AI Article Synopsis
- Scientists found hormones in elephant and mammoth tusks that show changes related to their reproduction and stress levels over time.
- They used special testing methods to measure hormones in the tusks, and discovered that both the modern elephant and the ancient mammoth had similar mating behaviors called musth.
- This research could help us learn more about how different animals grow and deal with stress, and it could also be useful in areas like medicine and archaeology.
Article Abstract
Hormones in biological media reveal endocrine activity related to development, reproduction, disease and stress on different timescales. Serum provides immediate circulating concentrations, whereas various tissues record steroid hormones accumulated over time. Hormones have been studied in keratin, bones and teeth in modern and ancient contexts; however, the biological significance of such records is subject to ongoing debate, and the utility of tooth-associated hormones has not previously been demonstrated. Here we use liquid chromatography with tandem mass spectrometry paired with fine-scale serial sampling to measure steroid hormone concentrations in modern and fossil tusk dentin. An adult male African elephant (Loxodonta africana) tusk shows periodic increases in testosterone that reveal episodes of musth, an annually recurring period of behavioural and physiological changes that enhance mating success. Parallel assessments of a male woolly mammoth (Mammuthus primigenius) tusk show that mammoths also experienced musth. These results set the stage for wide-ranging studies using steroids preserved in dentin to investigate development, reproduction and stress in modern and extinct mammals. Because dentin grows by apposition, resists degradation, and often contains growth lines, teeth have advantages over other tissues that are used as records of endocrine data. Given the low mass of dentin powder required for analytical precision, we anticipate dentin-hormone studies to extend to smaller animals. Thus, in addition to broad applications in zoology and palaeontology, tooth hormone records could support medical, forensic, veterinary and archaeological studies.
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| http://dx.doi.org/10.1038/s41586-023-06020-9 | DOI Listing |
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