Title
Raw acoustic scattering data of organisms from the water column, R/V Point Sur, Cruise DP02, August 9-21 2015
Document Type
Dataset
Publication Date
1-4-2017
UDI
R4.x257.000:0002
Funding Source
RFP-IV
Data Collection Period
2015-08-09 to 2015-08-21
Database
Gulf of Mexico Research Initiative Information and Data Cooperative (GRIIDC)
DOI
10.7266/N7BK19RB
Abstract
Patterns in acoustically derived biological scatter through the water column were collected with multi-frequency scientific echosounders (Simrad EK60) operating at 18kHz, 38kHz, 70kHz and 120kHz following protocols developed during the NOAA NRDA DAP data collection operations. Specifically, during each cruise, transducers were installed on a rigid pole mounted to the side of the ship, and calibrated at sea for operating conditions following protocols developed by Dr. Boswell during the ONSAP/DAP cruises. The dynamics of the mesopelagic scattering community were examined through the depth dependent scattering responses at both frequencies (18 and 38kHz) as well as through the difference between the mean volume backscattering strength (MVBS; in dB) at 18 kHz and 38 kHz (dMVBS(18-38)). In addition, scatterers in the upper water column (~150m) were examined by analyzing the all four available frequencies. By integrating both methods, the magnitude of biological scattering at discrete-depth intervals was classified into major taxonomic components (e.g., fluid-like crustaceans, swimbladdered fishes) based on resonant properties and behavior. The biological data and ship data collected during this cruise are available in GRIIDC datasets R4.x257.226:0001 and R4.x257.226:0011, respectively.
File Format(s)
raw
NSUWorks Citation
Boswell, Kevin. Raw acoustic scattering data of organisms from the water column, R/V Point Sur, Cruise DP02, August 9-21 2015. 2017. Distributed by: Gulf of Mexico Research Initiative Information and Data Cooperative (GRIIDC), Harte Research Institute, Texas A&M University – Corpus Christi. doi: 10.7266/N7BK19RB
COinS
Purpose
To examine the spatial and temporal dynamics of deep sea nekton in the Gulf of Mexico through a multidisciplinary approach.