Fish stomach content is a compelling data source, as stomachs can provide information about diet of predators, distribution of prey fish, predator-prey preference or changes in diet over time. For instance, stomach samples have historically been used to inform the natural mortality of stock assessments in the Baltic and North Seas. Since stomach samples tend to vary substantially over time, due to differences in biomass of predator and prey, time series must be constructed to provide critical information on food web interactions in time and space. In this project, we aimed (1) to analyse new stomach samples, from the North and Baltic Seas; (2) to continue historical time series; (3) to update and create an online ICES database for the broader community to explore new and old data in conjunction; and (4) to perform preliminary analysis on the newly added data. In total, 10 087 new stomachs will be provided from the two case study areas. We analysed and uploaded 5 512 new stomach samples so far. Additionally, 27 744 historical Baltic cod stomach data have been uploaded. The analysis provided here show that the predation on saduria and sprat by cod in the Baltic Sea has changed over the last 30 years. In the North Sea, the new samples consisted primarily of unidentified matter, benthic food and crustaceans, whereas the historical samples contain a larger number of commercial fish.
Jacobsen, N. (2023). Study on stomach content of fish to update databases and analyse possible changes in diet or food web interactions. EUROPEAN COMMISSION, European Climate, Infrastructure and Environment Executive Agency – Sustainable Blue Economy [10.2926/683598].
Study on stomach content of fish to update databases and analyse possible changes in diet or food web interactions
Casini M.;
2023
Abstract
Fish stomach content is a compelling data source, as stomachs can provide information about diet of predators, distribution of prey fish, predator-prey preference or changes in diet over time. For instance, stomach samples have historically been used to inform the natural mortality of stock assessments in the Baltic and North Seas. Since stomach samples tend to vary substantially over time, due to differences in biomass of predator and prey, time series must be constructed to provide critical information on food web interactions in time and space. In this project, we aimed (1) to analyse new stomach samples, from the North and Baltic Seas; (2) to continue historical time series; (3) to update and create an online ICES database for the broader community to explore new and old data in conjunction; and (4) to perform preliminary analysis on the newly added data. In total, 10 087 new stomachs will be provided from the two case study areas. We analysed and uploaded 5 512 new stomach samples so far. Additionally, 27 744 historical Baltic cod stomach data have been uploaded. The analysis provided here show that the predation on saduria and sprat by cod in the Baltic Sea has changed over the last 30 years. In the North Sea, the new samples consisted primarily of unidentified matter, benthic food and crustaceans, whereas the historical samples contain a larger number of commercial fish.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.