Production of High Quality Silage from Sago Fronds
Sago frond is one of the most abundant by-products from the sago industry. Sago fronds are left on the ground upon harvesting of the sago palm for production of sago flour. Over 500 palms are harvested every day in the district of Mukah, Sarawak to feed the numerous sago mills. From here, it has...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English English |
| Published: |
UNIMAS Publisher, Universiti Malaysia Sarawak
2019
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| Subjects: | |
| Online Access: | http://ir.unimas.my/id/eprint/31488/1/Cover%20page%20july2019.pdf http://ir.unimas.my/id/eprint/31488/4/Dayang%20Salwani.pdf http://ir.unimas.my/id/eprint/31488/ |
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| Summary: | Sago frond is one of the most abundant by-products from the sago industry. Sago fronds are left on the
ground upon harvesting of the sago palm for production of sago flour. Over 500 palms are harvested every
day in the district of Mukah, Sarawak to feed the numerous sago mills. From here, it has been approximated
that over 26 tons of sago frond is discarded as a rotting biomass. We see the potentials of sago frond to be
developed as the alternative material for large-scale production of lactic acid and as a feed material for the
livestock industries. Sago frond contains sap that can be extracted from the de-skinned white pith using a
roller compressor, akin to sugar cane press. The sap contains 7% free sugars consist mainly of glucose and
xylose. Both sugars are ideal substrates - and have been used - for the production of lactic acid utilising
lactic acid bacteria (LAB) such as Lactococcus lactis. The residual fibre can be used as high-quality animal
feed with minimal treatment. However, feed quality and palatability is very much improved through lactate
fermentation during ensiling to produce silage. Ensiling process require anaerobic condition to inhibit the
growth of moulds and fungi that can spoil the silage while concomitantly allowing the growth of lactic acid
bacteria to produce nutrient and increase digestibility of the silage. The ensiling process takes only three
weeks, whereby the pH of the silage is reduced to 4.4, a definitive condition that inhibits the growth of
mould and fungi. Thus, addition of antibiotic and antifungal which usually entails the usual production of
animal feed is unnecessary. This ensures that sago frond silage is much healthier and safer for consumption
by the livestock. Silage from sago frond contains 9% carbohydrate and 18% protein, a balanced ratio of
carbohydrate and protein highly recommended for growing and lactating stages of goats. Ensiling process
of sago frond can be improved by using the LAB cells from the production of lactic acid on sago frond
sap to boost the ensiling process. Adding LAB cells will hasten acidification to lower the pH, which will
reduce duration of the ensiling process together with augmenting its digestibility. These findings are crucial
in maximising the use of sago fronds – either disposed upon daily trimming or perpetual harvesting of
matured logs – which proves to be a sustainable source for both the animal feed and lactate industries. With
these possibilities, meagre income of the sago farmers can be enhanced, followed by development of new
sago plantations which focus on zero wastes to protect our environment. |
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