Abstract
The development of pineal function in northern elephant seals was examined in an attempt to understand the physiological basis for previously observed high daytime levels of melatonin in neonatal southern elephant seals. Pineal glands from four northern elephant seal pups, estimated age less than 1 week, weighed 3.0 ± 0.80 g, which was significantly less than that previously found in southern elephant seals (4.6 ± 0.35 g). Midday concentrations of plasma melatonin in pups averaged more than 3000 pmol/l in the first 5 days post-partum, but declined rapidly to less than 400pmol/l after day 9. Daytime melatonin levels in northern elephant seals tended to be lower than in southern elephant seals, although they were very high compared with other species. A circadian cycle of plasma melatonin concentration was observed in newborn northern elephant seals, with levels of 3000–5000 pmol/1 during the day, rising to more than 10,000 pmol/1 late in the dark phase. Soon after weaning at 4 weeks of age, daytime and night-time levels were in the range 60–100 pmol/1 and 100–400 pmol/1, respectively. When approximately 10 weeks old, most samples were in the range 100–400 pmol/1 with no discernible difference between day and night levels. The results do not support the hypothesis that the pineal gland is involved in thermogenesis in new-born southern elephant seals. Instead, the very active pineal gland may contribute to energy conservation, by lowering body temperature, particularly at night. As physical insulation is acquired by the deposition of blubber, the mechanism is not required and melatonin falls to adult levels.
Published Version
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