dc.identifier.citation |
Malithi R.A.P., Subasinghe S.M.C.U.P., Fernando T.H.P.S., (2017). "Potential of Making Fungal Toxins at Commercial Scale for Agarwood Inducement",Proceedings of the 22nd International Forestry and Environment Symposium 2017 of the Department of Forestry and Environmental Science, University of Sri Jayewardenepura, Sri Lanka |
en_US |
dc.description.abstract |
Agarwood, a highly valuable resin formed in the stems and roots of certain tree species of the
family Thymlaeaceae can be induced the formation in artificial manner by using different
fungal species. The potential of fungal toxins using certain strains of Aspergillus niger and
Fusarium solani to form agarwood in Gyrinops walla, which is a native species to Sri Lanka,
was identified in 2016. However, the potential of extracting fungal toxins in large scale was
not studied previously for the purpose of inducing agarwood formation at commercial scale.
Therefore selected strains of A. niger and F. solani were grown on Potato Dextrose Agar
(PDA) medium and three agar plugs of A. niger were inoculated in Czapek Dox Broth (CDB)
and F. solani in Yeast Extract Glucose Broth (YEGB). A 50, 100, 150, 200, 250, 300 and 500
ml series was prepared for CDB and YEGB to identify the potential impacts of different
volumes of toxins. Mycotoxins were extracted after 14 days for A. niger and after 10 days for
F. solani based on the results of a previous study. The impacts of those toxins were detected
by a bioassay using A. crassna and G. walla leaves. A comparison was made using diameters
of lesions caused by toxins in A. crassna and G. walla leaves after 48 hour. According to the
results, the effects of toxins of F. solani and A. niger were not significant on A. crassna.
Further the damage caused by F. solani (F=1.02; P=0.428) and A. niger (F=1.41; P=0.238)
grown in different volumes was not statistically significant. However, the effect of toxins of
F. solani was significantly higher than that of A. niger (F=10.69; P=0.000) on G. walla.
Damage caused by toxins formed in different volumes of F. solani was not significant
(F=1.81; P=0.103) on the leaves of both species. However, the damages caused by toxins A.
niger grown in 50 ml and 100 ml were significantly lower on G. walla leaves than the rest of
volumes. Based on these results, 500 ml can be used as an effective volume to extract toxins
from A. niger and F. solani for inducing agarwood formation at commercial scale. |
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