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Seawater carbonate chemistry and growth performance and survival of larval At...
In the coming decades, environmental change like warming and acidification will affect life in the ocean. While data on single stressor effects on fish are accumulating rapidly,... -
Seawater carbonate chemistry and bioenergetics of developing eggs of Atlantic...
Atlantic herring (Clupea harengus) is a benthic spawner, therefore its eggs are prone to encounter different water conditions during embryonic development, with bottom waters... -
Seawater carbonate chemistry and survival of herring larvae, Clupea harengus ...
Ocean acidification—the decrease in seawater pH due to rising CO2 concentrations—has been shown to lower survival in early life stages of fish and, as a consequence, the... -
Survival of herring larvae, Clupea harengus L., under projected end-of-the-ce...
Ocean acidification, the decrease in seawater pH due to rising CO2 concentrations, has been shown to lower survival in early life stages of fish and, as a consequence, the... -
Seawater carbonate chemistry, mortality and hatching rate, size and mass of C...
Due to atmospheric accumulation of anthropogenic CO2 the partial pressure of carbon dioxide (pCO2) in surface seawater increases and the pH decreases. This process known as... -
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
