Citation of this paper |
Four local castrated male pigs of 12.5 to 18.5 kg were used to study the effect of stylosanthes leaves and cassava leaves fed alone or as mixtures on the intake, nutrient digestibility and N balance on a basal diet of broken rice. The broken rice was fed at the rate of 2.5% (DM basis) of live weight. The leaves were fed ad libitum.
Feed DM intake was higher when cassava leaves were fed alone or mixed with stylo as compared with stylo as the only supplement. There were no differences among treatments in digestibility of dry matter and N. There appeared to a curvilinear relationship between daily N retention and the proportion of cassava leaves in the foliage.
It was concluded that fresh cassava leaves can safely be fed to growing pigs and will support better performance than use of stylosanthes foliage when the basal diet is broken rice.
Key words: broken rice, cassava, digestibility, intake, leaves, pigs, stylosanthes
There is presently much interest in tropical countries in the use of cassava leaves as a replacement for soya bean meal and fish meal in pig diets (Preston 2001). In the earky experiments the leaves were either dried or ensiled (Bui Huy Nhu Phuc et al 1996), to avoid potential toxicity problems due to the cyanogenic glucosides in the fresh cassava leaves (Tewe 1991). More recently, fresh cassava leaves were successfully fed at 25% of the diet DM, as the only supplement to broken rice, but overall dietary intakes were rather low (Nguyen Duy Quynh Tram 2003). Fresh stylo foliage (Stylo CIAT 184) has also been used as a protein supplement for local pigs and increased the growth rates when added to a basal diet of maize and rice bran (Chanphone Keoboualapheth and Choke Mikled 2003).
As both cassava and stylosanthes are widely grown in Lao, it was hypothesized that mixtures of fresh cassava leaves and stylo would support higher intakes of DM and better performance in local pigs than either forage fed alone as the only supplement to broken rice.
The experiment was conducted at the Livestock Research Center of the National Agriculture and Forestry Institute (NAFRI), Namxuang about 44 km from Vientiane city, Lao PDR from 3 November to 21 December 2003.
There were four treatments:
The experimental design was a Latin square 4*4 arrangement with 4 pigs and 4 periods.
Table 1: Layout of the experiment |
||||
period/pig |
Pig 1 |
Pig 2 |
Pig 3 |
Pig 4 |
1 |
CA |
CAST |
STCA |
ST |
2 |
CAST |
STCA |
ST |
CA |
3 |
STCA |
ST |
CA |
CAST |
4 |
ST |
CA |
CAST |
STCA |
Four local pigs with live weight from 12.5 to 18.5 kg were used in the experiment. The pigs were housed in bamboo metabolism cages that allow the separate collection of urine and faeces (Photo1). The size of the metabolism cage was 0.8m x 0.8m (Chhay Ty et al 2003a). The experimental periods were each of 14 days: 9 days for adaptation period to allow the pigs to become familiarized with the new diet and a five-day period for collection of faeces and urine.
Photo 1: Metabolism cage made from bamboo for digestibility and N retention studies
Broken rice was fed at the rate of 2.5% (DM basis) of live weight. The cassava leaves were harvested from 5 month-old plants grown in plots at the Livestock Research Center. The leaves were separated from the petioles and stems, chopped to about 2 to 3cm length and offered immediately to the pigs. Small amounts of sugar (<5 g) were applied to the cassava leaves to improve palatability. The stylo was of unknown age when harvested. The leaves were stripped from the stems and fed immediately.
Urine and faeces of each pig were collected separately and weighed daily every morning and stored at -20 0C. Urine was collected in a bucket via a plastic sheet and funnel placed below the cage. To prevent nitrogen losses by evaporation of ammonia, the pH was kept below pH 4 by collecting the urine in 10ml of 10% sulphuric acid. The urine and faeces from each animal were collected for five days and at the end of the period, the faeces were mixed, ground and representative sample taken for analysis. Dry matter of feed offered and refused and DM in faeces were done by microwave radiation (Undersander et al 1993). Nitrogen in faeces and nitrogen in urine, and in feeds offered and refused, were determined according to the Kjeldahl method (AOAC 1990).
The data were analysed using the GLM option of the Minitab (version 13.31) ANOVA software. Sources of variation were source of leaves, periods, pigs and error.
The N content of cassava leaves in this experiment (Table 2) was higher than in the reports of Nguyen Duy Quynh Tram (2003) and Eggum (1970). The values for stylo leaves were higher than those reported by Chanphone Keoboualapheth and Choke Mikled (2003).
Table 2: Chemical characteristics of the ingredients of the diets (% dry basis except for DM which is on fresh basis; HCN is in mg/kg DM) |
|||
|
Cassava leaves |
Stylosanthes leaves |
Broken rice |
Dry matter |
26.8 - 32.7 |
27.2 - 35.2 |
84.1 - 90.0 |
N |
4.33 - 5.53 |
3.18 - 4.08 |
1.33 |
Crude protein |
27.1 - 34.6 |
19.9 - 25.5 |
8.31 |
HCN |
230 |
- |
- |
All the broken rice was consumed. Total feed DM intake was higher when cassava leaves were fed alone or mixed with stylo as compared with stylo as the only supplement (Table 3 and Figure 1). In this study the intake of cassava leaves was higher (159 g DM/day) than in the report of Nguyen Duy Quynh Tram (2003) where the intake was only 58g DM/day. The reason may be that in the study of Nguyen Duy Quynh Tram (2003), the leaves were collected from mature cassava plants (about 9 months old) from commercial farms, whereas in the present experiment the cassava plants were only 5 months old. In an earlier paper with pigs fed broken rice (Chhay Ty et al 2003), it was shown that the intakes and the digestibility of the dry matter were higher when the supplement was ensiled young compared with ensiled old cassava leaves. The low intake of stylo when it was the only forage supplement is similar to what was reported by Chanphone Keoboualapheth and Choke Mikled (2003) who fed stylo foliage as a supplement to rice bran. The dry matter intake as percentage of body weight was higher (3.11) for the CA100 diet compared with the report of Nguyen Duy Quynh Tram (2003) (2.6% body weight). This reflected the differences in intake of the cassava leaves in the two experiments. There were no differences in intake of crude protein among the four diets.
Table 3: Mean value for feed intake of pigs fed cassava leaves, stylosanthes leaves and broken rice |
||||||
|
CA100 |
ST100 |
CA65ST35 |
ST65CA35 |
SEM |
Prob. |
Intake, g fresh/day |
|
|
|
|
||
Broken rice |
475 |
478 |
499 |
488 |
2.66 |
0.001 |
Cassava leaves |
556 |
0 |
335 |
192 |
13.06 |
0.001 |
Stylo leaves |
0 |
391 |
164 |
347 |
10.57 |
0.001 |
Total fresh |
1031 |
869 |
998 |
1027 |
17.21 |
0.001 |
Intake, g DM/day |
|
|
|
|
||
399 |
402 |
420 |
411 |
2.23 |
0.001 |
|
Cassava leaves |
159 |
0 |
96.4 |
55.7 |
5.28 |
0.001 |
Stylo leaves |
0 |
103 |
43.7 |
99.3 |
3.35 |
0.001 |
Total DM, foliages |
159 |
103 |
140 |
154 |
6.34 |
0.001 |
Total DM |
558a |
505b |
560a |
565a |
6.82 |
0.001 |
DM, % BW |
3.11a |
2.83b |
3.03a |
3.08a |
0.03 |
0.001 |
N*6.25, g/day |
63.9 |
62.6 |
78.9 |
85.8 |
13.6 |
0.62 |
ab Means within rows without letter in common are different at P<0.05 |
Figure 1: Dry matter intake of broken rice, stylosanthes and fresh cassava leaves
There were no differences among treatments in digestibility of dry matter and N (Table 4). The values were lower than those reported by Nguyen Duy Quynh Tram (2003) (89.1 and 73.9%, respectively for DM and N), probably because there was a higher proportion of broken rice in the diet in the latter experiment and broken rice can be expected to have a higher DM and N digestibility than cassava leaves.
Table 4: Digestibility coefficients for pigs fed fresh cassava leaves, stylosanthes leaves and broken rice |
||||||
|
CA100 |
ST100 |
CA56ST35 |
ST65CA35 |
SEM |
Prob. |
DM |
83.7 |
86.4 |
82.6 |
84.7 |
0.90 |
0.19 |
N |
65.1 |
60.3 |
78.6 |
72.0 |
5.45 |
0.28 |
N intakes were similar on the 4 diets; however, although the differences among diets were not significant (Table 5), there was a curvilinear relationship between daily N retention and the proportion of cassava leaves in the foliage (Figure 2). The values for N retention, N retention as percentage of intake and N retention as percentage of N digested on the 100% cassava leaf supplement, were all higher that was reported by Nguyen Duy Quynh Tram (2003) for similar diets but with "older" cassava leaves.
Table 5: Nitrogen retention of pigs fed cassava leaves, stylosanthes and broken rice |
||||||
|
CA100 |
ST100 |
CA56ST35 |
ST65CA35 |
SEM |
Prob. |
N balance, g/day |
|
|
|
|
|
|
Intake |
10.2 |
10.0 |
12.6 |
13.7 |
2.17 |
0.62 |
Digested |
6.67 |
5.76 |
10.36 |
9.68 |
1.69 |
0.33 |
Retention |
6.14 |
2.27 |
5.16 |
4.62 |
0.20 |
0.12 |
Retention as % of |
|
|
|
|
|
|
Intake |
45.2 |
26.3 |
38.3 |
36.2 |
0.63 |
0.06 |
Digested |
71.9 |
42.3 |
55.6 |
51.5 |
4.2 |
0.25 |
Figure 2: N retention increases with proportion of cassava leaves in the foliage
supplement
The authors would like to thank SIDA-SAREC for funding this experiment through the MEKARN regional project, and staff of the Livestock Research Center, NAFRI, for their cooperation.
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Received 8 February 2004; Accepted 6 March 2004