Distribution and Trophic Ecology of Bathylagus euryops (Teleostei: Microstomatidae) Along the Northern Mid-Atlantic Ridge

The assemblage structure and ecology of meso- and bathypelagic fishes are poorly known in general, particularly over mid-ocean ridges. In June 2004, the month-long MAR-ECO (Census of Marine Life) research expedition aboard the R/V G.O. Sars sampled the deep-pelagic fauna over the northern Mid-Atlant...

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Bibliographic Details
Main Authors: Sweetman, Christopher J., Sutton, Tracey
Format: Conference Object
Language:unknown
Published: NSUWorks 2010
Subjects:
Marine Biology
Oceanography and Atmospheric Sciences and Meteorology
Akra
Mid-Atlantic Ridge
Iceland
Online Access:https://nsuworks.nova.edu/occ_facpresentations/257
https://nsuworks.nova.edu/cgi/viewcontent.cgi?article=1200&context=occ_facpresentations
Description
Summary:The assemblage structure and ecology of meso- and bathypelagic fishes are poorly known in general, particularly over mid-ocean ridges. In June 2004, the month-long MAR-ECO (Census of Marine Life) research expedition aboard the R/V G.O. Sars sampled the deep-pelagic fauna over the northern Mid-Atlantic Ridge with the objective of quantitatively assessing the nekton associated with the ridge from Iceland to the Azores. A total of 115 discrete-depth trawl samples were taken from the surface to depths of 3000+ meters using two different double-warp midwater trawls, one of commercial fishing size (a large ‘Akra' trawl) and one of oceanographic research size (‘Macroplankton' or ‘Krill' trawl). Catch data revealed the deep-sea smelt Bathylagus euryops to be the biomass dominant species, accounting for over 28% of total biomass, as well as being the 3rd most abundant species along the MAR. Further distributional analyses elucidated a trend in decreasing biomass from north to south with a biomass maximum around 1500-2000 meters. Understanding the food-web structure and organic cycling of deep-pelagic ecosystems is critical for increasing our knowledge of the distributional patterns of deep-sea fishes. Preliminary results indicate that gelatinous zooplankton represents a significant component of the diet of B. euryops. Molecular probes are currently being developed to identify these prey items in this, and other fishes that consume gelatinous zooplankton.

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