Boron incorporation into calcite during growth: Implications for the use of boron in carbonates as a pH proxy

Current interest in boron incorporation into carbonates arises from the observation that the isotopic composition of carbonates depends on the pH of the fluid from which they precipitated. This finding opened the possibility of using boron isotopic composition of natural carbonates as a paleo-pH pro...

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Bibliographic Details
Published in:Earth and planetary science letters 2012-09, Vol.345-348, p.9-17
Main Authors: Ruiz-Agudo, E., Putnis, C.V., Kowacz, M., Ortega-Huertas, M., Putnis, A.
Format: Article
Language:English
Subjects:
AFM
Atomic force microscopy
Boron
boron incorporation
Calcite
calcite growth
Carbonates
Concentration (composition)
Nanostructure
pH-proxy
Proxy client servers
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Summary:Current interest in boron incorporation into carbonates arises from the observation that the isotopic composition of carbonates depends on the pH of the fluid from which they precipitated. This finding opened the possibility of using boron isotopic composition of natural carbonates as a paleo-pH proxy. In this study, coprecipitation of boron by calcite was investigated using Atomic Force Microscopy (AFM), as a function of pH, supersaturation and boron concentration. In situ AFM observations reported here provide experimental evidence of boron incorporation into calcite, which takes place to a greater extent at high pH (9.5) and under close to equilibrium conditions. Moreover, we report nanoscale observations that give indirect evidence of the incorporation of boron in non-lattice sites. Step-specific interactions of tetrahedrally-coordinated boron with calcite obtuse steps during growth are revealed as a reduction in the obtuse-step spreading rate as well as rounding and roughening of such steps. Our results suggest that, together with changes in pH, variations in the calcification rate or the calcite crystallographic form in which boron is incorporated are important factors to consider when using boron in carbonates as a pH proxy, as these factors could also influence the amount of boron incorporated during growth and possibly the boron isotopic signature. ► We studied coprecipitation of boron by calcite using Atomic Force Microscopy (AFM). ► We studied the effect of pH, supersaturation and concentration on boron incorporation. ► Our in situ AFM observations provide experimental evidence of boron incorporation into calcite. ► Interactions of boron with obtuse steps are shown as a reduction in the spreading rate and rounding. ► As well as changes in pH, variations in growth rate are critical when using B in carbonates as pH proxy.
ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2012.06.032