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Experimental Estimates of Optical Backscattering Associated With Submicron Particles in Clear Oceanic Waters

Xiaodong Zhang, Lianbo Hu, Yuanheng Xiong, Yannick Huot, Deric J. Gray

2020Geophysical Research Letters33 citationsDOIOpen Access PDF

Abstract

Abstract The volume scattering functions for bulk and two submicron size fractions (passing through 0.7 μm GF/F and 0.2 μm membrane filters) were measured in the North Pacific Ocean using a LISST‐VSF to assess the contributions by submicron particles to the overall particle scattering. The contribution by submicron particles increased generally with scattering angle and peaked around 110°. The total backscattering by both submicron fractions did not vary, but that by larger particles increased, with the trophic level. Consequently, the fractional backscattering contribution by submicron particles decreased from approximately 50% to 30% as the chlorophyll‐a concentration increased from <0.1 to 0.3 mg m −3 . Despite the experiment covering a limited range of trophic levels, our results confirm that backscattering by submicron particles in clear ocean waters is significant and seems to form a background independent of the backscattering by larger particles.

Topics & Concepts

ScatteringBackscatter (email)Coherent backscatteringRange (aeronautics)Materials scienceParticle (ecology)Trophic levelMineralogyAnalytical Chemistry (journal)OpticsOceanographyPhysicsChemistryGeologyEnvironmental chemistryComposite materialTelecommunicationsWirelessComputer sciencePaleontologyMarine and coastal ecosystemsUnderwater Acoustics ResearchCoral and Marine Ecosystems Studies
Experimental Estimates of Optical Backscattering Associated With Submicron Particles in Clear Oceanic Waters | Litcius