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Crustaceans and fish abundances and species at and around artificially introd...
The study area is situated 400 m north of a small rocky island (Helgoland, 54°11'N, 07°52'E) in the southern North Sea. Fish and crustacean abundances were sampled using SCUBA... -
Crustaceans and fish abundances and species at and around artificially introd...
In the coming decades, artificial defence structures will increase in importance worldwide for the protection of coasts against the impacts of global warming. However, the... -
Crustaceans and fish abundances and species at and around artificially introd...
The micro-scale spatial distribution patterns of a demersal fish and decapod crustacean assemblage were assessed in a hard-bottom kelp environment in the southern North Sea.... -
(Table 2) Species density and composition of an inshore and offshore station ...
Megafauna plays an important role in benthic ecosystems and contributes significantly to benthic biomass in the Arctic. The distribution is mostly studied using towed cameras.... -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl
