Date of Award

Summer 8-1-2007

Document Type

Thesis

Degree Name

Master of Science (MS)

Department

Biology

First Advisor

John O. Whitaker Jr.

Second Advisor

Diana K. Hews

Third Advisor

William A. Mitchell

Abstract

Reproduction is a period of high calcium demand in vertebrates, and calcium deficiency can limit reproductive output in mammals. Insects are a poor calcium source, suggesting that insectivorous species are more likely to be calcium deficient. Pregnant big brown bats (Eptesicus fuscus) consume 10 times less calcium than they are estimated to require. To accommodate calcium demand during pregnancy, many mammals mobilize more calcium from the skeleton, and extensive bone loss has been observed in some bats during pregnancy. A conflict may arise between the female and developing embryo over allocation of limited calcium supplies, which could limit reproductive output with respect to offspring size, mass, and number. The effects of calcium deficiency on these three factors were tested by providing pregnant captive big brown bats with either a calcium deficient diet or a diet providing the daily calcium requirement, as estimated for pregnant big brown bats, from the time of capture until parturition. Neonates were compared between groups for size, mass and number per female, as were the effects of maternal mass and size on neonate mass and size. Maternal mass and litter mass were positively related for the calcium deficient group, but not for the calcium supplemented group. This suggests that there is some interaction between maternal mass and calcium availability, most likely due to the relationship between body mass and skeletal mass, and that calcium availability is limiting the overall biomass of young that a female can produce.

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