Abstract
All organisms must interact with their environment, responding in behavioral, chemical, and other ways to various stimuli throughout their life cycles. Characterizing traits that directly represent an organism's ability to sense and react to their environment provides useful insight into the evolution of life-history strategies. One such trait for the nematode Pristionchus pacificus, chemosensation, is involved in navigation to beetle hosts. Essential for the survival of the nematode, chemosensory behavior may be subject to variation as nematodes discriminate among chemical cues to complete their life cycle. We examine this hypothesis using natural isolates of P. pacificus from La Réunion Island. We select strains from a variety of La Réunion beetle hosts and geographic locations and examine their chemoattraction response toward organic compounds, beetle washes, and live beetles. We find that nematodes show significant differences in their response to various chemicals and are able to chemotax to live beetles in a novel assay. Further, strains can discriminate among different cues, showing more similar responses toward beetle washes than to organic compounds in cluster analyses. However, we find that variance in chemoattraction response is not significantly associated with temperature, location, or beetle host. Rather, strains show a more concerted response toward compounds they most likely directly encounter in the wild. We suggest that divergence in odor-guided behavior in P. pacificus may therefore have an important ecological component.
Highlights
Understanding the ways in which organisms interact with their surroundings requires identification and characterization of the phenotypic traits involved in environmental response
Ecology and Evolution published by John Wiley & Sons Ltd
We demonstrate that La Reunion P. pacificus strains show extreme variation in their odor-guided behavior and that this variance has an ecological component that is driven by concerted responses among strains toward compounds most likely directly encountered in the wild
Summary
Understanding the ways in which organisms interact with their surroundings requires identification and characterization of the phenotypic traits involved in environmental response Relevant traits, such as those involved in environmental sensing and monitoring, are useful, because they represent an organism’s ability to identify and cope with environmental change. The hermaphroditic nematode Pristionchus pacificus has an additional environmental interaction that utilizes its olfactory apparatus – a necromenic association with host beetles (Herrmann et al 2006, 2010; Hong and Sommer 2006). This association begins as P. pacificus selectively follows remote volatile cues from a potential host. Thereafter, P. pacificus detects a suite of chemical substances that cause it to resume development, feeding on the microbes that flourish on the beetle carcass (Herrmann et al 2006, 2007; Mayer and Sommer 2011)
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