Zircon (U-Th)/He thermochronometry: He diffusion and comparisons with 40Ar/39Ar dating

被引:576
|
作者
Reiners, PW
Spell, TL
Nicolescu, S
Zanetti, KA
机构
[1] Yale Univ, Dept Geol & Geophys, New Haven, CT 06511 USA
[2] Univ Nevada, Dept Geosci, Las Vegas, NV 89154 USA
关键词
D O I
10.1016/J.GCA.2003.10.021
中图分类号
P3 [地球物理学]; P59 [地球化学];
学科分类号
0708 ; 070902 ;
摘要
(U-Th)/He chronometry of zircon has a wide range of potential applications including therrnochronometry. provided the temperature sensitivity (e.g., closure temperature) of the system be accurately constrained. We have examined the characteristics of He loss from zircon in a series of step-heating diffusion experiments. and compared zircon (U-Th)/He ages with other thermochronometric constraints from plutonic rocks. Diffusion experiments on zircons with varying ages and U-Th contents yield Arrhenius relationships which. after about 5% He release, indicate E-a = 163-173 kJ/mol (39-41 kcal/mol), and D-o = 0.09-1.5 cm(2)/s, with an average E, of 169 +/- 3.8 kJ/mol (40.4 +/- 0.9 kcal/mol) and average D, of 0.46(+0.87) (-0.30) cm2/s. The experiments also suggest a correspondence between diffusion domain size and grain size. For effective grain radius of 60 gm and cooling rate of 10degreesC/myr, the diffusion data yield closure temperatures, T-c of 171-196degreesC. with an average of 183degreesC. The early stages of step heating experiments show complications in the form of decreasing apparent diffusivity with successive heating steps, but these are essentially absent in later stages, after about 5-10% He release. These effects are independent of radiation dosage and are also unlikely to be due to intracrystalline He zonation. Regardless of the physical origin, this non-Arrhenius behavior is similar to predictions based on degassing of multiple diffusion domains, with only a small proportion (<2-4%) of gas residing in domains with a lower diffusivity than the bulk zircon crystal. Thus the features of zircon responsible for these non-Arrhenius trends in the early stages of diffusion experiments would have a negligible effect on the bulk thermal sensitivity and closure temperature of a zircon crystal. We have also measured single-grain zircon (U-Th)/He ages and obtained 40Ar/39Ar ages for several minerals, including K-feldspar, for a suite of slowly cooled samples with other thermochronologic constraints. Zircon He ages from most samples have 1 sigma reproducibilities of about 1-5%, and agree well with K-feldspar 40Ar/39Ar multidomain cooling models for sample-specific Closure temperatures (170-189degreesC). One sample has a relatively poor reproducibility of similar to24%, however, and a mean that falls to older ages than predicted by the K-feldspar model. Microimaging shows that trace element zonation of a variety of styles is most pronounced in this sample, which probably leads to poor reproducibility via inaccurate a-ejection corrections. We present preliminary results of a new method for characterizing U-Th zonation in dated grains by laser-ablation, which significantly improves zircon He age accuracy. In summary, the zircon (U-Th)/He thermochronometer has a closure temperature of 170-190degreesC for typical plutonic cooling rates and crystal sizes, it is not significantly affected by radiation damage except in relatively rare cases of high radiation dosage with long-term low-temperature histories, and most ages agree well with constraints provided by K-spar 40Ar/39Ar cooling models. In some cases, intracrystalline U-Th zonation can result in inaccurate ages, but depth-profiling characterization of zonation in dated grains can significantly improve accuracy and precision of single-grain ages. Copyright (C) 2004 Elsevier Ltd. (U-Th)/He chronometry of zircon has a wide range of potential applications including therrnochronometry. provided the temperature sensitivity (e.g., closure temperature) of the system be accurately constrained. We have examined the characteristics of He loss from zircon in a series of step-heating diffusion experiments. and compared zircon (U-Th)/He ages with other thermochronometric constraints from plutonic rocks. Diffusion experiments on zircons with varying ages and U-Th contents yield Arrhenius relationships which. after about 5% He release, indicate E-a = 163-173 kJ/mol (39-41 kcal/mol), and D-o = 0.09-1.5 cm(2)/s, with an average E, of 169 +/- 3.8 kJ/mol (40.4 +/- 0.9 kcal/mol) and average D, of 0.46(+0.87) (-0.30) cm2/s. The experiments also suggest a correspondence between diffusion domain size and grain size. For effective grain radius of 60 gm and cooling rate of 10degreesC/myr, the diffusion data yield closure temperatures, T-c of 171-196degreesC. with an average of 183degreesC. The early stages of step heating experiments show complications in the form of decreasing apparent diffusivity with successive heating steps, but these are essentially absent in later stages, after about 5-10% He release. These effects are independent of radiation dosage and are also unlikely to be due to intracrystalline He zonation. Regardless of the physical origin, this non-Arrhenius behavior is similar to predictions based on degassing of multiple diffusion domains, with only a small proportion (<2-4%) of gas residing in domains with a lower diffusivity than the bulk zircon crystal. Thus the features of zircon responsible for these non-Arrhenius trends in the early stages of diffusion experiments would have a negligible effect on the bulk thermal sensitivity and closure temperature of a zircon crystal. We have also measured single-grain zircon (U-Th)/He ages and obtained 40Ar/39Ar ages for several minerals, including K-feldspar, for a suite of slowly cooled samples with other thermochronologic constraints. Zircon He ages from most samples have 1 sigma reproducibilities of about 1-5%, and agree well with K-feldspar 40Ar/39Ar multidomain cooling models for sample-specific Closure temperatures (170-189degreesC). One sample has a relatively poor reproducibility of similar to24%, however, and a mean that falls to older ages than predicted by the K-feldspar model. Microimaging shows that trace element zonation of a variety of styles is most pronounced in this sample, which probably leads to poor reproducibility via inaccurate a-ejection corrections. We present preliminary results of a new method for characterizing U-Th zonation in dated grains by laser-ablation, which significantly improves zircon He age accuracy. In summary, the zircon (U-Th)/He thermochronometer has a closure temperature of 170-190degreesC for typical plutonic cooling rates and crystal sizes, it is not significantly affected by radiation damage except in relatively rare cases of high radiation dosage with long-term low-temperature histories, and most ages agree well with constraints provided by K-spar 40Ar/39Ar cooling models. In some cases, intracrystalline U-Th zonation can result in inaccurate ages, but depth-profiling characterization of zonation in dated grains can significantly improve accuracy and precision of single-grain ages. Copyright (C) 2004 Elsevier Ltd. (U-Th)/He chronometry of zircon has a wide range of potential applications including therrnochronometry. provided the temperature sensitivity (e.g., closure temperature) of the system be accurately constrained. We have examined the characteristics of He loss from zircon in a series of step-heating diffusion experiments. and compared zircon (U-Th)/He ages with other thermochronometric constraints from plutonic rocks. Diffusion experiments on zircons with varying ages and U-Th contents yield Arrhenius relationships which. after about 5% He release, indicate E-a = 163-173 kJ/mol (39-41 kcal/mol), and D-o = 0.09-1.5 cm(2)/s, with an average E, of 169 +/- 3.8 kJ/mol (40.4 +/- 0.9 kcal/mol) and average D, of 0.46(+0.87) (-0.30) cm2/s. The experiments also suggest a correspondence between diffusion domain size and grain size. For effective grain radius of 60 gm and cooling rate of 10degreesC/myr, the diffusion data yield closure temperatures, T-c of 171-196degreesC. with an average of 183degreesC. The early stages of step heating experiments show complications in the form of decreasing apparent diffusivity with successive heating steps, but these are essentially absent in later stages, after about 5-10% He release. These effects are independent of radiation dosage and are also unlikely to be due to intracrystalline He zonation. Regardless of the physical origin, this non-Arrhenius behavior is similar to predictions based on degassing of multiple diffusion domains, with only a small proportion (<2-4%) of gas residing in domains with a lower diffusivity than the bulk zircon crystal. Thus the features of zircon responsible for these non-Arrhenius trends in the early stages of diffusion experiments would have a negligible effect on the bulk thermal sensitivity and closure temperature of a zircon crystal. We have also measured single-grain zircon (U-Th)/He ages and obtained 40Ar/39Ar ages for several minerals, including K-feldspar, for a suite of slowly cooled samples with other thermochronologic constraints. Zircon He ages from most samples have 1 sigma reproducibilities of about 1-5%, and agree well with K-feldspar 40Ar/39Ar multidomain cooling models for sample-specific Closure temperatures (170-189degreesC). One sample has a relatively poor reproducibility of similar to24%, however, and a mean that falls to older ages than predicted by the K-feldspar model. Microimaging shows that trace element zonation of a variety of styles is most pronounced in this sample, which probably leads to poor reproducibility via inaccurate a-ejection corrections. We present preliminary results of a new method for characterizing U-Th zonation in dated grains by laser-ablation, which significantly improves zircon He age accuracy. In summary, the zircon (U-Th)/He thermochronometer has a closure temperature of 170-190degreesC for typical plutonic cooling rates and crystal sizes, it is not significantly affected by radiation damage except in relatively rare cases of high radiation dosage with long-term low-temperature histories, and most ages agree well with constraints provided by K-spar 40Ar/39Ar cooling models. In some cases, intracrystalline U-Th zonation can result in inaccurate ages, but depth-profiling characterization of zonation in dated grains can significantly improve accuracy and precision of single-grain ages. Copyright (C) 2004 Elsevier Ltd.
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页码:1857 / 1887
页数:31
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