AI Article Synopsis
- Pachyosteosclerosis is a condition that leads to the development of dense and bulky bones, typically seen in early aquatic animals like whales and dolphins, but usually decreases as their swimming ability improves.
- In the Miocene era, this condition re-emerged in seals, dolphins, and whales from the Paratethys Sea due to changes in bone remodeling during a period of hypersaline conditions.
- The presence of dense bones likely served as ballast, helping these animals swim more efficiently in the denser waters, and from this region, the trait spread eastward, becoming prominent in late Miocene whale species.
Article Abstract
Pachyosteosclerosis-a condition that creates dense, bulky bones-often characterizes the early evolution of secondarily aquatic tetrapods like whales and dolphins but then usually fades away as swimming efficiency increases. Here, we document a remarkable reversal of this pattern, namely the convergent re-emergence of bone densification in Miocene seals, dolphins, and whales from the epicontinental Paratethys Sea of eastern Europe and central Asia. This phenomenon was driven by imbalanced remodeling and inhibited resorption of primary trabeculae and coincided with hypersaline conditions-the Badenian salinity crisis-that affected the Central Paratethys between 13.8 and 13.4 Ma. Dense bones acting as ballast would have facilitated efficient swimming in the denser and more buoyant water and hence were likely adaptive in this setting. From the Central Paratethys, pachyosteosclerosis subsequently spread eastward, where it became a defining feature of the endemic late Miocene whale assemblage..
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| http://dx.doi.org/10.1016/j.cub.2021.10.065 | DOI Listing |
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