|Rocky Mountain (56th Annual) and Cordilleran (100th Annual) Joint Meeting (May 3–5, 2004)|
|Paper No. 13-16|
|Presentation Time: 8:00 AM-5:00 PM|
COLUMBIA RIVER BASALT AQUIFER CHARACTERISTICS REVEALED BY STATEMAP MAPPING IN OREGON’S UMATILLA BASIN
FERNS, Mark1, MCCONNELL, Vicki2, and MADIN, Ian2, (1) Baker CIty Field Office, Oregon Department of Geology and MIneral Industries, 1510 Campbell St, Baker City, OR 97814, Mark.Ferns@dogami.state.or.us, (2) Oregon Department of Geology and Mineral Industries, 800 NE Oregon St # 28, Suite 965, Portland, OR 97232|
In recent years the Oregon Dept. of Geology and Mineral Industries (DOGAMI) has shifted priorities for mapping projects under the National STATEMAP program to the study of basins. Concerns about the possible linkage between declining groundwater levels in irrigation wells and low instream flows in the Umatilla River have made the basin the highest priority area.
The primarily agricultural Umatilla Basin of northeastern Oregon is underlain by a thick sequence of Columbia River Basalt Group lava flows. Parts of the Umatilla Basin are heavily irrigated and dependent upon irrigation wells that tap aquifers in the Columbia River Basalt Group. To best understand, and model, the complex aquifers found in the Columbia River Basalt Group it is important to identify the specific members of the Columbia River Basalt Group from which groundwater is now being extracted. We use detailed mapping of Columbia River Basalt Group units exposed along the Umatilla River combined with well-established geochemical sections based on water-well cuttings and reference sections to identify and correlate unique flows and units. . Field observations indicate that the uppermost flows exposed along the Umatilla River, i.e. the Sentinel Gap and Sand Hollow units of the Wanapum Basalt Formation, and the Sentinel Bluffs unit of the Grande Ronde Basalt Formation, interacted with meteoric water, forming grussy-weathering outcrops, and, in places, palagonite breccias and pillow basalts. Preliminary correlation of exposed flows to water well sections suggests that upper units form one or more distinct aquifers that are separated from lower aquifers by the thick, areally extensive Winter Water unit of the Grande Ronde Basalt Formation. The Winter Water unit is a dense 70 m-thick, hackly-jointed flow that in one place formed a littoral cone. Flows exposed below the Winter Water unit show less evidence for interaction with water and, perhaps coincidentally, appear to host more productive aquifers.
Rocky Mountain (56th Annual) and Cordilleran (100th Annual) Joint Meeting (May 3–5, 2004)
|Session No. 13--Booth# 69|
State Geological Survey Cooperative Geologic Mapping Projects under STATEMAP and EDMAP (Posters) I
Boise Centre on the Grove: Flying Hawk and Falcon's Eyries
8:00 AM-5:00 PM, Monday, May 3, 2004
Geological Society of America Abstracts with Programs, Vol. 36, No. 4, p. 22
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