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Morph-specific metabolic rate and the timing of reproductive senescence in a color polymorphic dragon

journal contribution
posted on 2024-11-16, 03:07 authored by Christopher FriesenChristopher Friesen, Rasmus Johansson, Mats OlssonMats Olsson
Polymorphism has fascinated biologists for over a century because morphs persist within populations through evolutionary time in spite of showing disparate behavioral and physiological phenotypes; any one morph should go to fixation with the slightest fitness advantage over the others. Surely there must be trade-offs that balance selection on them. The polychromatic morphs of the Australian painted dragon lizard, Ctenophorus pictus, are one such system. The male color morphs of painted dragons have different physiological and behavioral traits including reproductive tactics, hormone levels, and the rate of body condition loss through the reproductive season. Due to their differences in physiology and reproductive tactics, we tested the hypotheses that male morphs would differ in resting metabolic rates (RMRs) and that the morphs' RMR would decline at different rates through the mating season. We found that bib-morphs (yellow gular patch) differ in RMR with bibbed (more aggressive) males having consistently higher RMR than non-bibbed males. Furthermore, we show that male dragons experience a decline in RMR as they age from reproductively active to inactive. We also found that the RMR of bibbed males has higher repeatability than non-bibbed males. Our results reinforce previous hypotheses about the morph-specific costs of bearing a gular patch in painted dragons.

Funding

Packed to perform: the effects of telomere traits and free radicals on sperm phenotypes, fertilization success, and offspring viability

Australian Research Council

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History

Citation

Friesen, C. R., Johansson, R. & Olsson, M. (2017). Morph-specific metabolic rate and the timing of reproductive senescence in a color polymorphic dragon. Journal of Experimental Zoology Part A: Ecological Genetics and Physiology, 327 (7), 433-443.

Journal title

Journal of Experimental Zoology Part A: Ecological and Integrative Physiology

Volume

327

Issue

7

Pagination

433-443

Language

English

RIS ID

118266

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