The impact of changing
dietary Na/K ratios on growth and nutrient utilisation in juvenile African
catfish, Clarias gariepinus
Yueming
Dersjant-Li, Sheng Wu, M.W.A. Verstegen, J.W. Schrama, J.A.J. Verreth-2001
Aquaculture, 198 (3-4): 293-305
Abstract:
The effects of dietary Na/K ratios on feed intake,
growth, nutrient utilisation, plasma and body mineral concentration in
juvenile African catfish were investigated. Four Na/K ratios, 0.2, 0.7, 1.5,
2.5 (mmol/mmol), were tested in a randomised experimental design with three
replications in each treatment. Juvenile African catfish (n=360) with
a mean initial body weight of 42.9 g were used. The experiment was conducted
in 12 (70 l) aquaria with a biofilter and recirculating water supply system.
Dietary Na/K ratios were obtained by altering levels of Na2CO3
and K2CO3. Feed was provided manually twice a day to
satiation. Feed consumption was not influenced by the mineral composition of
the diets. Growth, protein retention, nitrogen and energy utilisation
efficiency increased quadratically, body dry matter, fat, nitrogen and
energy content increased in a linear or quadratic manner with increasing
dietary Na/K ratio. Feed conversion and percentage of energy retention as
protein decreased in a quadratic manner. Potassium and chloride
concentrations and the ratios between Na/K, Na/Cl and K/Cl in the body
remained constant among treatment groups at the end of a 4-week feeding
period. In conclusion, excess K in the diet depresses growth and nutrient
utilisation efficiency, reduces body fat and protein deposition. The dietary
Na/K ratio of 1.5 to 2.5 produced the best growth of African catfish.
(Fish Culture and Fisheries Group, Wageningen
Institute of Animal
Sciences, Wageningen University, P.O. Box 338, 6700
AH Wageningen, Netherlands, Tel.: +31-317-483-307; fax: +31-317-483-962,
e-mail: Yueming.Li@alg.venv.wau.nl)