Opportunistic feeding strategy for the earliest old world hypsodont equids: evidence from stable isotope and dental wear proxies

• Published in: PloS one Vol. 8; no. 9; p. e74463
• Main Authors: Tütken, Thomas, Kaiser, Thomas M, Vennemann, Torsten, Merceron, Gildas
• Format: Journal Article
• Language: English
• Published: United States Public Library of Science 11.09.2013; Public Library of Science (PLoS)
• Subjects: Abrasion; Abrasion resistance; Analysis; Animal Distribution; Animals; Browsing; Carbon Isotopes; Cheek; Dental enamel; Dental Enamel - anatomy & histology; Dental Enamel - chemistry; Dental Enamel - physiology; Diet; Dispersal; Dispersion; Earth Sciences; Ecology; Ecosystem; Ecosystems; Enamel; Equidae; Equidae - anatomy & histology; Equidae - physiology; Europe; Evolution; Extinction, Biological; Feeding; Feeding Behavior - physiology; Food; Food resources; Fossils; Grasslands; Habits; Herbivory - physiology; Horses; Isotope composition; Isotopes; Isotopic composition; Mammalia; Miocene; Neogene; North America; Oxygen; Oxygen Isotopes; Paleobiology; Paleontology; Phylogeography; Poaceae; Populations; Proxies; Proxy; Sciences of the Universe; Seasonal variations; Specialization; Stable isotopes; Teeth; Tooth - anatomy & histology; Tooth - chemistry; Tooth - physiology; Tooth Wear; Vegetation; Wear; North America; Europe
• ISSN: 1932-6203; 1932-6203
• DOI: 10.1371/journal.pone.0074463

The equid Hippotherium primigenium, with moderately hypsodont cheek teeth, rapidly dispersed through Eurasia in the early late Miocene. This dispersal of hipparions into the Old World represents a major faunal event during the Neogene. The reasons for this fast dispersal of H. primigenium within Europe are still unclear. Based on its hypsodonty, a high specialization in grazing is assumed although the feeding ecology of the earliest European hipparionines within a pure C3 plant ecosystem remains to be investigated. A multi-proxy approach, combining carbon and oxygen isotopes from enamel as well as dental meso- and microwear analyses of cheek teeth, was used to characterize the diet of the earliest European H. primigenium populations from four early Late Miocene localities in Germany (Eppelsheim, Höwenegg), Switzerland (Charmoille), and France (Soblay). Enamel δ(13)C values indicate a pure C3 plant diet with small (<1.4‰) seasonal variations for all four H. primigenium populations. Dental wear and carbon isotope compositions are compatible with dietary differences. Except for the Höwenegg hipparionines, dental microwear data indicate a browse-dominated diet. By contrast, the tooth mesowear patterns of all populations range from low to high abrasion suggesting a wide spectrum of food resources. Combined dental wear and stable isotope analysis enables refined palaeodietary reconstructions in C3 ecosystems. Different H. primigenium populations in Europe had a large spectrum of feeding habits with a high browsing component. The combination of specialized phenotypes such as hypsodont cheek teeth with a wide spectrum of diet illustrates a new example of the Liem's paradox. This dietary flexibility associated with the capability to exploit abrasive food such as grasses probably contributed to the rapid dispersal of hipparionines from North America into Eurasia and the fast replacement of the brachydont equid Anchitherium by the hypsodont H. primigenium in Europe.