Snapshot Assessment of Reproductive Endocrine Status in Free-Ranging Atlantic Bottlenose Dolphins (Tursiops truncatus) by High-Performance Liquid Chromatography
Abstract
We have validated a novel, reverse-phase high-performance liquid chromatography (RP-HPLC) method that permits rapid and simultaneous quantification of five key reproductive steroids in free-ranging Atlantic bottlenose dolphins, freshwater and sea turtles, and two species of dove.1 Our results showed that mature females (dolphins, turtles, doves) had higher estradiol (E2) and progesterone (P4) levels than testosterone (T2), while males of reproductive age (dolphins, turtles, doves) consistently had the highest detected concentrations of T2, and lower detectable concentrations of E2 and P4 compared to the females. Juvenile dolphins exhibited the same general trends, although all steroid concentrations were generally lower and did not exhibit the greater ranges of the adult animals. Male bottlenose dolphin concentrations of serum T2 were comparable to previous studies of male Cetacea as detected by HPLC,2,3 as were the relative concentration ranges of serum P4 and E2 in female bottlenose dolphins as detected by radioimmunoassay (RIA).4 Among mature female dolphin samples, E2 was more predominant than P4, ranging from 1.0–11.0 µg/mL. Most female P4 samples ranged from 0.5–2.0 µg/mL, while T2 only ranged from 0.1–0.57 µg/mL. The majority of male T2 samples ranged from 1.0–4.0 µg/mL. By contrast, male E2 concentrations ranged from 0.0–0.59 µg/mL in mature males, while P4 ranged from 0.0–0.52 µg/mL. Where known from physical characteristics or health exams, gender, reproductive status, and age class were confirmed by HPLC in all tested species, demonstrating that this method allows a snap assessment of the reproductive endocrine status of wild marine life during population and environmental health assessments.
The ability to rapidly and accurately detect the concentrations of multiple steroids in serum, plasma or urine, without regard to sample type or taxa, permits wildlife health experts to build year-to-year endocrine profiles of animals under long-term observation for anthropogenic environmental contaminants and environmental degradation. This method also provides an additional tool for zoo and aquaria managers managing the breeding cycles of different species within their collection. Because the range of dolphin steroid concentrations obtained by HPLC were within published ranges for Atlantic bottlenose dolphins, we conclude that the steroid concentrations found during this study are correct and useful for both managed breeding and wildlife health assessments.
Acknowledgements
Grateful acknowledgement is extended to Dr. Gregory Bossart, Dr. Patricia Fair and Dr. Sarah Milton for support and access to turtle and dolphin samples and data, and to Ms. Ashley Campbell for dove samples.
* Presenting author
Literature Cited
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