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| Photo 1. Melia azedarach |
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Livestock-Based Farming Systems, Renewable Resources and the Environment |
Abstract
Fifteen weaned crossbred goats (Bachthao x local female) with initial live weights of 11.6 (±0.45) kg were used in an experiment to evaluate the effect of increasing levels of Melia azedarach foliage as aq supplement to ensiled water hyacinth leaves.
DM intake was increased by 28% by raising the feeding level of Melia azedarach foliage from 0.9% to 2.1% of live weight (DM basis) with the foliage accounting for 66% of total DM intake at the higher level. There was no logical trend in DM intake with higher levels of the tree foliage. Live weight gain was increased by over 60% when the Melia azedarach content of the diet was raised from 60 to 70% of the diet DM but declined when higher levels were given. The presence of non-nutritional compounds in the leaves could be the reason for the poorer growth rate at high levels of feeding.
Water hyacinth (Eichhornia crassipes) has an extremely high growth rate on water surfaces and can produce a mass of biomass through the year without human intervention. According to Penfound and Earle (1948) (cited by Joyce 1990) ten water hyacinth (WH) plants can give rise to over 655,000 new plants and cover 0.4 hectares in the space of eight months. Proximate analysis indicates that WH leaves apparently have a potentially high nutritive value (Easley and Shirley, 1974; Nguyen Nhut Xuan Dung, 1996), with 19.7% CP and 49.9% NDF/kg DM. In the Mekong delta of Vietnam, WH stems have been popularly used to make handicraft products for export and the leaves have been also used for feeding pigs, cattle and especially goats.
Melia azedarach, commonly known as bead-tree or Cape lilac (Photo 1), is a species of deciduous tree in the mahogany family, Meliaceae, that is native to Pakistan, India, Indochina, Southeast Asia and Australia (http://en.wikipedia.org/wiki/Melia_azedarach).
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| Photo 1. Melia azedarach |
Melia azedarach is widely distributed throughout Vietnam and according to farmer’s practice has considerable potential as feed for ruminants. According to Batcher (2000), the fruits are poisonous to humans and to some other mammals.
The objective of the present experiment was to evaluate foliage of Melia azedarach as a supplement for goats fed a basal diet of ensiled WH leaves.
The experiment was located in a private farm in Tinh Bien district, Long Xuyen city, An Giang province.
Fifteen weaned crossbred goats (Bach Thado x local female) with initial live weights of 11.6 (±0.45) kg were allocated to a Complete Randomized Design (CRD) with five levels of Melia azedarach foliage of 0.9, 1.2, 1.5, 1.8 and 2.1% of live weight (DM basis) given as supplements to ensiled WH water hyacinth leaves fe adlibitum.
The goats were bought from smallholder goat keepers in An Ggiang province. They were housed in individual cages made from wood and bamboo (Photo 2). Before beginning the experiment, the goats were de-wormed with Ivermectin, and vaccinated against foot-and-mouth disease.
Leaves of water hyacinth were purchased from local farmers. They were chopped into small pieces (2 to 3 cm) and ensiled in plastic bags, sealed to prevent air contamination and then put into plastic buckets to exclude mice and prevent external mechanical damage. The ensiling period was from 7 to 14 days. The silage was fed in troughs for the goats to choose freely. The Melia azedarach foliage was hung in bunches above the feed r trough. The amounts offered were decided weekly based on individual weights of the goats. Feed offered for each goat was weighed every morning and the animals were fed with 50% of their daily ration at 08:00 h and the remaining 50% at 17:00 h. Fresh water and a mineral lick were supplied free choice..
The goats were weighed at the start of the experiment and then weekly, at the same day of the week and before feeding in the morning.
Samples of feeds offered and refusals were analysed for DM, CP and ash according to AOAC (1990). NDF and ADF were determined according to Van Soest and Robertson (1985).
The data from the experiment were subjected to analysis of variance using the General Linear Model (GLM) procedure of Minitab Software Release version 15 (Minitab 2007). Sources of variation were treatments and error.
The DM component was twice as high in Melia azedarach foliage as in WH leaf silage (Table 1). However, the CP content was similar.
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Table 1. Mean values for chemical composition of the feeds |
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Item |
WH leaf silage |
Melia azedarach |
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DM, g/kg |
139 |
299 |
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g/kg DM |
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CP |
227 |
218 |
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OM |
838 |
891 |
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NDF |
538 |
324 |
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ADF |
263 |
263 |
Total DM intake was increased by 28% by raising the feeding level of Melia azedarach foliage from 0.9% to 2.1% of live weight (DM basis) with the foliage accounting for 66% of total DM intake at this higher level. There was no logical trend in DM intake with higher levels of the tree foliage though the highest intake was in fact obtained with the 2.1% level (Table 2, Figure 1). Live weight gain increased by over 60% when the tree foliage was increased from 0.9 to 1.5% of LW (DM basis) reflecting the higher feed intake but at higher levels appeared to decline (Table 3; Figure 2). The best growth rate can be considered as representing about 60 to 70% of the genetic potential of Bach Thao crosses, as defined by the growth rate of 108 g/day reported by Nguyen Thi Hong Nhan (200?) with a diet of 100% Sesbania grandiflora.
It is not clear why the growth rate should have declined when the level of Melia azedarach exceeded 70% of the DM intake. There are various reports of toxicity associated mainly with the fruits of Melia azedarach, caused by a group of compounds known as "tetranortriterpenoids"; the leaves are said to have insecticidal properties similar to those ascribed to leaves from the Neem treee (Azadirachta indica) (http://en.wikipedia.org/wiki/Melia_azedarach). According to Ngo Thanh Trung et al (2012) leaves of Melia azedarach can comprise up to 70% of the diet of goats without causing toxicity. However these authors also reported that there were no benefits on growth rate by increasing the level of Melia azedarach from 25 to 70% of the diet. More research is needed to identify the possible constraints to growth with high levels of Melia azedarach in the diet.
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Table 2. Feed intake of goats fed leaves of water hyacinth leaves siliage and supplement of Melia azedarach |
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Melia azedarach as % of LW (DM basis) |
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Item |
0.9 |
1.2 |
1.5 |
1.8 |
2.1 |
SEM |
P |
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DM intake/day |
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WH leaf silage |
120b |
132a |
112b |
80d |
93c |
2.6 |
<0.001 |
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Melia azedarach |
178d |
249c |
266b |
235c |
329a |
3.5 |
<0.001 |
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Total |
298d |
381b |
378b |
315c |
422a |
4.3 |
<0.001 |
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Melia azedarach, % of total DM |
60.4d |
65.8c |
71.1b |
74.7a |
77.1a |
0.65 |
<0.001 |
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abcd Means within rows with different superscripts are different at P<0.05 |
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Table 3. Live weight gain of goats fed leaves of water hyacinth leaves siliage and supplement of Melia azedarach |
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Melia azedarach as % of LW (DM basis) |
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0.9 |
1.2 |
1.5 |
1.8 |
2.1 |
SEM |
P |
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Initial weight, kg |
11.4 |
12.33 |
11.87 |
11.0 |
11.6 |
1.04 |
0.92 |
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Final weight, kg |
14.6 |
16.83 |
17.73 |
15.27 |
16.53 |
1.1 |
0.32 |
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Live weight gain, g/day |
31c |
50ab |
67a |
44bc |
56ab |
4.0 |
0.001 |
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FCR, kg DM/kg ADG |
9.78 |
7.85 |
5.64 |
7.27 |
7.64 |
0.9 |
0.1 |
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abc Means within rows with different superscripts are different at P<0.05 |
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Figure 1. Effect of level of Melia azedarach on DM intake by goats fed a basal diet of ensiled WH leaves |
Figure 2. Effect of level of Melia azedarach on live weight by goats fed a basal diet of ensiled WH leaves |
Conclusions
· DM intake and daily weight gain of goats were improved when Melia azedarach foliage supplement increased in diet.
· Goats had higher live weight gain at 1.5% of LW on DM basis of Melia azedarach foliage supplement.
Acknowledgements
The authors are grateful for the support from the MEKARN project, financed by the Sida-SAREC agency. The authors would also like to thank the Department of Animal Husbandry and Veterinary, Faculty of Agriculture and Natural Resources of An Giang University for infrastructure support.
References
AOAC 1990 Official Methods of Analysis, 15th edition. Association of the Official Analytical Chemists. Washington D.C.
Batcher M S 2000 Element Stewardship Abstract for Melia azedarach. The Nature Conservancy.
Easley J F and Shirley R L 1974 Nutrients elements for livestock in aquatic plants. Hyacinth Control Journal, 12, 82-85.
Joyce J C 1990 Aquatic Weeds. The Ecology and Management of Nuisance Aquatic Vegetation. Oxford University Press.
Minitab 2007 Minitab Reference Manual, Release 15 for Windows. Minitab Inc, USA.
Ngo Thanh Trung, Nguyen Xuan Trach and Preston T R 2012 Using Melia azedarach Linn.leaves in Co goat diet in Cathai island district, Haiphong. Proceedings of the International Conference "Livestock-Based Farming Systems, Renewable Resources and the Environment", 6-9 June 2012, Dalat, Vietnam (Editors: Reg Preston and Sisomphone Southavong) http:/www.mekarn.org/workshops/dalat2012/html/trung.hua.htm
Nguyen Thi Hong Nhan 1998 Utilization of some forages as a protein source for growing goats by smallholder farmers. Livestock Research for Rural Development. Volume 10, (3) http://www.lrrd.org/lrrd10/3/nhan2.htm
Nguyen Nhut Xuan Dung 1996 Identification and evaluation of non-cultivated plants used for livestock feed in the Mekong delta of Vietnam. MSc. Thesis. Swedish University of Agricultural Sciences.
Van Soest P J and Robertson J B 1985 Analysis of forages and fibre foods. Ithaca, New York: A Laboratory Manual for Animal Science 613 Department of Animal Science, Cornell University.
