Geometric characteristics and evolution of a tidal channel network in experimental setting |
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| Authors: | Brigitte M Vlaswinkel Alessandro Cantelli |
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| Institution: | 1. Shell Upstream International, Rijswijk, The NetherlandsCurrent address: Shell Upstream International, Kessler Park 1, 2288 GS Rijswijk, The Netherlands.;2. Shell Upstream International, Houston, TX, USA |
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| Abstract: | This paper reports on a laboratory study that aims to reproduce a tidal channel network, in order to enhance the understanding of the morphodynamic evolution of the channel characteristics as the network expands and finally reaches equilibrium. A high‐resolution laser system scanned the bed topography at different time steps creating multiple digital elevation models of the channel network. Two hundred and seventy individual channel segments are analyzed and cross‐correlated in terms of their width, depth and length. The laboratory results show positive linear correlations between depth and width as well as between length and width of channel segments of the network configuration at final equilibrium. In a downstream direction, channels appear to widen more than they deepen, indirectly a sign that discharge has a stronger control on channel width than on depth. In contrast to fluvial drainage networks that commonly display fractal and scale‐invariant behavior, the geometric properties of the experimental tidal creek network shows scale dependence. Channel attributes exhibit consistent patterns of exponentially decreasing abundance, with increasing creek length, depth and width. The nature of the observed exponential distributions within creek attributes (width, depth, length) allows for statistical predictability of relative creek attribute dimensions downstream and through time. Copyright © 2010 John Wiley & Sons, Ltd. |
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| Keywords: | tidal creeks laboratory modeling spatio‐temporal dynamics exponential distributions channel geometry |
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