Abstract
Nile tilapia is predominantly produced in smallholder ponds without aeration. We hypothesize that Nile tilapia with high oxygen uptake efficiency (O2UE) may perform better under these conditions than Nile tilapia with low O2UE. Critical swimming speed (Ucrit, in cm s−1) is a potential indicator for O2UE. Our objectives were to estimate variance components for Ucrit and fish size at swim testing early in life, and genetic correlations (rg) between Ucrit with harvest weight (HW) and daily growth coefficient (DGC) later after grow-out in a non-aerated pond. Substantial heritability was found for absolute Ucrit (0.48). The estimated rg between absolute Ucrit and fish size at testing were all strong and positive (range 0.72–0.83). The estimated rg between absolute Ucrit and HW, and absolute Ucrit and DGC were − 0.21 and − 0.63 respectively, indicating that fish with higher absolute Ucrit had lower growth in the non-aerated pond as compared to fish with lower absolute Ucrit. These results suggest a juvenile trade-off between swimming and growth performance where fish with high Ucrit early in life show slower growth later under conditions of limited oxygen availability. We conclude that Ucrit in Nile tilapia is heritable and can be used to predict growth performance.
Highlights
Nile tilapia (Oreochromis niloticus) is predominantly produced in smallholder tilapia ponds without aeration
We aimed first to estimate variance components for swimming performance in Nile tilapia expressed as Ucrit and to estimate the genetic correlation between Ucrit and fish size at swim testing early in life
Tested fish were stocked in a non-aerated pond and grown to harvest weight, to determine the genetic correlations between Ucrit early in life and harvest weight (HW) and daily growth coefficient (DGC) later in life
Summary
Nile tilapia (Oreochromis niloticus) is predominantly produced in smallholder tilapia ponds without aeration. As critical swimming speed (Ucrit) may reflect the oxygen uptake efficiency, the hypothesis is that fish with high Ucrit will grow better under conditions where oxygen is limiting. A high throughput method to assess the individual variation in oxygen uptake efficiency is by subjecting fish to exhaustive exercise in a critical swimming challenge test. In this test, swimming speeds are incrementally increased at prescribed intervals until fish stop swimming and fatigue[3,4]. We aimed first to estimate variance components for swimming performance in Nile tilapia expressed as Ucrit and to estimate the genetic correlation between Ucrit and fish size at swim testing early in life. Tested fish were stocked in a non-aerated pond and grown to harvest weight, to determine the genetic correlations between Ucrit early in life and harvest weight (HW) and daily growth coefficient (DGC) later in life
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