Thomas J Casadevall
Tom Casadevall is a Scientist Emeritus with the Geology, Geophysics, and Geochemistry Science Center.
Science and Products
World map of volcanoes and principal aeronautical features
Evidence for a high-level porphyritic intrusion below the Sunnyside epithermal vein deposit, Colorado
High-temperature quartz veins were identified in drill core at ~600 m below the Sunnyside epithermal base and pre-cious metal deposit in southwestern Colorado. The veins consist of early anhedral quartz that shows a bluish ca-thodoluminescence emission and hosts heterogenous silicate melt inclusions. The early quartz is overgrown by a later generation of quartz that exhibits euhedral termina-tions
Progress in protecting air travel from volcanic ash clouds
Born of fire: In search of volcanoes in U.S. national parks, four striking examples
Volcanic ash and aviation–The challenges of real-time, global communication of a natural hazard
Encounters of aircraft with volcanic ash clouds: A compilation of known incidents, 1953-2009
Volcanic hazards to airports
Compilation of Disruptions to Airports by Volcanic Activity (Version 1.0, 1944-2006)
Preliminary analytical results for a mud sample collected from the LUSI Mud Volcano, Sidoarjo, East Java, Indonesia
Ground deformation at Merapi Volcano, Java, Indonesia: distance changes, June 1988-October 1995
Monitoring so2 emission at the Soufriere Hills volcano: Implications for changes in eruptive conditions
Sulfur dioxide emission rates of Kilauea Volcano, Hawaii, 1979-1997
Volcanic ash - danger to aircraft in the north Pacific
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World map of volcanoes and principal aeronautical features
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Evidence for a high-level porphyritic intrusion below the Sunnyside epithermal vein deposit, Colorado
High-temperature quartz veins were identified in drill core at ~600 m below the Sunnyside epithermal base and pre-cious metal deposit in southwestern Colorado. The veins consist of early anhedral quartz that shows a bluish ca-thodoluminescence emission and hosts heterogenous silicate melt inclusions. The early quartz is overgrown by a later generation of quartz that exhibits euhedral termina-tions
AuthorsMario A Guzman, Thomas Monecke, T. James Reynolds, Thomas J. CasadevallProgress in protecting air travel from volcanic ash clouds
The Eyjafjallajökull eruption of 2010 demonstrated the far-reaching impact of ash clouds and the vulnerability of our jet-based society to them, prompting a review of procedures to detect, warn, and forecast ash cloud hazards to aviation. The years since 2010 have seen marked improvements in satellite technology, more accurate ash-dispersion models that integrate simulations with observations, andAuthorsLarry G. Mastin, Michael J. Pavolonis, Samantha Engwell, Rory Clarkson, Claire Witham, Greg Brock, Ian Lisk, Marianne C. Guffanti, Andrew C. Tupper, David J. Schneider, Frances Beckett, Thomas J. Casadevall, Graham RennieBorn of fire: In search of volcanoes in U.S. national parks, four striking examples
Geologic features, particularly volcanic features, have been protected by the National Park Service since its inception. Some volcanic areas were nationally protected even before the National Park Service was established. The first national park, Yellowstone National Park, is one of the most widely known geothermal and volcanic areas in the world. It contains the largest volcanic complex in NorthAuthorsLaura Walkup, Thomas Casadevall, Vincent L. SantucciVolcanic ash and aviation–The challenges of real-time, global communication of a natural hazard
More than 30 years after the first major aircraft encounters with volcanic ash over Indonesia in 1982, it remains challenging to inform aircraft in flight of the exact location of potentially dangerous ash clouds on their flight path, particularly shortly after the eruption has occurred. The difficulties include reliably forecasting and detecting the onset of significant explosive eruptions on a gAuthorsPeter Lechner, Andrew C. Tupper, Marianne C. Guffanti, Sue Loughlin, Thomas CasadevallEncounters of aircraft with volcanic ash clouds: A compilation of known incidents, 1953-2009
Information about reported encounters of aircraft with volcanic ash clouds from 1953 through 2009 has been compiled to document the nature and scope of risks to aviation from volcanic activity. The information, gleaned from a variety of published and other sources, is presented in database and spreadsheet formats; the compilation will be updated as additional encounters occur and as new data and cAuthorsMarianne Guffanti, Thomas J. Casadevall, Karin BuddingVolcanic hazards to airports
Volcanic activity has caused significant hazards to numerous airports worldwide, with local to far-ranging effects on travelers and commerce. Analysis of a new compilation of incidents of airports impacted by volcanic activity from 1944 through 2006 reveals that, at a minimum, 101 airports in 28 countries were affected on 171 occasions by eruptions at 46 volcanoes. Since 1980, five airports per yeAuthorsMarianne C. Guffanti, Gari C. Mayberry, Thomas J. Casadevall, Richard WundermanCompilation of Disruptions to Airports by Volcanic Activity (Version 1.0, 1944-2006)
Volcanic activity has caused significant hazards to numerous airports worldwide, with local to far-ranging effects on travelers and commerce. To more fully characterize the nature and scope of volcanic hazards to airports, we collected data on incidents of airports throughout the world that have been affected by volcanic activity, beginning in 1944 with the first documented instance of damage to mAuthorsMarianne Guffanti, Gari C. Mayberry, Thomas J. Casadevall, Richard WundermanPreliminary analytical results for a mud sample collected from the LUSI Mud Volcano, Sidoarjo, East Java, Indonesia
On May 29, 2006, mud and gases began erupting unexpectedly from a vent 150 meters away from a hydrocarbon exploration well near Sidoarjo, East Java, Indonesia. The eruption, called the LUSI (Lumpur 'mud'-Sidoarjo) mud volcano, has continued since then at rates as high as 160,000 m3 per day. At the request of the United States Department of State, the U.S. Geological Survey (USGS) has been providinAuthorsGeoffrey S. Plumlee, Thomas J. Casadevall, Handoko T. Wibowo, Robert J. Rosenbauer, Craig A. Johnson, George N. Breit, Heather Lowers, Ruth E. Wolf, Philip L. Hageman, Harland L. Goldstein, Michael W. Anthony, Cyrus J. Berry, David L. Fey, Gregory P. Meeker, Suzette A. MormanGround deformation at Merapi Volcano, Java, Indonesia: distance changes, June 1988-October 1995
Edifice deformations are reported here for the period 1988–1995 at Merapi volcano, one of the most active and dangerous volcanoes in Indonesia. The study period includes a major resumption in lava effusion in January 1992 and a major dome collapse in November 1994. The data comprise electronic distance measurements (EDM) on a summit trilateration network, slope distance changes measured to the uppAuthorsK.D. Young, B. Voight, T. J. CasadevallMonitoring so2 emission at the Soufriere Hills volcano: Implications for changes in eruptive conditions
Correlation spectrometer measurements of sulfur dioxide (SO2) emission rates during the current eruption of the Soufriere Hills volcano, Montserrat, have contributed towards identifying different phases of volcanic activity. SO2 emission rate has increased from <200 tonnes per day (td−1; <2.3 kgs−1) in the early stages of dome growth to >550 td−1 (>6.4 kgs−1) after July 1996, with the uncertaintyAuthorsS.R. Young, P.W. Francis, J. Barclay, T. J. Casadevall, C. A. Gardner, B. Darroux, M. A. Davies, P. Delmelle, G.E. Norton, A.J.H. Maciejewski, C.M.M. Oppenheimer, J. Stix, I.M. WatsonSulfur dioxide emission rates of Kilauea Volcano, Hawaii, 1979-1997
Sulfur dioxide (SO2) emission rates from Kilauea Volcano were first measured by Stoiber and Malone (1975) and have been measured on a regular basis since 1979 (Casadevall and others, 1987; Greenland and others, 1985; Elias and others, 1993; Elias and Sutton, 1996). The purpose of this report is to present a compilation of Kilauea SO2 emission rate data from 1979 through 1997 with ancillary meteoroAuthorsTamar Elias, A. J. Sutton, J. B. Stokes, T. J. CasadevallVolcanic ash - danger to aircraft in the north Pacific
The world's busy air traffic corridors pass over hundreds of volcanoes capable of sudden, explosive eruptions. In the United States alone, aircraft carry many thousands of passengers and millions of dollars of cargo over volcanoes each day. Volcanic ash can be a serious hazard to aviation even thousands of miles from an eruption. Airborne ash can diminish visibility, damage flight control systems,AuthorsChristina A. Neal, Thomas J. Casadevall, Thomas P. Miller, James W. Hendley, Peter H. Stauffer