Summary1. Carotenoid-ornamented animals may transfer dietary carotenoid pigments to offspring as well as to their ornament and other competing physiological demands. If carotenoid supplementation increases offspring growth or survival, females should preferentially allocate supplemental carotenoids to offspring rather than ornamentation. 2. We tested whether ornamented convict cichlid (Amatitlania siquia) mothers increase carotenoid allocation to eggs with access to dietary carotenoid supplementation, and whether beneficial maternal effects of carotenoid supplementation were transferred to offspring. 3. Maternal effects of carotenoid supplementation were found; offspring from mothers that ate carotenoids benefited in terms of growth and survival parameters compared with offspring from non-supplemented mothers. Contrary to predictions, maternal coloration was not sacrificed for fecundity: mothers maintained their coloration and integument carotenoids even though increased carotenoids in the maternal diet benefited the offspring. Furthermore, carotenoid supplementation did not increase the carotenoids deposited in eggs. 4. This work is the first to show that indirect maternal effects of carotenoid supplementation increased the survival and growth of offspring. Indirect benefits may reduce the cost of carotenoid allocation to offspring, but the mechanism for how carotenoids support offspring development is still unknown.
Phytoestrogens are produced by plants and may cause endocrine disruption in vertebrates. The present study hypothesizes that phytoestrogen exposure of female Siamese fighting fish (Betta splendens) may disrupt endogenous steroid levels, change agonistic behavior expression, and potentially also disrupt oocyte development. However, only the pharmacologic dose of β-sitosterol had a significant effect on opercular flaring behavior, while we did not find significant effects of β-sitosterol or genistein on steroids or gonads. These findings are in direct contrast with previous studies on the effects of phytoestrogens in female fish. Results of the current study support previous work showing that the effects of phytoestrogen exposure may be less acute in mature female B. splendens than in other fish.
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