A pheromone antagonist liberates female sea lamprey from a sensory trap to enable reliable communication

The evolution of male signals and female preferences remains a central question in the study of animal communication. The sensory trap model suggests males evolve signals that mimic cues used in nonsexual contexts and thus manipulate female behavior to generate mating opportunities. Much evidence su...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 117; no. 13; pp. 7284 - 7289
Main Authors Buchinger, Tyler J., Scott, Anne M., Fissette, Skye D., Brant, Cory O., Huertas, Mar, Li, Ke, Johnson, Nicholas S., Li, Weiming
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 31.03.2020
Subjects
Animal behavior
Animal communication
Biological Sciences
Chemical communication
Communications systems
Females
Larvae
Males
Mating behavior
Nursery grounds
Odorants
Odors
Petromyzon marinus
Pheromones
Spawning
Sulfates
chemical ecology
signal evolution
mimicry
sexual selection
receiver bias
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Summary:The evolution of male signals and female preferences remains a central question in the study of animal communication. The sensory trap model suggests males evolve signals that mimic cues used in nonsexual contexts and thus manipulate female behavior to generate mating opportunities. Much evidence supports the sensory trap model, but how females glean reliable information from both mimetic signals and their model cues remains unknown. We discovered a mechanism whereby a manipulative male signal guides reliable communication in sea lamprey (Petromyzon marinus). Migratory sea lamprey follow a larval cue into spawning streams; once sexually mature, males release a pheromone that mimics the larval cue and attracts females. Females conceivably benefit from the mimetic pheromone during mate search but must discriminate against the model cue to avoid orienting toward larvae in nearby nursery habitats. We tested the hypothesis that spawning females respond to petromyzonol sulfate (PZS) as a behavioral antagonist to avoid attraction to the larval cue while tracking the male pheromone despite each containing attractive 3-keto petromyzonol sulfate (3kPZS). We found 1) PZS inhibited electrophysiological responses to 3kPZS and abated preferences for 3kPZS when mixed at the same or greater concentrations, 2) larvae released more PZS than 3kPZS whereas males released more 3kPZS than PZS, and 3) mixtures of 3kPZS and PZS applied at ratios measured in larval andmale odorants resulted in the discrimination observed between the natural odors. Our study elucidates how communication systems that arise via deception can facilitate reliable communication.
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4Present address: Yantai Institute of Coastal Zone Research, Chinese Academy of Sciences, 264003 Shandong, China.
Author contributions: T.J.B., A.M.S., and W.L. designed research; T.J.B., A.M.S., S.D.F., C.O.B., M.H., K.L., and N.S.J. performed research; T.J.B., A.M.S., S.D.F., C.O.B., and K.L. analyzed data; T.J.B., A.M.S., and W.L. wrote the paper; and W.L. coordinated the overall study.
1T.J.B. and A.M.S. contributed equally to this work.
Edited by John G. Hildebrand, University of Arizona, Tucson, AZ, and approved February 21, 2020 (received for review December 12, 2019)
3Present address: Department of Biology, Texas State University, San Marcos, TX 78666.
2Present address: Great Lakes Science Center, US Geological Survey, Ann Arbor, MI 48105.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1921394117