J. Daniel Bryant scite author profile

Oxygen isotope results for tooth enamel-phosphate (6p) from late Eocene-early Oligocene fossil horses are presented to determine if paleobiologic and paleoclimatologic information is recorded in fossil tooth enamel chemistry. Teeth from jaws of Mesohippus and Miohippus from the White River Formation (or Group) in the western Great Plains are well preserved and have excellent geochronologic control. Although there is clear evidence for post-depositional alteration of the enamel, a hydroxylapatite mineralogy is preserved and isotopic exchange of oxygen does not appear to be significant. There are distinctive patterns of 6p variation among individual teeth from the same jaw. These patterns reflect season of birth and timing of enamel mineralization. Most of the horses were born in the spring, and mineralization of the enamel is complete after 1-1.5 years. These results show that paleoclimate reconstruction from enamel 6p must account for tooth position and timing of mineralization. The observation that there are different intrajaw patterns of 6p variation among Mesohippus and Miohippus may provide a basis to reconstruct changes in climate seasonality in ancient environments.

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A Tale of Two Quarries: Biologic and Taphonomic Signatures in the Oxygen Isotope Composition of Tooth Enamel Phosphate from Modern and Miocene Equids

Bryant¹,

Froelich²,

Showers³

et al. 1996

PALAIOS

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A model of oxygen isotope fractionation in body water of large mammals

Bryant

Froelich

1995

Geochimica et Cosmochimica Acta

470

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Influence of freshwater flux on ⁸⁷Sr/⁸⁶Sr chronostratigraphy in marginal marine environments and dating of vertebrate and invertebrate faunas

1995

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87Sr/86Sr chronostratigraphy is an important tool for dating and correlating vertebrate and invertebrate faunas preserved in marginal marine sequences. Freshwater flux in marginal marine environments can influence the 87Sr/86Sr of mollusks and, consequently, Sr-chronostratigraphic interpretations based upon them. To appraise the potential problem we have used a two-component mixing equation to evaluate levels of “measurable effects” (defined as ±5 × 10-5 departure from the marine 87Sr/86Sr ratio) in marginal marine environments. A measurable effect occurs at 12 parts per thousand salinity for a weighted world average river, but can occur at salinity > 34 ppt for rivers draining basins with ancient granitic rocks. Predictions were tested with analyses of mollusks from estuaries in the Mississippi Sound and coastal Florida. Analyses document the largely regular variation in 87Sr/86Sr predicted, but also show that a simple two-component model cannot account for all of the variation. Carbonates formed in restricted marine settings may not record a marine 87Sr/86Sr signal, emphasizing the need to consider freshwater flux for 87Sr/86Sr chronostratigraphy.

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J. Daniel Bryant

Biologic and climatic signals in the oxygen isotopic composition of Eocene-Oligocene equid enamel phosphate

A Tale of Two Quarries: Biologic and Taphonomic Signatures in the Oxygen Isotope Composition of Tooth Enamel Phosphate from Modern and Miocene Equids

A model of oxygen isotope fractionation in body water of large mammals

Influence of freshwater flux on ⁸⁷Sr/⁸⁶Sr chronostratigraphy in marginal marine environments and dating of vertebrate and invertebrate faunas

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J. Daniel Bryant

Biologic and climatic signals in the oxygen isotopic composition of Eocene-Oligocene equid enamel phosphate

A Tale of Two Quarries: Biologic and Taphonomic Signatures in the Oxygen Isotope Composition of Tooth Enamel Phosphate from Modern and Miocene Equids

A model of oxygen isotope fractionation in body water of large mammals

Influence of freshwater flux on 87Sr/86Sr chronostratigraphy in marginal marine environments and dating of vertebrate and invertebrate faunas

Contact Info

Product

Resources

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Influence of freshwater flux on ⁸⁷Sr/⁸⁶Sr chronostratigraphy in marginal marine environments and dating of vertebrate and invertebrate faunas