Structural enrichment promotes natural behaviour and welfare of captive gilthead seabream broodstock
Publication Type: |
Journal Article |
Year of Publication: |
2024 |
Authors: |
Ana Rita Oliveira, María J. Cabrera-Álvarez, Florbela Soares, Carlos Diáz-Gil, Ana Candeias-Mendes, João L. Saraiva, Pablo Arechavala-Lopez |
Publication/Journal: |
Applied Animal Behaviour Science |
Keywords: |
aquaculture, behavioural indicators, environmental enrichment, Physiological indicators, positive welfare, Spawners |
ISBN: |
0168-1591 |
Abstract:
The intensification of aquaculture practices in the last decade can compromise the welfare of farmed fish. However, one strategy to be considered to improve the welfare of captive fish is the implementation of structural enrichment in the rearing environment. The behavioural and physiological effects of suspended ropes inside rearing tanks were experimentally assessed on gilthead seabream (Sparus aurata) breeders, evaluating the potential use of such structures in production units. Over the course of six months, 60 adult gilthead seabreams, were reared in cylindrical tanks with and without structural enrichment. Fish were video recorded regularly before, during and after feeding. Biometry and blood samples for biochemical analyses of plasma (cortisol, glucose and lactate) were taken throughout the experiment. Suspended ropes modified the horizontal distribution of fish after feeding, influencing the swimming activity and social interactions throughout the experimental period. In addition, structural enrichment promoted foraging and anticipatory behaviour of gilthead seabream. No effects of structural enrichment were detected on gilthead seabream condition or growth, although there was an apparent positive yet fading effect of enrichment on plasma cortisol and glucose. In general, structural enrichment had diverse positive effects on the behaviour diversity and natural repertoire of captive gilthead seabream, and therefore, on fish welfare. This type of structural environmental enrichment can be easily incorporated into land-based flow-through and recirculating aquaculture systems, both for experimentation and commercial purposes.