Evolution of sirenians
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Sirenia is the order of placental mammals which comprises modern "sea cows" (manatees and the Dugong) and their extinct relatives. They are the only extant herbivorous marine mammals and the only group of herbivorous mammals to have become completely aquatic. Sirenians are thought to have a 50-million-year-old fossil record (early Eocene-recent). They attained modest diversity during the Oligocene and Miocene, but have since declined as a result of climatic cooling, oceanographic changes, and human interference. Two genera and four species are extant: Trichechus, which includes the three species of manatee that live along the Atlantic coasts and in rivers and coastlines of the Americas and western Africa, and Dugong, which is found in the Indian and Pacific oceans.[citation needed]
Origins
Sirenians, along with Proboscidea (elephants), group together with the extinct Desmostylia and likely the extinct Embrithopoda to form the Tethytheria. Tethytheria is thought to have evolved from primitive hoofed mammals ("condylarths") along the shores of the ancient Tethys Ocean.
Tethytheria, combined with Hyracoidea (hyraxes), forms a clade called Paenungulata. Paenungulata and Tethytheria (especially the latter) are among the least controversial mammalian clades, with strong support from morphological and molecular interpretations. The ancestry of Sirenia is remote from that of Cetacea and Pinnipedia, although they are thought to have evolved an aquatic lifestyle around the same time.
Fossil history
The first appearance of sirenians in the fossil record was during the early Eocene, and by the late Eocene, sirenians had significantly diversified. Inhabitants of rivers, estuaries, and nearshore marine waters, they were able to spread rapidly. The most primitive sirenian known to date, Prorastomus, was found in Jamaica, not the Old World. The first known quadrupedal sirenian was Pezosiren from the early Eocene.[1] The earliest known sea cows, of the families Prorastomidae and Protosirenidae, are both confined to the Eocene, and were about the size of a pig, four legged amphibious creatures. By the time the Eocene drew to a close, came the appearance of the Dugongidae; sirenians had acquired their familiar fully aquatic streamlined body with flipper-like front legs with no hind limbs, powerful tail with horizontal caudal fin, with up and down movements which move them through the water, like cetaceans.
The last of the sirenian families to appear, Trichechidae, apparently arose from early dugongids in the late Eocene or early Oligocene. The current fossil record documents all major stages in hindlimb and pelvic reduction to the extreme reduction in the modern manatee pelvis, providing an example of dramatic morphological change among fossil vertebrates.
Since sirenians first evolved, they have been herbivores, likely depending on seagrasses and aquatic angiosperms (flowering plants) for food. To the present, almost all have remained tropical (with the notable exception of Steller's Sea Cow ), marine and angiosperm consumers. Sea cows are shallow divers with large lungs. They have heavy skeletons to help them stay submerged; the bones are pachyostotic (swollen) and osteosclerotic (dense), especially the ribs which are often found as fossils.
Eocene sirenians, like Mesozoic mammals but in contrast to other Cenozoic ones, have five instead of four premolars, giving them a 3.1.5.3 dental formula. Whether this condition is truly a primitive retention in sirenians is still under debate.
Although cheek teeth are relied on for identifying species in other mammals, they do not vary to a significant degree among sirenians in their morphology, but are almost always low-crowned (brachyodont) with two rows of large, rounded cusps (bunobilophodont). The most easily identifiable parts of sirenian skeletons are the skull and mandible, especially the frontal and other skull bones. With the exception of a pair of tusk-like first upper incisors present in most species, front teeth (incisors and canines) are lacking in all, except the earliest sirenians.
See also
References
- ^ Domning DP (2001). "The Earliest Known Fully Quadrupedal Sirenian". Nature. 413 (6856): 625–627. doi:10.1038/35098072. PMID 11675784.
Further reading
- Domning DP (2002). "Sirenian Evolution". In Perrin WF, Würsig B, Thewissen JGM (ed.). Encyclopedia of Marine Mammals. San Diego: Academic Press. pp. 1083–1086. ISBN 0125513402.
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- Berta A (2012). "5. Diversity, Evolution, and Adaptation of Sirenians and Other Marine Mammals". Return to the Sea: The Life and Evolutionary Times of Marine Mammals. Berkeley: University of California Press. pp. 127–149. ISBN 978-0-520-27057-2.
- Berta A, Sumich JL, Kovacs KK (2006). "5. Sirenian and Other Marine Mammals: Evolution and Systematics". Marine Mammals: Evolutionary Biology (2nd ed.). Academic Press. pp. 89–110. ISBN 978-0-12-369499-7.
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- Marsh H, O'Shea TJ, Reynolds JE III (2012). "3. Affinities, origins and diversity of the Sirenia through time". Ecology and Conservation of the Sirenia: Dugongs and Manatees. Conservation Biology. Vol. 18. Cambridge: Cambridge University Press. pp. 35–77. ISBN 978-0-521-71643-7.
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- Velez-Juarbe J, Domning DP, Pyenson ND. "Iterative Evolution of Sympatric Seacow (Dugongidae, Sirenia) Assemblages during the Past ~26 Million Years". Public Library of Science ONE. 7 (2): e31294. doi:10.1371/journal.pone.0031294.
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- Macro-evolution at its finest Christina Reed, Geotimes December 2001
- Evolution of the Sirenia by Caryn Self-Sullivan at Sirenian International