Dataset: Howell caged cod metadata
Deployment: NEC-HH2006-1

trawl metadata: date, time, duration, number of fish in cage, manipulations

Principal Investigator:

W. Hunting Howell (University of New Hampshire, UNH)

Captain:

Carl Bouchard

BCO-DMO Data Manager:

Nancy Copley (Woods Hole Oceanographic Institution, WHOI BCO-DMO)

Project:

Northeast Consortium: Project Development (NEC_ProjDev)

Current State:

Final no updates expected

Version:

20110405

Version Date:

2011-04-05

Data URL:

https://osprey.bco-dmo.org/dataset-deployment/454512/data

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Description

"Development of a Multi-Beam Sonar as a Fisheries Tool for Stock Assessment and Essential Fish Habitat Identification of Groundfish in the Western Gulf of Maine"

This data set:
Summary of acoustic data of encaged Atlantic cod collected by a dual 38 kHz/120kHz split-beam EK60 echosounder and 300 Hz EM3002 sonar during 19-29 June 2007.

Abstract
Stock assessments based on accurate abundance and distribution data are essential to developing effective management strategies for the Gulf of Maine stock of Atlantic cod, Gadus morhua. The purpose of this study was to prove the concept of using multi-beam sonar as a fisheries tool for studying the behavior and quantifying the abundance of groundfish. The focus of this research was was to develop multi-beam sonar (MBS) as a fisheries survey tool. MBS can complement traditional narrow-beam echosounder and trawl surveys because MBS has a large sampling volume, three-dimensional spatial description, and potentially fewer behavior-related sampling biases than traditional trawl surveys. Relationships between acoustic backscatter and fish biology need to be understood before reliable acoustic surveys using MBS can provide sciencebased information for stock assessments. A series of acoustic and optical measurements were made using 38- and 120-kHz EK60 split-beam echosounders and a 300 kHz EM3002 MBS. These were fixed to a surface platform over a 98 cubic meter submersible cage of 5-cm stretched mesh twine. After standard sphere calibration, the cage was stocked with 195 live Atlantic cod with a mean total length of 80.7 ± 0.8 cm (± standard error; range 51.5-105.0 cm) from nearby spawning grounds 10-15 km off the New Hampshire coast, USA. The sonars were synchronized to collect acoustic data on a captive population of mature cod of known size and number under video surveillance by two underwater cameras. Cod were incrementally removed from the cage to provide a time-series of acoustic backscatter at four densities (n=195, 116, 66, and 23). Preliminary results demonstrate the feasibility of the EM3002 MBS to detect cod and show that quantification of the acoustic backscatter is possible.

See final report

Methods & Sampling

Dataset acquisition description

(from final report):

Experimental Cage
A cage (4 m wide x 5 m long x 4.9 m deep; approximately 100 m3) with 5-cm (2-inch) stretch nylon mesh, which has served as a harvest/transfer cage for the OOA project, was used for a series of acoustic measurement experiments (Figure 2). The cage consisted of a high-density polyethylene pipe of 10.2 to 25.4-cm (4 to 10-inch) diameter for the top frame, rail and flotation. A 0.9 m (3-foot) wide wood boardwalk surrounded the cage and supported multiple people and docking vessels. The net was covered with a top net and lowered by rope to any depth. The bottom of the net was weighted by a metal rectangular frame. The floating net cage was towed from Portsmouth harbor and moored offshore at the OOA site with four mooring lines.

Video Surveillance

Two LED underwater cameras were mounted through the mesh net of the cage to provide an upwardlooking
and side-looking video record of the spatial distribution and behavior of the insonified fish during
the experiments. Each camera recorded to a four-channel digital video recorder (IDView).

Acoustic Sampling
A 300-kHz EM3002 multi-beam sonar system (Kongsberg Maritime) and 38- and 120-kHz Simrad EK60 split-beam echosounders were used to collect acoustic backscatter of the fish in the cage. The EM3002 single head has 160 beams each with 1.5° circular beamwidth that can collectively cover a 130° sector. The circular beamwidth of the 38 kHz and 120 kHz transducers are 12° and 7°, respectively. The multiand split-beam transducers were mounted on a rigid pole with the EM3002 single head in the center and the 38 kHz and 120 kHz transducers mounted on either side. The transducers were center aligned according to outside physical dimensions. The transducer mount was lowered approximately 1-2 m from a bridge across the center of a fish cage (Figure 2 and 3). A profiling sound velocimeter (Odom Digibar-Pro) was used to periodically measure sound velocity profiles and upload the sound velocity profiles to the EM3002 software (Figure 4). The sound velocity probe was attached near the single EM3002 head to collect real-time sound velocity measurement at the same depth of the head for proper beam forming. Instruments transmitted data via cable to vessels tied up alongside the cage. The 10-m vessel R/V Cocheco, both operated by the Center of Coastal Ocean Mapping and Joint Hydrographic Center, provided ship support for sonar operations (Figure 5).

Calibration
Sonar systems were calibrated by standard sphere calibration as described by Foote et al. (1987, 2005). A 38-mm tungsten carbide sphere, 23-mm copper sphere, and 60-mm sphere were used to collect single TS for calibration of the 300 kHz EM3002 sonar, 38 kHz E60 and 120 kHz EK60 echosounder, respectively. For each transducer, a sphere attached to monofilament line was lowered by a fishing rod from the sonar mount platform to a depth of 8-10 m and above the lowered cage. For the EM3002, the sphere was also lowered in other beams. The difference between the mean TS and the known TS for the sphere was adjusted by setting a gain offset.

Experiments
Before stocking the cage with live fish, acoustic measurements were obtained on the empty cage to determine whether there was acoustic transparency of the net or whether the cage would be well-defined to permit experiments to be conducted with the cage submerged or at the surface with the net cover open. After determining that the net formed discrete top and bottom echoes in the split-beam echosounders’ echograms and all four sides were distinct in the water column image in the EM3002 (Figure 5), all experiments were performed at depth with the cage completely sealed. Live adult cod (n=195) were stocked in the empty experimental cage at the surface at four stocking densities (approximately 0.25, 1, and 2 fish per m3) starting with the highest density. Fish were insonified in the cage from the surface by the three synchronized echosounders at 1 ping per second. Acoustic measurements on the largest cage population continued on the first day through 2 hours past sunset to provide a preliminary assessment of diel effects on the acoustic estimates of density. Depth of the bottom of the cage was also manipulated between depths of 6 and 17 m.

Data Processing Description

Dataset Processing Description

Data Analysis
Acoustic data from the EM3002 and EK60 sonars were acquired using Seafloor Information System (SIS) Version 3.4.1 software and Simrad ER60 scientific echo sounder application, respectively. The latest version of SIS includes additional features for water column data collection and operational parameterization features more relevant for fisheries applications. Post-processing of datagrams and echograms were done mainly using Matlab (Math Works) and Echoview (Sonardata). Additional statistical analyses were performed using SAS software.

Only preliminary analysis has been completed, but abundance and biomass will be estimated from acoustic backscatter by several methods using target strength and backscatter amplitude. Echo counting and echo integration methods are commonly used and were previously described for Atlantic cod using split-beam data by Rose (2003) and McQuinn et al. (2005). For multi-beam sonar, echo strength will need to be compensated for beam pattern which has been studied for Atlantic herring by Melvin et al. (2003). Density and biomass will be estimated by several methods such as echo counting, echo integration (Simmonds & MacLennan 2005) and other statistical techniques such as scatter statistics (Denbigh et al. 1991), assuming relative abundance is proportional to echo intensity.

More information about this dataset deployment

Funding

Award Number	Funding Source
unknown NEC_ProjDev NEC	NorthEast Consortium

Instruments

Multibeam Echosounder

Supplied Description:

300-kHz EM3002 multi-beam sonar system (Kongsberg Maritime) - used to collect acoustic backscatter of the fish in the cage. The EM3002 single head has 160 beams each with 1.5° circular beamwidth that can collectively cover a 130° sector.

Instrument Type

Generic Name: Multibeam Echosounder

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/157/

Generic Description:

A Multibeam Echosounder system is used to measure bathymetry (depth of the ocean). The resultant data can be used to map large areas of the seafloor.

Split-Beam Echosounder

Supplied Description:

Simrad EK60 with 38- and 120-kHz split-beam echosounders - used to collect acoustic backscatter of the fish in the cage. The circular beamwidth of the 38 kHz and 120 kHz transducers are 12° and 7°, respectively.

Instrument Type

Generic Name: Split-Beam Echosounder

Acronym: Splitbeam Echosounder

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/FFES/

Generic Description:

"The split-beam echosounder has a transducer which is divided into four quadrants.The target direction is determined by comparing the signals received by each quadrant... The transmission pulse is applied to the whole transducer but the signals received by each quadrant are processed separately...The target strength is estimated from the transducer sensitivity in the relevant direction, namely the beam pattern and the on-axis sensitivity." From "Fisheries Acoustics: Theory and Practice" by E. John Simmonds, D. N. MacLennan, Wiley-Blackwell; 2 edition.

Parameters

Supplied Name	Supplied description	Supplied Units	Standard Name
date_local	date in local time	mm/dd/yyyy	date_local
inst	type of echosounder used	text	instrument
time_local	start and end time of insonification	HH:MM:SS	time_local
duration_minutes	duration of insonification of cages	minutes	no_bcodmo_term
pings	number of pings during insonification of cages	integer	no_bcodmo_term
number	number of fish is cage	integer	number
comments	comments pertaining to experiment	text	comment

Database

Contribute Data

Dataset: Howell caged cod metadata
Deployment: NEC-HH2006-1

Dataset acquisition description

Dataset Processing Description

Database

Contribute Data

Dataset: Howell caged cod metadataDeployment: NEC-HH2006-1

Dataset acquisition description

Dataset Processing Description

Dataset: Howell caged cod metadata
Deployment: NEC-HH2006-1