Delta 18O and delta 13C values of modern brachiopod shells

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Researchers have not rigorously tested the hypothesis that calcite from modern brachiopod shells is precipitated in oxygen isotope equilibrium with ambient seawater. Isotopic variability at the intraspecimen and intertaxon levels has not been examined. Without such data for modern brachiopods, similar data from ancient brachiopods cannot be accurately interpreted. In this study, a survey is made of 18 O and 13 C values of Terebratulid, Rhynchonellid, Thecideidine, and Craniacean brachiopods from Antarctica, the Bay of Fundy, Curacao, Japan, New Zealand, Norway, Puget Sound, Palau, Sicily, and South Africa. This suite of samples provides a wide range of taxonomic levels, temperatures, salinities, and depositional environments for evaluating the degree of isotopic equilibrium attained during precipitation of brachiopod calcite. New data indicate that modem brachiopod calcite is not always precipitated in oxygen and carbon isotope equilibrium with ambient seawater. Calcite from the primary layer and specialized shell structures (hinge, brachidium, foramen, interarea, muscle scars) are depleted in both 18 O and 13 C, a characteristic of biological fractionation or "vital" effects often found in other calcerous, marine organisms. Our findings suggest that these portions of the brachiopod shell should be avoided during sampling of ancient brachiopods. Secondary layer calcite, the material most often analyzed in ancient brachiopods, has higher 18 O and 13 C values which approach and sometimes correspond with predicted equilibrium values. Therefore, secondary layer calcite is the most suitable portion of the brachiopod shell for use as an ancient seawater proxy. Although near equilibrium precipitation in secondary layer calcite is encouraging to those studying the isotopic composition of ancient oceans, these data come with caveats. Large intraspecimen variability in the 18 O values of secondary layer calcite (±1 in some samples) limits the use of brachiopods as precise indicators of the 18 O value or temperature of ancient seawater. The 18 O and 13 C values of secondary layer calcite deviate from predicted equilibrium values toward the lower values of the primary layer and specialized shell structures, indicating a measurable "vital" effect. In most cases, measured 18 O values are lower than the calculated equilibrium values dictated by seasonal variations in the 18 O value and temperature of seawater. Ontogenetic variations in the 13 C values of secondary layer calcite have also been measured and must be assessed when interpreting ancient data. Modern brachiopods occur in a wide range of seawater salinities and temperatures. Therefore, the relation between salinity and the 18 O value of seawater must be known to correctly calculate the temperature of calcite precipitation from secondary layer 18 O values. Errors of up to 15°C are found if ambient seawater is assumed to have a constant 18 O value (e.g., 0 SMOW) and the 18 O values of secondary layer calcite are used to calculate temperature. Coupled with "vital" effects and intraspecimen variability, these errors can obscure the resolution of secular variations in the rock record.

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