Benthic ecology of the northeastern Chukchi Sea. Part I. Environmental characteristics and macrofaunal community structure, 2008–2010

Spatial variations of processes driving macrofaunal distributions can arise from interactions among topographic features and oceanographic patterns, and are not understood at small scales in the northeastern Chukchi Sea. Benthic macrofauna and environmental characteristics were measured to determine...

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Bibliographic Details
Published in:Continental shelf research 2013-09, Vol.67, p.52-66
Main Authors: Blanchard, Arny L., Parris, Carrie L., Knowlton, Ann L., Wade, Nicole R.
Format: Article
Language:English
Subjects:
Alaska
Astarte borealis
Benthic ecology
Biomass
Chukchi Sea
Communities
Continental shelves
Density
Ecology
Feeding
Macoma calcarea
Maldane sarsi
Marine
Marine mammals
Spatial variability
Temporal variability
Topographic control
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Summary:Spatial variations of processes driving macrofaunal distributions can arise from interactions among topographic features and oceanographic patterns, and are not understood at small scales in the northeastern Chukchi Sea. Benthic macrofauna and environmental characteristics were measured to determine factors driving macrofaunal distributions as part of a multidisciplinary environmental program in the northeastern Chukchi Sea from 2008 to 2010. Macrofauna were sampled in three study areas, named Klondike, Burger, and Statoil, with a van Veen grab at up to 82 stations each year, as well as an area where marine mammals were seen feeding. The macrofaunal assemblages in all study areas were similar in species-composition with deposit-feeding polychaetes (53% of density and of 26% biomass) and bivalves (15% of density and 52% of biomass) collectively the most prominent groups. Maldane sarsi dominated the polychaetes in terms of both density and biomass, while bivalves were numerically dominated by Ennucula tenuis, but their biomass was dominated by larger species such as Macoma calcarea and Astarte borealis. Exceptions occurred in the marine mammal feeding area that was dominated by amphipods (71% of density and 30% biomass). Average densities were higher in Burger than in Klondike or Statoil, while biomass values were similar between Burger and Statoil, and higher in these two study areas than in Klondike. Overall, the distributions, biomass and density of benthic macrofauna reflect the high volume of production reaching the seafloor in the shallow waters of the Chukchi Sea. Variations in community structure among study areas were correlated with water depth and bottom-water temperature. Short-term temporal differences in community structure covaried with interannual oceanographic variations that may have altered food availability, macrofaunal survival, or larval recruitment. Topographic control over circulation appears to be a primary driver in structuring benthic communities within the present study region, as well as throughout the Chukchi Sea. •Macrofauna were sampled in the northeastern Chukchi Sea, 2008–2010.•Macrofaunal communities reflect high carbon inputs due to low zooplankton grazing.•Density and biomass varied among study areas but taxonomic composition was similar.•Topography exerted strong control over circulation and benthic community structure.•Interannual variations were associated with wind-driven, oceanographic changes.
ISSN:0278-4343
1873-6955
DOI:10.1016/j.csr.2013.04.021