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Data from: Neural representation of bat predation risk and evasive flight in moths: a modelling approach

Cite this dataset

Goerlitz, Holger R.; ter Hofstede, Hannah M.; Holderied, Marc W. (2019). Data from: Neural representation of bat predation risk and evasive flight in moths: a modelling approach [Dataset]. Dryad. https://doi.org/10.5061/dryad.q5h132n

Abstract

Most animals are at risk from multiple predators and can vary anti-predator behaviour based on the level of threat posed by each predator. Animals use sensory systems to detect predator cues, but the relationship between the tuning of sensory systems and the sensory cues related to predator threat are not well-studied at the community level. Noctuid moths have ultrasound-sensitive ears to detect the echolocation calls of predatory bats. Here, combining empirical data and mathematical modelling, we show that moth hearing is adapted to provide information about the threat posed by different sympatric bat species. First, we found that multiple characteristics related to the threat posed by bats to moths correlate with bat echolocation call frequency. Second, the frequency tuning of the most sensitive auditory receptor in noctuid moth ears provides information allowing moths to escape detection by all sympatric bats with similar safety margin distances. Third, the least sensitive auditory receptor usually responds to bat echolocation calls at a similar distance across all moth species for a given bat species. If this neuron triggers last-ditch evasive flight, it suggests that there is an ideal reaction distance for each bat species, regardless of moth size. This study shows that even a very simple sensory system can adapt to deliver information suitable for triggering appropriate defensive reactions to each predator in a multiple predator community.

Usage notes

This data set contains all data (bat parameters, moth parameters, detection distances, buffer distances) for:

Goerlitz, ter Hofstede & Holderied: "Neural representation of bat predation risk and evasive flight in moths: a modelling approach", published in the Journal of Theoretical Biology

Funding

Biotechnology and Biological Sciences Research Council, Award: BB/f002386/1

Deutsche Forschungsgemeinschaft, Award: GO 2091/2-1

Deutsche Forschungsgemeinschaft, Award: GO 2091/2-2

Dartmouth College, Award: [no grant number]

Location

Europe