Stable isotope variations in modern tropical speleothems: Evaluating equilibrium vs. kinetic isotope effects
Applications of speleothem calcite geochemistry in climate change studies require the evaluation of the accuracy and sensitivity of speleothem proxies to correctly infer paleoclimatic information. The present study of Harrison’s Cave, Barbados, uses the analysis of the modern climatology and groundw...
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Published in | Geochimica et cosmochimica acta Vol. 68; no. 21; pp. 4381 - 4393 |
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Main Authors | , , , , , |
Format | Journal Article |
Language | English |
Published |
Elsevier Ltd
01.11.2004
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Abstract | Applications of speleothem calcite geochemistry in climate change studies require the evaluation of the accuracy and sensitivity of speleothem proxies to correctly infer paleoclimatic information. The present study of Harrison’s Cave, Barbados, uses the analysis of the modern climatology and groundwater system to evaluate controls on the C and O isotopic composition of modern speleothems. This new approach directly compares the δ
18O and δ
13C values of modern speleothems with the values for their corresponding drip waters in order to assess the degree to which isotopic equilibrium is achieved during calcite precipitation. If modern speleothems can be demonstrated to precipitate in isotopic equilibrium, then ancient speleothems, suitable for paleoclimatic studies, from the same cave environment may also have been precipitated in isotopic equilibrium. If modern speleothems are precipitated out of isotopic equilibrium, then the magnitude and direction of the C and O isotopic offsets may allow specific kinetic and/or equilibrium isotopic fractionation mechanisms to be identified.
Carbon isotope values for the majority of modern speleothem samples from Harrison’s Cave fall within the range of equilibrium values predicted from the combined use of (1) calcite-water fractionation factors from the literature, (2) measured temperatures, and (3) measured δ
13C values of the dissolved inorganic carbon of drip waters. Calcite samples range from ∼0.8‰ higher to ∼1.1‰ lower than predicted values. The
13C depletions are likely caused by kinetically driven departures in the fractionation between HCO
3
− (aq) and CaCO
3 from equilibrium conditions, caused by rapid calcite growth.
13C enrichments can be accounted for by Rayleigh distillation of the HCO
3
− (aq) reservoir during degassing of
13C-depleted CO
2.
Modern speleothems from Harrison’s Cave are not in O isotopic equilibrium with their corresponding drip waters and are 0.2‰ to 2.3‰ enriched in
18O relative to equilibrium values. δ
18O variations in modern calcite are likely controlled by kinetically driven changes in the fractionation between HCO
3
− (aq) and CaCO
3 from equilibrium conditions to nonequilibrium conditions, consistent with rapid calcite growth. In contrast to δ
13C, δ
18O values of modern calcite may not be affected by Rayleigh distillation during degassing because CO
2 hydration and hydroxylation reactions will buffer the O isotopic composition of the HCO
3
− (aq) reservoir. If the effects of Rayleigh distillation manifest themselves in the O isotopic system, they will result in
18O enrichment in the HCO
3
− (aq) reservoir and ultimately in the precipitated CaCO
3. |
---|---|
AbstractList | Applications of speleothem calcite geochemistry in climate change studies require the evaluation of the accuracy and sensitivity of speleothem proxies to correctly infer paleoclimatic information. The present study of Harrison’s Cave, Barbados, uses the analysis of the modern climatology and groundwater system to evaluate controls on the C and O isotopic composition of modern speleothems. This new approach directly compares the δ
18O and δ
13C values of modern speleothems with the values for their corresponding drip waters in order to assess the degree to which isotopic equilibrium is achieved during calcite precipitation. If modern speleothems can be demonstrated to precipitate in isotopic equilibrium, then ancient speleothems, suitable for paleoclimatic studies, from the same cave environment may also have been precipitated in isotopic equilibrium. If modern speleothems are precipitated out of isotopic equilibrium, then the magnitude and direction of the C and O isotopic offsets may allow specific kinetic and/or equilibrium isotopic fractionation mechanisms to be identified.
Carbon isotope values for the majority of modern speleothem samples from Harrison’s Cave fall within the range of equilibrium values predicted from the combined use of (1) calcite-water fractionation factors from the literature, (2) measured temperatures, and (3) measured δ
13C values of the dissolved inorganic carbon of drip waters. Calcite samples range from ∼0.8‰ higher to ∼1.1‰ lower than predicted values. The
13C depletions are likely caused by kinetically driven departures in the fractionation between HCO
3
− (aq) and CaCO
3 from equilibrium conditions, caused by rapid calcite growth.
13C enrichments can be accounted for by Rayleigh distillation of the HCO
3
− (aq) reservoir during degassing of
13C-depleted CO
2.
Modern speleothems from Harrison’s Cave are not in O isotopic equilibrium with their corresponding drip waters and are 0.2‰ to 2.3‰ enriched in
18O relative to equilibrium values. δ
18O variations in modern calcite are likely controlled by kinetically driven changes in the fractionation between HCO
3
− (aq) and CaCO
3 from equilibrium conditions to nonequilibrium conditions, consistent with rapid calcite growth. In contrast to δ
13C, δ
18O values of modern calcite may not be affected by Rayleigh distillation during degassing because CO
2 hydration and hydroxylation reactions will buffer the O isotopic composition of the HCO
3
− (aq) reservoir. If the effects of Rayleigh distillation manifest themselves in the O isotopic system, they will result in
18O enrichment in the HCO
3
− (aq) reservoir and ultimately in the precipitated CaCO
3. |
Author | Banner, Jay L. Stern, Libby Mickler, Patrick J. Asmerom, Yemane Edwards, R.Lawrence Ito, Emi |
Author_xml | – sequence: 1 givenname: Patrick J. surname: Mickler fullname: Mickler, Patrick J. email: mickler@mail.utexas.edu organization: Department of Geological Sciences, University of Texas, Austin, Texas 78712-0254, USA – sequence: 2 givenname: Jay L. surname: Banner fullname: Banner, Jay L. organization: Department of Geological Sciences, University of Texas, Austin, Texas 78712-0254, USA – sequence: 3 givenname: Libby surname: Stern fullname: Stern, Libby organization: Department of Geological Sciences, University of Texas, Austin, Texas 78712-0254, USA – sequence: 4 givenname: Yemane surname: Asmerom fullname: Asmerom, Yemane organization: Department of Earth and Planetary Science, University of New Mexico, Albuquerque, New Mexico 87131-0001, USA – sequence: 5 givenname: R.Lawrence surname: Edwards fullname: Edwards, R.Lawrence organization: Department of Geology and Geophysics, University of Minnesota, Minneapolis, Minnesota 55455-0219, USA – sequence: 6 givenname: Emi surname: Ito fullname: Ito, Emi organization: Department of Geology and Geophysics, University of Minnesota, Minneapolis, Minnesota 55455-0219, USA |
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