletion they migrate to landscapes with seasonally increasing resources. This minimizes high intraspecific competition and may help to explain why long-distance migration, otherwise rare in bats, evolved in this highly gregarious species.
Highlights
Foraging behaviour varies with the number and behaviour of competitors [1,2]
We describe day roost fidelity in the different colonies to identify modifications of central place foraging in E. helvum
Increase in colony size in E. helvum was not reflected in the mean total distance flown per night
Summary
Foraging behaviour varies with the number and behaviour of competitors [1,2]. Living near large numbers of conspecifics can royalsocietypublishing.org/journal/rsos R. Central place foragers such as polydomous leaf-cutting ant species form large connected nests and may benefit from these extensive colonies by increasing foraging success on both clumped and dispersed resources [7,8]. They can gain information about profitable resources at the central place by reducing time spent at the foraging sites [9]. With higher numbers of individuals, resources near the central place are depleted faster, forcing animals to make longer foraging trips This is true for colonial seabirds where suitable breeding locations are limited [15,16,17]. Colonies can vary from 100–100 000 individuals, to one of the largest vertebrate aggregations estimated to comprise 5–10 million individuals during a three-month period per year at Kasanka National Park (NP) in Zambia
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