Description
Summary:Progress Code: completed Statement: Images that were too blurry, and those that were too far from or too close to the seafloor for analysis were not analysed. Distance to the seafloor was assessed based on the ratio of the distance between the laser pointers to the width of the computer screen, with the ratio for good images between 0.018:1 and 0.064:1 (D. Osterhage, pers. comm.). Unfortunately, altimeter data could not be used to determine distance from the seafloor due to timing offsets that were not able to be resolved. Quantitative counts were not attempted due to variable image quality and oblique image angles, which would have led to inconsistencies in abundance data. Purpose This dataset provides presence/absence data for taxa, % biological cover and substrate attributes determined from seafloor images from the Sabrina upper slope. These data provide an understanding of seabed habitats and diversity of taxa. Four camera tow transects were completed on the upper slope during survey IN2017_V01 using the Marine National Facility’s Deep Tow Camera. This system collected oblique facing still images with a Canon – 1DX camera and high definition video with a Canon – C300 system. Four SeaLite Sphere lights provided illumination and two parallel laser beams 10 cm apart provided a reference scale for the images. This dataset presents results from the analysis of the still imagery. All camera tows were run at a ship speed over the ground of approximately 2 knots. Several sensors were attached to the towed body, including a SBE 37 CTD for collection of salinity, temperature and pressure data, a Kongsberg Mesotech altimeter and a Sonardynne beacon to record the location of the towed body. Transects were run downslope from the continental shelf break, with images analysed over a depth range of ~495 m to 670-725 m. Biota and substrates were characterised for every fifth image according to the CATAMI image classification scheme (Collaborative and Automated Tools for Analysis of Marine Imagery, Althaus et al., ...