Collecting quality echosounder data in inclement weather
Research output: Chapter in Book/Report/Conference proceeding › Other chapter contribution › peer-review
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ICES Cooperative Research Report. ed. / Emory Anderson. Vol. 352 International Council for the Exploration of the Sea, 2021.
Research output: Chapter in Book/Report/Conference proceeding › Other chapter contribution › peer-review
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TY - CHAP
T1 - Collecting quality echosounder data in inclement weather
AU - Jech, Michael
AU - Schaber, Matthias
AU - ox, Martin
AU - Escobar-Flores, Pablo
AU - Gastauer, Sven
AU - Haris, Kunnath
AU - Horne, John
AU - Jarvis, Toby
AU - Ladroit, Yoann
AU - O'Driscoll, Richard
AU - Pederson, Geir
AU - Peña, Marian
AU - Ryan, Tim
AU - Sakinan, Serdar
AU - Thomas, Rebecca
AU - Viehman, Haley
AU - Wall, Carrie
AU - Whitton, Timothy
PY - 2021/12/1
Y1 - 2021/12/1
N2 - Echosounder data are widely collected and employed to address multitude scientific questions, from characterizing pelagic marine ecosystems, to investigating the behaviour and dynamics of marine organisms, and estimating the abundance and biomass of marine resources. Acoustic data are collected from a variety of platforms that are influenced in different ways by the environment, weather, and sea state. These factors can affect vessel motion in many ways, which, in turn, affects the quality of echosounder data through (i) the movement of the transducer emitting sound pulses into the water column, (ii) bubbles at the transducer face, and (iii) increased electrical, mechanical, and acoustic noise. A reduction in data quality will directly affect the outcome of quantitative estimates based on echosounder data, such as stock assessments. Therefore, procedures for collecting and processing quality echosounder data in inclement weather situations need to be developed. However, the diversity of platforms employed for collecting echosounder data, and the enormous variability of individual platform responses to inclement weather, render it highly challenging and complicated to develop a universal set of procedures and recommendations that can be applied to all platforms. Accordingly, all recommendations need to be driven by acoustic data, rather than by weather conditions or the response of individual platforms to such conditions. The practical aims of this CRR are to (i) review current knowledge and experience on the impact of weather conditions on acoustic data collected with a variety of echosounders operating on research vessels at common acoustic frequencies used in fisheries acoustics; (ii) develop standard procedures and methods for identifying unsuitable survey conditions, i.e. situations that are considered too degraded to continue collecting acoustic data; and (iii) propose methods for dealing with degraded data.
AB - Echosounder data are widely collected and employed to address multitude scientific questions, from characterizing pelagic marine ecosystems, to investigating the behaviour and dynamics of marine organisms, and estimating the abundance and biomass of marine resources. Acoustic data are collected from a variety of platforms that are influenced in different ways by the environment, weather, and sea state. These factors can affect vessel motion in many ways, which, in turn, affects the quality of echosounder data through (i) the movement of the transducer emitting sound pulses into the water column, (ii) bubbles at the transducer face, and (iii) increased electrical, mechanical, and acoustic noise. A reduction in data quality will directly affect the outcome of quantitative estimates based on echosounder data, such as stock assessments. Therefore, procedures for collecting and processing quality echosounder data in inclement weather situations need to be developed. However, the diversity of platforms employed for collecting echosounder data, and the enormous variability of individual platform responses to inclement weather, render it highly challenging and complicated to develop a universal set of procedures and recommendations that can be applied to all platforms. Accordingly, all recommendations need to be driven by acoustic data, rather than by weather conditions or the response of individual platforms to such conditions. The practical aims of this CRR are to (i) review current knowledge and experience on the impact of weather conditions on acoustic data collected with a variety of echosounders operating on research vessels at common acoustic frequencies used in fisheries acoustics; (ii) develop standard procedures and methods for identifying unsuitable survey conditions, i.e. situations that are considered too degraded to continue collecting acoustic data; and (iii) propose methods for dealing with degraded data.
M3 - Other chapter contribution
SN - 978-87-7482-751-1
VL - 352
BT - ICES Cooperative Research Report
A2 - Anderson, Emory
PB - International Council for the Exploration of the Sea
ER -