4.6 Article

Poison frog dietary preference depends on prey type and alkaloid load

Journal

PLOS ONE
Volume 17, Issue 12, Pages -

Publisher

PUBLIC LIBRARY SCIENCE
DOI: 10.1371/journal.pone.0276331

Keywords

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Funding

  1. Pew Charitable Trusts [00034087]
  2. New York Stem Cell Foundation [NYSCF-RNI58]
  3. Society for Animal Behavior
  4. National Science Foundation [DBI-2109400, DGE-1656518]
  5. HHMI Gilliam fellowship [GT13330]

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This study investigates the relationship between dietary preferences and chemical defense load in poison frogs. The results show that frogs prefer interacting with smaller prey items and the overall preferences do not change during alkaloid consumption. Moreover, the study finds that the nutritional content of prey items also influences frog preferences.
The ability to acquire chemical defenses through the diet has evolved across several major taxa. Chemically defended organisms may need to balance chemical defense acquisition and nutritional quality of prey items. However, these dietary preferences and potential trade-offs are rarely considered in the framework of diet-derived defenses. Poison frogs (Family Dendrobatidae) acquire defensive alkaloids from their arthropod diet of ants and mites, although their dietary preferences have never been investigated. We conducted prey preference assays with the Dyeing Poison frog (Dendrobates tinctorius) to test the hypothesis that alkaloid load and prey traits influence frog dietary preferences. We tested size preferences (big versus small) within each of four prey groups (ants, beetles, flies, and fly larvae) and found that frogs preferred interacting with smaller prey items of the fly and beetle groups. Frog taxonomic prey preferences were also tested as we experimentally increased their chemical defense load by feeding frogs decahydroquinoline, an alkaloid compound similar to those naturally found in their diet. Contrary to our expectations, overall preferences did not change during alkaloid consumption, as frogs across groups preferred fly larvae over other prey. Finally, we assessed the protein and lipid content of prey items and found that small ants have the highest lipid content while large fly larvae have the highest protein content. Our results suggest that consideration of toxicity and prey nutritional value are important factors in understanding the evolution of acquired chemical defenses and niche partitioning.

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