Steven L. Quane scite author profile

Welding of pyroclastic deposits involves flattening of glassy pyroclasts under a compactional load at temperatures above the glass transition temperature. Progressive welding is recorded by changes in the petrographic (e.g., fabric) and physical (e.g., density) properties of the deposits. Mapping the intensity of welding can be integral to studies of pyroclastic deposits, but making systematic comparisons between deposits can be problematical. Here we develop a scheme for ranking welding intensity in pyroclastic deposits on the basis of petrographic textural observations (e.g., oblateness of pumice lapilli and micro-fabric orientation) and measurements of physical properties, including density, porosity, point load strength and uniaxial compressive strength. Our dataset comprises measurements on 100 samples collected from a single cooling unit of the Bandelier Tuff and parallel measurements on 8 samples of more densely welded deposits. The proposed classification comprises six ranks of welding intensity ranging from unconsolidated (Rank I) to obsidian-like vitrophyre (Rank VI) and should allow for reproducible mapping of subtle variations in welding intensity between different deposits. The application of the ranking scheme is demonstrated by using published physical property data on welded pyroclastic deposits to map the total accumulated strain and to reconstruct their pre-welding thicknesses.

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Pele's tears and spheres: Examples from Kilauea Iki

Porritt

Russell

Quane

2012

Earth and Planetary Science Letters

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Time scales of compaction in volcanic systems

Quane

Russell

Friedlander

2009

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Welding: insights from high-temperature analogue experiments

Quane

Russell

2005

Journal of Volcanology and Geothermal Research

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Magmatic history of the East Rift Zone of Kilauea Volcano, Hawaii based on drill core from SOH 1

Quane

Garcia

Guillou

et al. 2000

Journal of Volcanology and Geothermal Research

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Rheology of welding: inversion of field constraints

Russell

Quane

2005

Journal of Volcanology and Geothermal Research

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Rock strength as a metric of welding intensity in pyroclastic deposits

Quane

Russell

2003

ejm

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Physical volcanology of Tseax Volcano, British Columbia, Canada

et al. 2020

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Tseax volcano erupted ∼ 250 years ago in NW British Columbia, Canada producing tephra deposits and lava flows. Field mapping has defined the stratigraphy of Tseax and the lava flow morphologies. Aerial photogrammetry and bathymetry surveys were used to create a high resolution digital elevation model of the volcano to facilitate mapping and estimates of erupted material volumes. Tseax volcano (∼ 10.4 ± 0.7 × 10 6 m 3 ) comprises an outer breached spatter rampart and an inner conical tephra cone. Tseax is associated with a 32 km long and 0.49 ± 0.08 km 3 basanite-to-tephrite lava flow field covering ∼ 36 km 2 and divided into 4 distinct lava flows with heterogeneous surface morphologies. We present a volcanological map of Tseax volcano at a scale of 1:22,500. This will serve as supporting information for further research on the eruptive history of Tseax volcano and the lava flow field emplacement.

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Steven L. Quane

Ranking welding intensity in pyroclastic deposits

Pele's tears and spheres: Examples from Kilauea Iki

Time scales of compaction in volcanic systems

Welding: insights from high-temperature analogue experiments

Magmatic history of the East Rift Zone of Kilauea Volcano, Hawaii based on drill core from SOH 1

Rheology of welding: inversion of field constraints

Rock strength as a metric of welding intensity in pyroclastic deposits

Physical volcanology of Tseax Volcano, British Columbia, Canada

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