We used a comparative approach investigating commercially fished species with contrasting life histories and trophic positions in an Arcto-boreal system, the Barents Sea. Our objective was to address the ecological consequences of harvesting on stock properties (stochastic growth rate; a property related to intrinsic growth rate) in relation to different external conditions (fishing pressure and climate). We used age-structured population matrices to calculate the transient elasticity of population growth with respect to recruitment (how much population growth depends on recruitment) over time. Using a generalized additive model (GAM) analysis, we found that the transient elasticity of population growth to recruitment overall depends mostly...
This investigation commenced by constructing principal maturation schedule equations as a function o...
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...
Fish populations may spawn a vast number of offspring, while only a small and highly variable fracti...
Population growth is affected by several factors such as climate, species interaction and harvesting...
Stock-recruitment relationships are fundamental in management of fish stocks and fish recruitment is...
In this thesis, I investigated the population dynamics of Atlantic cod (Gadus morhua), and Atlantic ...
Growth is a key component of population dynamics and, thus, fisheries management, yet drivers of its...
It is well known that marine fish dynamics relate with climate variability, and predicting future po...
Reproductive investment is a central trait for population dynamics and productivity. Fishing and env...
Evidence has accumulated that climate variability influences the state and functioning of marine eco...
Marine ecosystems, particularly in high‐latitude regions such as the Arctic, have been significantly...
The widespread depletion of commercially exploited marine living resources is often seen as a genera...
Atlantic Cod (Gadus morhua) is one of the commercially most important fish species in the North Atl...
Fish in many exploited stocks grow faster and mature earlier at either larger or smaller sizes in co...
This investigation commenced by constructing principal maturation schedule equations as a function o...
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...
Fish populations may spawn a vast number of offspring, while only a small and highly variable fracti...
Population growth is affected by several factors such as climate, species interaction and harvesting...
Stock-recruitment relationships are fundamental in management of fish stocks and fish recruitment is...
In this thesis, I investigated the population dynamics of Atlantic cod (Gadus morhua), and Atlantic ...
Growth is a key component of population dynamics and, thus, fisheries management, yet drivers of its...
It is well known that marine fish dynamics relate with climate variability, and predicting future po...
Reproductive investment is a central trait for population dynamics and productivity. Fishing and env...
Evidence has accumulated that climate variability influences the state and functioning of marine eco...
Marine ecosystems, particularly in high‐latitude regions such as the Arctic, have been significantly...
The widespread depletion of commercially exploited marine living resources is often seen as a genera...
Atlantic Cod (Gadus morhua) is one of the commercially most important fish species in the North Atl...
Fish in many exploited stocks grow faster and mature earlier at either larger or smaller sizes in co...
This investigation commenced by constructing principal maturation schedule equations as a function o...
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...