R. I. Gabitov scite author profile

The Sr/Ca ratio of biogenic carbonate is widely used as a proxy for paleotemperature. This application is supported by empirical calibrations of Sr/Ca as a function of temperature, but it is also known that Sr uptake in calcite gauged by KdSr = is affected by other variables, including bulk precipitation rate (KdSr increases with increasing precipitation rate). There are no data from controlled experiments specifically addressing the effect of radial growth rate of individual crystals on KdSr. For this reason, we conducted two series of experiments to explore Sr partitioning at varying growth rates: (1) growth from a CaCl2–NH4Cl–SrCl2 solution by diffusion of CO2 from an ammonium carbonate source (“drift” experiments) and (2) “drip” precipitation of calcite on a substrate, using a steady flow of CaCl2–SrCl2 and Na2CO3 solutions, mixed just before passage through a tube and dripped onto a glass slide precoated with calcite (“cave‐type” experiments). The growth rates of individual crystals were determined by periodic monitoring of crystal size through time or, roughly, by comparison of the final size with the duration of the experiment. Electron microprobe analyses across sectioned crystals grown in the drift experiments show that the concentration of Sr is high in the center (where radial growth rates are highest) and decreases systematically toward the edge. The center‐to‐edge drop in Sr concentration is a consequence of the slowing radial growth rate as individual crystals become larger. In general, high crystal growth rate (V) enhances Sr uptake in calcite due to a type of kinetic disequilibrium we refer to as “growth entrapment.” The apparent KdSr ranges from 0.12 to 0.35 as V increases from 0.01 nm/s to 1 μm/s at 25°C.

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Crystal growth rate effect on Mg/Ca and Sr/Ca partitioning between calcite and fluid: An in situ approach

Gabitov

Sadekov

Leinweber

2014

Chemical Geology

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In situ δ⁷Li, Li/Ca, and Mg/Ca analyses of synthetic aragonites

Gabitov

Schmitt

Rosner

et al. 2011

Geochem Geophys Geosyst

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[1] In situ secondary ion mass spectrometry (SIMS) analyses of d 7 Li, Li/Ca, and Mg/Ca were performed on five synthetic aragonite samples precipitated from seawater at 25°C at different rates. Li analyses of different aragonite precipitates. Moreover, the centers of aragonite hemispherical bundles (spherulites) are enriched in Li/Ca and Mg/Ca relative to spherulite fibers by up to factors of 2 and 8, respectively. The Li/Ca and Mg/Ca ratios of spherulite fibers increase with aragonite precipitation rate. These results suggest that precipitation rate is a potentially important consideration when using Li isotopes and elemental ratios in natural carbonates as a proxy for seawater composition and temperature.

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In situ study of boron partitioning between calcite and fluid at different crystal growth rates

Gabitov

Rollion‐Bard

Tripati

et al. 2014

Geochimica et Cosmochimica Acta

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The impact of crystal growth rate on element ratios in aragonite: An experimental approach to understanding vital effects

Gabitov

Cohen

Gaetani

et al. 2006

Geochimica et Cosmochimica Acta

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R. I. Gabitov

Compositional and morphological features of aragonite precipitated experimentally from seawater and biogenically by corals

Oxygen isotope fractionation between calcite and fluid as a function of growth rate and temperature: An in situ study

Experimental determination of growth rate effect on U6+ and Mg2+ partitioning between aragonite and fluid at elevated U6+ concentration

Partitioning of strontium between calcite and fluid

Crystal growth rate effect on Mg/Ca and Sr/Ca partitioning between calcite and fluid: An in situ approach

In situ δ⁷Li, Li/Ca, and Mg/Ca analyses of synthetic aragonites

In situ study of boron partitioning between calcite and fluid at different crystal growth rates

The impact of crystal growth rate on element ratios in aragonite: An experimental approach to understanding vital effects

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R. I. Gabitov

Compositional and morphological features of aragonite precipitated experimentally from seawater and biogenically by corals

Oxygen isotope fractionation between calcite and fluid as a function of growth rate and temperature: An in situ study

Experimental determination of growth rate effect on U6+ and Mg2+ partitioning between aragonite and fluid at elevated U6+ concentration

Partitioning of strontium between calcite and fluid

Crystal growth rate effect on Mg/Ca and Sr/Ca partitioning between calcite and fluid: An in situ approach

In situ δ7Li, Li/Ca, and Mg/Ca analyses of synthetic aragonites

In situ study of boron partitioning between calcite and fluid at different crystal growth rates

The impact of crystal growth rate on element ratios in aragonite: An experimental approach to understanding vital effects

Contact Info

Product

Resources

About

In situ δ⁷Li, Li/Ca, and Mg/Ca analyses of synthetic aragonites