ABSTRACT
Maize production in Ghana between 1984 and 1990 exceeded
500,000 metric tonnes per year except in 1985 where there was a
shortfall to 395,000 metric tonnes. The unfavourable years of
drought between 1981-1983 were attended by a sharp decline in
maize production ( 140,000-333,200 metric tonnes ). The bulk of
the national maize production was contributed by Ashanti,
Brong-Ahafo, Eastern and Northern Regions. Maize husk available
after removing cobs was commensurate with the total maize harvest
for each Region. As a raw material for fungal protein production,
maize husk has a potential for sustainable use.
Gamma irradiation ( 0-200 Krad ) was used as a mutagen
to evaluate its effect on vegetative growth, cellulolytic,
pectinase and amylase activity of AspergiI1 us niger. Rhisopus
oryzae, Trichoderma. viride and Lactobacillus plantarum. screened
for use in the production of fungal protein on corn husk slurry by
solid substrate fermentation. A dose of 20 Krad decreased
vegetative growth of A. niger by 46.6 percent and further
increases up to 50 Krads increased dry matter accumulation by the
fungus. Vegetative growth of R. orysae was increased by about 30
percent by 50 Krad and remained nearly the same up to 200 Krad.
There was no stastitical difference ( < 0.05, Student’s t-test )
between dry weight of mycelium obtained with 50, 100, 200 Krad of
gamma irradiation. The best vegetative growth of T viride was
obtained when 100 or 200 Krad of gamma irradiation was applied to
spores prior to culturing. The best vegetative growth of the
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bacterium ( L . plantarum ) was attained when the culture was
exposed to 50 Krads prior to incubation at 28 JC for 5 days.
Optimum cellulase, amylase and pectinase activity was
induced by 50 Krad of gamma irradiation in A. nig&T and L.
pi an tar urn ; on the other hand, optimal cellulase activity in T.
viride and R. oryzae was induced by a dose of 100 Krad whilst 50
Krad was optimal for maximal production of amylase and pectinase
enzymes by the same fungi ( T. viride and R. oryzae ) . Generally,
the gamma irradiation dose that induced optimal vegetative growth
was also attended by optimal cellulase activity.The pH of the medium
containing spores of T viride treated with 100 krad was between
pH 5.0 - 6.5 corresponding to the best pH for cellulase activity
in T viride. The potential for use of gamma irradiation as a
mutagen for enzyme production is promising.
Gamma irradiation up to 200 Krad linearly increase acid
production by A. nig&r as pH shifted from 2.9 to 2.2. The culture
medium containing gamma-irradiated ( i 50 Krad. ) R. oryzae
sporangiospores also became more acidic ( pH 4.5 - 3.8 )
presumably indicating accumulation of acids.
Hydrolysis of corn husk into a slurry was achieved by
using either one percent or five percent sodium hydroxide or
hydrochloric acid and heating at 80° , 100° or 120°C for 1-3
hours. The best treatment combination for corn husk hydrolysis was
heating at 100 C fot at least 1 hr. in either one or five percent
sodium hydroxide or 1 percent Hydrochloric acid. This gave good
accessibility of cellulase for microbial enzyme attack leading to
high crude fungal protein ( 20.0 percent ) produced by T. viride
irradiated with 100 Krad of gamma irradiation prior to
innoculation of the solid substrate.
Irradiation caused morphological changes in T. viride
and A. niger cultures. In T viride, as much as the conidiophores
remained irregularly branched, the bright green colour development
decreased progressively with increasing gamma irradiation dose (
eg. at 200 Krad there was no colour development ).
Practical implications of these findings are discussed
and future studies leading to commercial application of the
technique suggested.
GBEDEMAH, C (2021). Effect Of Gamma Irradiation On Agricultural Waste-Decomposing And Fermentation Microorganisms In Ghana. Afribary. Retrieved from https://tracking.afribary.com/works/effect-of-gamma-irradiation-on-agricultural-waste-decomposing-and-fermentation-microorganisms-in-ghana
GBEDEMAH, CHARLES "Effect Of Gamma Irradiation On Agricultural Waste-Decomposing And Fermentation Microorganisms In Ghana" Afribary. Afribary, 14 Apr. 2021, https://tracking.afribary.com/works/effect-of-gamma-irradiation-on-agricultural-waste-decomposing-and-fermentation-microorganisms-in-ghana. Accessed 29 Nov. 2024.
GBEDEMAH, CHARLES . "Effect Of Gamma Irradiation On Agricultural Waste-Decomposing And Fermentation Microorganisms In Ghana". Afribary, Afribary, 14 Apr. 2021. Web. 29 Nov. 2024. < https://tracking.afribary.com/works/effect-of-gamma-irradiation-on-agricultural-waste-decomposing-and-fermentation-microorganisms-in-ghana >.
GBEDEMAH, CHARLES . "Effect Of Gamma Irradiation On Agricultural Waste-Decomposing And Fermentation Microorganisms In Ghana" Afribary (2021). Accessed November 29, 2024. https://tracking.afribary.com/works/effect-of-gamma-irradiation-on-agricultural-waste-decomposing-and-fermentation-microorganisms-in-ghana