Judith Fierstein
Judith Fierstein is a Research Geologist at the California Volcano Observatory
Science and Products
Filter Total Items: 24
Monogenetic origin of Ubehebe Crater maar volcano, Death Valley, California: Paleomagnetic and stratigraphic evidence Monogenetic origin of Ubehebe Crater maar volcano, Death Valley, California: Paleomagnetic and stratigraphic evidence
Paleomagnetic data for samples collected from outcrops of basaltic spatter at the Ubehebe Crater cluster, Death Valley National Park, California, record a single direction of remanent magnetization indicating that these materials were emplaced during a short duration, monogenetic eruption sequence ~ 2100 years ago. This conclusion is supported by geochemical data encompassing a narrow...
Authors
Duane E. Champion, Andrew J. Cyr, Judith Fierstein, Edward Hildreth
Geologic field-trip guide to Long Valley Caldera, California Geologic field-trip guide to Long Valley Caldera, California
This guide to the geology of Long Valley Caldera is presented in four parts: (1) An overview of the volcanic geology; (2) a chronological summary of the principal geologic events; (3) a road log with directions and descriptions for 38 field-trip stops; and (4) a summary of the geophysical unrest since 1978 and discussion of its causes. The sequence of stops is arranged as a four-day...
Authors
Wes Hildreth, Judy Fierstein
Eruptive history of the Ubehebe Crater Cluster, Death Valley, California Eruptive history of the Ubehebe Crater Cluster, Death Valley, California
A sequence of late Holocene eruptions from the Ubehebe Crater cluster in Death Valley was short-lived, emplacing several phreatomagmatic and magmatic deposits. Seven craters form the main group, which erupted along a north-south alignment 1.5 km long. At least five more make a 500-m east-west alignment west of the main crater group. One more is an isolated shallow crater ~ 400 m south of...
Authors
Judith E. Fierstein, Wes Hildreth
Early postcaldera rhyolite and structural resurgence at Long Valley Caldera, California Early postcaldera rhyolite and structural resurgence at Long Valley Caldera, California
After the 767-ka caldera-forming eruption of 650 km3 of rhyolite magma as the Bishop Tuff, 90–100 km3 of similar rhyolite erupted in the west-central part of Long Valley caldera in as many as 40 batches spread over the 110,000-year interval from ~ 750 ka to ~ 640 ka. Centrally, this Early Rhyolite (ER) is as thick as 622 m, but it spread radially to cover much of the caldera floor, where...
Authors
Wes Hildreth, Judith E. Fierstein, Andrew T. Calvert
Long Valley Caldera Lake and reincision of Owens River Gorge Long Valley Caldera Lake and reincision of Owens River Gorge
Owens River Gorge, today rimmed exclusively in 767-ka Bishop Tuff, was first cut during the Neogene through a ridge of Triassic granodiorite to a depth as great as its present-day floor and was then filled to its rim by a small basaltic shield at 3.3 Ma. The gorge-filling basalt, 200 m thick, blocked a 5-km-long reach of the upper gorge, diverting the Owens River southward around the...
Authors
Wes Hildreth, Judy Fierstein
Katmai National Park and Preserve and Alagnak Wild River: Geologic resources inventory report Katmai National Park and Preserve and Alagnak Wild River: Geologic resources inventory report
The Geologic Resources Inventory (GRI) is one of 12 inventories funded by the National Park Service (NPS) Inventory and Monitoring Program. The Geologic Resources Division of the NPS Natural Resource Stewardship and Science Directorate administers the GRI. This GRI report was written for resource managers to support science-informed decision making. It may also be useful for...
Authors
Chad Hults, Judith E. Fierstein
The timing of compositionally-zoned magma reservoirs and mafic 'priming' weeks before the 1912 Novarupta-Katmai rhyolite eruption The timing of compositionally-zoned magma reservoirs and mafic 'priming' weeks before the 1912 Novarupta-Katmai rhyolite eruption
The June 6, 1912 eruption of more than 13 km3 of dense rock equivalent (DRE) magma at Novarupta vent, Alaska was the largest of the 20th century. It ejected >7 km3 of rhyolite, ~1.3 km3 of andesite and ~4.6 km3 of dacite. Early ideas about the origin of pyroclastic flows and magmatic differentiation (e.g., compositional zonation of reservoirs) were shaped by this eruption. Despite being...
Authors
Brad S. Singer, Fidel Costa, Jason S. Herrin, Wes Hildreth, Judith Fierstein
Dynamics of a large, restless, rhyolitic magma system at Laguna del Maule, southern Andes, Chile Dynamics of a large, restless, rhyolitic magma system at Laguna del Maule, southern Andes, Chile
Explosive eruptions of large-volume rhyolitic magma systems are common in the geologic record and pose a major potential threat to society. Unlike other natural hazards, such as earthquakes and tsunamis, a large rhyolitic volcano may provide warning signs long before a caldera-forming eruption occurs. Yet, these signs—and what they imply about magma-crust dynamics—are not well known...
Authors
Brad S. Singer, Nathan L. Andersen, Helene Le Mevel, Kurt L. Feigl, Charles DeMets, Basil Tikoff, Clifford H. Thurber, Brian R. Jicha, Carlos Cardonna, Loreto Cordova, Fernando Gil, Martyn J. Unsworth, Glyn Williams-Jones, Craig W. Miller, Judith Fierstein, Edward Hildreth, Jorge A. Vazquez
Mammoth Mountain and its mafic periphery—A late Quaternary volcanic field in eastern California Mammoth Mountain and its mafic periphery—A late Quaternary volcanic field in eastern California
The trachydacite complex of Mammoth Mountain and an array of contemporaneous mafic volcanoes in its periphery together form a discrete late Pleistocene magmatic system that is thermally and compositionally independent of the adjacent subalkaline Long Valley system (California, USA). The Mammoth system first erupted ca. 230 ka, last erupted ca. 8 ka, and remains restless and potentially...
Authors
Wes Hildreth, Judith Fierstein, Duane E. Champion, Andrew T. Calvert
Eruptive history of Mount Katmai, Alaska Eruptive history of Mount Katmai, Alaska
Mount Katmai has long been recognized for its caldera collapse during the great pyroclastic eruption of 1912 (which vented 10 km away at Novarupta in the Valley of Ten Thousand Smokes), but little has previously been reported about the geology of the remote ice-clad stratovolcano itself. Over several seasons, we reconnoitered all parts of the edifice and sampled most of the lava flows...
Authors
Edward Hildreth, Judith Fierstein
Blue Mountain and the Gas Rocks: Rear-arc dome clusters on the Alaska Peninsula Blue Mountain and the Gas Rocks: Rear-arc dome clusters on the Alaska Peninsula
Behind the single-file chain of stratovolcanoes on the Alaska Peninsula, independent rear-arc vents for mafic magmas are uncommon, and for silicic magmas rarer still. We report here the characteristics, compositions, and ages of two andesite-dacite dome clusters and of several nearby basaltic units, all near Becharof Lake and 15 to 20 km behind the volcanic front. Blue Mountain consists...
Authors
Wes Hildreth, Judith Fierstein, Andrew T. Calvert
Geochronology and eruptive history of the Katmai volcanic cluster, Alaska Peninsula Geochronology and eruptive history of the Katmai volcanic cluster, Alaska Peninsula
In the Katmai district of the Alaska Peninsula, K–Ar and 40Ar/39Ar ages have been determined for a dozen andesite–dacite stratocones on the arc front and for 11 rear-arc volcanoes, 10 of which are monogenetic. Tied to mapping and stratigraphic studies, our dating emphasized proximal basal lavas that rest on basement rocks, in order to estimate ages of inception of each polygenetic cone...
Authors
Wes Hildreth, Marvin A. Lanphere, Judy Fierstein
Non-USGS Publications**
**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: 24
Monogenetic origin of Ubehebe Crater maar volcano, Death Valley, California: Paleomagnetic and stratigraphic evidence Monogenetic origin of Ubehebe Crater maar volcano, Death Valley, California: Paleomagnetic and stratigraphic evidence
Paleomagnetic data for samples collected from outcrops of basaltic spatter at the Ubehebe Crater cluster, Death Valley National Park, California, record a single direction of remanent magnetization indicating that these materials were emplaced during a short duration, monogenetic eruption sequence ~ 2100 years ago. This conclusion is supported by geochemical data encompassing a narrow...
Authors
Duane E. Champion, Andrew J. Cyr, Judith Fierstein, Edward Hildreth
Geologic field-trip guide to Long Valley Caldera, California Geologic field-trip guide to Long Valley Caldera, California
This guide to the geology of Long Valley Caldera is presented in four parts: (1) An overview of the volcanic geology; (2) a chronological summary of the principal geologic events; (3) a road log with directions and descriptions for 38 field-trip stops; and (4) a summary of the geophysical unrest since 1978 and discussion of its causes. The sequence of stops is arranged as a four-day...
Authors
Wes Hildreth, Judy Fierstein
Eruptive history of the Ubehebe Crater Cluster, Death Valley, California Eruptive history of the Ubehebe Crater Cluster, Death Valley, California
A sequence of late Holocene eruptions from the Ubehebe Crater cluster in Death Valley was short-lived, emplacing several phreatomagmatic and magmatic deposits. Seven craters form the main group, which erupted along a north-south alignment 1.5 km long. At least five more make a 500-m east-west alignment west of the main crater group. One more is an isolated shallow crater ~ 400 m south of...
Authors
Judith E. Fierstein, Wes Hildreth
Early postcaldera rhyolite and structural resurgence at Long Valley Caldera, California Early postcaldera rhyolite and structural resurgence at Long Valley Caldera, California
After the 767-ka caldera-forming eruption of 650 km3 of rhyolite magma as the Bishop Tuff, 90–100 km3 of similar rhyolite erupted in the west-central part of Long Valley caldera in as many as 40 batches spread over the 110,000-year interval from ~ 750 ka to ~ 640 ka. Centrally, this Early Rhyolite (ER) is as thick as 622 m, but it spread radially to cover much of the caldera floor, where...
Authors
Wes Hildreth, Judith E. Fierstein, Andrew T. Calvert
Long Valley Caldera Lake and reincision of Owens River Gorge Long Valley Caldera Lake and reincision of Owens River Gorge
Owens River Gorge, today rimmed exclusively in 767-ka Bishop Tuff, was first cut during the Neogene through a ridge of Triassic granodiorite to a depth as great as its present-day floor and was then filled to its rim by a small basaltic shield at 3.3 Ma. The gorge-filling basalt, 200 m thick, blocked a 5-km-long reach of the upper gorge, diverting the Owens River southward around the...
Authors
Wes Hildreth, Judy Fierstein
Katmai National Park and Preserve and Alagnak Wild River: Geologic resources inventory report Katmai National Park and Preserve and Alagnak Wild River: Geologic resources inventory report
The Geologic Resources Inventory (GRI) is one of 12 inventories funded by the National Park Service (NPS) Inventory and Monitoring Program. The Geologic Resources Division of the NPS Natural Resource Stewardship and Science Directorate administers the GRI. This GRI report was written for resource managers to support science-informed decision making. It may also be useful for...
Authors
Chad Hults, Judith E. Fierstein
The timing of compositionally-zoned magma reservoirs and mafic 'priming' weeks before the 1912 Novarupta-Katmai rhyolite eruption The timing of compositionally-zoned magma reservoirs and mafic 'priming' weeks before the 1912 Novarupta-Katmai rhyolite eruption
The June 6, 1912 eruption of more than 13 km3 of dense rock equivalent (DRE) magma at Novarupta vent, Alaska was the largest of the 20th century. It ejected >7 km3 of rhyolite, ~1.3 km3 of andesite and ~4.6 km3 of dacite. Early ideas about the origin of pyroclastic flows and magmatic differentiation (e.g., compositional zonation of reservoirs) were shaped by this eruption. Despite being...
Authors
Brad S. Singer, Fidel Costa, Jason S. Herrin, Wes Hildreth, Judith Fierstein
Dynamics of a large, restless, rhyolitic magma system at Laguna del Maule, southern Andes, Chile Dynamics of a large, restless, rhyolitic magma system at Laguna del Maule, southern Andes, Chile
Explosive eruptions of large-volume rhyolitic magma systems are common in the geologic record and pose a major potential threat to society. Unlike other natural hazards, such as earthquakes and tsunamis, a large rhyolitic volcano may provide warning signs long before a caldera-forming eruption occurs. Yet, these signs—and what they imply about magma-crust dynamics—are not well known...
Authors
Brad S. Singer, Nathan L. Andersen, Helene Le Mevel, Kurt L. Feigl, Charles DeMets, Basil Tikoff, Clifford H. Thurber, Brian R. Jicha, Carlos Cardonna, Loreto Cordova, Fernando Gil, Martyn J. Unsworth, Glyn Williams-Jones, Craig W. Miller, Judith Fierstein, Edward Hildreth, Jorge A. Vazquez
Mammoth Mountain and its mafic periphery—A late Quaternary volcanic field in eastern California Mammoth Mountain and its mafic periphery—A late Quaternary volcanic field in eastern California
The trachydacite complex of Mammoth Mountain and an array of contemporaneous mafic volcanoes in its periphery together form a discrete late Pleistocene magmatic system that is thermally and compositionally independent of the adjacent subalkaline Long Valley system (California, USA). The Mammoth system first erupted ca. 230 ka, last erupted ca. 8 ka, and remains restless and potentially...
Authors
Wes Hildreth, Judith Fierstein, Duane E. Champion, Andrew T. Calvert
Eruptive history of Mount Katmai, Alaska Eruptive history of Mount Katmai, Alaska
Mount Katmai has long been recognized for its caldera collapse during the great pyroclastic eruption of 1912 (which vented 10 km away at Novarupta in the Valley of Ten Thousand Smokes), but little has previously been reported about the geology of the remote ice-clad stratovolcano itself. Over several seasons, we reconnoitered all parts of the edifice and sampled most of the lava flows...
Authors
Edward Hildreth, Judith Fierstein
Blue Mountain and the Gas Rocks: Rear-arc dome clusters on the Alaska Peninsula Blue Mountain and the Gas Rocks: Rear-arc dome clusters on the Alaska Peninsula
Behind the single-file chain of stratovolcanoes on the Alaska Peninsula, independent rear-arc vents for mafic magmas are uncommon, and for silicic magmas rarer still. We report here the characteristics, compositions, and ages of two andesite-dacite dome clusters and of several nearby basaltic units, all near Becharof Lake and 15 to 20 km behind the volcanic front. Blue Mountain consists...
Authors
Wes Hildreth, Judith Fierstein, Andrew T. Calvert
Geochronology and eruptive history of the Katmai volcanic cluster, Alaska Peninsula Geochronology and eruptive history of the Katmai volcanic cluster, Alaska Peninsula
In the Katmai district of the Alaska Peninsula, K–Ar and 40Ar/39Ar ages have been determined for a dozen andesite–dacite stratocones on the arc front and for 11 rear-arc volcanoes, 10 of which are monogenetic. Tied to mapping and stratigraphic studies, our dating emphasized proximal basal lavas that rest on basement rocks, in order to estimate ages of inception of each polygenetic cone...
Authors
Wes Hildreth, Marvin A. Lanphere, Judy Fierstein
Non-USGS Publications**
**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.