2021
DOI: 10.3389/fmars.2021.733923
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ADV-Based Investigation on Bed Level Changes Over a Meso-Macro Tidal Beach

Abstract: Beach intra-tidal bed level changes are of significance to coastal protection amid global climate changes. However, due to the limitation of instruments and the disturbance induced by wave motions superimposed on water levels, it was difficult to detect the high-frequency oscillation of the submerged beach bed level. In this study, an observation, lasting for 12 days and covering the middle tide to the following spring tide, was conducted on a meso-macro tidal beach, Yintan Beach, to simultaneously detect the … Show more

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Cited by 5 publications
(1 citation statement)
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References 88 publications
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“…These observational shortcomings, combined with increasing demand for high‐frequency measurements, suggest that new autonomous observation approaches should be explored for obtaining better insight into bed‐level dynamics within the intertidal zones. With the advances in acquisition sensors, data‐loggers, and power supply systems, a wide variety of autonomous instruments have been developed and applied for bed‐level observations over the past decades, including the photo‐electronic erosion pin sensor (PEEP; Lawler 2008), resistive rods (Arnaud et al 2011), ALTUS (Ganthy et al 2013), and acoustic doppler velocimetry (ADV; Andersen et al 2006; Shi et al 2017, 2019; Pang et al 2021). Nonetheless, most of these instruments are associated with high unit cost and labor‐intensive deployment with accompanying external power and data‐logging systems.…”
Section: Instrument Methods Accuracy (Mm) Measurement Frequency Worki...mentioning
confidence: 99%
“…These observational shortcomings, combined with increasing demand for high‐frequency measurements, suggest that new autonomous observation approaches should be explored for obtaining better insight into bed‐level dynamics within the intertidal zones. With the advances in acquisition sensors, data‐loggers, and power supply systems, a wide variety of autonomous instruments have been developed and applied for bed‐level observations over the past decades, including the photo‐electronic erosion pin sensor (PEEP; Lawler 2008), resistive rods (Arnaud et al 2011), ALTUS (Ganthy et al 2013), and acoustic doppler velocimetry (ADV; Andersen et al 2006; Shi et al 2017, 2019; Pang et al 2021). Nonetheless, most of these instruments are associated with high unit cost and labor‐intensive deployment with accompanying external power and data‐logging systems.…”
Section: Instrument Methods Accuracy (Mm) Measurement Frequency Worki...mentioning
confidence: 99%