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Lowland-upland migration of sauropod dinosaurs during the Late Jurassic epoch

FRICKE, Henry C ; HENCECROTH, Justin ; HOERNER, Marie E

Nature (London), 2011-12, Vol.480 (7378), p.513-515 [Periódico revisado por pares]

London: Nature Publishing Group

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  • Título:
    Lowland-upland migration of sauropod dinosaurs during the Late Jurassic epoch
  • Autor: FRICKE, Henry C ; HENCECROTH, Justin ; HOERNER, Marie E
  • Assuntos: Animal Migration ; Animals ; Aquatic resources ; Dental Enamel - chemistry ; Dinosaurs - physiology ; Earth sciences ; Earth, ocean, space ; Exact sciences and technology ; Oxygen Isotopes - analysis ; Paleontology ; Seasons ; Soil - analysis ; United States ; Vertebrate paleontology
  • É parte de: Nature (London), 2011-12, Vol.480 (7378), p.513-515
  • Notas: ObjectType-Article-1
    SourceType-Scholarly Journals-1
    ObjectType-Feature-2
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  • Descrição: Sauropod dinosaurs were the largest vertebrates ever to walk the Earth, and as mega-herbivores they were important parts of terrestrial ecosystems. In the Late Jurassic-aged Morrison depositional basin of western North America, these animals occupied lowland river-floodplain settings characterized by a seasonally dry climate. Massive herbivores with high nutritional and water needs could periodically experience nutritional and water stress under these conditions, and thus the common occurrence of sauropods in this basin has remained a paradox. Energetic arguments and mammalian analogues have been used to suggest that migration allowed sauropods access to food and water resources over a wide region or during times of drought or both, but there has been no direct support for these hypotheses. Here we compare oxygen isotope ratios (δ(18)O) of tooth-enamel carbonate from the sauropod Camarasaurus with those of ancient soil, lake and wetland (that is, 'authigenic') carbonates that formed in lowland settings. We demonstrate that certain populations of these animals did in fact undertake seasonal migrations of several hundred kilometres from lowland to upland environments. This ability to describe patterns of sauropod movement will help to elucidate the role that migration played in the ecology and evolution of gigantism of these and associated dinosaurs.
  • Editor: London: Nature Publishing Group
  • Idioma: Inglês
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