Add to ORKGWe present results from acoustical (38 kHz split beam) surveys, biological sampling (trawling, zooplankton nets), and measurements of physical parameters (salinity, temperature, currents) across and along the shelf off Norway (62-70°N). Major recurrent structures were apparent both geographically and with time. Off the shelf, two deep scattering layers prevailed; one of 50-100 m thickness where the upper border by day fluctuated between 100 and 200 m depth, and one located deeper between 300-500 m. The upper layer was mainly composed of mesopelagic fish (Maurolicus muelleri) and krill (Meganyctiphanes norvegica), while the lower layer consisted of krill (Meganyctiphanes norvegica), mesopelagic fish (Maurolicus muelleri, Benthosema...
The mesopelagic layer is a massive layer of biomass which stretches from 200-1000 meters depth in al...
The zooplankton composition of the Sound Scattering Layer (SSL) detected at multiples frequencies, 1...
Scattering structures, including deep (>200 m) scattering layers are common in most oceans, but h...
We present results from acoustical (38 kHz split beam) surveys, biological sampling (trawling, zoopl...
Acoustic scattering layers (SL) at various depths are common phenomena in most oceans, but the organ...
This thesis investigates the diel variations in mesopelagic acoustic scattering layers in Bjørnafjor...
The distribution, biomass, and predator-prey relationships of the pelagic assemblage in Masfjorden, ...
The Norwegian Sea harbours several large pelagic fish stocks, which use the area for feeding during ...
Aspects of the inter-relationship of krill Sound Scattering Layers (SSLs) and fish were examined in ...
Spatial distributions of organisms play a key role in facilitating trophic interactions, which influ...
A study was made of the distribution of zooplankton organisms in the Norwegian Sea during May-August...
Bortom trawl data from the depth interval 300-2050 m on the slope off Norway were analysed to study ...
Distribution of micronekton was investigated during early summer of 2013, using data from a cruise c...
Investigations of distribution and abundance of demersal fish in 400—1000 m depth were carried out i...
The variations in zooplankton volume at fixed stations along the coast of Norway, western Spitsberg...
The mesopelagic layer is a massive layer of biomass which stretches from 200-1000 meters depth in al...
The zooplankton composition of the Sound Scattering Layer (SSL) detected at multiples frequencies, 1...
Scattering structures, including deep (>200 m) scattering layers are common in most oceans, but h...
We present results from acoustical (38 kHz split beam) surveys, biological sampling (trawling, zoopl...
Acoustic scattering layers (SL) at various depths are common phenomena in most oceans, but the organ...
This thesis investigates the diel variations in mesopelagic acoustic scattering layers in Bjørnafjor...
The distribution, biomass, and predator-prey relationships of the pelagic assemblage in Masfjorden, ...
The Norwegian Sea harbours several large pelagic fish stocks, which use the area for feeding during ...
Aspects of the inter-relationship of krill Sound Scattering Layers (SSLs) and fish were examined in ...
Spatial distributions of organisms play a key role in facilitating trophic interactions, which influ...
A study was made of the distribution of zooplankton organisms in the Norwegian Sea during May-August...
Bortom trawl data from the depth interval 300-2050 m on the slope off Norway were analysed to study ...
Distribution of micronekton was investigated during early summer of 2013, using data from a cruise c...
Investigations of distribution and abundance of demersal fish in 400—1000 m depth were carried out i...
The variations in zooplankton volume at fixed stations along the coast of Norway, western Spitsberg...
The mesopelagic layer is a massive layer of biomass which stretches from 200-1000 meters depth in al...
The zooplankton composition of the Sound Scattering Layer (SSL) detected at multiples frequencies, 1...
Scattering structures, including deep (>200 m) scattering layers are common in most oceans, but h...