Understanding the Optical Behavior and Spectral Signature of Dredging-Induced Plumes in Coastal Waters.

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Bibliographic Details
Title: Understanding the Optical Behavior and Spectral Signature of Dredging-Induced Plumes in Coastal Waters.
Authors: Doxaran, David1 (AUTHOR) david.doxaran@imev-mer.fr, Mayot, Isabella1,2 (AUTHOR), De Keukelaere, Liesbeth2,3 (AUTHOR), Moelans, Robrecht1,2 (AUTHOR), Verdoodt, Niels2,3 (AUTHOR), Knaeps, Els2,3 (AUTHOR)
Source: Remote Sensing. May2026, Vol. 18 Issue 9, p1428. 26p.
Subjects: Dredging, Optical properties, Spectral sensitivity, Coasts, Plumes (Fluid dynamics), Suspended solids, Remote sensing
Abstract: Highlights: What are the main findings? Particles in suspension in dredge plumes have peculiar (rather spectrally flat) light absorption properties. Dredge plumes have a specific spectral signature significantly different from natural turbid waters (e.g., river plumes), i.e., with a higher water reflectance signal at short visible wavelengths (400–550 nm), as detected in water reflectance spectra derived from atmospherically corrected satellite data. What are the implications of the main findings? Dredge plumes can be identified from ocean color satellite data, i.e., distinguished from natural turbid waters. High-spatial-resolution (e.g., Sentinel2-MSI) satellite data can be used for the operational monitoring of dredge plumes in coastal waters. Dredging activities regularly occurring in near-shore and coastal waters generate turbid waters within the surface layer with high concentrations of suspended particulate matter collected in bottom sediments. The potential impact of these dredge plumes on natural ecosystems must be monitored using cost-effective methods and observations. Here, we investigate the biogeochemical and optical properties of dredge plumes selected mainly in European and African coastal waters. Laboratory analyses realized on numerous water samples collected in dredge plumes reveal (extremely) high water turbidity and high concentrations of inorganic particles in suspension, sometimes mixed with high concentrations of phytoplankton particles. The most peculiar optical property of these particles is a spectral light absorption coefficient significantly flatter than that of suspended particles in natural turbid waters (e.g., river plumes or estuarine maximum turbidity zones). This peculiar optical property is also detected on ocean color satellite data corrected for atmospheric effects, with a water reflectance signal higher than natural turbid waters at short visible wavebands (400–550 nm). Such an atypical spectral signature, which can be detected and mapped from space, makes the operational monitoring of dredge plumes in coastal waters using high-spatial-resolution (e.g., Sentinel2-MSI) satellite data possible. [ABSTRACT FROM AUTHOR]
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Database: Engineering Source
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