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RISoil sunflower meal treated with formaldehyde or sodium hydroxide
This study was conducted to evaluate the effect of formaldehyde or
sodium hydroxide on in situ ruminal disappearance and in vitro intestinal
digestion of high oil (165 g/kg DM) sunflower meal (SM). Samples were:
Untreated SM...
Disappearance of dry matter and neutral detergent fibre (NDF) of sunflower meal treated with sodium hydroxide or formaldehyde by isolated mixed rumen bacteria using in vitro culture
was to estimate the disappearance of dry matter (DM) and neutral detergent fibre (NDF) of sunflower meal
(25 g fat/kg DM; SM) as untreated or treated with formaldehyde (3 g/kg DM) or sodium hydroxide (40 g/kg DM) using in
vitro culture with isolated...
The influence of exogenous enzyme, formaldehyde and/or sodium hydroxide on in vitro Gas Production parameters of sunflower meal
This experiment was conducted to evaluate the effect of exogenous enzyme (3 g kg- DM),
formaldehyde (30 and 60 g kg- DM) and or sodium hydroxide (40 g kg- DM) on in vitro gas production
parameters of sunflower meals (25 and 165 g...
In vitro rumen fungi quantification in medium containing sodium hydroxide or formaldehyde treated sunflower meal using quantitative competitive PCR assay
and consumables (Franz et al., 2001). The aim of this study was to use the QC-PCR assay to evaluate the relative
quantitative comparison of anaerobic fungi population in medium containing sunflower meal, either untreated or treated
with formaldehyde...
The Effect of Fat Content of Chemically Treated Sunflower Meal On in vitro Gas Production Parameters Using Isolated Rumen Microbiota
This experiment was conducted to investigate the effect of fat content (high: 165 g fat kg-1 DM and
low: 25 g fat kg-1 DM) of sodium hydroxide (40 g kg-1 DM) or formaldehyde (3 and 6 g kg-1 DM) treated
sunflower meal on in vitro gas...
In vitro gas production of high fat sunflower meal treated with sodium hydroxide or formaldehyde by rumen fungi and protozoa
In vitro gas production of high fat sunflower meal treated with sodium hydroxide or formaldehyde by rumen fungi and protozoa...
In vitro gas production parameters of high fat sunflower meal treated with formaldehyde, sodium hydroxide or exogenous enzyme
Gas production technique is a useful procedure to assess digestible value of the ruminant feeds. The feeding
value of the sunflower meal (SFM) depends on the oil extraction process, variety of sunflower and the proportion of the...
The relation between in vitro gas production by rumen fungi and protozoa and low fat sunflower meal treated with sodium hydroxide or formaldehyde
The relation between in vitro gas production by rumen fungi and protozoa and low fat sunflower meal treated with sodium hydroxide or formaldehyde...
Kinetic of in vitro gas production of high fat sunflower meal treated with sodium hydroxide and or formaldehyde by rumen bacteria+protozoa
of samples by both groups was higher each microbial alone that shows synergistic interaction between rumen microbial
groups (Schofield, 2000). The feeding value of the sunflower meal depends on the oil extraction process, variety of...
The effect of high fat sunflower meal treated with formaldehyde and sodium hydroxide on milk yield and composition of Holstein dairy cows
Sunflower meal is entirely adequate as the sole source of supplemental protein in dairy rations. Owing to the
relatively high protein degradability of sunflower meal, dietary inclusion levels are limited in dairy cattle diets (Erasmus et...