Mississippi prodelta crusts: A clay fabric and geotechnical analysis |
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| Authors: | Brenda Myers Bohlke Richard H Bennett |
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| Institution: | 1. Rosenstiel School of Marine and Atmospheric Science , University of Miami , Miami, Florida, 33149;2. University of California , Berkeley;3. National Oceanic and Atmospheric Administration , Atlantic Oceanographic and Meteorological Laboratories , Miami, Florida, 33149 |
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| Abstract: | Abstract "Crust”; zones, as defined by shear strength profiles, have been delineated in Mississippi prodelta sediments since the advent of the remote wire‐line probe. Attempts to map the distribution of the “crust”; on the prodelta have been hampered by sparsity of in situ measurements and its apparent lateral discontinuity. Evidence based on clay fabric, geotechnical properties, and the location of selected cores within certain geomorphic zones, suggests the “crusts”; are associated with zones of shearing during an episode of submarine sediment movement on the prodelta. The clay fabric within the “crust”; zone differs from that found above and below in the high‐porosity sediments. A noticeable degree of clay platelet preferential alignment is characteristic of sediments within the “crust.”; This preferred orientation occurs as localizations rather than as an overall alignment of all the particles. The clay fabric of the higher‐porosity sediments above and below the “crust”; is typified by randomly arranged clay particles and domains, sharing edge‐to‐face contacts which create an open framework. Apparent increases in the coarse silt fraction in the “crust”; zone were observed initially in scanning electron and transmission electron micrographs and later confirmed by grain size analysis. The presence of this silt apparently contributes to the increase in shear strength within the “crust.”; Clay particle arrangement in close proximity to these larger grains is modified in such a manner as to reduce water contents. Transmission electron microscopy and scanning electron microscopy observations of the “crust”; reveal that the void ratio decreases, resulting in a concomitant reduction in the water content as reflected in the geotechnical properties profiles. The type of fabric exhibited by the “crust”; suggests a remolding and dewatering of initially porous silty clay sediments in response to shear stresses operating on the prodelta. Core samples were recovered from sediments exhibiting a “crust”; in areas identified by other researchers as unstable, based on seismic and acoustic profiles and sidescan sonar records. The prodelta has been modified by a peripheral mudflow at the location where the cores were collected for this study. |
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