I. Csengeri
Fish Culture Research Institute
Szarvas, Hungary
1. INTRODUCTION
2. TABLES AND DIAGRAM USED FOR INTRODUCTION OF LECTURE
3. REFERENCES
An intensive fish culture unit, with its inputs and outputs, can be regarded as a system being supplied with fish - the stocking material - with feed and water and producing fish - the final product - and waste water. Among these inputs and outputs, stocking and harvesting are not discontinued, while feed and water and waste water are continuously supplied to or removed from the system. Such systems are efficient in producing fish when the characteristics of the water and feed, as well as other inputs, are well suited to the biological requirements of the fish. In planning and operating such systems, biological requirements need the greatest attention, although, at the planning stage, economic evaluation of feed sources and that of the final product could be of equal importance.
A short introduction will be given to the following subjects in this review paper; nutritional habit
- environmental effects on the metabolism
- nutritional energetics
- requirement of fish for specific nutrients
- nutritional diseases
- test diets and their application
- evaluation of feedstuffs
- formulation of fish feeds
- nutritional aspects of feed preparation
- feed quality testing
- biotechnological aspects of feeding regimes
Table 1 A classification of fish according to their feeding habit
|
|
particulate feeders |
|
Mode of feeding |
filter feeders |
|
|
(parasitic fish) |
|
|
|
|
|
carnivorous fish |
|
Food quality |
omnivorous fish |
|
|
herbivorous fish |
|
|
|
|
|
continuous feeders |
|
Periodicity of feeding |
discontinuous periodic feeders |
|
|
discontinuous aperiodic feeders |
|
|
|
|
Photoperiod preference |
fish feeding in dark |
|
|
fish feeding in daylight |
Table 2 Temperature Optimum of some Fish Species for Growth
|
Species |
Optimum (°C) |
Reference |
|
Oncorhynchus tshawygscha |
15.5 |
Banks, et al., 1971 |
|
O. nerka |
15 |
Brett, et al., 1969 |
|
O. keta |
13 |
Kepshire, 1971 |
|
Salvelinus fontinalis |
13 |
Baldwin, 1956 |
|
Salmo gairdneri |
17.2 |
Hokanson, et al., 1977 |
|
S. trutta |
12.8 |
Elliott, 1975 |
|
Ictalurus punctatus |
29 |
West, 1965 |
|
Perca fluviatilis |
26 |
Hokanson, et al., 1977 |
|
Stizostedion lucioperca |
28-30 |
Hokanson, et al., 1977 |
|
Micropterus salmoides |
27 |
Nelson, 1974 |
|
Pleuronectes platessa |
14.2 |
Ursin, 1963 |
Table 3 Utilization of Feed Energy
Table 4 Protein and Amino Acid Requirements of Some Fish Species
|
Species |
Rainbow trout |
Chinook salmon |
Common carp |
Japanese eel |
Channel catfish |
|
Protein required (g/kg feed) |
400-460 |
400 |
380 |
445 |
320-360 |
|
Amino acids |
|
Requirement (as percentage of protein) | |||
|
Arginine |
3.5 |
6 |
4.3 |
3.9 |
- |
|
Histidine |
1.6 |
1.8 |
2.1 |
1.9 |
1.5 |
|
Isoleucine |
2.4 |
2.2 |
2.4 |
3.6 |
2.6 |
|
Leucine |
4.4 |
3.9 |
3.4 |
4.1 |
3.5 |
|
Lysine |
5.3 |
5 |
5.8 |
4.8 |
5.1 |
|
Methionine1/ |
1.8 |
4 |
3.1 |
4.5 |
2.3 |
|
Phenylalanine2/ |
3.1 |
5.1 |
6.6 |
- |
5.0 |
|
Threonine |
3.4 |
2.2 |
3.9 |
3.6 |
2.0 |
|
Tryptophan |
0.5 |
0.5 |
0.8 |
1.0 |
0.5 |
|
Valine |
3.1 |
3.2 |
3.7 |
3.6 |
3.0 |
1/ In the absence of cystine
2/ In the absence of tyrosine
Table 5 Vitamin Requirements for Growth of some Salmonids1/
|
Vitamin (mg/kg dry diet) |
Rainbow trout |
Brook trout |
Brown trout |
Atlantic salmon |
Chinook salmon |
Coho salmon |
|
Thiamine |
10-12 |
10-12 |
10-12 |
10-15 |
10-15 |
10-15 |
|
Riboflavin |
20-30 |
20-30 |
20-30 |
5-10 |
20-25 |
20-25 |
|
Pyridoxine |
10-15 |
10-15 |
10-15 |
10-15 |
15-20 |
15-20 |
|
Pantothenate |
40-50 |
40-50 |
40-50 |
* |
40-50 |
40-50 |
|
Niacin |
120-150 |
120-150 |
120-150 |
* |
150-200 |
150-200 |
|
Folacin |
6-10 |
6-10 |
6-10 |
5-10 |
6-10 |
6-10 |
|
Cyanocobalamin |
* |
* |
* |
* |
0.015-0.02 |
0.015-0.02 |
|
myo-Inositol |
200-300 |
* |
* |
* |
300-400 |
300-400 |
|
Choline |
* |
* |
* |
* |
600-800 |
600-800 |
|
Biotin |
1-1.5 |
1-1.5 |
1.5-2 |
- |
1-1.5 |
1-1.5 |
|
Ascorbate |
100-150 |
* |
* |
* |
100-150 |
50-80 |
|
Vitamin A2/ |
2 000- 2 500 I.U. |
* |
* |
- |
* |
* |
|
Vitamin E- |
* |
* |
* |
- |
40-50 |
* |
|
Vitamin K |
* |
* |
* |
- |
* |
* |
1/ Fish fed at reference temperature with diets at about protein requirement
2/ Requirement directly affected by amount and type of unsaturated fat fed
* Denotes a requirement, the level of which has not been established(Adapted from: J.E. Halver. In Fish Nutrition, 1972, 39 p; NAS/NRC, 1973;1977)
Table 6 Vitamin Deficiency Symptoms in Fish
|
Vitamin |
Deficiency Symptoms |
|
Thiamine |
convulsions, neuritis, poor appetite |
|
Riboflavin |
cataracts, anaemia, dark colouration, photophobia, poor appetite |
|
Niacin |
swollen gills, intestinal lesions, poor coordination, flexing of opercles |
|
Pantothenic acid |
clubbed gills, anaemia, gill exudate, sluggish behaviour, prostration |
|
Pyridoxine |
anaemia, hyperirritability, erratic swimming |
|
Cobalamin |
anaemia, fragmented and immature erythrocytes |
|
Folic acid |
anaemia, fragility of caudal fin, lethargy, pale gills, dark colouration |
|
Biotin |
anorexia, pale gills, high glycogen in liver, colonic lesions |
|
Ascorbic acid |
spinal deformities, anaemia, lethargy, prostration, eye lesions |
|
Inositol |
anorexia, poor feed efficiency, skin lesions |
|
Choline |
haemorrhages, fatty livers, colonic lesions, poor feed efficiency |
|
Vitamin A |
cataracts, photophobia, anaemia, poor vision |
|
Vitamin D |
lethargy, increased lipid content of liver and muscle |
|
Vitamin K |
haemorrhages, pale gills, increased pro-thrombin time |
|
Vitamin E |
anaemia, exudative diathesis, dermal depigmentation |
Table 7 Test Diet H440 Western Fish Nutrition Laboratory
|
Ingredient |
Parts |
|
Vitamin-free casein (g) |
38 |
|
White dextrin (g) |
28 |
|
Gelatin (g) |
12 |
|
Premix No. 1 (vitamin) (g) |
9 |
|
Premix No. 4 (oil) (g) |
9 |
|
Premix No. 5 (mineral) (g) |
4 |
|
Total |
100 |
|
Water (ml) |
200 |
|
PREMIX NO. 1 (VITAMIN) | |
|
a-Cellulose (g) |
8.000 |
|
Choline chloride (g) |
0.500 |
|
Inositol (g) |
0.200 |
|
Ascorbic acid (g) |
0.100 |
|
Niacin (g) |
0.075 |
|
Ca-pantothenate (g) |
0.050 |
|
Riboflavin (g) |
0.020 |
|
Menadione (g) |
0.004 |
|
Pyridoxine HCl (g) |
0.005 |
|
Thiamine HCl (g) |
0.005 |
|
Folic acid (g) |
0.0015 |
|
Biotin (g) |
0.0005 |
|
Premix No. 2 (ml) |
0.5 |
|
PREMIX NO. 2 |
|
|
Vitamin B12 |
10 mg/500 ml water |
|
PREMIX NO. 4 (OIL) |
|
|
Corn oil (Mazola brand) |
6.0 |
|
Cod liver oil |
3.0 |
|
dl-a -tocopherol acetate |
0.040 |
|
PREMIX NO. 5 (MINERAL) (g) |
|
|
Salt mixture No. 2 |
100.0 |
|
AlCl.3 · 6H20 |
0.015 |
|
KI |
0.015 |
|
CuCl |
0.010 |
|
MnSO4 · H20 |
0.080 |
|
CoCl · 6H2O |
0.100 |
|
ZnS04 · 7H20 |
0.300 |
|
SALT MIXTURE NO. 2 (g) |
|
|
Calcium biphosphate |
13.58 |
|
Calcium lactate |
32.70 |
|
Ferric citrate |
2.97 |
|
Magnesium sulphate |
13.20 |
|
Potassium phosphate (dibasic) |
23.98 |
|
Sodium biphosphate |
8.72 |
|
Sodium chloride |
4.35 |
|
Total |
100.00 |
Mixing instructions:
Premix No. 1 -
Blend all ingredients in shell blender and store in refrigerator.
Premix No. 5 -
Blend all ingredients in ball mill.
Diet H440 -
1. Put water and gelatin in mixing bowl from an electric kitchen mixer.
2. Heat on a double boiler unit until gelatin dissolves, using small stirrer for circulation.
3. Remove from heat, add dextrin and minerals, place in mixer, and stir until mixture is lukewarm.
4. Add casein and oils; continue stirring until cool.
5. Add vitamins, blend well, pour into container, and store in refrigerator.
Another method -
1. Blend all dry ingredients with oils for 5 minutes.
2. Add 75°C water; stir until cool (room temperature).
3. Pour into Teflon-coated pan and place in refrigerator to gel.
4. Store in plastic bags in refrigerator or freezer.
Figure 1. Effect of ration level on feed efficiencies
DIFFERENT FORMULATIONS FOR MEASURING FEED EFFICIENCY AND GROWTH RATE
Apparent digestibility:
|
for the whole diet |
|
|
for one nutrient |
|
where
|
I = feed intake |
xi,d = concentration of ingredients in diet |
|
F = faeces |
xi,f = concentration of ingredients in diet |
|
IN = nutrient intake |
xN,d = concentration of nutrient in diet |
|
FN = nutrient in faeces |
xN,f = concentration of nutrient in faeces |
where
B = final body protein
B0 = initial body protein
I = protein intake
Growth efficiency
|
|
|
where
G = growth in kJ/day
I = food ration in kJ/day
M = maintenance ration in kJ/day
Growth rates (m, a, g)
|
|
|
|
|
|
|
|
where W0 = the initial, Wt = the final weight, t = time of feeding
Andrews, J.W. and R.P. Stickney, 1972, Interactions of feeding rates and environmental temperature on growth, food conversion and body composition of channel catfish. Trans. Am. Fish. Soc., 101:94-9
Baldwin N.S. 1956, Food consumption and growth of brrok trout at different temperatures. Trans. Am. Fish. Soc., 86:
Banks, J.L., L.G. Fowler and J.W. Elliott, 1971, Effects of rearing temperature on growth, body form and hematology of fall chinook salmon fingerlings. Prog. Fish-Cult., 33:20-6
Braaten, B.R., 1979, Bioenergetics - a review on methodology. Schr. Bundesforschungsanst. Fish. Hamb., (14/l5) Vol.2 :461-504
Brett, J.R., J.E. Shelbourn and C.T. Shoop, 1969, Growth rate and body composition of fingerling sockeye salmon, Oncorhynchus nerka, in relation to temperature and ration size. J. Fish. Res. Board Can., 26 (10):2363-94
Brett, J.R. and T.D.D. Groves, 1979, Physiological energetics In Fish physiology, Vol. 8. Bioenergetics and growth, edited by W.S. Hoar, D.J. Randall and J.R. Brett. New York, Academic Press, 279-352
DeLong, D.C., J.E. Halver and E.T. Mertz, 1958, Nutrition of salmonid fishes. 6. Protein requirements of chinook salmon at two water temperatures. J. Nutr., 65:589-99
Elliott, J.M., 1975, The growth rate of brown trout, Salmo trutta L. fed on maximum rations. J. Anim. Ecol., 44:805-21
Fischer, Z., 1979, Selected problems of fish bioenergetics. Schr. Bundesforschungsanat. Fisch. Hamb., (14/l5) Vol. 1:17-44
Garling, D.L. and R.P. Wilson, 1976, Optimum dietary protein energy ratio for channel catfish fingerlings (Ictalurus punctatus). J. Nutr., 106:1368-75
Harder, W., 1975, Anatomy of fishes. Stuttgard, Schweizerbartische Verlagsbuckhandlung (Nägele und Obermuller), Part 1:612 p.. Part 2:132 p.
Hokanson, K.E.F., 1977, Temperature requirements of some percids and adaptations to the seasonal temperature cycle. J. Fish. Res. Board Can., 34(10):1524-50
Hokanson, K.E.F., C.F. Kleiner and T.W. Thorslund, 1977, Effects of constant temperatures and dial temperature fluctuations on specific growth and mortality rates and yield of juvenile rainbow trout, Salmo gairdneri, J. Fish. Res. Board Can., 34(5):
Halver, J.E., 1972, The vitamins. In Fish nutrition, edited by J.E. Halver. New York, Academic Press, pp. 29-103
Halver, J.E., 1980, The vitamins. In Fish feed technology. Rome, FAO/UNDP, Aquaculture Development and Coordination Programme, ADCP/REP/80/l1:65-108
Kepshire, B.M. Jr., 1971, Growth of pink, chum and fall chinook salmon in heated seawater. Proc. Annu. NW. Fish-Cult. Conf., 22:25-6
Mertz, E.T., 1972, The protein and amino acid needs. Jn Fish nutrition, edited by J.E. Halver, New York, Academic Press, pp. 106-143
Nelson, D.J., 1974, Temperature effects on growth of largemouth bass (Micropterus salmoides). Oak Ridge, Tennessee, Oak Ridge National Laboratory, Environmental Science Division
NRC/NAS 1973, (National Research Council/National Academy of Science), Nutrient requirements of trout, salmon and catfish. Nutrient requirements of domestic animals Bull. Natl. Res. Counc., Wash., (11):57 p.
NRC/NAS 1977, Nutrient requirements of domestic animals, water fishes. Nutrient requirements of domestic animals. Bull. Natl. Res. Counc., Wash., (12):58 p.
Nose, T. and S. Aral, 1972, Optimal level of protein in purified diet for eel, Anguilla japonica. Bull. Freshwat. Fish. Res. Lab. Tokyo, (13):41-50
Ogino, C., 1980, Requirements of carp and rainbow trout for essential amino acids. Bull. Japan. Soc. Sci. Fish., 46:171-4
Ogino, C. and K. Saito, 1970, Protein nutrition in fish. 1. The utilization of dietary protein by young carp. Bull. Japan. Soc. Sci. Fish. 36:250-4
Satia, B.P., 1974, Quantitative protein requirements of rainbow trout. Prog. Fish-Cult., 36: 80-5
Smith, R.R., 1980, Nutritional bioenergetics. In Fish feed technology. Rome, FAO/UNDP, Aquaculture Development and Coordination Programme, ADCP/REP/80/l1:21-7
Ursin, E., 1963, On the incorporation of temperature in the von Bertalanffy growth expression. Medd. Dan. Fisk.-og Havunders.. C4):1-16
Wilson, R.P. Poe and E.H. Robinson, 1980, Leucine, isoleucine, valine and histidine requirements of fingerling channel catfish. J. Nutr., 110:627-3J
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