Jon Major
My research focuses on hydrological hazards associated with volcanic eruptions and landscape responses to large inputs of sediment, including from dam removals. Projects focus on: (1) identifying hydrogeomorphic processes altered by volcanic disturbance; (2) evaluating hydrogeomorphic consequences; and (3) quantifying characteristic hydrogeomorphic response times and durations.
Professional Experience
Scientist-in-Charge, USGS Cascades Volcano Observatory, 2021–present
Research hydrologist, USGS Cascades Volcano Observatory, 1997–2021
Hydrologist, USGS Cascades Volcano Observatory, 1993–1997
Geologist, USGS Cascades Volcano Observatory, 1984–1993
Hydrologic field assistant, technician, USGS Cascades Volcano Observatory, 1982–1984
Other professional service:
Panel member, GSA Quaternary Geology and Geomorphology (QG&G) Division, 2002-2004
Secretary, GSA QG&G Division, 2006-2012
Member, International Organizing Committee, International Debris Flow Hazards Mitigation Conferences (DFHM), 2008-2015
Chair, DFHM IOC, 2008-2012Chair, DFHM IOC, 2008-2012
Co-chair of local planning committee for IAVCEI 2017 Scientific Assembly, Portland,
Education and Certifications
University of Dayton, B.S., 1980, Geology
The Pennsylvania State University, M.S., 1984, Geology
University of Washington, Ph.D., 1996, Geology
Affiliations and Memberships*
Geological Society of America
American Geophysical Union
International Association of Volcanology and Chemistry of Earth's Interior (IAVCEI)
American Avalanche Association (Member affiliate)
Editor:
Associate editor, Geological Society of America Bulletin, 2000-2011
Associate editor, Journal of Geophysical Research–Earth Surface, 2010-2014
Review editor, Frontiers in Volcanology, 2014 - Present
Co-editor, Geological Society of America Special Paper 375, Natural Hazards in El Salvador
Co-editor, Debris Flow Hazards Mitigation--Mechanics, Prediction, and Assessment: Proceedings of 4th International Conference on Debris Flow Hazards Mitigation (Millpress)
Chief guest editor, Andean Geology issue focused on the eruption of Chaitén Volcano (2013, v. 40(2))
Honors and Awards
Fellow, Geological Society of America (GSA)
E.B. Burwell Award, GSA, 1991
University of Dayton Alumni Special Achievement Award, 1999
Kirk Bryan Award, GSA, 2008
DOI Superior Service Award, 2018
Science and Products
My research publications can be parsed among various disciplinary studies. A full listing can be found on my Google Scholar profile (search for this via your web browser) and under the publications tab listing below. Publication topics include:
- Landslides, debris flows, and slurry rheology
- Volcanic eruptions and volcaniclastic processes (lahars, pyroclastic flows)
- Hydrogeomorphic responses to eruptions
- Geomorphic and ecologic responses to dam removals
- Photogrammetric analyses of eruptive processes
Decadal-scale change of infiltration characteristics of a tephra-mantled hillslope at Mount St Helens, Washington
Geomorphic change and vegetation development on the Muddy River Mudflow Deposit
Physical events, environments, and geological—Ecological interactions at Mount St. Helens: March 1980–2004
Mount St. Helens erupts again: Activity from September 2004 through March 2005
Posteruption suspended sediment transport at Mount St. Helens: Decadal‐scale relationships with landscape adjustments and river discharges
Natural hazards in El Salvador
Landslides triggered by the 13 January and 13 February 2001 earthquakes in El Salvador
Debris-flow hazards at San Salvador, San Vicente, and San Miguel volcanoes, El Salvador
Seismic history of the Middle America subduction zone along El Salvador, Guatemala, and Chiapas, Mexico: 1526–2000
Seismicity and tectonics of El Salvador
Science and Products
- Science
- Data
- Publications
My research publications can be parsed among various disciplinary studies. A full listing can be found on my Google Scholar profile (search for this via your web browser) and under the publications tab listing below. Publication topics include:
- Landslides, debris flows, and slurry rheology
- Volcanic eruptions and volcaniclastic processes (lahars, pyroclastic flows)
- Hydrogeomorphic responses to eruptions
- Geomorphic and ecologic responses to dam removals
- Photogrammetric analyses of eruptive processes
Filter Total Items: 99Decadal-scale change of infiltration characteristics of a tephra-mantled hillslope at Mount St Helens, Washington
The cataclysmic 1980 eruption of Mount St Helens radically reduced the infiltration characteristics of ∼60 000 ha of rugged terrain and dramatically altered landscape hydrology. Two decades of erosional, biogenic, cryogenic, and anthropogenic activity have modified the infiltration characteristics of much of that devastated landscape and modulated the hydrological impact of the eruption. We assessAuthorsJ. J. Major, T. YamakoshiGeomorphic change and vegetation development on the Muddy River Mudflow Deposit
Geomorphic disturbances are widely recognized as important processes that influence plant-community development and landscape-scale vegetation patterns [e.g., Veblen and Ashton (1978), Garwood et al. (1979), Swanson et al. (1988), and Malanson (1993)]. In volcanically active areas such as the Pacific Northwest, mudflows are locally important geomorphic disturbance events governing short- and long-AuthorsPeter M. Frenzen, Keith S. Hadley, Jon J. Major, Marc H. Weber, Jerry F. Franklin, J. H. Hardison, Sharon StantonPhysical events, environments, and geological—Ecological interactions at Mount St. Helens: March 1980–2004
The diversity and intensity of volcanic processes during the 1980 eruption of Mount St. Helens affected a variety of ecosystems over a broad area and created an exceptional opportunity to study interactions of geophysical and ecological processes in dynamic landscapes. Within a few hours on the morning of May 18, 1980, a major explosive eruption of Mount St. Helens affected thousands of square kilAuthorsFrederick J. Swanson, Jon J. MajorMount St. Helens erupts again: Activity from September 2004 through March 2005
Eruptive activity at Mount St. Helens captured the world’s attention in 1980 when the largest historical landslide on Earth and a powerful explosion reshaped the volcano, created its distinctive crater, and dramatically modified the surrounding landscape. Over the next 6 years, episodic extrusions of lava built a large dome in the crater. From 1987 to 2004, Mount St. Helens returned to a period ofAuthorsJon J. Major, William E. Scott, Carolyn Driedger, Dan DzurisinPosteruption suspended sediment transport at Mount St. Helens: Decadal‐scale relationships with landscape adjustments and river discharges
Widespread landscape disturbance by the cataclysmic 1980 eruption of Mount St. Helens abruptly increased sediment supply in surrounding watersheds. The magnitude and duration of the redistribution of sediment deposited by the eruption as well as decades‐ to centuries‐old sediment remobilized from storage have varied chiefly with the style of disturbance. Posteruption suspended sediment transport hAuthorsJon J. MajorNatural hazards in El Salvador
No abstract available.AuthorsWilliam Rose, J.J. Bommer, Dina Lopez, Michael J. Carr, Jon J. MajorLandslides triggered by the 13 January and 13 February 2001 earthquakes in El Salvador
During a one-month period in early 2001, El Salvador experienced two devastating earthquakes. On 13 January, a M-7.7 earthquake centered ∼40 km off the southern coast in the Pacific Ocean caused widespread damage and fatalities throughout much of the country. The earthquake triggered thousands of landslides that were broadly scattered across the southern half of the country. The most damaging landAuthorsRandall W. Jibson, Anthony J. Crone, Edwin Harp, Rex Baum, Jon J. Major, Carlos Pullinger, C.D. Escobar, Mauricio Martinez, Mark E. SmithDebris-flow hazards at San Salvador, San Vicente, and San Miguel volcanoes, El Salvador
Volcanic debris flows (lahars) in El Salvador pose a significant risk to tens of thousands of people as well as to property and important infrastructure. Major cities and nearly a third of the country's population are located near San Salvador, San Vicente, and San Miguel volcanoes. Debris flows traveling as little as 4 km from source at these volcanoes put hundreds to thousands of lives, propertyAuthorsJon J. Major, Steve P. Schilling, Carlos Pullinger, C.D. EscobarSeismic history of the Middle America subduction zone along El Salvador, Guatemala, and Chiapas, Mexico: 1526–2000
We present a catalog of subduction zone earthquakes along the Pacific coast from central El Salvador to eastern Chiapas, Mexico, from 1526 to 2000. We estimate that the catalog is complete since 1690 for MS ≥7.4 thrust events and M ≥ 7.4 normal-faulting events within the upper 60 km of the down-going slab. New intensity maps were constructed for the 27 earthquakes since 1690, using mostly primaryAuthorsRandall A. White, Juan Pablo Ligorría, I.L. CifuentesSeismicity and tectonics of El Salvador
The large-scale plate-tectonics framework of El Salvador was defined in the “plate-tectonics revolution” of the 1960s and 1970s, but important issues related to seismic hazards depend on details that have been only recently, or are not yet, understood. Present evidence suggests that coupling across the interface-thrust zone beneath coastal El Salvador is sufficient to produce occasional interface-AuthorsJames W. Dewey, Randall A. White, Douglas A. Hernández - News
*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