Climate variability has generally not been included in the assessment of fish stocks in the Barents Sea and Norwegian Sea. However, in recent years there has been a focus on implementing climate variability in the assessment for several stocks in both areas. A promising approach, using linear multiple regression models, has been applied for short time projections of recruitment of Northeast Arctic cod, Norwegian spring spawning herring and Barents Sea capelin. Environmental factors influence the fish throughout their life history. Time lagged climate variables can be used in combination with stock abundance at younger ages to make models with predictive power 1-3 years ahead. The presented models describe 65-85 % of the variance in the rec...
In this thesis, I investigated the population dynamics of Atlantic cod (Gadus morhua), and Atlantic ...
Different stock–environment recruitment models for Norwegian spring spawning herring (Clupea harengu...
A conceptual climate dependent multispecies model for stock interactions and harvesting of herring,...
Climate variability has generally not been included in the assessment of fish stocks in the Barents ...
Presented at The ICES Symposium on The Influence of Climate Change on North Atlantic Fish Stocks, 11...
For several decades one of the prime targets within fishery science has been to be able to understa...
Stock-recruitment relationships are fundamental in management of fish stocks and fish recruitment is...
Climate variability and change in the Arctic and Sub-Arctic regions have become increasingly importa...
Reliable information about the future state of the ocean and fish stocks is necessary for informed d...
During the latter years an effort has been made to find out more about the relations between enviro...
Productivity of marine fish stocks is known to be affected by environmental and ecological drivers, ...
Interannual variability of temperature in the Kola section (Barents Sea) and the abundance as 0-grou...
Fish populations may spawn a vast number of offspring, while only a small and highly variable fracti...
Predicting fish stock variations on interannual to decadal time scales is one of the major issues in...
In this thesis, I investigated the population dynamics of Atlantic cod (Gadus morhua), and Atlantic ...
Different stock–environment recruitment models for Norwegian spring spawning herring (Clupea harengu...
A conceptual climate dependent multispecies model for stock interactions and harvesting of herring,...
Climate variability has generally not been included in the assessment of fish stocks in the Barents ...
Presented at The ICES Symposium on The Influence of Climate Change on North Atlantic Fish Stocks, 11...
For several decades one of the prime targets within fishery science has been to be able to understa...
Stock-recruitment relationships are fundamental in management of fish stocks and fish recruitment is...
Climate variability and change in the Arctic and Sub-Arctic regions have become increasingly importa...
Reliable information about the future state of the ocean and fish stocks is necessary for informed d...
During the latter years an effort has been made to find out more about the relations between enviro...
Productivity of marine fish stocks is known to be affected by environmental and ecological drivers, ...
Interannual variability of temperature in the Kola section (Barents Sea) and the abundance as 0-grou...
Fish populations may spawn a vast number of offspring, while only a small and highly variable fracti...
Predicting fish stock variations on interannual to decadal time scales is one of the major issues in...
In this thesis, I investigated the population dynamics of Atlantic cod (Gadus morhua), and Atlantic ...
Different stock–environment recruitment models for Norwegian spring spawning herring (Clupea harengu...
A conceptual climate dependent multispecies model for stock interactions and harvesting of herring,...