Light scattering by random shaped particles and consequences on measuring suspended sediments by laser diffraction

Agrawal, Y. C.; Whitmire, Amanda L.; Mikkelsen, Ole A.; Pottsmith, H.C.

doi:10.1029/2007jc004403

Cited by 147 publications

(162 citation statements)

References 27 publications

Supporting

Mentioning

161

Contrasting

Order By: Relevance

“…[12] Field data obtained with the LISST-100X often shows a "tail" at the small end of the size range where the slope is appreciably different from the preceding particle concentrations [Agrawal et al, 2008]. This tail was evident for the majority of stations sampled here and can be produced from assumptions inherent in the scattering matrix used to invert the raw LISST measurements into particle size data.…”

Section: Methodsmentioning

confidence: 99%

“…This tail was evident for the majority of stations sampled here and can be produced from assumptions inherent in the scattering matrix used to invert the raw LISST measurements into particle size data. When high concentrations of nonspherical particles or submicron particles (below 2 mm) are present [Agrawal et al, 2008], more laser energy can be diffracted onto the outer rings of the LISST detector than would normally be attributed to spherical particles of 1-2 mm diameter. In addition, ambient red light can be "forward" scattered into the bottom lobe of the outer ring, particularly in near surface waters with sufficient concentrations of red light.…”

Section: Methodsmentioning

confidence: 99%

“…Known inaccuracies with the LISST instruments can result from schlieren in pycnoclines and particles with nonspherical geometry [Pedocchi and Garcia, 2006;Karp-Boss et al, 2007;Agrawal et al, 2008]. For comparison purposes, discrete surface water samples from the LIS0505 cruise were also analyzed with an electrical sensing zone method (Elzone particle size analyzer) on the ship within hours after collection.…”

Section: Methodsmentioning

confidence: 99%

See 2 more Smart Citations

A regional comparison of particle size distributions and the power law approximation in oceanic and estuarine surface waters

2010

View full text Add to dashboard Cite

[1] The particle size distribution (PSD) is commonly used in studies of sediment fluxes, phytoplankton dynamics, and optical scattering from particulates, but little is known about the spatial and temporal variability of this parameter. Here, we analyze in situ laser diffraction measurements of the PSD from a variety of estuarine and open ocean systems. The power law or "Junge-type" distribution provided a good fit to surface ocean particle size distributions measured from 6 to 250 mm. PSD slopes ranged from 2.7 to 4.7 with a mean of 3.63. Consistent with theory, high particle slopes (3.78) and low particle concentrations characterized the open ocean waters of the Atlantic and the Southern Ocean. Lower PSD slopes (3.63) and high concentrations were characteristic of estuarine waters. River plumes consistently showed the lowest PSD slopes (3.30) and highest particle concentrations characteristic of larger bloom-forming phytoplankton and production of particle aggregates. In the North Atlantic, an inverse relationship was found between PSD slope and chlorophyll concentration. Such results follow the biological paradigm that larger phytoplankton are prevalent in bloom conditions and smaller phytoplankton dominate in oligotrophic water. Large temporal variability in PSD was observed in near coastal regions prone to sediment resuspension from storms and tidal flow. Dense sea grass beds consistently had lower particle concentrations compared to surrounding waters due to reductions in current flow and sediment resuspension. Simple power law approximations of particle size distributions can be successfully used to describe and assess particle distributions in a wide array of oceanic and estuarine water types.Citation: Buonassissi, C. J., and H. M. Dierssen (2010), A regional comparison of particle size distributions and the power law approximation in oceanic and estuarine surface waters,

show abstract

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

A regional comparison of particle size distributions and the power law approximation in oceanic and estuarine surface waters

2010

View full text Add to dashboard Cite

show abstract

“…This allows calculating a calibration equation converting pixel area to real surface area of particles. When looking at smaller particles (<100 lm) inserting and tracking them in the light field becomes impossible and calibrated beads or culture of phytoplankton cells are used to replace natural targets (Agrawal et al 2008;Karp-Boss et al, 2007). Finally, cross-calibration of sensor output with a well characterized and calibrated sensor ('gold standard') can also be applied to insure inter-comparability of measurements.…”

Section: Optical Technology For Measuring Particles and Their Propertmentioning

confidence: 99%

Optical techniques for remote and in-situ characterization of particles pertinent to GEOTRACES

Boss

Guidi

Richardson

et al. 2015

Progress in Oceanography

View full text Add to dashboard Cite

a b s t r a c tField and laboratory characterization of marine particles is laborious and expensive. Proxies of particle properties have been developed that allow researchers to obtain high frequency distributions of such properties in space or time. We focus on optical techniques used to characterize marine particles in-situ, with a focus on GEOTRACES-relevant properties, such as bulk properties including particle mass, crosssectional area, particle size distribution, particle shape information, and also single particle optical properties, such as individual particle type and size. We also address the use of optical properties of particles to infer particulate organic or inorganic carbon. In addition to optical sensors we review advances in imaging technology and its use to study marine particles in situ. This review addresses commercially available technology and techniques that can be used as a proxy for particle properties and the associated uncertainties with particular focus to open ocean environments, the focus of GEOTRACES.

show abstract

“…Also, unlike the Coulter Counter and the FlowCAM, there is no need for discrete water sampling or sample handling, which may disrupt fragile aggregates. LISST instruments have been shown to provide PSDs that are comparable with other sizing instruments over a wide range of environmental particle types (Agrawal et al 2008;Andrews et al 2010;Reynolds et al 2010). However, to obtain particle size information, an optical model needs to be assumed for inversion of the angular pattern of near-forward scattered light recorded by the LISST.…”

mentioning

confidence: 99%

In situ variability of mass‐specific beam attenuation and backscattering of marine particles with respect to particle size, density, and composition

Neukermans

Loisel

Mériaux

et al. 2011

Limnology & Oceanography

171

175

View full text Add to dashboard Cite

This study analyzes relationships between concentration of suspended particles represented by dry mass, [SPM], or area, [AC], and optical properties including particulate beam attenuation (c p ), side scattering (b s ), and backscattering (b bp ), obtained from an intensive sampling program in coastal and offshore waters around Europe and French Guyana. First-order optical properties are driven by particle concentration with best predictions of [SPM] by b bp and b s , and of [AC] by c p . Second-order variability is investigated with respect to particle size, apparent density (dry weight-to-wet-volume ratio), and composition. Overall, the mass-specific particulate backscattering coefficient, b bp remains unexplained. Possible causes are the limitation of the measured size distributions to the 2-302-mm range and effects of particle shape and internal structure that affect b bp more than c p and were not accounted for.

show abstract

Light scattering by random shaped particles and consequences on measuring suspended sediments by laser diffraction

Cited by 147 publications

References 27 publications

A regional comparison of particle size distributions and the power law approximation in oceanic and estuarine surface waters

A regional comparison of particle size distributions and the power law approximation in oceanic and estuarine surface waters

Optical techniques for remote and in-situ characterization of particles pertinent to GEOTRACES

In situ variability of mass‐specific beam attenuation and backscattering of marine particles with respect to particle size, density, and composition

Contact Info

Product

Resources

About