Grain-size segregation and levee formation in geophysical mass flows

C. G. Johnson, B. P. Kokelaar, R. M. Iverson, M. Logan, R. G. Lahusen, J. M N T Gray

    Research output: Contribution to journalArticlepeer-review


    Data from large-scale debris-flow experiments are combined with modeling of particle-size segregation to explain the formation of lateral levees enriched in coarse grains. The experimental flows consisted of 10m3 of water-saturated sand and gravel, which traveled ∼80 m down a steeply inclined flume before forming an elongated leveed deposit 10m long on a nearly horizontal runout surface. We measured the surface velocity field and observed the sequence of deposition by seeding tracers onto the flow surface and tracking them in video footage. Levees formed by progressive downslope accretion approximately 3.5m behind the flow front, which advanced steadily at ∼2 m s-1 during most of the runout. Segregation was measured by placing ∼600 coarse tracer pebbles on the bed, which, when entrained into the flow, segregated upwards at ∼6-7.5cm s-1. When excavated from the deposit these were distributed in a horseshoe-shaped pattern that became increasingly elevated closer to the deposit termination. Although there was clear evidence for inverse grading during the flow, transect sampling revealed that the resulting leveed deposit was strongly graded laterally, with only weak vertical grading. We construct an empirical, three-dimensional velocity field resembling the experimental observations, and use this with a particle-size segregation model to predict the segregation and transport of material through the flow. We infer that coarse material segregates to the flow surface and is transported to the flow front by shear. Within the flow head, coarse material is overridden, then recirculates in spiral trajectories due to size-segregation, before being advected to the flow edges and deposited to form coarse-particle-enriched levees. © 2012 by the American Geophysical Union.
    Original languageEnglish
    Article numberF01032
    JournalJournal of Geophysical Research: Atmospheres
    Issue number1
    Publication statusPublished - 2012


    Dive into the research topics of 'Grain-size segregation and levee formation in geophysical mass flows'. Together they form a unique fingerprint.

    Cite this