Research team

Pilot tests for the use of implants in illicit drug mixture-induced changes in European eel 01/10/2026 - 30/09/2027

Abstract

Aquatic ecosystems worldwide are increasingly contaminated with mixtures of psychoactive drugs that threaten biodiversity, ecosystem services, and public health. For the first time, this project will reveal the interactive effects of illicit psychostimulants and depressants, explore innovative tools, and uncover novel drug mechanisms on endangered migratory wildlife, the European eel. Here, the potential of osmotic implants will be explored as an innovative exposure approach for wildlife ecotoxicology.

Researcher(s)

Research team(s)

Funding

  • BOF

Project type(s)

  • Research Project

Unravelling the effects of individual coping style and long-term glucocorticoid up-regulation on cardiac remodelling in Atlantic salmon (Salmo salar). 01/11/2020 - 31/10/2024

Abstract

Chronic stress in fish due to the intensification in aquaculture can lead to reduced performance (metabolism, growth, reproduction) and a compromised immune system, resulting in a decline in fish production yield and fish welfare. In this framework, quantification and subsequent mitigation of chronic stress was shown to be pivotal in a more sustainable aquaculture. Non-specific mortality of salmonids in the seawater-rearing phase is one of the major recurring problems in the aquaculture industry and especially the sudden stress-related mortality of fish ready for slaughter and subsequent economic losses. However, knowledge on the underlying factors causing this mortality are lacking, though it is attributed in large part to cardiac disease which could be linked to chronic stress. Indeed, it was demonstrated that cortisol responsiveness in salmonids is associated with pathological remodelling of the heart and that this stress hormone directly induces such remodelling. The main objective of this study is to unravel the effects of individual coping style and long-term cortisol up-regulation on cardiac remodelling in one of the most important aquaculture species, the Atlantic salmon, Salmo salar, look at the consequences for fish performance and test a potential mitigation strategy.

Researcher(s)

Research team(s)

Funding

  • FWO
  • FWO

Project type(s)

  • Research Project