Physiological determinants of individual variation in sensitivity to an organophosphate pesticide in Nile tilapia Oreochromis niloticus

Physiological determinants of individual variation in sensitivity to an organophosphate pesticide in Nile tilapia Oreochromis niloticus

•The OP pesticide trichlorfon reduced critical swimming speed (Ucrit) of Nile tilapia.•The proximate mechanism was a reduction in swimming efficiency.•Intrinsically good swimmers remained better swimmers after pesticide exposure.•Individuals varied widely in the extent to which trichlorfon impaired...

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Bibliographic Details
Published in:Aquatic toxicology Vol. 189; pp. 108 - 114
Main Authors: McKenzie, David J., Blasco, Felipe R., Belão, Thiago C., Killen, Shaun S., Martins, Nathan D., Taylor, Edwin W., Rantin, F. Tadeu
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-08-2017
Elsevier
Subjects:
Animals
Behavior, Animal - drug effects
Behavior, Animal - physiology
Biodiversity and Ecology
Cichlids - metabolism
Cichlids - physiology
Critical swimming speed
Ecotoxicology
Environmental Monitoring
Environmental Sciences
Female
Individual variation
Insecticides - toxicity
Life Sciences
Male
Metabolic rate
Nile tilapia
Organophosphates - toxicity
Oxygen Consumption - drug effects
Oxygen Consumption - physiology
Respirometry
Swimming - physiology
Toxicology
Trichlorfon
Trichlorfon - toxicity
Water Pollutants, Chemical - toxicity
Metabolic rate
Critical swimming speed
Nile tilapia
Respirometry
Individual variation
Trichlorfon
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Summary:•The OP pesticide trichlorfon reduced critical swimming speed (Ucrit) of Nile tilapia.•The proximate mechanism was a reduction in swimming efficiency.•Intrinsically good swimmers remained better swimmers after pesticide exposure.•Individuals varied widely in the extent to which trichlorfon impaired performance. Individual variation in sub-lethal sensitivity to the organophosphate pesticide trichlorfon was investigated in Nile tilapia, using critical swimming speed (Ucrit) as an indicator. Tilapia exposed for 96h to 500μgl−1 trichlorfon at 26°C (Tcfn group, n=27) showed a significant decline in mean Ucrit, compared to their own control (pre-exposure) performance in clean water (−14.5±2.3%, mean±SEM), but also compared to a Sham group (n=10) maintained for 96h in clean water. Individuals varied in their relative sensitivity to the pesticide, with the decline in Ucrit after exposure varying from 1 to 41%. The Ucrit of the Tcfn group did not recover completely after 96h in clean water, remaining 9.4±3.2% below their own control performance. The decline in performance was associated with a significant increase in net cost of aerobic swimming, of +28.4±6.5% at a sustained speed of 2bodylengthss−1, which translated into a significant decline in swimming efficiency (Eswim) of −17.6±4.0% at that speed. Within the Tcfn group, individual Eswim was a strong positive determinant of individual Ucrit across all trials, and a strong negative determinant of individual% decline in Ucrit after pesticide exposure (P<0.001, linear mixed effect models). Trichlorfon had no effects on standard metabolic rate or active metabolic rate (AMR) but, nonetheless, individual Ucrit in all trials, and% decline in Ucrit after exposure, were strongly associated with individual AMR (positively and negatively, respectively, P<0.001). Individual Ucrit under control conditions was also a strong positive determinant of Ucrit after trichlorfon exposure (P<0.001), but not of the% decline in Ucrit performance. In conclusion, the OP pesticide impaired Ucrit performance by reducing Eswim but individual tilapia varied widely in their relative sensitivity. Intrinsic individual physiology determined effects of the pesticide on performance and, in particular, good swimmers remained better swimmers after exposure.
ISSN:0166-445X
1879-1514
DOI:10.1016/j.aquatox.2017.06.001