C. H. O. Lallo scite author profile

C. H. O. Lallo

3Publications

11Citation Statements Received

103Citation Statements Given

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University of the West Indies

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Potency of microbial inocula from bovine faeces and rumen fluid for in vitro digestion of different tropical forage substrates

Hughes

Mlambo

Lallo

et al. 2012

Grass and Forage Science

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In vitro ruminal fermentation techniques rely on the availability of fistulated ruminants for rumen fluid (RF), a major constraint for resource-poor institutions. An alternative would be to use faecal microbes. This study was therefore designed to compare the potency of fresh bovine faeces against RF as sources of microbial inocula for fermenting six contrasting tropical forages using the Tilley and Terry (Journal of British Grassland Society, 18, 104-111) technique. Faecal inocula were prepared at concentrations of 250 g (Faec250), 300 g (Faec300), 350 g (Faec350), 400 g (Faec400) and 450 g (Faec450) fresh cow faeces per litre bicarbonate buffer. In vitro organic matter digestibility (IVOMD) increased with increasing concentration of faeces at 12-, 24-and 48-h incubation intervals. All faecal inocula except Faec450 had lower potency when compared with RF at all incubation intervals. Digestibility of forage substrates with Faec450 (533 ± 23 g kg )1 DM IVOMD) was comparable to RF (566 ± 5 g kg )1 DM IVOMD) after 48-h incubation. Faec450 showed greater potency on more fibrous and low-protein substrates than RF. The coefficient of determination of the regression models for predicting 12-, 24-and 48-h RF IVOMD from Faec450 were 0AE914, 0AE75 and 0AE756 respectively. It was concluded that inocula prepared from 450 g cow faeces demonstrated great potential as a substitute and predictor for RF in 48-h IVOMD assays of tropical forages.

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<i>In vitro</i> ruminal fermentation of leaves from three tree forages in response to incremental levels of polyethylene glycol

Edwards¹,

Mlambo²,

Lallo³

et al. 2012

OJAS

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Polyethylene glycol (PEG), a phenol binding agent has been used extensively to measure the biological activity of tannins in forage species. The optimum inclusion rate of PEG, per unit weight of sample varies from species to species. Determining optimum inclusion levels can prevent wastage and reduce the cost of diagnosing the biological activity of tannins, especially in developing countries. This study was designed to determine the optimum PEG inclusion levels required to completely ameliorate in vitro ruminal bioactivity of tannins in leaves from Leucaena leucocephala, Gliricidia sepium and Trichanthera gigantea using the Reading Pressure Technique. Fermentation parameters were generated by fitting gas production data to the Orskov and on-linear equation: . An asymptotic response to incremental levels of PEG was observed with cumulative gas production at 48 h post inoculation. The minimum level of PEG required to maximize in vitro ruminal fermentation of tree leaves was found to be 200 mg PEG/g DM for all tree species. Gas production rate constant for the insoluble fraction (c) showed an increase (P < 0.05) upon PEG addition for all species. In vitro organic matter degradability (iOMD) declined (P < 0.05) in the leaves of G. sepium (565 -540 g/kg DM) whereas, there was an increase (P < 0.05) in the iOMD of T. gigantea leaves (328 -340 g/kg DM) upon PEG addition. Partitioning factor (PF) declined (P < 0.05) upon PEG addition for all species. Predicted metabolizable energy was highest (P < 0.05) in the leaves of G. sepium (8.7 MJ/kg DM) and lowest in T. gigantea leaves (5.4 MJ/kg DM) upon PEG addition. It is concluded that a PEG inclusion level of 200 mg/g DM sample is sufficient for the diagnosis of in vitro ruminal tannin biological activity in leaves of the three tree species.

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The Feeding of Leucaena (Leucaena Leucocephala) Forage to Ruminants

Garcia¹,

Lallo²,

Benn³

1996

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C. H. O. Lallo

Potency of microbial inocula from bovine faeces and rumen fluid for in vitro digestion of different tropical forage substrates

<i>In vitro</i> ruminal fermentation of leaves from three tree forages in response to incremental levels of polyethylene glycol

The Feeding of Leucaena (Leucaena Leucocephala) Forage to Ruminants

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C. H. O. Lallo

Potency of microbial inocula from bovine faeces and rumen fluid for in vitro digestion of different tropical forage substrates

&lt;i&gt;In vitro&lt;/i&gt; ruminal fermentation of leaves from three tree forages in response to incremental levels of polyethylene glycol

The Feeding of Leucaena (Leucaena Leucocephala) Forage to Ruminants

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Product

Resources

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<i>In vitro</i> ruminal fermentation of leaves from three tree forages in response to incremental levels of polyethylene glycol