EDDy Lab, Department of Geology, Liège University, Quartier Agora, 14 Allée du six Août, Liège 4000, Belgium; Directorate Earth and History of Life, Royal Belgian Institute of Natural Sciences, 29 Rue Vautier, Brussels 1000, Belgium.
Schmalhausen Institute of Zoology, National Academy of Sciences of Ukraine, vul. Bogdana Khmelnytskogo 15, Kyiv 01030, Ukraine; Ukrainian Scientific Centre of Ecology of the Sea, Frantsuzsky Blvrd. 89, Odessa 65009, Ukraine.
Curr Biol. 2022 Jan 10;32(1):248-255.e2. doi: 10.1016/j.cub.2021.10.065. Epub 2021 Nov 22.
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..
骨体增厚-一种导致骨骼密集、粗大的情况-通常是鲸鱼和海豚等次生水生四足动物早期进化的特征,但随着游泳效率的提高,这种情况通常会消失。在这里,我们记录了这种模式的一个显著逆转,即在渐新世海豹、海豚和鲸鱼中,骨骼密集化的趋同再出现,它们来自东欧和中亚的滨海特提斯海。这种现象是由不平衡的重塑和初级小梁的抑制吸收驱动的,同时与影响中央特提斯海的高盐条件(巴登盐度危机)相吻合,该危机发生在 1380 万至 1340 万年前。作为压舱物的密集骨骼将有助于在密度更大、浮力更大的水中更有效地游泳,因此在这种环境下可能是适应性的。从中部特提斯海开始,骨体增厚随后向东传播,成为特有晚中新世鲸鱼组合的特征。
