Acoustic distribution of discriminated micronektonic organisms from a bi-frequency processing : the case study of eastern Kerguelen oceanic waters

Acoustic distribution of discriminated micronektonic organisms from a bi-frequency processing : the case study of eastern Kerguelen oceanic waters Behagle Nolwenn auteur aut IRD Cotte C. auteur aut IRD Lebourges Dhaussy Anne auteur aut IRD Roudaut Gildas auteur aut IRD Duhamel G. auteur aut IRD Brehmer Patrice auteur aut IRD Josse Erwan auteur aut IRD Cherel Y. auteur aut IRD text journalArticle eng text/pdf born digital access Despite its ecological importance, micronekton remains one of the least investigated components of the open-ocean ecosystems. Our main goal was to characterize micronektonic organisms using bi-frequency acoustic data (38 and 120 kHz) by calibrating an algorithm tool that discriminates groups of scatterers in the top 300 m of the productive oceanic zone east of Kerguelen Islands (Indian sector of the Southern Ocean). The bi-frequency algorithm was calibrated from acoustic properties of mono-specific biological samples collected with trawls, thus allowing to discriminate three acoustic groups of micronekton: (i) "gas-bearing" (Delta Sv.120-38 < -1 dB), (ii) "fluid-like" (Delta S-v,S-120-38 > 2 dB), and (iii) "undetermined" scatterers (-1 < Delta S-v,S-120-38 < 2 dB). The three groups likely correspond biologically to gas-filled swimbladder fish (myctophids), crustaceans (euphausiids and hyperiid amphipods), and other marine organisms potentially present in these waters and containing either lipid-filled or no inclusion (e.g. other myctophids), respectively. The Nautical Area Scattering Coefficient (NASC) was used (echo-integration cells of 10 m long and 1 m deep) between 30 and 300 m depth as a proxy of relative biomass of acoustic targets. The distribution of NASC values showed a complex pattern according to: (i) the three acoustically defined groups, (ii) the type of structures (patch vs. layers) and (iii) the timing of the day (day/night cycle). NASC values were higher at night than during the day. A large proportion of scatterers occurred in layers while patches, that mainly encompass gas-bearing organisms, are especially observed during daytime. This method provided an essential descriptive baseline of the spatial distribution of micronekton and a relevant approach to (i) link micronektonic group to physical parameters to define their habitats, (ii) investigate trophic interactions by combining active acoustic and top predator satellite tracking, and (iii) study the functioning of the pelagic ecosystems at various spatio-temporal scales. specialized Euphausiid Kerguelen Myctophid Southern Ocean Acoustics KERGUELEN OCEAN ARCTIQUE 036 126 020 Progress in Oceanography 156 276-289 2017 0079-6611 https://www.documentation.ird.fr/hor/fdi:010071047 10.1016/j.pocean.2017.06.004 0079-6611 [F B010071047] https://www.documentation.ird.fr/hor/fdi:010071047 https://www.documentation.ird.fr/intranet/publi/2017/10/010071047.pdf Accès réservé (Intranet de l'IRD) IRD - Base Horizon / Pleins textes 2017-10-31 2023-07-11 fdi:010071047 fre