Sex and weaponry: The distribution of toxin‐storage glands on the bodies of male and female cane toads (Rhinella marina)

The parotoid macroglands of bufonid anurans store (and can expel) large volumes of toxic secretions and have attracted detailed research. However, toxins also are stored in smaller glands that are distributed on the limbs and dorsal surface of the body. Female and male cane toads (Rhinella marina) d...

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Bibliographic Details
Published inEcology and evolution Vol. 7; no. 21; pp. 8950 - 8957
Main Authors Chen, Wei, Hudson, Cameron M., DeVore, Jayna L., Shine, Richard
Format Journal Article
LanguageEnglish
Published England John Wiley & Sons, Inc 01.11.2017
John Wiley and Sons Inc
Subjects
Animal behavior
antipredator
bufadienolide
Bufo marinus
bufotoxin
Captivity
chemical defense
Eggs
Elongation
Exudation
Females
Glands
Limbs
Males
Original Research
Predation
Rhinella marina
Secretions
Sex differences
Sexual dimorphism
Skin
Spatial distribution
Storage
Toads
Toxins
chemical defense
Bufo marinus
bufadienolide
antipredator
bufotoxin
sexual dimorphism
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Summary:The parotoid macroglands of bufonid anurans store (and can expel) large volumes of toxic secretions and have attracted detailed research. However, toxins also are stored in smaller glands that are distributed on the limbs and dorsal surface of the body. Female and male cane toads (Rhinella marina) differ in the location of toxin‐storage glands and the extent of glandular structures. Female toads store a larger proportion of their toxins in the parotoids than males as well as (to a lesser extent) in smaller glands on the forelimbs. Males have smaller and more elongate parotoids than females, but glands cover more of the skin surface on their limbs (especially hindlimbs) and dorsal surface. The delay to toxin exudation in response to electrostimulation varied among glands in various parts of the body, and did so differently in males than in females. The spatial distribution of toxin glands differs between the sexes even in toads that have been raised under standardized conditions in captivity; hence, the sexual dimorphism is due to heritable factors rather than developmentally plastic responses to ecological (e.g., habitat, predation risk) differences between the sexes. The selective advantages of this sexual dimorphism remain unclear. A priori, we might expect to see toxin widely dispersed across any part of the body likely to be contacted by a predator; and a wide distribution also would be expected if the gland secretions have other (e.g., male–male rivalry) functions. Why, then, is toxin concentrated in the parotoids, especially in female toads? That concentration may enhance the effectiveness of frontal displays to deter predation and also may facilitate the transfer of stored toxins to eggs. Male and female cane toads differ in the distribution of toxin‐containing glands in different areas of the body. That divergence may reflect ecological and behavioral differences that have acted as selective forces on toxin‐gland location.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.2914