0000000000426542

AUTHOR

Rojas Bibiana

showing 2 related works from this author

De novo Synthesis of Chemical Defenses in an Aposematic Moth.

2018

Abstract Many animals protect themselves from predation with chemicals, both self-made or sequestered from their diet. The potential drivers of the diversity of these chemicals have been long studied, but our knowledge of these chemicals and their acquisition mode is heavily based on specialist herbivores that sequester their defenses. The wood tiger moth (Arctia plantaginis, Linnaeus, 1758) is a well-studied aposematic species, but the nature of its chemical defenses has not been fully described . Here, we report the presence of two methoxypyrazines, 2-sec-butyl-3-methoxypyrazine and 2-isobutyl-3-methoxypyrazine, in the moths’ defensive secretions. By raising larvae on an artificial diet, …

Malechemical defensePyrazinesShort CommunicationAnimalspyrazineFemaleinsectMothsSolid Phase MicroextractionJournal of insect science (Online)
researchProduct

Weak warning signals can persist in the absence of gene flow.

2019

Significance With our comprehensive set of field (model survival), laboratory (controlled learning, palatability, toxin analysis), and molecular data, we provide evidence that polymorphism can persist in an aposematic population, despite expectations of positive frequency-dependent selection. We show that this can happen if prey species carrying a strong signal can exploit predator learning to elicit broad avoidance of many signals, even if predators only have experience with a single signal. This could allow novel signals to be protected within a population of aposematic prey. Thus, under the expectations of broad generalization coupled with limited gene flow, weak aposematic signals can p…

Gene FlowunpalatabilityBehavior AnimalEvolutionfood and beveragesGenetic VariationBiological SciencesBiological EvolutionModels BiologicalpolymorphismAnimal Communicationfrequency-dependent selectionGenetics PopulationPhenotypePNAS PlusPredatory BehaviorAvoidance LearningAnimalsaposematismAnuraChickensAnimals Poisonoussecondary defensesProceedings of the National Academy of Sciences of the United States of America
researchProduct