Journal
EARTH AND PLANETARY SCIENCE LETTERS
Volume 226, Issue 1-2, Pages 255-272Publisher
ELSEVIER
DOI: 10.1016/j.epsl.2004.07.015
Keywords
Late Cretaceous; oxygen isotopes; vertebrates; apatite; continental climate
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Latitudinal variations in model biogenic apatite delta(18)O values were calculated using fractionation equations of vertebrates and weighted rainfall delta(18)O values along with mean annual air temperatures provided by IAEA-WMO meteorological stations. The reference equation obtained was used to compute a continental temperature gradient for the Late Campanian-Middle Maastrichtian interval by using published and new delta(18)O values of phosphate from vertebrates. Samples are mainly tooth enamel from crocodilians and dinosaurs that lived at paleolatitudes ranging from 83(-9)(+4degreesN) (Alaska) to 32+/-3degreesS (Madagascar). The temperature gradient was less steep (0.4+/-0.1 degreesC/degreeslatitude) than the present-day one (0.6 degreesC/degreeslatitude) with temperatures that decreased from about 30 degreesC near the equator to about -5 degreesC at the poles. Above 30degrees of paleolatitude, air temperatures were higher than at present. The validity of these results is discussed by comparison with climatic criteria inferred from paleontological, palcobotanical and sedimentological data. The latitudinal distribution of oxygen isotope compositions of continental vertebrates is potentially a powerful tool for quantifying Mesozoic terrestrial climates. (C) 2004 Elsevier B.V. All rights reserved.
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