ISSN:
1423-0445
Keywords:
taste aversion
;
toxicology
;
chemical defense
;
cardiac glycoside
;
cardenolides
;
digitoxin
;
pyrrolizidine alkaloids
;
monocrotaline
;
Mammalia
;
Muridae
;
Peromyscus
;
Reithrodontomys
;
Lepidoptera
;
Danainae
;
Danaus plexippus
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Summary Of three common mouse species at the Mexican overwintering sites of the monarch butterfly, onlyPeromyscus melanotis eats monarchs. We hypothesized thatP. aztecus andReithrodontomys sumichrasti reject monarchs because they are more sensitive to the bitter taste and/or toxic effects of the cardiac glycosides (CGs) and pyrrolizidine alkaloids (PAs) in the butterflies. Two-choice preference tests revealed no difference in taste avoidance thresholds to free base and N-oxide forms of the PA, monocrotaline, but very different avoidance thresholds to the CG, digitoxin. Avoidance thresholds forR. sumichrasti andP. aztecus were, in respective order, 1020 and 34 times less than that forP. melanotis. We also tested the toxic sensitivity of juvenile mice by chronically feeding diets containing digitoxin or monocrotaline at concentrations similar to those used in the preference tests. No species developed CG toxicity, but bothP. melanotis andP. aztecus developed moderate PA toxicity (R. sumichrasti was not tested for PA toxicity).P. aztecus grew more slowly and manyP. melanotis had hepatic metabolic lesions. Thus, the three mouse species responded very differently to the taste and toxic properties of CGs and PAs at ecologically relevant concentrations: 1) CGs were taste rejected by all species exceptP. melanotis, while PAs were not; and 2) PAs were toxic, while CGs were not.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01241652
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