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Relationship: 2081
Title
Reduced, Swimming performance leads to Decrease, Population growth rate
Upstream event
Downstream event
Key Event Relationship Overview
AOPs Referencing Relationship
AOP Name | Adjacency | Weight of Evidence | Quantitative Understanding | Point of Contact | Author Status | OECD Status |
---|---|---|---|---|---|---|
Glucocorticoid Receptor Agonism Leading to Impaired Fin Regeneration | adjacent | High | Brendan Ferreri-Hanberry (send email) | Open for citation & comment |
Taxonomic Applicability
Term | Scientific Term | Evidence | Link |
---|---|---|---|
teleost fish | teleost fish | High | NCBI |
Sex Applicability
Sex | Evidence |
---|---|
Mixed |
Life Stage Applicability
Term | Evidence |
---|---|
All life stages | High |
Key Event Relationship Description
- Adequate swimming performance in fish is essential for behaviour such as foraging, predator avoidance and reproduction.
- A decline in swim performance would cause a decrease in the essential behaviour listed above, causing a decline in population.
Evidence Collection Strategy
Evidence Supporting this KER
Biological Plausibility
- Fish with reduced swim performance may lack the necessary mobility to avoid predators, resulting in mortality and an eventual significant decrease to population. Reduced swim performance may also impact the fish’s ability to obtain food or prey (Voesenek et al., 2018).
- Migratory fish species with reduced swim performance would face difficulties in completing their migration path, which could result in a lack of spawning (Voesenek et al., 2018).
Empirical Evidence
Uncertainties and Inconsistencies
Known modulating factors
Not yet evaluated.
Quantitative Understanding of the Linkage
Not yet evaluated.
Response-response Relationship
Not yet evaluated.
Time-scale
Not yet evaluated.
Known Feedforward/Feedback loops influencing this KER
Not yet evaluated.
Domain of Applicability
Swim performance is pertinant to all fish species ability to forage, avoid predation, and reproduce.
References
Fu C, Cao ZD, Fu SJ. 2013. The effects of caudal fin loss and regeneration on the swimming performance of three cyprinid fish species with different swimming capactities. The Journal of Experimental Biology 216:3164-3174. doi:10.1242/jeb.084244
Voesenek CJ, Muijres FT, van Leeuwen JL. 2018. Biomechanics of Swimming in Developing Larval Fish. Journal of Experimental Biology 221:jeb149583. doi: 10.1242/jeb.149583.