2010
DOI: 10.1002/esp.2015
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Quantification of braided river channel change using archival digital image analysis

Abstract: Historical archives of grey-scale river channel imagery are extensive. Here, we present and test a methodology to extract detailed quantitative topographic date from such imagery of sand-bed rivers. Extracting elevation information from rivers is difficult as they are characterized by a low relative relief (less than 4 m); the area of interest may be spatially extensive (e.g. active channel widths > 500 m in large braided rivers); the rate of change of surface elevation is generally low except in the vicinity … Show more

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Cited by 107 publications
(142 citation statements)
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“…The South Saskatchewan River was studied in detail in the 1970s (Cant 1978;Cant and Walker 1978) and was recently the subject of a large research project involving coring, 200 MHz GPR, differential GPS surveys, and time-series analysis of aerial photographs and the digital elevation models derived from them (Woodward et al 2003;Sambrook Smith et al 2005;Best et al 2006;Sambrook Smith et al 2006;Lane et al 2010;Sambrook Smith et al 2010;Ashworth et al in press). The slope heights of ripples, dunes, and unit bars ranged between 0.005 and 0.3 m in this study, and this is the same as the slope heights in recent flume experiments on the formation of cross strata (bedform slope heights of 0.005-0.25 m; Bridge 2007, 2009).…”
Section: Field Sitementioning
confidence: 99%
“…The South Saskatchewan River was studied in detail in the 1970s (Cant 1978;Cant and Walker 1978) and was recently the subject of a large research project involving coring, 200 MHz GPR, differential GPS surveys, and time-series analysis of aerial photographs and the digital elevation models derived from them (Woodward et al 2003;Sambrook Smith et al 2005;Best et al 2006;Sambrook Smith et al 2006;Lane et al 2010;Sambrook Smith et al 2010;Ashworth et al in press). The slope heights of ripples, dunes, and unit bars ranged between 0.005 and 0.3 m in this study, and this is the same as the slope heights in recent flume experiments on the formation of cross strata (bedform slope heights of 0.005-0.25 m; Bridge 2007, 2009).…”
Section: Field Sitementioning
confidence: 99%
“…Vegetation is often overhanging the river channel, but also two media need to be considered for the ray propagation: air and water. Sensing of water color with multi-or hyper-spectral remote sensing is one field of study, providing optical properties and near shore bathymetry [19][20][21][22][23] or water quality [24]. Airborne LiDAR, exploiting near infrared pulses for acquisition of point clouds over land surfaces, has proved to be a suitable method for the assessment of the 3-dimensional structure of vegetation [25][26][27] and terrain surface [28].…”
mentioning
confidence: 99%
“…Surian et al [2009] used aerial photographs to assess morphological effects of different discharges in a gravel-bed river. Some other authors employed passive optical sensors [Bertoldi et al, 2010;Lane et al, 2010], hyperspectral [Fonstad, 2012], or multispectral images [Bertoldi et al, 2011a] to detect channel morphological changes and analyze the dynamic of riparian vegetation. LiDAR (Light Detection And Ranging) was also used in combination with aerial photographs to observe the impact of riparian vegetation on channel forms [Bertoldi et al, 2011b], and in combination with high resolution multispectral images [Demarchi et al, 2016] to map the riverscape units.…”
Section: Introductionmentioning
confidence: 99%