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The influence of hydrodynamics on the carbon isotope composition of inorganically precipitated calcite TEXT SIZE: A A A
It is often assumed that the carbon isotope composition (delta C-13) of carbonate minerals records that of the dissolved inorganic carbon (DIC) species with insignificant disequilibrium effect. However, results from field observations and laboratory experiments have shown that the delta C-13 difference between calcite and solution can vary up to 3 parts per thousand even under a similar set of solution composition and temperature, raising uncertainties on the delta C-13's paleoclimate and paleoecology implications. One likely cause is the variable calcite precipitation rates and pH values induced by different thicknesses of the stagnant liquid layer between solid and well mixed bulk solution (i.e., diffusion boundary layer, DBL). To test this hypothesis, we selected a well-studied natural travertine deposit (Baishuitai, SW China) which consists of meter-scale travertine terraces. Calcite crystals at both the pool bottom and the rim of the terraces are inorganically precipitated from solutions identical in chemical, isotopic composition and temperature, but different only in hydrodynamics. This difference results in thicker DBL for water at the pool-bottom than for water flowing across the rim. We found that the delta C-13 and Mg/Ca ratios are higher while Sr/Ca ratios are lower for the pool-bottom calcites than for the rim calcites. By applying a mass transfer model, we quantitatively link the differences in carbon isotope and elemental compositions of the abiogenic calcites to the different hydrodynamic conditions. The inverse variation in Mg/Ca and Sr/Ca ratios in calcites arises from the different precipitation rates between at the pool-bottom and at the rim, while the consistently lower delta C-13 for calcites at the rim is due to their higher pH at the solid-solution interface than for calcites precipitated at the pool-bottom. In contrast, calcite precipitation rate has little influence on carbon isotope fractionation between calcite and HCO3-. Our results demonstrate the role of DBL thickness in governing the delta C-13 of HCO3- at mineral surface, which can assist to interpret the variable delta C-13 values of calcites in riverine or cave environments. (C) 2021 Elsevier B.V. All rights reserved.
 

Publication name

 EARTH AND PLANETARY SCIENCE LETTERS Volume: 565 Article Number: 116932 DOI: 10.1016/j.epsl.2021.116932 Published: JUL 1 2021

Author(s)

 Yan, Hao; Dreybrodt, Wolfgang; Bao, Huiming; Peng, Yongbo; Wei, Yu; Ma, Song; Mo, Bing; Sun, Hailong; Liu, Zaihua

Corresponding author(s) 

 YAN Hao1; LIU Zaihua1,6
 yanhao@mail.gyig.ac.cn;liuzaihua@vip.gyig.ac.cn
 1. Chinese Acad Sci, Inst Geochem, State Key Lab Environm Geochem, Guiyang 550081, Peoples R China.
 6. ?CAS Ctr Excellence Quaternary Sci & Global Change, Xian 710061, Peoples R China

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