Ensiled cassava leaves and duckweed as protein sources for fattening pigs on farms in Central Vietnam
Du Thanh Hang
College of Agriculture and Forestry, Hue University, Vietnam
Abstract
Forty-four crossbred pigs (mainly Large White x Mong Cai) about 3 months old
and 23-25 kg initial weight were allocated among two groups of
families (4 pigs/household) to compare effects of supplementing the traditional
diet with either ensiled cassava leaves or fresh duckweed. In six farm
households (trial 1) the comparisons (two pigs per treatment) were:
ensiled cassava root, brewery by-product (brewers' grains), rice bran and sweet
potato vines (control) or the same as the control but with ensiled cassava
leaves replacing the sweet potato vines. The cassava leaves were ensiled with 5
% molasses and stored 21 days before feeding. The cassava roots were ensiled
with 0.5% common salt and stored 21 days before feeding. In five farm households
(trial 2) the comparisons (two pigs per treatment) were the same as for the
trial with ensiled cassava leaves except that fresh duckweed replaced the
ensiled cassava leaves. The duckweed (Lemna minor) was grown in
artificial ponds lined with polyethylene sheets on one farm and in natural ponds
in the others. The ponds were fertilized with manure from buffaloes and
pigs. The duckweed was harvested daily and fed immediately after
harvesting.
In five out of six farms in the first trial, pigs fed ensiled cassava leaves
grew faster than the controls receiving sweet potato tops, but the overall
difference was not significant. On all five of the farms in the second trial,
the pigs supplemented with fresh duckweed consumed more dry matter and grew 35%
faster (P=0.001). It is concluded that in pig fattening diets based on
ensiled cassava root, rice bran and brewers' grains: ensiled cassava leaves can
replace sweet potato vines with no effect on growth or carcass traits; and that
fresh duckweed (providing 5% of the diet dry matter) has a stimulating effect on
liveweight gain which may be partially explained by the additional
intake of protein, although other factors are likely to be involved.
Key words; Pigs, fattening, on-farm, cassava, ensiled cassava leaves,
duckweed
Introduction
In Central Vietnam, pig production plays an important role in the farming
activities especially for small-holders. The pigs provide manure, meat and
income. In recent years, the income from pig raising is very low and in some
cases is negative because the pigs grow slowly and the costof feeds is
expensive. The main cause is the imbalance in the nutrients in the ration
particularly the energy and protein ratio. The main energy sources are cassava,
cassava-by products, rice bran, maize and sweet potato. Those feeds have a low
protein content. The conventional protein sources such as fish meal, soya bean
meal and groundnut cake are not used by the farmers because they are too
expensive and the farmers do not have enough money to buy them. Thus there is a
need to identify and promote other protein sources especially those that can be
produced on the farm.
Many researchers have shown that the leaves from different plants can be used
as protein sources in pig feeding at the small scale level of production. Bui
Van Chinh et al (1993) showed that ensiled soya bean foliage can replace 20-37 %
of the protein in the ration without affecting the performance of the pigs.
According to Perez (1996), the fresh foliage from immature soya bean, planted at
weekly intervals and harvested when the grain isat the milk stage, has
considerable potential as a protein source in the tropics that can be available
in the wet season, and even year round if irrigation is available.
According to Montaldo (1977), cassava plants can withstand defoliation
for several years if they receive adequate fertilization and irrigation, and
under such management have the potential to produce up to 4 tonnes of protein
per hectare, annually. Ensiling of cassava leaves is an appropriate way to
conserve them (Limon 1992; Bui Van Chinh et al 1992; Du Thanh Hang 1998). It has
been shown that the ensiled leaves can provide all the protein in a diet of
sugar cane juice for native Mong Cai pigs (Du Thanh Hang et al 1997) and up to
50% of the protein in diets based on ensiled cassava roots (Du Thanh Hang 1998).
Another plant protein source with high potential is duckweed (Rodriguez and
Preston 1996; Nguyen Duc Anh et al 1997; Le Ha Chau 1998). The protein is more
digestible than in cassava leaves (Nguyen Van Lai and Rodriguez 1998) and with
appropriate fertilization of the pond water the protein content can be as high
as 35-40% in the dry matter (Leng et al 1995; Rodriguez and Preston 1996; Nguyen
Duc Anh et al 1997; Le Ha Chau 1998). The balance of essential amino acids in
duckweed is considered to be comparable to that in soya bean meal (Muztar et al
1976; Rusoff et al 1980). As with ensiled cassava leaves, pigs have been
fed with duckweed as the only source of supplementary protein in diets of: sugar
cane juice (Du Thanh Hang et al 1997; Nguyen Van Lai and Rodriguez 1998);
ensiled cassava roots (Nguyen Van Lai and Rodriguez 1998); and mixtures of
ensiled cassava roots and rice bran (Nguyen Van Lai 1998). Up to the present,
most of the work with duckweed supplementation of pig diets has been done
on-station. The trial of Nguyen Van Lai (1998) was done on-farm but with very
young pigs (weight range 5 to 20 kg). There appear to be no reports on the use
of duckweed with fattening pigs under farm conditions.
Objective
The aim of this study was to evaluate ensiled cassava leaves and duckweed as
protein supplements in diets for growing-fattening pigs fed on local resources
at small-holder farm level.
Materials and methods
Location
The study was done in Thuy Xuan village which is located in the upland area
of Thua Thien Hue Province. The pig population in the area is estimated to be of
the order of 5000. The number of pigs per family is stratified according
to income, as follows: high income farmer:12 - 15 pigs, middle income: 4 -6 pigs
and poor farmer: 1 -2 pigs. The traditional feeds are dried cassava root, rice
bran and brewery by-products. The crude protein in the dry matter of the typical
diets was calculated to be less than 9 %. Rice bran is the most
expensive ingredient. Cassava root is available in Thuy Xuan constantly.
The area planted in cassava is about 65 ha, with a productivity of 3,500 kg/ha.
The population density is about 1 person/600 m² and there are 30 ha of springs,
ponds and lakes. This means that there are opportunities for the farmers to grow
water plants.
Choice of farmer
Feeding trials were carried out in farm households in Thuy Xuan village from
May to November 1997. The families were selected on the basis of:
- The farmers' willingness to participate in the research
- Availability of a closed pig pen with cement floors of adequate size.
- Cassava and duckweed availability on the farm
Treatments and design
Trials were carried out with two groups of farmers. In each farm, two
pigs received the conventional diet; two more pigs were fed the experimental
diet which was the conventional diet plus either fresh duckweed (group 1) or
ensiled cassava leaves (group 2) in each case replacing fresh sweet potato
vines. A total of 9 households took part in the trials. In two households
the trial was done with both ensiled cassava leaf and duckweed (with four pens
each having 2 pigs).
Animals and feeding
Forty-four crossbred pigs (mainly Large White x Mong Cai) about 3 months old
and 23-25 kg initial weight were allocated among two groups of families (4
pigs/household); one group of 6 families and one of 5 families.The pigs
were vaccinated against Pasteurella, Erysipelas and Hog cholera, dewormed and
ear-notched. An adaptation period of 20 days was allowed before starting the
experiment, which lasted for 120 days. The following diets were investigated:
Ensiled cassava (6 families)
- Control: This consisted of ensiled cassava root, brewery by-product
(brewers' grains), rice bran and sweet potato vines.
- Ensiled cassava leaves: The same as the control but with ensiled cassava
leaves replacing the sweet potato vines
The cassava leaves were ensiled with 5 % molasses as described by Du Thanh
Hang (1998) and stored 21 days before feeding. The cassava roots were ensiled
with 0.5% common salt (Nguyen Thi Loc et al 1996) and stored 21 days before
feeding.
Duckweed (5 families)
The diets were the same as for the ensiled cassava leaves except that fresh
duckweed replaced the ensiled cassava leaves. The duckweed (Lemna minor)
was grown in artificial ponds lined with polyethylene sheets (area of 10m*2m) on
one farm and in natural ponds in the others (average area per pond was about 50m²). Manure
from buffaloes and pigs was applied to the ponds (about 5 kg buffalo manure
weekly and 3 to 4 kg pig manure every second day). The duckweed was harvested
daily and fed immediately after harvesting.
Procedure
The pigs were weighed in the early morning each month using a 100 kg capacity
portable scale with an accuracy of 0.5 kg. Feeds offered and refused were
recorded for each meal (3 times a day) using a 20 kg capacity portable scale.
The farmers mixed all the ingredients prior to feeding which was done three
times per day. Feed samples were taken (two times for cassava leaves and 4 times
for duckweed)for analysis of dry matter, nitrogen and crude fibre using the
procedures of AOAC (1985).
Carcass measurements
At the end of the experiment, 6 pigs were slaughtered from each treatment and
the carcasses were evaluated. Carcass weight was determined directly after
slaughtering to calculate hot carcass dressing percentage. Carcass length was
measured from the first rib to the pubis bone. Average back fat thickness and
loin eye area were determined at the tenth rib. The carcasses were separated
into lean meat, fat, bone and skin and the amounts recorded.
Statistical analysis
Mean values for effects of supplementation on weight gain, back-fat thickness
and area of loin eye muscle were compared using the GLM option of the analysis
of variance, determined with software of Minitab, release 10.2. The
sources of variation in the ANOVA was the source of supplement. The
analysis was made separately for each group of farmers.
Results
Feed composition
The composition of the feed ingredients is shown in Table 1. The HCN levels
in all the cassava products were below 100 mg/kg dry matter which is considered
as the safe level to avoid toxicity (Tewe 1992). The protein content of the
duckweed was almost twice that in the sweet potato vines; differences in the
fibre content were less marked but favoured the duckweed.
| Table 1: Composition of feeds |
![]() |
|
Dry matter
% |
N*6.25
% in DM |
Crude fibre
% in DM |
HCN
mg/kg DM |
![]() |
| Ensiled cassava leaves |
35 |
27 |
15.3 |
70.7 |
| Duckweed |
6.48 |
30.1 |
8.3 |
|
| Sweet potato vines |
13.6 |
17.7 |
10.5 |
|
| Rice bran |
87.6 |
14.8 |
8.45 |
|
| Cassava root meal |
90 |
1.4 |
0.57 |
26.7 |
| Brewers’ grains |
21 |
25.3 |
12.7 |
|
| Ensiled cassava root |
40.2 |
1.5 |
0.92 |
65.3 |
![]() |
The trial with ensiled cassava leaves
Feed intakes in the trial with ensiled cassava leaves are shown in Table 2.
In the experimental diet the ensiled cassava leaves provided 9% of the diet dry
matter (Figure 2) and 15.0% of the total protein (calculated from Table 2). The
sweet potato vines were 9% of the control diet dry matter (Figure 1) and
provided 13.4% of the protein (calculated from Table 2).
| Table 2: Intakes of dry
matter and of protein for pigs fed the conventional (control) diet or
the control plus ensiled cassava leaves (ECL) replacing the sweet potato
vines |
![]() |
Intake, g/animal /day
(from day 0 to day 120) |
Dry matter |
Protein |
| ECL |
Control |
ECL |
Control |
![]() |
| Ensiled cassava leaves |
150 |
0 |
41 |
|
| Sweet potato vines |
0 |
190 |
0 |
34 |
| Rice bran |
910 |
820 |
134 |
110 |
| Ensiled cassava root |
620 |
620 |
9 |
5 |
| Brewers' grains |
340 |
340 |
86 |
29 |
| Cassava root meal |
50 |
50 |
0.0 |
0.0 |
| Total DM |
2,070 |
2,020 |
|
|
| Total protein |
|
|
270 |
250 |
| Protein, % of DM |
|
|
13.1 |
12.4 |
![]() |
 Figure
1: Ingredients in the control diet with sweet potato vines (%
as dry matter) |
 Figure
2: Ingredients in the diet with ensiled cassava leaves (% as
dry matter) |
There were no differences in growth rate or feed conversion between the pigs fed
the conventional diet and those receiving ensiled cassava leaves as replacement
of the sweet potato vines. Feed costs were lower with ensiled cassava leaves
supplementation.
| Table 3: Mean values for growth rate and feed
conversion in pigs fed the conventional (control) diet or the control
with ensiled cassava leaves replacing the sweet potato vines |
![]() |
|
ECL |
Control |
SE/Prob. |
![]() |
| Liveweight, kg |
|
|
|
| Initial |
25.8 |
23.3 |
0.89/0.16 |
| Final |
78.1 |
74.5 |
1.02/0.02 |
| Daily gain |
0.435 |
0.426 |
0.01/0.34 |
| DM feed conversion |
4.99 |
4.81 |
0.16/0.43 |
| Feed cost/pig/day, VND |
4,072 |
4,737 |
95/0.004 |
| Feed cost/kg gain, VND |
9,375 |
11,143 |
3.06/0.009 |
![]() |
The trial with duckweed
The data on feed intake during the trial are shown in Table 4. The
proportions of the diet contributed by the different ingredients are shown in
Figures 3 and 4.
| Table 4: Intakes
of dry matter and of protein for pigs fed the conventional (control)
diet or the control plus fresh duckweed (DW) replacing the sweet potato
vines |
![]() |
|
Dry matter |
Protein |
| Intake, g/animal/day |
DW |
Control |
DW |
Control |
|
![]()
|
| Duckweed |
100 |
0.00 |
30.1 |
0 |
| Sweet potato vines |
0.00 |
130 |
0 |
23 |
| Rice bran |
730 |
610 |
108 |
90.3 |
| Ensiled cassava root |
640 |
530 |
8.96 |
7.42 |
| Brewers' grains |
330 |
320 |
83.5 |
81.0 |
| Cassava root meal |
220 |
220 |
3.3 |
3.3 |
| Total DM |
2,020 |
1,810 |
|
|
| Total protein |
|
|
234 |
205 |
| Protein, % in DM |
|
|
11.6 |
11.3 |
![]() |
 Figure
3: Ingredients in the control diet with sweet potato vines (%
as dry matter) |
 Figure
4: Ingredients in the diet with duckweed replacing sweet potato
vines (% as dry matter) |
The duckweed contributed 5% of the diet dry matter (Figure 4) and 12.9% of
the total protein (Table 4) in the experimental diet. Comparable data for sweet
potato vines in the control diet were 7% (Figure 3) and 11.2% (Table 4).
The total protein content in the dry matter was the same for both diets (11.6
and 11.3%).
Growth performance
Mean values for initial and final weight, weight gain and feed conversion are
given in Table 5 for pigs fed the conventional diet (control) and the control
diet with fresh duckweed replacing the sweet potato vines. Pigs fed
duckweed as a supplement were significantly heavier at the end of the trial
(P=0.001), gained weight more rapidly (P=0.001) and had better feed conversion
(P=0.001) than the control pigs fed sweet potato vines as the protein
supplement.
| Table 5: Mean values for growth rate and feed
conversion in pigs fed the conventional (control) diet or the control
with fresh duckweed replacing the sweet potato vines |
![]() |
|
DW |
Control |
SE/Prob. |
![]() |
| Liveweight, kg |
| Initial |
20.3 |
19.0 |
1.33/0.50 |
| Final |
86.31 |
67.5 |
2.15/0.001 |
| Daily gain |
0.552 |
0.404 |
0.01/0.001 |
| DM feed conversion |
3.66 |
4.50 |
0.10/0.001 |
![]() |
The data for growth rates on the individual farms show the consistency of the
response to duckweed in the different locations (Figures 5). By contrast, in 5
out of the 6 farms in the trial with ensiled cassava leaf there was faster
growth on this supplement compared with the control receiving sweet potato tops,
but the overall effect was not significant.
 Figure
5: Growth rates of pigs on individual farms fed the
conventional diet (control) or with fresh duckweed replacing the sweet
potato vines in the control diet |
 Figure
6: Growth rates of pigs on individual farms fed the
conventional diet (control) or with ensiled cassava leaf replacing the
sweet potato vines in the control diet |
Carcass measurements
Mean values for carcass traits in a sample of pigs from both trials are shown
in Table 6.
| Table 6: Mean values for carcass traits
for a sample of pigs from each trial |
![]() |
|
Ensiled cassava leaves |
Duckweed |
|
ECL |
Control |
SE |
DW |
Control |
SE |
![]() |
| Carcass yield, % |
nd |
nd |
|
68.4 |
68.8 |
0.56 |
| Carcass length, cm |
88.3 |
80.7 |
3.12 |
85.0 |
80.0 |
0.85 |
| Back fat, cm |
3.1 |
3.03 |
0.53 |
3.2 |
3.0 |
0.10 |
| Loin eye area, cm² |
29.0 |
29.2 |
0.47 |
32.6 |
29.2 |
1.04 |
| Composition of the carcass, % |
| Lean meat |
40.6 |
40.3 |
0.55 |
42.1 |
41.3 |
0.66 |
| Fat |
34.7 |
34.9 |
1.0 |
33.8 |
33.9 |
0.38 |
| Bone |
14.9 |
15.9 |
0.52 |
15.0 |
15.9 |
0.68 |
| Skin |
9.73 |
8.86 |
0.33 |
9.1 |
8.87 |
0.08 |
![]() |
| nd: Not determined |
There were no effects on carcass traits attributable to supplementation with
either ensiled cassava leaves or duckweed (Table 6).
Discussion
The contrasting feature of the two trials was the highly significant
improvement in growth rate and feed conversion when fresh duckweed replaced the
sweet potato vines in the traditional diet and the less consistent and non
significant effect when ensiled cassava leaves was the alternative supplement.
The origin of the pigs was the same and those on the control treatment performed
similarly in both trials (404 g/day growth rate and 4.5 conversion in the
duckweed trial and 426 and 4.81 in the trial with cassava leaf silage). The
contribution to the diet of the protein from duckweed was less than that from
ensiled cassava leaves (12.9 versus 15%) and although the former has a slightly
better array of essential amino acids (compare the reports of Rusoff et al 1980
and Ravindran 1992) it is unlikely that this could be the sole explanation.
Working with scavenging native chickens in Cambodia, Hong Samnang (1998)
reported a significant improvement in growth rate when the birds had access to
duckweed even though the amount consumed was small (contributing the equivalent
of less than 1 g protein/day). A stimulating effect of small amounts of
duckweed (5% of the diet dry matter) in the diet of broiler chickens was also
observed by Haustein et al (1994).
Conclusions
It is concluded that in pig fattening diets based on ensiled cassava root and
brewers' grains:
- Ensiled cassava leaves can replace sweet potato vines with no effect on
growth or carcass traits
- Fresh duckweed (average intake 1.5 kg/day) has a stimulating effect on
liveweight gain (daily gain was increased by 37%)
Acknowledgments
The author wishes to thank heradvisers, Dr. Thomas R. Preston and Lylian
Rodriguez, for their help, encouragement and guidance; Mr Frands Dolberg for his
interest in her studies and valuable advice; Le Duc Ngoan and Dr Nguyen Kim
Duong for their advice; Hoang Nghia Duyet, Le Cong Son and Nguyen
Quang Linh for their kind help and collaboration; Nguyen Van Ba, Nguyen Van Hung
and leaders of the Thuy Xuan community for their help and collaboration.
A special thank to my husband, Le van Tuat, my son Le Minh Tuan and my
daughter, Le thi Cam Tu, for their tender love, endless patience and support.
Financial support is acknowledged from the Danish Embassy in Hanoi, through a
grant to theUniversity of Tropical Agriculture Foundation, and from SAREC
organization in Sweden. A preliminary version of this work was
submitted as partial requirement for the Master of Science degree in Sustainable
Use of Natural Renewable Resources of the UTA (1998).
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