Hostname: page-component-cd9895bd7-p9bg8 Total loading time: 0 Render date: 2024-12-23T01:29:47.843Z Has data issue: false hasContentIssue false

Ephemeral-Stream Processes: Implications for Studies of Quaternary Valley Fills

Published online by Cambridge University Press:  20 January 2017

Peter C. Patton
Affiliation:
Department of Earth and Environmental Sciences, Wesleyan University, Middletown, Connecticut 06457
Stanley A. Schumm
Affiliation:
Department of Earth Resources, Colorado State University, Fort Collins, Colorado 80523

Abstract

Three unstable ephemeral-stream channels (arroyos), which drain source areas that have high sediment yields ranging from predominantly sand (Arroyo Calabasas) to a mixture of sand, silt, and clay (Sand Creek) to largely silt and clay (Sage Creek), were resurveyed to provide data on the rates and mechanics of erosion and sedimentation processes during periods ranging from 14 to 22 yr. Channel morphology changed significantly. Erosion occurred through nickpoint recession and bank collapse, but erosional reaches are separated by aggrading or stable-channel reaches. In general, sediment that is eroded, as the nickpoint recedes upstream, is trapped in the widened channel downstream. In this manner sediment is transported episodically out of these basins during a series of cut-and-fill cycles. The manner by which the channels aggrade and the morphology of the aggraded stable channels are controlled by the sediment type. The wide and shallow channel of Arroyo Calabasas is filled by vertical accretion of sand-size sediment. The narrow and deep channels of Sage Creek and Sand Creek are created by the lateral accretion of cohesive fine-grained sediment. The channel modification and the cut-and-fill episodes are dependent on high sediment yields, and therefore they are independent of subtle climatic shifts. Cut-and-fill deposits that have been created in this manner should not be equivalent in age from basin to basin, and therefore channel trenching and filling in the semiarid western United States during the Holocene need not be synchronous.

Type
Research Article
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bailey, R.W. (1935). Epicycles of erosion in the valleys of the Colorado Plateau Province Journal of Geology 43, 337-355 Google Scholar
Born, S.M. Ritter, D.F. (1970). Modern terrace development near Pyramid Lake, Nevada, and its geologic implications Geological Society of America Bulletin 81, 1233-1242 Google Scholar
Bryan, K. (1940). Erosion in the valleys of the Southwest New Mexico Quarterly 10, 227-232 Google Scholar
Bryson, R.A. Baerreis, D.A. Wendland, W.M. The character of late-glacial and post-glacial climatic change Dort, W. Jr. Jones, J.K. Jr. (1970). Pleistocene and Recent Environments of the Central Great Plains Univ. Press of Kansas Lawrence 53-74 Google Scholar
Cooke, R.U. Reeves, R.W. (1976). Arroyos and Environmental Change in the American South-West Oxford Univ. Press London Google Scholar
Euler, R.C. Gumerman, G.J. Karlstrom, T.W.V. Dean, J.S. Hevly, R.H. (1979). The Colorado plateaus: Cultural dynamics and paleoenvironments Science 205, No. 4411 1089-1101 Google Scholar
Folk, R.L. (1974). Petrology of Sedimentary Rocks Hemphill Austin Google Scholar
Hadley, R.F. Schumm, S.A. (1961). Sediment Sources and Drainage Basin Characteristics in Upper Cheyenne River Basin United States, Geological Survey, Water-Supply Paper 1531-B 137-196 Google Scholar
Hall, S.A. (1977). Late Quaternary sedimentation and paleoecologic history of Chaco Canyon, New Mexico Geological Society of America Bulletin 88, 1593-1618 2.0.CO;2>CrossRefGoogle Scholar
Hastings, J.R. (1959). Vegetation changes and arroyo cutting in southeastern Arizona Arizona Academy of Science 2, 60-67 Google Scholar
King, R.U. Raymond, W.H. (1971).Geologic map of the Scenic area, Pennington, Shannon, and Custer counties, South Dakota United States Geological Survey Miscellaneous Geologic Investigation, Map I-662 Google Scholar
Leopold, L.B. (1951). Rainfall frequency: An aspect of climatic variation Transactions of the American Geophysical Union 32, 347-357 Google Scholar
Leopold, L.B. (1976). Reversal of erosion cycle and climatic change Quaternary Research 6, 557-562 CrossRefGoogle Scholar
Leopold, L.B. Miller, J.P. (1954).A Postglacial Chronology for Some Alluvial Valleys in Wyoming United States, Geological Survey, Water-Supply Paper 1261 Google Scholar
Love, D.W. Quaternary fluvial geomorphic adjustments in Chaco Canyon, New Mexico Rhodes, D.D. Williams, G.P. (1979). Adjustments of the Fluvial System Kendall/Hunt Dubuque, Iowa 277-308 Google Scholar
Martin, P.S. (1963). The Last 10,000 Years: A Fossil Pollen Record of the American Southwest Univ. Arizona Press Tucson Google Scholar
Patton, P.C. (1973). Gully erosion in the semiarid west M.S. Thesis Colorado State Univ Ft. Collins Google Scholar
Patton, P.C. Schumm, S.A. (1975). Gully erosion, northwestern Colorado: A threshold phenomenon Geology 3, 88-90 Google Scholar
Schumm, S.A. (1960). The effect of sediment type on the shape and stratification of some modern fluvial deposits American Journal of Science 258, 177-184 CrossRefGoogle Scholar
Schumm, S.A. (1961).The Effect of Sediment Characteristics on Erosion and Deposition in Ephemeral Stream Channels United States, Geological Survey, Professional Papers 352-C Google Scholar
Schumm, S.A. (1977). The Fluvial System Wiley-Interscience New York Google Scholar
Schumm, S.A. Hadley, R.F. (1957). Arroyos and the semiarid cycle of erosion American Journal of Science 255, 161-174 Google Scholar
Schumm, S.A. Parker, R. (1973). Implications of complex response of drainage systems for Quaternary alluvial stratigraphy Nature (London), Physical Science 243, No. 128 99-100 Google Scholar
Spiegel, Z. Baldwin, B. (1963).Geology and Water Resources of the Santa Fe Area, New Mexico United States, Geological Survey, Water-Supply Paper 1525 Google Scholar
Swift, T.T. (1926). Date of channel trenching in the southwest Science 63, 70-71 CrossRefGoogle ScholarPubMed
Thornthwaite, C.W. (1941). Atlas of climatic types in the United States U.S. Dept. of Agriculture Miscellaneous Publication 421 1990 Google Scholar
Thornthwaite, C.W. Sharpe, C.F.S. Dosch, E.F. (1942).Climate and accelerated erosion in the arid and semi-arid Southwest, with special reference to the Polacca Wash drainage basin, Arizona U.S. Dept. of Agriculture Technical Bulletin 808 Google Scholar
Wells, P.B. Vegetational history of the Great Plains: A post-glacial record of coniferous woodland in southeastern Wyoming Dort, W. Jr. Jones, J.K. Jr. (1970). Pleistocene and Recent Environments of the Central Great Plains Univ. Press of Kansas Lawrence 185-202 Google Scholar
Wells, P.B. Berger, R. (1967). Late Pleistocene history of coniferous woodland in the Mohave Desert Science 155, 1640-1647 Google Scholar
Womack, W.R. Schumm, S.A. (1977). Terraces of Douglas Creek, northwestern Colorado: An example of episodic erosion Geology 5, 72-76 Google Scholar