Timothy G. Milligan scite author profile

[1] The goal of this study was to test the hypothesis that the aggregated state of natural marine particles constrains the sensitivity of optical beam attenuation to particle size. An instrumented bottom tripod was deployed at the 12-m node of the Martha's Vineyard Coastal Observatory to monitor particle size distributions, particle size-versus-settlingvelocity relationships, and the beam attenuation coefficient (c p ) in the bottom boundary layer in September 2007. An automated in situ filtration system on the tripod collected 24 direct estimates of suspended particulate mass (SPM) during each of five deployments. On a sampling interval of 5 min, data from a Sequoia Scientific LISST 100x Type B were merged with data from a digital floc camera to generate suspended particle volume size distributions spanning diameters from approximately 2 mm to 4 cm. Diameter-dependent densities were calculated from size-versus-settling-velocity data, allowing conversion of the volume size distributions to mass distributions, which were used to estimate SPM every 5 min. Estimated SPM and measured c p from the LISST 100x were linearly correlated throughout the experiment, despite wide variations in particle size. The slope of the line, which is the ratio of c p to SPM, was 0.22 g m −2 . Individual estimates of c p :SPM were between 0.2 and 0.4 g m −2 for volumetric median particle diameters ranging from 10 to 150 mm. The wide range of values in c p :SPM in the literature likely results from three factors capable of producing factor-of-two variability in the ratio: particle size, particle composition, and the finite acceptance angle of commercial beam-transmissometers.Citation: Hill, P. S., E. Boss, J. P. Newgard, B. A. Law, and T. G. Milligan (2011), Observations of the sensitivity of beam attenuation to particle size in a coastal bottom boundary layer,

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Controls on effective settling velocity of suspended sediment in the Eel River flood plume

Hill

Milligan

Geyer

2000

Continental Shelf Research

184

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Timothy G. Milligan

Flow and Sediment Transport on a Tidal Salt Marsh Surface

The structure of the Eel River plume during floods

Observations of the sensitivity of beam attenuation to particle size in a coastal bottom boundary layer

Controls on effective settling velocity of suspended sediment in the Eel River flood plume

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