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Journal article
Abandoned channel fill sequences in the tidal estuary of a small mountainous, dry-summer river
Sedimentology, v 63(1)
01 Jan 2016
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Abstract
This study proposes a modification of the current model for abandoned channel fill stratigraphy produced in unidirectional flow river reaches to incorporate seasonal tidal deposition. Evidence supporting this concept came from a study of two consecutive channel abandonment sequences in Ropers Slough of the lower Eel River Estuary in northern California. Aerial photographs showed that Ropers Slough was abandoned around 1943, reoccupied after the 1964 flood, and abandoned again in 1974 with fill continuing to the present. Planform geomorphic characteristics derived from these images were used in conjunction with sub-centimetre resolution stratigraphic analyses to describe depositional processes and their resultant sedimentary deposits. Both abandonment sequences recorded quasi-annual scale fluvial/tidal deposition couplets. In both cases, tidal deposits contained very little sand, were higher in organic and inorganic carbon content than the sandier, fluvially dominated deposits, and possessed millimetre-scale horizontal laminations. The two abandonment fills differed significantly in terms of the temporal progression of channel narrowing and fluvial sediment deposition characteristics. Aerial photographic analysis showed that the first abandonment sequence led to a more rapid narrowing of Ropers Slough and produced deposits with a positive relationship between grain size/deposit thickness and discharge. The second abandonment resulted in a much slower narrowing of Ropers Slough and generally thinner fluvial deposits with no clear relationship between grain size/deposit thickness and discharge. The delta C-13 values and organic nitrogen to organic carbon ratios of deposits from the first phase overlapped with Eel River suspended sediment characteristics found for low flows (one to five times mean discharge), while those of the second phase were consistent with suspended sediment from higher flows (seven to ten times mean discharge). When considered together, the results indicate that the early fill sequence recorded a reach experiencing regular fluvial deposition through flow conditions during the wet season, while the latter fill sequence records a reach more disconnected from the main stem in terms of flow and sediment. The major factor affecting the difference in sedimentation between the two fill periods appears to have been the morphology of the upstream river bend in relation to the position of the bifurcation node. During the first fill period, the upstream entrance to Ropers Slough seems to have remained open, in part due to the placement of its entrance on the outside of the mainstem river bend, and despite stronger tidal effects caused by a larger tidal prism and closer proximity to the tidal inlet. By the second fill sequence, the upstream bend morphology had altered, placing the entrance to Ropers Slough on the inner bank of the mainstem bend, which resulted in more rapid plug bar formation. The role of tidal effects in the geomorphic trajectory of the two abandonment sequences is unclear, but appears to have been less important than local bifurcation geometry.
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Details
- Title
- Abandoned channel fill sequences in the tidal estuary of a small mountainous, dry-summer river
- Creators
- Andrew B. Gray - University of California, DavisGregory B. Pasternack - University of California, DavisElizabeth B. Watson - University of California, DavisMiguel A. Goni - Oregon State University
- Publication Details
- Sedimentology, v 63(1)
- Publisher
- Wiley
- Number of pages
- 31
- Grant note
- CA-D-LAW-7034-H / USDA National Institute of Food and Agriculture; United States Department of Agriculture (USDA) OCE-0753487 / NSF; National Science Foundation (NSF) Jastro Shields graduate research award 0628385 / National Science Foundation; National Science Foundation (NSF) Hydrologic Sciences Graduate Group at the University of California at Davis
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Biodiversity, Earth, and Environmental Science (BEES)
- Web of Science ID
- WOS:000372268700005
- Scopus ID
- 2-s2.0-84944809843
- Other Identifier
- 991019182779004721
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- Collaboration types
- Domestic collaboration
- Web of Science research areas
- Geology