Population growth is affected by several factors such as climate, species interaction and harvesting pressure. However, additional complexity can arise if fishing increases the sensitivity to environmental variability. To predict the effects of fisheries and climate on marine populations, there is a need for improved understanding of how they affect key ecological processes such as population growth. In this study, we used a comparative approach investigating commercially fished species across different ecosystems: the Norwegian Sea−Barents Sea (Northeast Arctic cod), the North Sea (North Sea cod), the Atlantic Ocean (European hake), the Mediterranean Sea (European hake), and the Gulf of Alaska and Bering Sea (walleye pollock). Our objectiv...
Climate change and harvesting can affect the ecosystems' functioning by altering the population dyna...
Modern fisheries research and management must understand and take account of the interactions betwee...
Fish communities are dynamic and their structure is known to change over time. Traditionally, these ...
Population growth is affected by several factors such as climate, species interaction and harvesting...
Marine ecosystems, particularly in high‐latitude regions such as the Arctic, have been significantly...
In this thesis, I investigated the population dynamics of Atlantic cod (Gadus morhua), and Atlantic ...
Evidence has accumulated that climate variability influences the state and functioning of marine eco...
We used a comparative approach investigating commercially fished species with contrasting life histo...
The effects of climate and fishing on marine populations and ecosystems have conventionally been con...
Understanding the drivers (internal and external) that determine the productivity of marine ecosyste...
Fish populations may spawn a vast number of offspring, while only a small and highly variable fracti...
Climate variability, fishing and predation are the main factors affecting fish population dynamics. ...
Fishing and climate change are profoundly impacting marine biota through unnatural selection and exp...
The widespread depletion of commercially exploited marine living resources is often seen as a genera...
We explore the evolutionary effects of fisheries on North-East Arctic (NEA) cod. It has earlier been...
Climate change and harvesting can affect the ecosystems' functioning by altering the population dyna...
Modern fisheries research and management must understand and take account of the interactions betwee...
Fish communities are dynamic and their structure is known to change over time. Traditionally, these ...
Population growth is affected by several factors such as climate, species interaction and harvesting...
Marine ecosystems, particularly in high‐latitude regions such as the Arctic, have been significantly...
In this thesis, I investigated the population dynamics of Atlantic cod (Gadus morhua), and Atlantic ...
Evidence has accumulated that climate variability influences the state and functioning of marine eco...
We used a comparative approach investigating commercially fished species with contrasting life histo...
The effects of climate and fishing on marine populations and ecosystems have conventionally been con...
Understanding the drivers (internal and external) that determine the productivity of marine ecosyste...
Fish populations may spawn a vast number of offspring, while only a small and highly variable fracti...
Climate variability, fishing and predation are the main factors affecting fish population dynamics. ...
Fishing and climate change are profoundly impacting marine biota through unnatural selection and exp...
The widespread depletion of commercially exploited marine living resources is often seen as a genera...
We explore the evolutionary effects of fisheries on North-East Arctic (NEA) cod. It has earlier been...
Climate change and harvesting can affect the ecosystems' functioning by altering the population dyna...
Modern fisheries research and management must understand and take account of the interactions betwee...
Fish communities are dynamic and their structure is known to change over time. Traditionally, these ...