Understanding the drivers behind fluctuations in fish populations remains a key objective in fishery science. Our predictive capacity to explain these fluctuations is still relatively low, due to the amalgam of interacting bottom-up and top-down factors, which vary across time and space among and within populations. Gaining a mechanistic understanding of these recruitment drivers requires a holistic approach, combining field, experimental and modelling efforts. Here, we use the Western Baltic Spring-Spawning (WBSS) herring (Clupea harengus) to exemplify the power of this holistic approach and the high complexity of the recruitment drivers (and their interactions). Since the early 2000s, low recruitment levels have promoted intense research ...
Climate change and anthropogenic disturbances may affect marine populations and ecosystems through m...
The understanding of natural variability of harvestable fish stocks is of fundamental interest for t...
It is commonly assumed that iteroparous fish, once mature, normally reproduce in all consecutive se...
Understanding the drivers behind fluctuations in fish populations remains a key objective in fishery...
Understanding the drivers behind fluctuations in fish populations remains a key objective in fishery...
How multiple stressors influence fish stock dynamics is a crucial question in ecology in general and...
For fishery assessments in Northern Europe it is a major challenge to quantify the role of small- an...
We analyzed recruitment–environment relationships for 5 distinct Baltic Sea herring stocks inhabitin...
We analyzed recruitment-environment relationships for five distinct Baltic Sea herring stocks inhabi...
Processes occurring during early life-history stages influence the year-class abundance of marine fi...
Climate forcing in complex ecosystems can have profound implications for ecosystem sustainability an...
Climate change and deoxygenation are affecting fish stocks on a global scale, but disentangling the ...
The lack of any abundant recruiting year class of Norwegian spring-spawning (NSS) herring between 20...
Fish stocks vary in abundance. The causes behind the fluctuations may be difficult to determine, esp...
Environmentally induced change appears to be impacting the recruitment of North Sea herring (Clupea ...
Climate change and anthropogenic disturbances may affect marine populations and ecosystems through m...
The understanding of natural variability of harvestable fish stocks is of fundamental interest for t...
It is commonly assumed that iteroparous fish, once mature, normally reproduce in all consecutive se...
Understanding the drivers behind fluctuations in fish populations remains a key objective in fishery...
Understanding the drivers behind fluctuations in fish populations remains a key objective in fishery...
How multiple stressors influence fish stock dynamics is a crucial question in ecology in general and...
For fishery assessments in Northern Europe it is a major challenge to quantify the role of small- an...
We analyzed recruitment–environment relationships for 5 distinct Baltic Sea herring stocks inhabitin...
We analyzed recruitment-environment relationships for five distinct Baltic Sea herring stocks inhabi...
Processes occurring during early life-history stages influence the year-class abundance of marine fi...
Climate forcing in complex ecosystems can have profound implications for ecosystem sustainability an...
Climate change and deoxygenation are affecting fish stocks on a global scale, but disentangling the ...
The lack of any abundant recruiting year class of Norwegian spring-spawning (NSS) herring between 20...
Fish stocks vary in abundance. The causes behind the fluctuations may be difficult to determine, esp...
Environmentally induced change appears to be impacting the recruitment of North Sea herring (Clupea ...
Climate change and anthropogenic disturbances may affect marine populations and ecosystems through m...
The understanding of natural variability of harvestable fish stocks is of fundamental interest for t...
It is commonly assumed that iteroparous fish, once mature, normally reproduce in all consecutive se...