MOUNT RAINIER
GEOLOGY & WEATHER
Hello guest! [ Log In ]
May 2004 Tahoma Creek Hydrologic Event

Known Geologic Events at Mount Rainier

The purpose of this page is to list all known, dated gelogic events at Mount Rainier, including lahars, debris flows, large rockfalls, large avalanches, rockfalls, and other events. This list is currently being compiled, so if you find errors or a missing event, please let Scott know.

Database ID#: 108
Date: Monday, May 31, 2004
Location:
Glacier Name: South Tahoma Glacier
Drainage Basin: Tahoma Creek
Event Type: Flood

Weather:
heavy precipitation caused event

Season: N/A

Notes:
Recent (week of May 26) heavy precipitation resulted in Tahoma Creek moving across the West Side Road. No sign of a debris flow, just heavy precip related flow.

P.Kennard:
I saw no evidence of an event (glacier outburst flood, debris flow) in the stream between the crossing and the once main channel of Tahoma. At least half the flow of Tahoma "fell" off its bed, which has been raised quite a bit by deposition from recent debris flows. The new tributary (which for this email I call Texhoma Creek) carved several new channels though old growth and other more recently vegetated disturbed areas. The drop from the old Tahoma main stem and Texhoma is at least 50 feet at the head of Texhoma and the remainder of Texhoma is well below Tahoma in elevation.
The recent deposition at the crossing was from sediment likely generated as the Texhoma Creek was created and enlarged. In the short term, the downstream dam at the pool at Texas Crossing can be breached, but it is very likely sediment will redeposit after the next significant rain. Additionally, it is quite possible all of Tahoma Creek will flow in Texhoma Creek in the future.
Possible future problems are the road from Texas Crossing to Fish Creek and the Fish Creek culvert (especially if flow from Tahoma is increased). The gabions/riprap along the road from the crossing to Fish Creek is breached in one area, and will be on the wrong side of Tahoma Creek, if Tahoma entirely shifts to Texhoma.
If you visit in the field, please note it is easy to cross Texhoma just below the pool, and the split of Texhoma and Tahoma is easily accessed from the lower Tahoma Creek trail.

Estimated Velocity:
Estimated Peak Flow:
Estimated Volume:

References:




Data references:

Beason, S.R., 2012, Small glacial outburst flood occurs on Mount Rainier - October 27, 2012: Unpublished National Park Service Science Brief, 3 p.
Beason, S.R., et al., in prep, Glacial outburst floods and debris flows from the South Tahoma Glacier, Mount Rainier National Park, Washington: August and September, 2015: National Park Service Natural Resource Report NPS/MORA/NRR-2015/XXX.
Copeland, E.A., 2010, Recent periglacial debris flows from Mount Rainier, Washington: M.S. Thesis, Oregon State University, 125 p.
Copeland, E.A., P.M. Kennard, A.W. Nolin, S.T. Lanscaster and G.E. Grant, 2008, Initiation of recent debris flows on Mount Rainier, Washington: A climate warming signal? American Geophysical Union Fall Meeting, San Francisco, CA.
Crandell, D.R., 1971, Postglacial lahars from Mt. Rainier volcano, Washington: U.S. Geological Survey Professional Paper 677, 75 p.
Donovan, K.H.M, 2005, An investigation into the 2003 Van Trump Creek debris flow, Mt. Rainier, Washington, United States of America: BSc Geological Hazards Thesis, University of Portsmouth (UK), 58 p.
Driedger, C.L. and A.G. Fountain, 1989, Glacier outburst floods at Mout Rainier, Washington State, USA: Anals of Glaciology, Vol. 13, 5 p.
Hodge, S., 1972, The movement and basal conditions of the Nisqually Glacier, Mount Rainier: Ph.D Thesis, Univeristy of Washington, xxx p.
Legg, N.T., 2013, Debris flows in glaciated catchments: A case study on Mount Rainier, Washington: M.S. Thesis, Oregon State University, 162 p.
Legg, N.T., A.J. Meigs, G.E. Grant and P.M. Kennard, 2014, Debris flow initiation in proglacial gullies on Mount Rainier, Washington: Geomorphology, Vol. 226, p. 249-260.
Richardson D., 1968, Glacier outburst floods in the Pacific Northwest: U.S. Geological Survey Professional Paper 600-D, D79-D86.
Samora, B., 1991, Chronology of flood events as noted in the superintendent's annual reports 1940-1991, Unpublished Internal Document, Mount Rainier National Park, WA, 13 p.
Scott, K.M., J.W. Vallance, and P.T. Pringle, 1995, Sedimentology, behavior, and hazards of debris flows at Mount Rainier, Washington: United States Geological Survey Professional Paper 1547, 56 p.
Vallance, J.W., C.L. Driedger and W.E. Scott, 2002, Diversion of meltwater from Kautz Glacier initiates small debris flows near Van Trump Park, Mount Rainier, Washington: Washington Geology, Vol. 30, No. 1/2, p. 17-19.
Vallance, J.W., M.L. Cunico and S.P. Schilling, 2003, Debris-flow hazards caused by hydrologic events at Mount Rainier, Washington: United States Geological Survey Open-File Report 2003-368, 4 p.
Walder, J.S. and C.L. Driedger, 1994, Geomorphic changed caused by outburst floods and debris flows at Mount Rainier, Washington, with emphasis on Tahoma Creek valley: U.S. Geological Survey Water-Resources Investigations Report 93-4093, 100 p.
Walder, J.S. and C.L. Driedger, 1994, Rapid geomorphic change caused by glacial outburst floods and debris flows along Tahoma Creek, Mount Rainier, Washington, USA: Arctic and Alpine Research, Vol. 26, No. 4, p. 319-327.
Walder, J.S. and C.L. Driedger, 1995, Frequent outburst floods from South Tahoma Glacier, Mount Rainier, USA: relation to debris flows, meterological origin and implications for subglacial hydrology: Journal of Glaciology, Vol. 41, No. 137, 11 p.