Effects of substituting dolichos bean meal with soya bean meal on the performance of broiler chicken
S.V. Sarwatt, A.M.Katule and
A.J.H. Lugendo
Department of Animal Science and Production,
Sokoine University of Agriculture, P.O.Box 3004, Chuo Kikuu,
Morogoro, TANZANIA
Summary
Two hundred Cobb broiler chicken one day-old were randomly
allocated to five rations containing levels of dolichos beans (Lablab
purpureus) meal at 0, 5, 15, 20 and 25 percent and soya bean
(Glycine max) meal at 25, 20, 10, 5 and 0 percent. Feed
intake, feed utilization efficiency, growth and mortality rates
were determined from 2 to 8 weeks at which time the birds were
slaughtered, and dressing percentages and organ weights were
determined.
As the level of dolichos bean meal increased there was a
decrease in crude protein and an increase in crude fibre in the
diets, but the changes were not significant (P > 0.05). Weight
gain was highest (28.6 g/day) for the ration containing 25
percent soya bean meal and lowest (26.6 g/day) for the diet
containing 25 percent dolichos bean meal. Feed intake was highest
for the ration containing 25 percent dolichos bean meal but there
was no significant difference (P > 0.05) between the
treatments. Although the mortality rate was highest (16%) in the
diet containing 25 percent dolichos bean meal, the beans were
well accepted by the birds, and the protein appeared to be well
utilised, with a feed:gain ratio of 3.02. This value was only
slightly poorer (P > 0.05) than that recorded for the diet
containing 25 percent soya bean meal (2.78).
KEY WORDS: Broilers, dolichos, Lablab purpureus, soybean
meal, growth
Introduction
The role of legumes, both as forage and seeds, as protein
supplements in livestock feeding has been well reviewed by
Tothill (1986). A number of legumes are now available for use in
the tropical and sub-tropical areas. However, so far the research
has concentrated mainly on improved exotic species while the
abundant indigenous legumes species remain underexplored.
One such legume which is widely grown in Africa is dolichos
bean (Lablab purpureus) locally named "fiwi" in
Tanzania. The bean can be used as seeds for human and livestock
consumption (Pulsegrave 1968; Skerman 1977) and as forage for
livestock (Henderiksen and Myles 1980; Kiflewahid 1986). In
Tanzania the dolichos bean is 60-70 percent cheaper than soya
bean. Although the bean is used for human consumption it is not
well liked. Thus the bean is readily available for incorporation
in livestock diets.
Unfortunately there have been only limited studies on the use
of seeds as livestock feed. Therefore the objective of the
present study was to determine the nutritive value of dolichos
bean when substituted for soya bean in broiler chicken rations.
Materials and methods
Ration preparation
Five diets containing various levels of dolichos bean meal
were prepared (Table 1). The diets were formulated to be
iso-nitrogenous and iso-caloric at about 18% crude protein and
2800 kcal ME/kg of diet. Maize meal and maize bran were the main
energy sources, while the protein sources were dolichos bean
meal, soya bean meal and fish meal.
| Table 1: Ingredient
and chemical composition (%) of diets containing dolichos
and soya bean meals |
 |
| Ingredients |
C
|
D5
|
D15
|
D20
|
D25
|
|
| Maize meal |
48.0
|
53.2
|
52.7
|
49.6
|
49.4
|
| Maize bran |
12.9
|
4.8
|
2.7
|
5.4
|
2.6
|
| Cotton seed
cake |
9.2
|
11.6
|
8.7
|
13.1
|
15.6
|
| Soya bean
meal |
25
|
20
|
15
|
5
|
0.0
|
| Dolichos bean
meal |
0.0
|
5
|
15
|
20
|
25
|
| Fish meal |
2.5
|
3.0
|
3.5
|
4.5
|
5.0
|
| Limestone |
2.0
|
2.0
|
2.0
|
2.0
|
2.0
|
| Vitamin trace
mineral premix |
0.1
|
0.1
|
0.1
|
0.1
|
0.1
|
| Salt |
0.3
|
0.3
|
0.3
|
0.3
|
0.3
|
| |
|
|
|
|
|
| Nutrient
content (% DM): |
|
|
|
|
|
| Dry matter |
92.6
|
93.7
|
92.6
|
93.8
|
92.4
|
| Crude protein |
18.9
|
18.7
|
18.5
|
18.3
|
18.2
|
| Crude fibre |
7.2
|
7.5
|
7.6
|
7.8
|
7.9
|
| Ether extract |
5.9
|
5.6
|
5.5
|
5.4
|
5.3
|
| Ash |
6.3
|
5.9
|
5.8
|
6.2
|
6.0
|
| Calcium * |
1.56
|
1.57
|
1.59
|
1.59
|
1.60
|
| Phosphorus *
(available) |
0.63
|
0.65
|
0.66
|
0.65
|
0.67
|
| Methionine* |
0.62
|
0.61
|
0.61
|
0.61
|
0.60
|
|
The vitamin - trace mineral mix supplied per kg of diet:
Vitamin A, 10,000 IU; D3, 2,000 IU; E, 5 IU; K, 2.24 mg,
riboflavin, 55 mg; pantothenic acid, 10 mg; nicotinic acid, 25
mg; choline, 350 mg; folic acid, 1 mg; methionine, 450 mg; Mn 56
mg; I, 1 mg; Fe, 20 mg; Cu 10 mg; An, 50 mg; Co, 1.25 mg.
* Calculated
The dolichos beans and soya beans were locally purchased and
processed to remove trypsin inhibitors by the following method.
The beans were cracked into two halves in a grain mill and
submerged in cold water for 20 h with occasional stiring. The
water was subsequently decanted, fresh water added and the
mixture was brought to boiling point at 100șC for 30 minute. The
beans were sifted from the water, allowed to cool, sundried and
ground to pass through a 1 mm sieve. Representative samples were
taken and stored at -20șC for future analysis.
The birds
Two hundred Cobb broiler chicken one day old were wing-banded
and randomly distributed into 5 groups of 40 birds which were
placed in 2 replicates of 20 birds each. The birds received the
full complement of routine vaccinations and were fed and watered
ad libitum. They were weighed initially and every two weeks, at
which times representative samples of the diets were taken and
stored at -20șC Weekly feed intakes and mortality were recorded.
At the end of the trial, the birds were weighed and ten from each
replicate were randomly selected, killed and dressed. Dressing
consisted of evisceration, with only the kidney and lungs left in
the carcass. The shanks were removed at the tibia-tarsal joint,
and the head cut off at the first cervical vertebrate joint. The
carcass weight as well as weight of the pancreas, spleen, liver
and heart were recorded.
Measurements
Feed intake, feed utilization efficiency, growth and mortality
rates were determined from 2 to 8 weeks at which time the birds
were slaughtered, and dressing percentages and organ weights were
determined.
Chemical analyses
The samples of the experimental diets were composited,
sub-sampled and together with the sub-samples of processed beans
were analyzed for dry matter, crude protein, ether extract and
ash according to the AOAC (1980) procedures.
Statistical analysis
The data were analyzed as a completely randomized design using
the replicate of 20 birds as the experimental unit. Turkey's
procedure was used to separate means differing significantly, as
outlined by Steel and Torrie (1960).
Results and discussion
The chemical composition of the main ingredients used to
compound the experimental rations are shown in Table 2. The
results show that the crude protein content in soya bean is 12
percent units higher than that in dolichos beans. The dolichos
beans had more than twice the content of crude fibre than soya
bean. Ether extract is also much higher in soya bean than in
dolichos beans. The differences in the chemical composition
between dolichos and soya beans are also reflected in the
chemical composition of the ration containing different
proportions of the two types of beans (Table 1). The results in
Table 1 show that whereas the dry matter and ash contents of the
rations did not seem to be much influenced by the levels of
substitution of dolichos beans for soya beans, the crude protein
content in the diets was observed to decrease as the levels of
inclusion of dolichos beans increased. The same trend was
observed, though to a less pronounced extent, with respect to the
ether extract content of the rations. Crude fibre increased with
increasing level of dolichos bean meal in the rations, but the
increase among rations with respect to this component was very
small.
| Table 2: Chemical
composition of the main ration ingredients |
|
| |
Dry matter
|
Crude protein
|
Crude fibre
|
Ether extract
|
Ash
|
Nitrogen free-extractives
|
|
| Maize meal |
90.0
|
9.1
|
2.4
|
3.3
|
1.7
|
73.4
|
| Maize bran |
91.6
|
10.2
|
5.9
|
11.6
|
4.2
|
59.6
|
| Cotton seed
cake |
95.6
|
33.9
|
13.3
|
4.6
|
6.3
|
50.2
|
| Soya bean |
95.0
|
34.7
|
4.0
|
13.2
|
4.6
|
38.5
|
| Dolichos
beans |
91.2
|
22.7
|
9.9
|
2.3
|
4.5
|
51.8
|
| Fish meal |
98.4
|
47.6
|
1.5
|
10.9
|
23.4
|
15.0
|
|
| Table 3: Performance
of broilers fed on the experimental diets |
|
| Ration |
Weight gain (g/day)
|
Feed intake (g/day)
|
Feed/gain
|
Dressing
|
|
| C |
28.6
|
77.8
|
2.78
|
70.5
|
| D5 |
27.5
|
75.9
|
2.76
|
68.3
|
| D15 |
26.8
|
76.9
|
2.87
|
67.5
|
| D20 |
27.4
|
75.9
|
2.77
|
66.7
|
| D25 |
26.6
|
80.3
|
3.02
|
66.1
|
| |
|
|
|
|
| SE* |
±1.17
|
±0.93
|
±0.13
|
±1.3
|
|
* Standard error, n = 10 observations per mean
The performance data of the birds are summarized in Table 3.
Feed intake, weight gains and efficiency of feed utilization were
not significantly different (P > 0.05) among the treatments.
This suggests that the diets containing dolichos beans were well
accepted by the birds. Therefore dolichos beans can partially or
completely replace soya bean which is three times more expensive.
Smith et al (1984) have reported total replacement of soya
bean by use of winged bean (Phosphocarpus tetragonolobus).
The relative organ weights and mortality of the experimental
birds has been summarised in Table 4. The organ weights were
observed to increase with the increasing level of dolichos bean
in the diet. However the increase in organ weights were very
small and insignificant (P>0.05) between treatments. Organ
weights particularly the pancreas and the spleen, are used as an
index of the effectiveness of the processing method to destroy
trypsin inhibitors (Smith et al 1984). Castillo et al
(1980) suggested that soaking of the beans in water for at least
10 hours, followed by boiling for 30 minutes, completely destroys
any trypsin activity present in the beans.
| Table 4: Relative
organ weights and mortality of broilers fed on the
experimental diets |
|
| Ration |
Pancreas
|
Liver
|
Heart
|
Spleen
|
Mortality (%)
|
| |
------ (% of carcass
weight) -------
|
|
|
| C |
0.24
|
2.85
|
0.51
|
0.13
|
-
|
| D5 |
0.25
|
2.91
|
0.53
|
0.14
|
1
|
| D15 |
0.26
|
2.93
|
0.55
|
0.15
|
3
|
| D20 |
0.26
|
2.97
|
0.60
|
0.16
|
5
|
| D25 |
0.27
|
3.21
|
0.62
|
0.19
|
16
|
| |
|
|
|
|
|
| SE |
±0.02
|
±0.18
|
±0.03
|
±0.02
|
-
|
|
* SE= standard error, n = 20 observations per mean.
Unfortunately heat-labile trypsin inhibitors are not the only
toxic factors in the beans. Other factors identified include
haemagglutonating activity, cyanide production, amylase
inhibition, and urease activity (Ekpenyong and Borchers 1981).
Perhaps some of these factors were not completely inactivated by
the processing method and were responsible for the high mortality
rate observed in the birds fed the diet containing 25 percent
dolichos bean meal.
In conclusion, the dolichos bean, when properly processed to
destroy trypsin inhibitors and other toxic factors can be used to
partially or completely replace soya bean. Dolichos bean is
locally grown and has a low acceptance in human nutrition. Hence
it is readily available for incorporation in livestock diets.
Acknowledgements
This study was partly funded by the Morogoro Regional
Cooperative Union (MRCU, 1984) and the Swedish Cooperative Union
(Lantmannen).
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