Drosophila increase exploration after visually detecting predators.

Miguel De La Flor,Claire Manson-Bishop,Gregg Roman,Kathya Zamora,Tzu-Chun Chu,Gemunu Gunaratne,Danielle Robbins,Lijian Chen,Amit Singh

doi:10.1371/journal.pone.0180749

Miguel De La Flor, Claire Manson-Bishop + Show 7 more

Open Access

https://doi.org/10.1371/journal.pone.0180749

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Journal: PloS one	Publication Date: Jul 26, 2017
Citations: 15	License type: CC BY 4.0

Affiliation: University of Houston, University of Mississippi

Abstract

Novel stimuli elicit behaviors that are collectively known as specific exploration. These behaviors allow the animal to become more familiar with the novel objects within its environment. Specific exploration is frequently suppressed by defensive reactions to predator cues. Herein, we examine if this suppression occurs in Drosophila melanogaster by measuring the response of these flies to wild harvested predators. The flies used in our experiments have been cultured and had not lived under predator threat for multiple decades. In a circular arena with centrally-caged predators, wild type Drosophila actively avoided the pantropical jumping spider, Plexippus paykulli, and the Texas unicorn mantis, Phyllovates chlorophaena, indicating an innate defensive reaction to these predators. Interestingly, wild type Drosophila males also avoided a centrally-caged mock spider, and the avoidance of the mock spider became exaggerated when it was made to move within the cage. Visually impaired Drosophila failed to detect and avoid the Plexippus paykulli and the moving mock spider, while the broadly anosmic orco2 mutants were fully capable of detecting and avoiding Plexippus paykulli, indicating that these flies principally relied upon vison to perceive the predator stimuli. During early exploration of the arena, exploratory activity increased in the presence of Plexippus paykulli and the moving mock spider. The elevated activity induced by Plexippus paykulli disappeared after the fly had finished exploring, suggesting the flies were capable of habituating the predator cues. Taken together, these results indicate that despite being isolated from predators for decades Drosophila will visually detect these predators, retain innate defensive behaviors, respond by increasing exploratory activity in the arena rather than suppressing activity, and may habituate to normal predator cues.

Highlights

Exploratory behaviors allow animals to gather information about their environment [1, 2]
To begin to develop a better understanding of how behavioral conflicts between exploration and defensive reactions are resolved, we have examined the effects of predators on exploration in Drosophila melanogaster
When a central cage is added to this circular arena, the flies spend additional time exploring this added vertical surface, but they still spend the majority of time adjacent to arena boundary

Summary

Introduction

Exploratory behaviors allow animals to gather information about their environment [1, 2]. The drive to explore novel features in the environment can be compelling in many species, superseding hunger, thirst, and even escape from predatory danger [4,5,6]. Defensive reactions due to anxiogenic stimuli, which include predatory threats, can strongly influence specific and locomotor exploration of novel environments in some species [7,8,9]

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