Straight from the source's mouth: Controls on field-constrained sediment export across the entire active Corinth Rift,central Greece |
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| Authors: | Stephen E Watkins Alexander C Whittaker Rebecca E Bell Sam A S Brooke Vamsi Ganti Robert L Gawthorpe Lisa C McNeill Casey W Nixon |
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| Institution: | 1. Department of Earth Science and Engineering, Imperial College London, London, UK;2. Department of Geography, University of California Santa Barbara, Santa Barbara, CA, USA;3. Department of Geography, University of California Santa Barbara, Santa Barbara, CA, USA
Department of Earth Science, University of California Santa Barbara, Santa Barbara, CA, USA;4. Department of Earth Science, University of Bergen, Bergen, Norway;5. School of Ocean and Earth Science, National Oceanography Centre Southampton, University of Southampton, Southampton, UK |
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| Abstract: | The volume and grain-size of sediment supplied from catchments fundamentally control basin stratigraphy. Despite their importance, few studies have constrained sediment budgets and grain-size exported into an active rift at the basin scale. Here, we used the Corinth Rift as a natural laboratory to quantify the controls on sediment export within an active rift. In the field, we measured the hydraulic geometries, surface grain-sizes of channel bars and full-weighted grain-size distributions of river sediment at the mouths of 47 catchments draining the rift (constituting 83% of the areal extent). Results show that the sediment grain-size increases westward along the southern coast of the Gulf of Corinth, with the coarse-fraction grain-sizes (84th percentile of weighted grain-size distribution) ranging from approximately 19 to 91 mm. We find that the median and coarse-fraction of the sieved grain-size distribution are primarily controlled by bedrock lithology, with late Quaternary uplift rates exerting a secondary control. Our results indicate that grain-size export is primarily controlled by the input grain-size within the catchment and subsequent abrasion during fluvial transport, both quantities that are sensitive to catchment lithology. We also demonstrate that the median and coarse-fraction of the grain-size distribution are predominantly transported in bedload; however, typical sand-grade particles are transported as suspended load at bankfull conditions, suggesting disparate source-to-sink transit timescales for sand and gravel. Finally, we derive both a full Holocene sediment budget and a grain-size-specific bedload discharged into the Gulf of Corinth using the grain-size measurements and previously published estimates of sediment fluxes and volumes. Results show that the bedload sediment budget is primarily comprised (~79%) of pebble to cobble grade (0.475–16 cm). Our results suggest that the grain-size of sediment export at the rift scale is particularly sensitive to catchment lithology and fluvial mophodynamics, which complicates our ability to make direct inferences of tectonic and palaeoenvironmental forcing from local stratigraphic characteristics. |
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| Keywords: | Corinth Rift grain-size sediment transport bedload sediment export sediment budget |
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