Boron isotope geochemistry during diagenesis. Part I. Experimental determination of fractionation during illitization of smectite
Experiments were performed to measure the isotopic fractionation of boron between illite/smectite (I/S) clay minerals and water as a function of temperature (300° and 350°C) and degree of illitization. Corresponding changes in the oxygen isotopes were monitored as an indication of the approach to eq...
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| Veröffentlicht in: | Geochimica et cosmochimica acta 2001-06, Vol.65 (11), p.1769-1782 |
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| creator | Williams, Lynda B Hervig, Richard L Holloway, John R Hutcheon, Ian |
| description | Experiments were performed to measure the isotopic fractionation of boron between illite/smectite (I/S) clay minerals and water as a function of temperature (300° and 350°C) and degree of illitization. Corresponding changes in the oxygen isotopes were monitored as an indication of the approach to equilibrium. The kinetics of the B-isotope exchange follows the mineralogical restructuring of smectite as it recrystallizes to illite. An initial decline in δ
11B
I/S occurs when the I/S is randomly ordered (RO). The δ
11B
I/S values reach a plateau during R1 ordering of the I/S, representing a metastable condition. The greatest change in δ
11B
I/S is observed during long-range (R3) ordering of the I/S when neoformation occurs.
Values of δ
11B
I/S measured on the equilibrium reaction products were used to construct a B-isotope fractionation curve. There is a linear correlation among data from these experiments and 1100°C basaltic melt-fluid fractionation experiments (Hervig and Moore, 2000) that can be extrapolated to include adsorption experiments at 25°C (
Palmer et al., 1987). Unlike other stable isotopic systems (e.g., oxygen) there is no mineral-specific fractionation of B-isotopes, but rather a coordination dependence of the fractionation. Under diagenetic conditions B is predominantly in trigonal coordination in fluids but substitutes in tetrahedral sites of silicates. The preference of
10B for tetrahedral bonds is the major fractionating factor of B in silicates. |
| doi_str_mv | 10.1016/S0016-7037(01)00557-9 |
| format | Article |
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11B
I/S occurs when the I/S is randomly ordered (RO). The δ
11B
I/S values reach a plateau during R1 ordering of the I/S, representing a metastable condition. The greatest change in δ
11B
I/S is observed during long-range (R3) ordering of the I/S when neoformation occurs.
Values of δ
11B
I/S measured on the equilibrium reaction products were used to construct a B-isotope fractionation curve. There is a linear correlation among data from these experiments and 1100°C basaltic melt-fluid fractionation experiments (Hervig and Moore, 2000) that can be extrapolated to include adsorption experiments at 25°C (
Palmer et al., 1987). Unlike other stable isotopic systems (e.g., oxygen) there is no mineral-specific fractionation of B-isotopes, but rather a coordination dependence of the fractionation. Under diagenetic conditions B is predominantly in trigonal coordination in fluids but substitutes in tetrahedral sites of silicates. The preference of
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11B
I/S occurs when the I/S is randomly ordered (RO). The δ
11B
I/S values reach a plateau during R1 ordering of the I/S, representing a metastable condition. The greatest change in δ
11B
I/S is observed during long-range (R3) ordering of the I/S when neoformation occurs.
Values of δ
11B
I/S measured on the equilibrium reaction products were used to construct a B-isotope fractionation curve. There is a linear correlation among data from these experiments and 1100°C basaltic melt-fluid fractionation experiments (Hervig and Moore, 2000) that can be extrapolated to include adsorption experiments at 25°C (
Palmer et al., 1987). Unlike other stable isotopic systems (e.g., oxygen) there is no mineral-specific fractionation of B-isotopes, but rather a coordination dependence of the fractionation. Under diagenetic conditions B is predominantly in trigonal coordination in fluids but substitutes in tetrahedral sites of silicates. The preference of
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11B
I/S occurs when the I/S is randomly ordered (RO). The δ
11B
I/S values reach a plateau during R1 ordering of the I/S, representing a metastable condition. The greatest change in δ
11B
I/S is observed during long-range (R3) ordering of the I/S when neoformation occurs.
Values of δ
11B
I/S measured on the equilibrium reaction products were used to construct a B-isotope fractionation curve. There is a linear correlation among data from these experiments and 1100°C basaltic melt-fluid fractionation experiments (Hervig and Moore, 2000) that can be extrapolated to include adsorption experiments at 25°C (
Palmer et al., 1987). Unlike other stable isotopic systems (e.g., oxygen) there is no mineral-specific fractionation of B-isotopes, but rather a coordination dependence of the fractionation. Under diagenetic conditions B is predominantly in trigonal coordination in fluids but substitutes in tetrahedral sites of silicates. The preference of
10B for tetrahedral bonds is the major fractionating factor of B in silicates.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/S0016-7037(01)00557-9</doi><tpages>14</tpages></addata></record> |
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| subjects | Marine |
| title | Boron isotope geochemistry during diagenesis. Part I. Experimental determination of fractionation during illitization of smectite |
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