Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado
The 33 to 25 m.y.-old intrusive and volcanic rocks from western San Juan Mountains (Silverton-Ouray area of Colorado) are all abnormally low in O¹⁸ relative to most igneous rocks, particularly along the eastern edge of the Silverton Caldera where the average δO¹⁸ = -5. The only exceptions to this ar...
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Carnegie Institution of Washington
1974
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| Online Access: | https://authors.library.caltech.edu/117618/ https://authors.library.caltech.edu/117618/1/Taylor_1974p299.pdf https://resolver.caltech.edu/CaltechAUTHORS:20221027-145941066 |
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ftcaltechauth:oai:authors.library.caltech.edu:117618 2023-05-15T17:13:42+02:00 Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado Taylor, Hugh P., Jr. Hofmann, A. W. Giletti, B. J. Yoder, H. S., Jr. Yund, R. A. 1974 application/pdf https://authors.library.caltech.edu/117618/ https://authors.library.caltech.edu/117618/1/Taylor_1974p299.pdf https://resolver.caltech.edu/CaltechAUTHORS:20221027-145941066 en eng Carnegie Institution of Washington https://authors.library.caltech.edu/117618/1/Taylor_1974p299.pdf Taylor, Hugh P., Jr. (1974) Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado. In: Geochemical Transport and Kinetics : Papers. Carnegie Institution of Washington Publication. No.634. Carnegie Institution of Washington , Washington, D.C., pp. 299-324. ISBN 9780872796447. https://resolver.caltech.edu/CaltechAUTHORS:20221027-145941066 <https://resolver.caltech.edu/CaltechAUTHORS:20221027-145941066> other Book Section PeerReviewed 1974 ftcaltechauth 2022-11-17T18:57:45Z The 33 to 25 m.y.-old intrusive and volcanic rocks from western San Juan Mountains (Silverton-Ouray area of Colorado) are all abnormally low in O¹⁸ relative to most igneous rocks, particularly along the eastern edge of the Silverton Caldera where the average δO¹⁸ = -5. The only exceptions to this are certain plutons emplaced jnto Paleozoic and Mesozoic sedimentary rocks. Therefore, although in the volcanic rocks very large-scale convective circulation systems involving heated meteoric ground waters were established by the epizonal igneous intrusions, this did not occur in the less permeable sedimentary sections. The very low δD values of the hydrous minerals in the igneous rocks confirm these conclusions (δD = -137 to -150). The same processes also occurred in the vicinity of the 29 m.y.-old Alamosa stock in the eastern San Juan Mountains, but the δO¹⁸ depletion effects are not so extreme and the δD values are much higher (-101 to -118). This seems to imply that in the mid-Tertiary, the meteoric waters were about 35 per mil different in these two areas, even though they are only 70 miles apart. The meteoric-hydrothermal alteration processes that have affected these types of rocks can in certain circumstances produce almost complete oxygen exchange in plagioclase phenocrysts while preserving igneous textural features and delicate oscillatory zoning in the plagioclase. With two exceptions all of the low-O¹⁸ igneous rocks throughout the world are of late Mesozoic to Tertiary age; these are now known to be very extensive and quite common in all volcanic fields where there are shallow igneous intrusions. In Precambrian rocks, however, the reverse is true. Alkali feldspars from the red-rock granophyres and granites in the Muskox, Bushveld, and Duluth Complexes, and in the St. Francois and Keweenawan volcanic terranes are commonly higher in O¹⁸ than coexisting quartz. Although this could have resulted from much higher-O¹⁸ meteoric waters in the Precambrian (which would imply that the oceans also were much higher in ... Book Part muskox Caltech Authors (California Institute of Technology) Red Rock ENVELOPE(-54.531,-54.531,49.667,49.667) San Juan |
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Open Polar |
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Caltech Authors (California Institute of Technology) |
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ftcaltechauth |
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English |
| description |
The 33 to 25 m.y.-old intrusive and volcanic rocks from western San Juan Mountains (Silverton-Ouray area of Colorado) are all abnormally low in O¹⁸ relative to most igneous rocks, particularly along the eastern edge of the Silverton Caldera where the average δO¹⁸ = -5. The only exceptions to this are certain plutons emplaced jnto Paleozoic and Mesozoic sedimentary rocks. Therefore, although in the volcanic rocks very large-scale convective circulation systems involving heated meteoric ground waters were established by the epizonal igneous intrusions, this did not occur in the less permeable sedimentary sections. The very low δD values of the hydrous minerals in the igneous rocks confirm these conclusions (δD = -137 to -150). The same processes also occurred in the vicinity of the 29 m.y.-old Alamosa stock in the eastern San Juan Mountains, but the δO¹⁸ depletion effects are not so extreme and the δD values are much higher (-101 to -118). This seems to imply that in the mid-Tertiary, the meteoric waters were about 35 per mil different in these two areas, even though they are only 70 miles apart. The meteoric-hydrothermal alteration processes that have affected these types of rocks can in certain circumstances produce almost complete oxygen exchange in plagioclase phenocrysts while preserving igneous textural features and delicate oscillatory zoning in the plagioclase. With two exceptions all of the low-O¹⁸ igneous rocks throughout the world are of late Mesozoic to Tertiary age; these are now known to be very extensive and quite common in all volcanic fields where there are shallow igneous intrusions. In Precambrian rocks, however, the reverse is true. Alkali feldspars from the red-rock granophyres and granites in the Muskox, Bushveld, and Duluth Complexes, and in the St. Francois and Keweenawan volcanic terranes are commonly higher in O¹⁸ than coexisting quartz. Although this could have resulted from much higher-O¹⁸ meteoric waters in the Precambrian (which would imply that the oceans also were much higher in ... |
| author2 |
Hofmann, A. W. Giletti, B. J. Yoder, H. S., Jr. Yund, R. A. |
| format |
Book Part |
| author |
Taylor, Hugh P., Jr. |
| spellingShingle |
Taylor, Hugh P., Jr. Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado |
| author_facet |
Taylor, Hugh P., Jr. |
| author_sort |
Taylor, Hugh P., Jr. |
| title |
Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado |
| title_short |
Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado |
| title_full |
Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado |
| title_fullStr |
Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado |
| title_full_unstemmed |
Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado |
| title_sort |
oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the san juan volcanic field, colorado |
| publisher |
Carnegie Institution of Washington |
| publishDate |
1974 |
| url |
https://authors.library.caltech.edu/117618/ https://authors.library.caltech.edu/117618/1/Taylor_1974p299.pdf https://resolver.caltech.edu/CaltechAUTHORS:20221027-145941066 |
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ENVELOPE(-54.531,-54.531,49.667,49.667) |
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Red Rock San Juan |
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Red Rock San Juan |
| genre |
muskox |
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muskox |
| op_relation |
https://authors.library.caltech.edu/117618/1/Taylor_1974p299.pdf Taylor, Hugh P., Jr. (1974) Oxygen and hydrogen isotope evidence for large-scale circulation and interaction between ground waters and igneous intrusions, with particular reference to the San Juan Volcanic Field, Colorado. In: Geochemical Transport and Kinetics : Papers. Carnegie Institution of Washington Publication. No.634. Carnegie Institution of Washington , Washington, D.C., pp. 299-324. ISBN 9780872796447. https://resolver.caltech.edu/CaltechAUTHORS:20221027-145941066 <https://resolver.caltech.edu/CaltechAUTHORS:20221027-145941066> |
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other |
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1766070883291496448 |