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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... -
Ciliata mustela in the Sylt Rømø bight in 2020
Due to changing temperature regimes in the North- and the Wadden Sea, a fish survey in the Sylt Rømø bight (SRB) was established in 2007 for at least ten years. The aim is to... -
Ciliata mustela in the Sylt Rømø bight in 2019
Due to changing temperature regimes in the North- and the Wadden Sea, a fish survey in the Sylt Rømø bight (SRB) was established in 2007 for at least ten years. The aim is to... -
Ciliata mustela in the Sylt Rømø bight in 2018
Due to changing temperature regimes in the North- and the Wadden Sea, a fish survey in the Sylt Rømø bight (SRB) was established in 2007 for at least ten years. The aim is to... -
Ciliata mustela in the Sylt Rømø bight in 2008
Due to changing temperature regimes in the North- and the Wadden Sea, a fish survey in the Sylt Rømø bight (SRB) was established in 2007 for at least ten years. The aim is to... -
Ciliata mustela in the Sylt Rømø bight in 2007
Due to changing temperature regimes in the North- and the Wadden Sea, a fish survey in the Sylt Rømø bight (SRB) was established in 2007 for at least ten years. The aim is to... -
Ciliata mustela in the Sylt Rømø bight in 2017
Due to changing temperature regimes in the North- and the Wadden Sea, a fish survey in the Sylt Rømø bight (SRB) was established in 2007 for at least ten years. The aim is to... -
Ciliata mustela in the Sylt Rømø bight in 2011
Due to changing temperature regimes in the North- and the Wadden Sea, a fish survey in the Sylt Rømø bight (SRB) was established in 2007 for at least ten years. The aim is to... -
Macrozoobenthos mapped in the Königshafen (North Sea) tidal flats in August 1989
The intertidal area of "Königshafen" (4.5 km²) near the Island of Sylt was subdivided in to squares of 100x100 m each (n=450) and every second one was studied for... -
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