Here we analyzed the relation between recruitment dynamic (recruit-ment or recruitment success) and temperature of 57 commercial fish stocks of the North Atlantic. We showed that, although the effect of temperature was generally significant, spawning biomass is the main factor governing recruitment dynamic. A significant effect of spawning biomass was evident for 67 % of all stocks analyzed in this study. For gadoids, the effect of spawning biomass was larger than the effect of temperature (both in terms of number of stocks and proportion of vari-ance explained). For clupeids, spawning biomass was more important than temperature for a higher number of stocks, but the strength of the two effects, when present, was similar. Also, stocks livin...
BACKGROUND: Fisheries exploitation, habitat destruction, and climate are important drivers of variab...
The “recruitment problem” - trying to understand what regulates recruitment variability in marine fi...
Background: Fisheries exploitation, habitat destruction, and climate are important drivers of variab...
Here we analyzed the relation between recruitment dynamic (recruitment or recruitment success) and ...
The impact of the environment on interannual variability in fish recruitment has proven difficult to...
Fish populations may spawn a vast number of offspring, while only a small and highly variable fracti...
International audienceUnderstanding whether recruitment fluctuations in fish stock arise from stocha...
In order to provide better fisheries management and conservation decisions, there is a need to disce...
The comparative analysis of recruitment dynamics of nine commercial fish populations (stock units) a...
For several decades one of the prime targets within fishery science has been to be able to understa...
Fish stock fluctuations are affected by two potentially confounding forces: the removal of individua...
Recruitment dynamics are challenging to assess or predict because of the many underlying drivers tha...
Understanding whether recruitment fluctuations in fish stock arise from stochastic forcing (e.g. env...
Effects of global warming on animal distribution and performance become visible in many marine ecosy...
Marine populations often show considerable variation in their productivity, including regime shifts....
BACKGROUND: Fisheries exploitation, habitat destruction, and climate are important drivers of variab...
The “recruitment problem” - trying to understand what regulates recruitment variability in marine fi...
Background: Fisheries exploitation, habitat destruction, and climate are important drivers of variab...
Here we analyzed the relation between recruitment dynamic (recruitment or recruitment success) and ...
The impact of the environment on interannual variability in fish recruitment has proven difficult to...
Fish populations may spawn a vast number of offspring, while only a small and highly variable fracti...
International audienceUnderstanding whether recruitment fluctuations in fish stock arise from stocha...
In order to provide better fisheries management and conservation decisions, there is a need to disce...
The comparative analysis of recruitment dynamics of nine commercial fish populations (stock units) a...
For several decades one of the prime targets within fishery science has been to be able to understa...
Fish stock fluctuations are affected by two potentially confounding forces: the removal of individua...
Recruitment dynamics are challenging to assess or predict because of the many underlying drivers tha...
Understanding whether recruitment fluctuations in fish stock arise from stochastic forcing (e.g. env...
Effects of global warming on animal distribution and performance become visible in many marine ecosy...
Marine populations often show considerable variation in their productivity, including regime shifts....
BACKGROUND: Fisheries exploitation, habitat destruction, and climate are important drivers of variab...
The “recruitment problem” - trying to understand what regulates recruitment variability in marine fi...
Background: Fisheries exploitation, habitat destruction, and climate are important drivers of variab...