Publications in Scientific Journals

Volcanology and Geochemistry

Bargar, K., Keith, T. E., Beeson, M., 1993, Hydrothermal alteration in the Mount Hood area, Oregon: U.S. Geological Survey Bulletin, 2054, 70 p.

Cooper, K.M. and Kent, A.J.R, 2014, Rapid remobilization of magmatic crystals kept in cold storage: Nature Geoscience, p. 480-483. doi 506.7489.

Cribb, J. W. and Barton, M., 1997, Significance of crustal and source region processes on the evolution of compositionally similar calc-alkaline lavas, Mt. Hood, Oregon: Journal of Volcanology and Geothermal research, 76.3, p. 229-249.

Darr, C., 2006, Magma Chamber Processes over the past 475,000 years at Mount Hood, Oregon: Insights from Crystal Zoning and Crystal Size Distribution Studies: Corvallis, Oregon, Oregon State University, M.S. diss., 154 p.

Eggler, D.H. and Burnham, C.W., 1973, Crystallization and fractionation trends in the system andesite-H2O-CO2-O2 at pressures to 10 kb: Geological Society of America Bulletin, 84.8, p. 2517-2532.

Eppich, G.R., Cooper, K.M., Kent, A.J.R., Koleszar, A.K., 2012, Constraints on crystal storage timescales in mixed magmas: Uranium-series disequilibria in plagioclase from Holocene magmas at Mount Hood, Oregon: Earth and Planetary Science Letters, 317, p. 319-330.

Gannett, M. W. A geochemical study of the Rhododendron and Dalles Formation in the area of Mount Hood, Oregon: Portland, Oregon, Portland State University, M.S. diss., 64 p. [abstract]

Hajash, A. and Chandler, G.W., 1982, An experimental investigation of high-temperature interactions between seawater and rhyolite, andesite, basalt and peridotite: Contributions to Mineralogy and Petrology, v. 78.3, p. 240-254. [abstract]

Kent, A.J.R., Darr, C., Koleszar, A.M., Salisbury, M.J., Cooper, K.M., 2010, Preferential eruption of andesitic magmas through recharge filtering: Nature Geoscience, 3.9, p. 631-636.

Kent, A.J.R. & Koleszar, A.M. (2017) Summary of Recent Petrological and Geo-chemical Studies of Mount Hood, Oregon. p 77-98 in Scott, W.E., and Gardner, C.A., 2017, Field-trip guide to Mount Hood, Oregon, highlighting eruptive history and hazards. U.S. Geological Survey Scientific Investigations Report 2017–5022–G, 115p. https://doi.org/10.3133/sir20175022g

Koleszar, A. M., 2011, Control on Eruption Style and Magma Compositions at Mount Hood, Oregon: Corvallis, Oregon, Oregon State University, Ph.D. diss., 216 p.

Koleszar, A.M., Kent, A.J.R, Wallace, P.J., Scott, W.E., 2012, Controls on long-term low explosivity at andesitic arc volcanoes: insights from Mount Hood, Oregon: Journal of Volcanology and Geothermal Research, 219, p. 1-14.

Kohler, W. M., Healy, J.H., Wegener. J.J., 1982, Upper crustal structure of the Mount Hood, Oregon, region as revealed by time term analysis: Journal of Geophysical Research: Solid Earth, 87.B1, p. 339-355.

Priest, G.R. and Vogt B.F., 1982, Geology and geothermal resources of the Mount Hood area, Oregon: Oregon Department of Geology and Mineral Industries Special Paper, 14, p. 43-46. [abstract]

Teague, A. J., Kohn, S.C., Klimm, K., Botcharnikov, R., 2008, Sulphur Solubility in Mount Hood Andesites and CO2 Fluids: Implications for Volcanic Degassing [abs], AGU Fall Meeting, v. 1. [abstract]

Woods, M.E., 2004, Compositional and Mineralogical Relationships between Mafic Inclusions and Host Lavas as Key to Andesite Petrogenesis at Mount Hood Volcano, Oregon: Corvallis, Oregon, Oregon State University, M.S. thesis, 181 p.

Hazard Assessments and Historic Eruptions

Brantley, S. R. and Scott, W. E., 1993, The Danger of Collapsing Lava Domes: Lessons for Mount Hood, Oregon: Earthquakes & Volcanoes, 24, p. 244-269.

Cameron, K.A. and Pringle, P.T., 1986, Post-glacial lahars of the Sandy River Basin, Mount Hood, Oregon: Northwest Science, 60.4, p. 225-237.

Cameron, K.A. and Pringle, P.T., 1987, A detailed chronology of the most recent major eruptive period at Mount Hood, Oregon: Geological Society of America Bulletin, 99.6 p. 845-851.

Cameron, K. A. and Pringle, P.T., 1991, Prehistoric buried forests of Mount Hood: Oregon Geology, 53.2, p. 34-43.

Crandell, D.R., 1980, Recent eruptive history of Mount Hood, Oregon, and potential hazards from future eruptions: U.S. Geological Survey Bulletin, 1492, 81 p.

Ewert, J. W. & Swanson, D. A. (Eds.), 1992, Monitoring Volcanoes: Techniques and Strategies Used by the Staff of the Cascades Volcano Observatory, 1980-90: U.S. Geological Survey Bulletin, 1966, 223 p.

Gardner, C.A., Scott, W.E., Major, J.J., Pierson, T.C., 2000, Mount Hood-history and hazards of Oregon’s most recently active volcano: U.S. Geological Survey Fact Sheet, 060-00.

Hoblitt, R. P., Miller, C. D., Scott, W. E., 1987, Volcanic Hazards with Regard to Siting Nuclear-Power Plants in the Pacific Northwest: U.S. Geological Survey Open-File Report , 87-297, 196 p.

Moran, S. (Ed.) (2004). Seismic monitoring at Cascade Volcanic Centers, 2004 — status and recommendations: U.S. Geological Survey Scientific Investigations Report, 2004-5211, 28 p.

Pringle, P.T., Pierson, T.C., Cameron, K.A., 2002, A circa AD 1781 eruption and lahars at Mount Hood, Oregon—Evidence from tree-ring dating and from observations of Lewis and Clark in 1805-6 [abs]: Geological Society of America, v. 34. [abstract]

Schilling, S. P., Doelger, S., Scott, W. E., Pierson, T., Costa, J., Gardner, C., Vallance, J. W., Major, J., 2008, Digital Data for Volcano Hazards of the Mount Hood Region, Oregon: U.S. Geological Survey Open-File Report , 2007-1222.

Scott, W. E., Pierson, T., Schilling, S. P., Costa, J., Gardner, C., Vallance, J. W., Major, J., 1997, Volcano hazards in the Mount Hood region, Oregon: U.S. Geological Survey Open-File Report , 97-89, 14 p.

Sheppard, P.R., Weaver, R., Pringle, P.T., Kent, A.J.R., 2010, Dendrochemical evidence of the 1781 eruption of Mount Hood, Oregon: Tree Rings and Natural Hazards: Springer Netherlands, p. 465-467.

Glacial Geology and Hydrology

Driedger, C.L. and Kennard, P.M., 1986, Ice volumes on Cascade volcanoes: Mount Rainier, Mount Hood, Three Sisters, and Mount Shasta: U.S. Geological Survey Professional Paper, 1365, 6 plates.

Jackson, K.M., and Fountain, A.G., 2007, Spatial and morphological change on Eliot Glacier, Mount Hood, Oregon, USA: Annals of Glaciology, 46.1, p. 222-226.

Lea, J. and J. Lea, 1998, Snowpack depth and density changes during rain on snow events at Mount Hood, Oregon: International Conference on Snow Hydrology: The Integration of Physical, Chemical, and Biological Systems, p. 46.

Lillquist, K. and Walker, K., 2006, Historical glacier and climate fluctuations at Mount Hood, Oregon: Arctic, Antarctic, and Alpine Research, 38.3, p. 399-412.

Lundstrom, S. C., McCafferty, A.E., Coe, J.A., 1993, Photogrammetric analysis of 1984-89 surface altitude change of the partially debris-covered Eliot Glacier, Mount Hood, Oregon, USA: Annals of Glaciology, 17, p. 167-170.

Nathenson, M., 2004, Springs on and in the vicinity of Mount Hood volcano, Oregon: U.S. Geological Survey Open-File Report , 2004-1298, 43 p.

Geophysical, Seismic, and Geothermal Investigations

Blackwell, D. D., Murphey, C.S., Steele. J.L., 1982, Heat flow and geophysical log analysis for OMF-7A geothermal test well, Mount Hood, Oregon: Geology and geothermal resources of the Mount Hood area, Oregon: Special Paper, 14, p. 47-56.

Couch, R. and Gemperle, M., 1979, Gravity measurements in the area of Mount Hood, Oregon: Geothermal Resource Assessment of Mount Hood: , p. 137-189.

Crampin, S., McGonigle, R., Masataka, A., 1986, Extensive‐dilatancy anisotropy beneath Mount Hood, Oregon and the effect of aspect ratio on seismic velocities through aligned cracks: Journal of Geophysical Research: Solid Earth, 91.B12, p.12703-12710.

Cribb, J. W. Barton, M., 1997, Significance of crustal and source region processes on the evolution of compositionally similar calc-alkaline lavas, Mt. Hood, Oregon: Journal of Volcanology and Geothermal research, 76.3, p. 229-249.

Ferrick, M. G., Qamar, A., St Lawrence, W.F., 1982, Source mechanism of volcanic tremor: Journal of Geophysical Research: Solid Earth, 87.B10, p. 8675-8683.

Flanagan, G. and Williams, D.L., 1982, A magnetic investigation of Mount Hood, Oregon: Journal of Geophysical Research: Solid Earth, 87.B4, p. 2804-2814.

Friedman, J.D., Williams, D.L., Frank, D., 1982, Structural and heat flow implications of infrared anomalies at Mt. Hood, Oregon, 1972–1977: Journal of Geophysical Research: Solid Earth, 87.B4, p. 2793-2803.

Goldstein, N. E., Mozley, E., Wilt, M., 1982, Interpretation of shallow electrical features from electromagnetic and magnetotelluric surveys at Mount Hood, Oregon: Journal of Geophysical Research: Solid Earth, 87.B4, p. 2815-2828.

Hull, D.A., 1979, Overview: Geothermal resource assessment of Mount Hood: Final report: Oregon Department of Geology and Mineral Industries, p. 265-272.

Jones, J. and Malone, S.D., 2005, Mount Hood earthquake activity: Volcanic or tectonic origins?: Bulletin of the Seismological Society of America, 95.3, p. 818-832.

Keith, T.E.C. and Causey, J.D., 1982, Mineral and geothermal resource potential of Mount Hood Wilderness, Clackamas and Hood River counties, Oregon: Summary report: U.S. Geological Survey Miscellaneous field studies map, 1379-E, 9 p.

Mozley, E. C., Goldstein, N.E., Morrison, H.F.,1986, Magnetotelluric investigations at Mount Hood, Oregon: Journal of Geophysical Research: Solid Earth, 91.B11, p. 11596-11610.

Steele, J. L., Blackwell, D.D., Robison, J., 1982, Heat flow in the vicinity of the Mount Hood volcano, Oregon: Geology and geothermal resources of the Mount Hood area, Oregon Special paper, 14, p. 31-42.

Watters, R.J., Zimbelman, D.R., Bowman, S.D., Crowley, J.K., 2000, Rock mass strength assessment and significance to edifice stability, Mount Rainier and Mount Hood, Cascade Range volcanoes: Pure and Applied Geophysics, 157.6-8, p. 957-976.

Weaver, C. S., Green, S.M., Iyer, H.M., 1982, Seismicity of Mount Hood and structure as determined from teleseismic P wave delay studies: Journal of Geophysical Research: Solid Earth, 87.B4, p. 2782-2792.

White, C.M., 1979, Geology and Geochemistry of Mount Hood volcano: Department of Geology, Eugene, Oregon, University of Oregon, p. 79-136.

Wollenburg, H.A., Bowen, R.E., Bowman, H.R., Strisower, B., 1979, Geochemical studies of rocks, water, and gases at Mt. Hood, Oregon: Oregon Department of Geology and Mineral Industries, p. 273-330.

Geomorphology

Chadwick, W.W., 1985, Measurements of slope distances and vertical angles at Mount Baker and Mount Rainier, Washington, Mount Hood and Crater Lake, Oregon, and Mount Shasta and Lassen Peak, California, 1980-1984: U.S. Geological Survey Open File Report, 85-205, 98 p.

Gallino, G.L. and Pierson, T.C., 1985, The 1980 Polallie Creek debris flow and subsequent dam-break flood, East Fork Hood River basin, Oregon: U.S. Geological Survey Open File Report, 84-578, 59 p.

Pierson, T.C., Pringle, P.T., Cameron, K.A., 2011, Magnitude and timing of downstream channel aggradation and degradation in response to a dome-building eruption at Mount Hood, Oregon: Geological Society of America Bulletin, 123.1-2, p. 3-20.

Thouret, J.C., 2005, The stratigraphy, depositional processes, and environment of the late Pleistocene Polallie-period deposits at Mount Hood Volcano, Oregon, USA: Geomorphology, 70.1, p. 12-32.