Abstract
Social insects such as ants can use geomagnetic field information in orientation and navigation tasks. However, few studies have assessed the effect of magnetic fields on aspects such as orientation and decision making during foraging of ants. Therefore, the present study aims to test the hypothesis that foragers of different species of ants with different foraging strategies when under effect of applied magnetic field change the patterns of search for resources and recruitment of ants. We used two species with solitary foraging strategy, Ectatomma brunneum and Neoponera inversa, and another with mass recruitment, Pheidole sp. The experiments were performed in field and laboratory conditions. We used some parameters for comparison such as speed, distance and time during foraging in the field and laboratory experiments, under normal and applied magnetic field with the coils on and off. We also performed SQUID magnetometry analysis for all species. The results demonstrate that changes in normal values of magnetic field affect workers behaviour of the three species. Thus, we can conclude that ants under the effect of applied magnetic fields can suffer significant changes in their foraging activities decreasing the flow of workers, increasing the travelled distance from the nest to the resource and back to the nest, in addition to time and distance to fetch the resource and decision-making, in both types of species, those which have mass recruitment, or forage individually, and that the three species are magnetosensitive, being affected by changes of low intensity in the local magnetic field.
Highlights
The geomagnetic field is an abiotic component, which interacts permanently with living beings and has been present since the emergence of life on Earth [1]
We can observe by visual inspection of some trajectories of Pheidole sp. workers that there is a change between the condition with normal MF and applied MF (Fig 3 and S1–S10 Figs)
The present study shows that the three ant species are magnetosensitive, and were affected by changes of low intensity in the local magnetic field
Summary
The geomagnetic field is an abiotic component, which interacts permanently with living beings and has been present since the emergence of life on Earth [1]. Many animals are sensitive to magnetic fields [2,3,4]. In the case of marine environments, animals can use electroreceptor organs to detect orientation cues from the geomagnetic field [3,5]. Animals can use the direction of the geomagnetic field vector as a compass during homing or migratory activities [3,4].
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