2019
DOI: 10.3390/jmse7050124
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Spatial Variability of Coastal Foredune Evolution, Part A: Timescales of Months to Years

Abstract: Coastal foredunes are topographically high features that can reduce vulnerability to storm-related flooding hazards. While the dominant aeolian, hydrodynamic, and ecological processes leading to dune growth and erosion are fairly well-understood, predictive capabilities of spatial variations in dune evolution on management and engineering timescales (days to years) remain relatively poor. In this work, monthly high-resolution terrestrial lidar scans were used to quantify topographic and vegetation changes over… Show more

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Cited by 39 publications
(49 citation statements)
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References 84 publications
(127 reference statements)
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“…As other researchers have noted (e.g. Walker et al ., ; Brodie et al ., ), transport to dunes is complex and has been observed from alongshore wind directions, challenging this formulation. Furthermore, topographic steering may even contribute to transport to the dune from offshore wind directions, making predictions challenging.…”
Section: Discussionmentioning
confidence: 99%
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“…As other researchers have noted (e.g. Walker et al ., ; Brodie et al ., ), transport to dunes is complex and has been observed from alongshore wind directions, challenging this formulation. Furthermore, topographic steering may even contribute to transport to the dune from offshore wind directions, making predictions challenging.…”
Section: Discussionmentioning
confidence: 99%
“…Finally, events were summed over each survey interval, and potential aeolian transport Q I was converted from kilograms per metre (kg m −1 ) to cubic metres per metre (m 3 m −1 ) using the average bulk density of sand, 1590 kg m −3 (Keijsers et al ., ). Since dune growth at this site has previously been observed to occur during time periods with highly oblique winds (Brodie et al ., ), we calculated two versions of Q I , one that accounted for wind direction [Equation ] and one that removed offshore winds but did not account for wind direction [Equation ].…”
Section: Methodsmentioning
confidence: 99%
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“…Past research in coastal systems has used MTL to monitor beach nourishment performance (e.g., Pietro et al 2008), cliff erosion, and regional scale subaerial beach and dune morphology (Donker et al 2018;Spore et al 2019). Fixed station (tripod-based) terrestrial lidar scanning (FTL) has also widely been utilized for providing valuable new insights on coastal dune dynamics on sub-meter spatial scales and at time scales of months to years (Brodie et al 2019;Conery et al 2019;Danchenkov et al 2019). However, the ability to accurately quantify dune evolution at these same temporal scales utilizing MTL systems, which can cover much larger spatial extents than FTL scanning, would enable significant advancements in the ability to effectively monitor coastal dune evolution at sub-decimeter scale.…”
Section: Introductionmentioning
confidence: 99%
“…Even over sub-meter scales, both the ecological and morphological properties of the dune differ substantially (e.g. Brodie et al 2019).…”
Section: Introductionmentioning
confidence: 99%