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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Blue Mountain (1)
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Blue Mountains (4)
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Canada
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Western Canada
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British Columbia (1)
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Cascade Range (2)
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North America
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United States
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California (1)
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Idaho
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Oregon
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Crook County Oregon (19)
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Deschutes County Oregon (1)
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Grant County Oregon (6)
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Hood River County Oregon (1)
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Jackson County Oregon (1)
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Jefferson County Oregon (2)
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Klamath County Oregon (2)
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Lake County Oregon (1)
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Lane County Oregon (1)
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Linn County Oregon (1)
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Umatilla County Oregon (1)
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Wallowa Mountains (1)
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Wasco County Oregon (1)
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Wheeler County Oregon (3)
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commodities
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fossils
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Chordata
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Vertebrata
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microfossils
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geochronology methods
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Cenozoic
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Arikareean (1)
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John Day Formation (5)
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Paleogene
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igneous rocks
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volcanic rocks
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andesites (3)
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basalts (3)
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pyroclastics
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ash-flow tuff (1)
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rhyolite tuff (1)
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tuff (2)
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rhyodacites (1)
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Primary terms
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biogeography (1)
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Canada
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Western Canada
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British Columbia (1)
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Cenozoic
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Tertiary
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Arikareean (1)
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John Day Formation (5)
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middle Tertiary (1)
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Neogene
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Miocene
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Columbia River Basalt Group (1)
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Paleogene
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Eocene
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Clarno Formation (4)
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upper Eocene (1)
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Oligocene
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upper Oligocene (1)
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upper Tertiary (1)
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Chordata
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Vertebrata
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Tetrapoda
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Amphibia
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Lissamphibia
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Caudata (1)
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Mammalia
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Theria
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Metatheria (1)
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data processing (1)
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geochemistry (4)
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geophysical methods (1)
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geothermal energy (1)
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igneous rocks
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volcanic rocks
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andesites (3)
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basalts (3)
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pyroclastics
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ash-flow tuff (1)
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rhyolite tuff (1)
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tuff (2)
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rhyodacites (1)
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Invertebrata
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Brachiopoda (2)
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Mollusca
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Polyplacophora (1)
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Rostroconchia (1)
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Protista
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Foraminifera
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Fusulinina
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Fusulinidae (2)
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Radiolaria
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Spumellina (2)
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lava (3)
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mathematical geology (1)
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Mesozoic
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Cretaceous
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Lower Cretaceous (1)
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Franciscan Complex (1)
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Jurassic
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Lower Jurassic (1)
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Middle Jurassic (1)
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Upper Jurassic (1)
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Triassic
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Upper Triassic
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metamorphism (1)
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North America
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Basin and Range Province (2)
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North American Cordillera (1)
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Pacific Coast (2)
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paleogeography (1)
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paleomagnetism (1)
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paleontology (4)
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Paleozoic
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Carboniferous
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Mississippian (1)
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Devonian
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Middle Devonian
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Givetian (1)
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Permian
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Lower Permian
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petrology (2)
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plate tectonics (2)
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sedimentary rocks
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carbonate rocks
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chemically precipitated rocks
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clastic rocks
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sedimentation (2)
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structural analysis (1)
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tectonophysics (2)
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United States
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California (1)
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Idaho
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Seven Devils Mountains (1)
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Oregon
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Crook County Oregon (19)
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Deschutes County Oregon (1)
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Grant County Oregon (6)
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Harney County Oregon (3)
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Hood River County Oregon (1)
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Jackson County Oregon (1)
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Jefferson County Oregon (2)
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Klamath County Oregon (2)
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Lake County Oregon (1)
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Lane County Oregon (1)
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Linn County Oregon (1)
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Umatilla County Oregon (1)
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Wallowa Mountains (1)
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Wasco County Oregon (1)
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Wheeler County Oregon (3)
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Western U.S. (2)
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volcanology (1)
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sedimentary rocks
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sedimentary rocks
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carbonate rocks
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limestone (2)
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chemically precipitated rocks
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chert (1)
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ironstone (1)
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clastic rocks
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claystone (2)
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volcaniclastics (1)
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sediments
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volcaniclastics (1)
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soils
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paleosols (1)
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Crook County Oregon
Paleomagnetism and rotation history of the Blue Mountains, Oregon, USA
ABSTRACT An important element in reconstructions of the Cordilleran margin of North America includes longstanding debate regarding the timing and amount of rotation of the Blue Mountains in eastern Oregon, and the origin of geometric features such as the Columbia Embayment, which was a subject of some of Bill Dickinson’s early research. Suppositions of significant clockwise rotation of the Blue Mountains derived from Dickinson’s work were confirmed in the 1980s by paleomagnetic results from Late Jurassic–Early Cretaceous plutonic rocks, and secondary directions from Permian–Triassic units of the Wallowa–Seven Devils arc that indicate ~60° clockwise rotation of the Blue Mountains. This study reports new paleomagnetic data from additional locations of these Late Jurassic–Early Cretaceous plutonic rocks, as well as Jurassic sedimentary rocks of the Suplee-Izee area. Samples from three sites from the Bald Mountain Batholith, two sites from small intrusive bodies near Ritter, Oregon, and six sites from the Wallowa Batholith have well-defined magnetization components essentially identical to those found by previous workers. The combined mean direction of both sets of data from these Late Jurassic to Early Cretaceous intrusive rocks is D = 30, I = 63, α 95 = 6°. Samples from Jurassic sedimentary rocks in the Suplee-Izee area include four sites of the Lonesome Formation, three sites of andesitic volcanics in the Snowshoe Formation, and three sites from the Trowbridge Formation. The Lonesome and Trowbridge samples all had very well-defined, two component magnetizations. The in-situ mean of the combined Lonesome and Trowbridge Formations is D = 28, I = 63, α 95 = 15°. Upon tilt-correction, the site means of these units scatter and fail the paleomagnetic fold test in spectacular fashion. The similarity between the directions obtained from the remagnetized Jurassic rocks, and from the Late Jurassic to Early Cretaceous plutonic rocks suggests that a widespread remagnetization accompanied emplacement of the intrusives. Similar overprints are found in Permian and Triassic rocks of the Blue Mountains. Directions from 64 sites of these rocks yields a mean of D = 33°, I = 64°, k= 26, α 95 = 3.7°. Comparing the directions with North America reference poles, a clockwise rotation of 60° ± 9° with translation of 1000 ± 500 km is found. Together with data from Cretaceous and Eocene rocks, clockwise rotation of the Blue Mountains has occurred throughout the past ca. 130 Ma, with long-term rotation rates of 0.4 to 1 °/Ma. Approximately 1000 km of northward translation also occurred during some of this time.
A redescription and phylogenetic analysis based on new material of the fossil newts Taricha oligocenica Van Frank, 1955 and Taricha lindoei Naylor, 1979 (Amphibia, Salamandridae) from the Oligocene of Oregon
New material of the marsupial (Mammalia, Metatheria) Herpetotherium merriami (Stock and Furlong, ) from the John Day Formation, late Oligocene, Oregon, USA
ABSTRACT The John Day Formation of central and eastern Oregon, contains a widespread assemblage of both ash-flow and airfall tuffs, yet only a few corresponding caldera sources have been identified in the region. Investigators have long speculated on the sources of tuffs in the John Day Formation and have suggested that these pyroclastic rocks were vented from now buried eruptive centers in or marginal to a nascent Cascade Range. Recent detailed geologic mapping in the John Day and Clarno Formations, however, indicates the presence of at least three large-scale rhyolite caldera complexes centered along the northeast-trending axis of the Blue Mountains. This field guide describes a three-day geologic transect, from the scenic high desert of central Oregon eastward across the axis of the Blue Mountains, that will examine the physical volcanology and geologic setting of the 41.50-39.35 Ma Wildcat Mountain caldera exposed along the crest of the Ochoco Mountains, the 29.56 Ma Crooked River caldera at Prineville, and the 29.8 to 28.1 Ma Tower Mountain caldera near Ukiah.
ABSTRACT This field guide is for a three-day trip from Portland to Klamath Falls, Oregon, and back, traversing many of the physiographic provinces in Oregon, including the Columbia River, the Willamette Valley, the Western and High Cascade Mountains, the High Lava Plains, and the Basin and Range. Geologic field stops on Day 1 will be made along the drive to Klamath Falls at Salt Creek Falls and Crater Lake, and will include short discussions of Oregon's geological history and a brief introduction to geothermal resources in the state. Day 2 includes an extensive introduction to geothermal resources in Oregon and how these relate to Oregon geology, with tours to examine how the Oregon Institute of Technology, the City of Klamath Falls, and several local businesses in the Klamath Falls area use a local geothermal resource. Day 3 is devoted to the return trip to Portland, and will include geological stops at Newberry Crater, Crooked River Bridge, and Mount Hood, with more discussions of geology, geothermal resources, and geothermal exploration in Oregon.