Abstract
Simple SummaryIn the burying beetle Nicrophorus vespilloides, mating pairs raise their offspring together on a small carrion resource. We tested whether carcass age affected brood quantity and quality and found that pairs had significantly more offspring on fresher carcasses. To determine whether this reproductive benefit translates to an olfactory preference or aversion for carcass age, we conducted a series of olfactory trials testing adult mated female preferences for carcasses differing in age. Mated females spent more time associating with fresh carcass odors relative to those of an aged one, but also spent more time in empty chambers than those with an aged carcass, suggesting that mated females have a general aversion to those odors. Lastly, we characterized the odor profiles of fresh and aged carcasses to determine which compounds might be driving this olfactory aversion in mated female burying beetles.Sensory cues predicting resource quality are drivers of key animal behaviors such as preference or aversion. Despite the abundance of behavioral choice studies across the animal kingdom, relatively few studies have tested whether these decisions are driven by preference for one choice or aversion to another. In the burying beetle Nicrophorus vespilloides, adult pairs exhibit parental care to raise their offspring on a small carrion resource. We tested whether carrion decomposition stage affected brood quantity and quality and found that mating pairs had significantly more offspring on fresher carcasses. To determine whether this observed reproductive benefit correlates with maternal preference behavior, we conducted a series of olfactory trials testing mated female preferences for mouse carcasses of differing decomposition stages. When given the option between fresh and older carcasses, females associated significantly more with fresher, 1-day old carcasses. However, this behavior may be driven by aversion, as females that were given a choice between the 7-day old carcass and a blank control spent significantly more time in the control chamber. We characterized volatile organic compound profiles of both carcass types, highlighting unique compounds that may serve as public information (sensu lato) conveying resource quality information to gravid beetles.
Highlights
Across animal systems, individuals rely on the sensory periphery to detect cues and signals emitted from a resource of interest or its microbial community and respond to them
We aimed to advance our understanding of preference behavior in the burying beetle Nicrophorus vespilloides, Herbst, (Coleoptera: Silphidae) in order to determine its potential in serving as a system for studying sensory valence
We found that the six-day difference in decomposition between our fresh and aged carcasses resulted in a significantly different volatile organic compounds (VOC) profile that females were able to respond differentially towards
Summary
Individuals rely on the sensory periphery to detect cues and signals emitted from a resource of interest or its microbial community and respond to them. Sensory valence can differ among individuals, but within individuals as well, for example in response to reproductive state [1,2,3]. The identification of these context-dependent behavioral responses can result in the creation of model systems aiming to characterize the neural and behavioral mechanisms of sensory valence
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
