Particle assemblage characterization in the Rhone River ROFI
Abstract
An innovative experiment was carried out in the vicinity of the Rhône River mouth in February 2014. An instrumental
package, composed of a CTD, a LISST-100 type B (1.25–250 μm), and a LISST-HOLO (20–2000 μm), was
used to characterize the hydrological parameters and suspended particles properties (concentration, size, composition,
shape, and effective density) in the region of freshwater influence (ROFI) of the Rhône River. Besides,
a coastal SLOCUMglider, equipped with a CTD and optical backscattering sensors at severalwavelengths,was deployed
to detail the spatial description of the hydrological parameters and some particle properties. Large river
discharge (annual flood ~5000 m3 s−1) and strong wind conditions favored the dispersal of the river plume on
the shelf. Surface suspended particulate matter concentrations decreased rapidly seaward from 20 mg L−1
next to the river mouth to 1.5 mgL−1 at the shelf break. A persistent bottomnepheloid layerwas observed across
the shelf with concentrations decreasing from8 mg L−1 at the coast to 1 mg L−1 at the shelf break. Observations
showed that most of suspended particles were mainly flocculated in micro and macro-flocs (30–400 μm) in
inner-shelf waters. The particle assemblage in the Rhône River plume and in the bottomnepheloid layer became
progressively finer seaward and the associated effective density increased from 370 to 1600 kgm−3. Outside the
plume, planktonic organisms increasingly contributed to the total volume concentration. Finally,we demonstrated
the ability of gliders, equipped with optical backscattering sensors at severalwavelengths, to describe the fine
scale distributions of suspended particles, and provide an index of their size distribution.
Domains
Hydrology
Origin : Files produced by the author(s)