Wes Hildreth (Former Employee)
Science and Products
Filter Total Items: 70
Reply to Comment on "Crustal contributions to arc magmatism in the Andes of Central Chile" by W. Hildreth and S. Moorbath Reply to Comment on "Crustal contributions to arc magmatism in the Andes of Central Chile" by W. Hildreth and S. Moorbath
[No abstract available]
Authors
W. Hildreth, S. Moorbath
Modelling the petrogenesis of high Rb/Sr silicic magmas Modelling the petrogenesis of high Rb/Sr silicic magmas
Rhyolites can be highly evolved with Sr contents as low as 0.1 ppm and Rb Sr > 2,000. In contrast, granite batholiths are commonly comprised of rocks with Rb Sr 10 and only rarely > 100. Mass-balance modelling of source compositions, differentiation and contamination using the trace-element geochemistry of granites are therefore commonly in error because of the failure to account for...
Authors
A. N. Halliday, J.P. Davidson, W. Hildreth, P. Holden
Isotopic and chemical evidence concerning the genesis and contamination of basaltic and rhyolitic magma beneath the Yellowstone Plateau Volcanic Field Isotopic and chemical evidence concerning the genesis and contamination of basaltic and rhyolitic magma beneath the Yellowstone Plateau Volcanic Field
Since 2.2 Ma, the Yellowstone Plateau volcanic field has produced ∼6000 km3 of rhyolite tuffs and lavas in >60 separate eruptions, as well as ∼ 100 km3 of tholeiitic basalt from >50 vents peripheral to the silicic focus. Intermediate eruptive products are absent. Large calderas collapsed at 2·0, 1·3, and 0·6 Ma on eruption of ash-flow sheets representing at least 2500, 280, and 1000 km3...
Authors
W. Hildreth, A. N. Halliday, R.L. Christiansen
Geophysics at Katmai: Geophysical expedition to Novarupta Volcano, Katmai National Park, Alaska Geophysics at Katmai: Geophysical expedition to Novarupta Volcano, Katmai National Park, Alaska
The great eruption of 1912 in the Aleutian Range of Alaska (Figure 1) is exceptional for both its size and relative simplicity. It was the largest eruption of this century and the largest rhyolitic outburst in almost 20 centuries. The 60-hour, 30-km3 (ejecta volume) eruption produced extensive fallout deposits, an ash-flow sheet that gave rise to the Valley of Ten Thousand Smokes, and...
Authors
John C. Eichelberger, S. Ballard, Charles R. Carrigan, A. Goodliffe, W. Hildreth, E.Y. Iwatsubo, P. W. Kasameyer, T. E. C. Keith, Juergen Kienle, J. J. Papike, D. D. Pollard, D.B. Stone, P. C. Wallmann, P.L. Ward, M. Wilt, M. E. Yount
Crustal contributions to arc magmatism in the Andes of Central Chile Crustal contributions to arc magmatism in the Andes of Central Chile
Fifteen andesite-dacite stratovolcanoes on the volcanic front of a single segment of the Andean arc show along-arc changes in isotopic and elemental ratios that demonstrate large crustal contributions to magma genesis. All 15 centers lie 90 km above the Benioff zone and 280??20 km from the trench axis. Rate and geometry of subduction and composition and age of subducted sediments and...
Authors
W. Hildreth, S. Moorbath
New perspectives on the eruption of 1912 in the valley of ten thousand smokes, Katmai National Park, Alaska New perspectives on the eruption of 1912 in the valley of ten thousand smokes, Katmai National Park, Alaska
New data extend our understanding of the 1912 eruption, its backfilled vent complex at Novarupta, and magma-storage systems beneath adjacent stratovolcanoes. Initial Plinian rhyolite fallout is confined to a narrow downwind sector, and its maximum thickness may occur as far as 13 km from source. In contrast, the partly contemporaneous rhyolite-rich ash flows underwent relatively low...
Authors
W. Hildreth
Non-USGS Publications**
Hildreth, W., 1976, Death Valley Geology: Death Valley Natural History Association, Furnace Creek, CA, 64 p.
Ewart, A., Hildreth, W., and Carmichael, I.S. E., 1975, Quaternary acid magma in New Zealand: Contributions to Mineralogy and Petrology, v. 51, p. 1–27.
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
Filter Total Items: 70
Reply to Comment on "Crustal contributions to arc magmatism in the Andes of Central Chile" by W. Hildreth and S. Moorbath Reply to Comment on "Crustal contributions to arc magmatism in the Andes of Central Chile" by W. Hildreth and S. Moorbath
[No abstract available]
Authors
W. Hildreth, S. Moorbath
Modelling the petrogenesis of high Rb/Sr silicic magmas Modelling the petrogenesis of high Rb/Sr silicic magmas
Rhyolites can be highly evolved with Sr contents as low as 0.1 ppm and Rb Sr > 2,000. In contrast, granite batholiths are commonly comprised of rocks with Rb Sr 10 and only rarely > 100. Mass-balance modelling of source compositions, differentiation and contamination using the trace-element geochemistry of granites are therefore commonly in error because of the failure to account for...
Authors
A. N. Halliday, J.P. Davidson, W. Hildreth, P. Holden
Isotopic and chemical evidence concerning the genesis and contamination of basaltic and rhyolitic magma beneath the Yellowstone Plateau Volcanic Field Isotopic and chemical evidence concerning the genesis and contamination of basaltic and rhyolitic magma beneath the Yellowstone Plateau Volcanic Field
Since 2.2 Ma, the Yellowstone Plateau volcanic field has produced ∼6000 km3 of rhyolite tuffs and lavas in >60 separate eruptions, as well as ∼ 100 km3 of tholeiitic basalt from >50 vents peripheral to the silicic focus. Intermediate eruptive products are absent. Large calderas collapsed at 2·0, 1·3, and 0·6 Ma on eruption of ash-flow sheets representing at least 2500, 280, and 1000 km3...
Authors
W. Hildreth, A. N. Halliday, R.L. Christiansen
Geophysics at Katmai: Geophysical expedition to Novarupta Volcano, Katmai National Park, Alaska Geophysics at Katmai: Geophysical expedition to Novarupta Volcano, Katmai National Park, Alaska
The great eruption of 1912 in the Aleutian Range of Alaska (Figure 1) is exceptional for both its size and relative simplicity. It was the largest eruption of this century and the largest rhyolitic outburst in almost 20 centuries. The 60-hour, 30-km3 (ejecta volume) eruption produced extensive fallout deposits, an ash-flow sheet that gave rise to the Valley of Ten Thousand Smokes, and...
Authors
John C. Eichelberger, S. Ballard, Charles R. Carrigan, A. Goodliffe, W. Hildreth, E.Y. Iwatsubo, P. W. Kasameyer, T. E. C. Keith, Juergen Kienle, J. J. Papike, D. D. Pollard, D.B. Stone, P. C. Wallmann, P.L. Ward, M. Wilt, M. E. Yount
Crustal contributions to arc magmatism in the Andes of Central Chile Crustal contributions to arc magmatism in the Andes of Central Chile
Fifteen andesite-dacite stratovolcanoes on the volcanic front of a single segment of the Andean arc show along-arc changes in isotopic and elemental ratios that demonstrate large crustal contributions to magma genesis. All 15 centers lie 90 km above the Benioff zone and 280??20 km from the trench axis. Rate and geometry of subduction and composition and age of subducted sediments and...
Authors
W. Hildreth, S. Moorbath
New perspectives on the eruption of 1912 in the valley of ten thousand smokes, Katmai National Park, Alaska New perspectives on the eruption of 1912 in the valley of ten thousand smokes, Katmai National Park, Alaska
New data extend our understanding of the 1912 eruption, its backfilled vent complex at Novarupta, and magma-storage systems beneath adjacent stratovolcanoes. Initial Plinian rhyolite fallout is confined to a narrow downwind sector, and its maximum thickness may occur as far as 13 km from source. In contrast, the partly contemporaneous rhyolite-rich ash flows underwent relatively low...
Authors
W. Hildreth
Non-USGS Publications**
Hildreth, W., 1976, Death Valley Geology: Death Valley Natural History Association, Furnace Creek, CA, 64 p.
Ewart, A., Hildreth, W., and Carmichael, I.S. E., 1975, Quaternary acid magma in New Zealand: Contributions to Mineralogy and Petrology, v. 51, p. 1–27.
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government