Genotype environment interaction in the response of three strains of Nile tilapia to poor nutrition
Share
抄録
Experiments were conducted to determine the effects of poor nutrition on the growth of three Oreochromis niloticus strains fed protein-deficient diets. Four-week-old fry from the three "test" strains were paired with a fourth "reference" strain of tilapia (red) of the same size and stocked in 60-1 aquaria. The treatment lasted 6 weeks, with fish being fed commercial fish feed crumbles for the first and last 2-week periods and rice bran during weeks 3 and 4. Control fish were fed commercial diet throughout. Both control and treatment fish were fed at 20% of fish biomass per day. Lengths and weights were measured every 2 weeks.
Significant strain effects were noted when the growth of test fish over the whole experimental period was analysed by analysis of covariance using the reference fish growth as a concomitant variable. The relative growth of the three test strains differed at each feeding phase. The NIFI strain grew best during the commercial feed phases, the Israel strain performed best during the rice bran phase while the CLSU strain, regardless of the type of nutritional environment, usually ranked last. Different performance rankings at each feeding phase represent strong genotype X environment interaction among these commercially important lines. This was statistically confirmed by analysis of covariance of the growth of the Israel and NIFI strains during the different feeding phases using the reference strain as a covariate.
Suggested Citation
Romana-Eguia, M. R. R., & Doyle, R. W. (1992). Genotype environment interaction in the response of three strains of Nile tilapia to poor nutrition. Aquaculture , 108(1-2), 1-12. https://doi.org/10.1016/0044-8486(92)90314-B
Type
ArticleISSN
0044-8486Collections
- Journal Articles [1267]
Related items
Showing items related by title, author, creator and subject.
-
Formulation of aquafeeds
(Aquaculture Department, Southeast Asian Fisheries Development Center, 2002)The development of a feed that is both effective and economical for an aquaculture species in all its life stages is a continuous effort. Aquafeed development started when natural food sources in culture systems became inadequate and had to be supplemented with prepared feed. As fish stocking densities in culture increase, supplemental feeding is no longer sufficient. A complete feed that contains all the necessary nutrients in sufficient amounts to bring about good growth, survival, and reproduction is needed. Feed ingredients generally come from animal or plant sources and some are by-products of the food industry. There is no single feed ingredient or feedstuff that contains all the nutrients in adequate amounts. Thus, different feed ingredients are combined to make a feed that has the desired composition and nutrient levels. In combining various feed ingredients, it is important to know how much of each feed ingredient should be used to produce a cost-effective aquafeed. With the growth and expansion of aquaculture into a major industry, several fish species are being cultured; thus, the development of more efficient aquafeed formulations should continue. In developing cost-effective formulated diets, many important factors have to be considered. This chapter discusses these factors and the mathematical calculations in formulating a feed. It aims to enable students to formulate diets using purified and practical feed ingredients, and also to formulate effective supplemental and complete diets for aquaculture species. -
A preliminary study on the purified test diet for young milkfish, Chanos chanos
(Aquaculture Department, Southeast Asian Fisheries Development Center, 1976)In studying the nutritional requirements of young milkfish experiments were conducted to develop a purified test diet. Mixtures of the purified constituents tested were: vitamin-free casein, vitamin-free gelatin, supplemented with L-tryptophan and L-cystine as the protein sources; shark liver oil and soybean oil as the far sources; and dextrin as the carbohydrate source. Mineral mixture and vitamin mixture were also added. The results showed that a test diet containing vitamin-free casein supplemented with L-tryptophan as the protein source, was best for the growth of young milkfish. Soybean oil was found to be a better source of fat. Vitamin mixture (4%) and mineral mixture (10%) were observed to promote growth in young milkfish. A purified test diet consisting of vitamin-free casein 60%, L-tryptophan 0.5%, soybean oil 10%, vitamin mixture 4%, mineral mixture 10%, carbohydrate and others 16% was thus suggested for young milkfish. -
Development of immunological indices for monitoring health status in shrimp (Penaeus monodon)
Amar, Edgar C.
; ; (Aquaculture Department, Southeast Asian Fisheries Development Center, 2005-03)
Some hemolymph parameters were determined as non-invasive early-warning indicators of health status in black tiger shrimp (Penaeus monodon). These included total hemocyte count (THC), respiratory burst activity, phenoloxidase activity (PO), plasma total protein, and plasma bactericidal activity. Changes in the above parameters were also determined over a 108 hr duration after exposure to the following treatments: (1) bath administration of an immunostimulant (β-glucan) at a concentration of 0.1 mg/L; (2) intramuscular (IM) injection of 1 × 106 cfu/g Vibrio sp. (PN-9801); and (3) a control (IM injection of phosphate buffered saline). Changes in the above parameters were also monitored for 12 days in shrimps exposed to white spot syndrome virus (WSSV) by IM injection. Results showed that PO activity peaked at 46-98 hr post-exposure and was highest for β-glucan, followed by Vibrio sp. However, observed differences among the treatments were not significant. Peaks in THC responses varied according to the stimuli, ranging between as early as 4 hr in the Vibrio and control, and 48 hr in the β-glucan group. Bactericidal activity of the shrimp plasma exhibited the same pattern as that of THC except that activity peaked at 24 hr for immunostimulated shrimp and at 48 hr for control. Peak inhibition was markedly higher for the Vibrio and β-glucan groups than the control. Respiratory burst activity peaked at 48 hr in all treatments and was highest for bacteria, followed by the control and immunostimulated group. Comparison of histopathological changes of the shrimp lymphoid organ (LO) from the different groups revealed no remarkable changes in the PBS-injected group, which appeared normal up to 48 hr post-exposure. However, degenerative tissue changes occurred progressively in the bacteria-treated group, while some changes resembling that of the bacteria-treated group in shrimp treated with immunostimulant were assumed to be due to enzymatic (PO) reactions. As for WSSV-exposed shrimp, THC, DC, and PO activity showed a sharp decline that are associated with injury and infection. Notwithstanding high variation in individual shrimp responses, the time-course response of shrimp to the variables tested was apparent, which may be useful in detecting differences between different stimuli. As for factors affecting hemocyte responses, THC decreased with decreasing salinity levels and increasing time of exposure to critical dissolved oxygen levels. It also showed an optimum between pH 6.5 and 8, whereas it was fairly constant in shrimps between 3 and 30 g, but increased with bigger-sized (60 g) shrimp. Phenoloxidase activity slightly increased with short exposure to critical DO levels, but decreased with longer exposure time. Salinity had a negative effect on phenoloxidase activity, which decreased as salinity decreased. PO activity had an optimum between pH 6 to 8 while it increased logarithmically with increasing size up to 40 g, after which the increase was asymptotic. In conclusion, the patterns and differences in hemolymph responses among the different groups can be used as indices of certain physiological and pathological conditions in P. monodon. However, since these responses are affected by various factors, assays using these indices as health indicators should be conducted under well-defined conditions.
