Abstract:
Agarwood is a highly valuable, aromatic substance derived in the heartwood of certain tree members
of Thymelaeaceaea family. It is formed to prevent internal tissue damages from injuries and diseases.
Gyrinops walla is the only agarwood producing tree species, naturally growing in Sri Lanka. Healthy
heartwood of this species is light colour, odourless, soft and low in density. Once resin-impregnated,
it becomes darker in colour, dense and highly fragrant. Several studies were conducted on agarwood
formation in Aquilaria and Gyrinops trees by fungal species. The present study tested agarwood
formation in G. walla by three Actinomycetes species of Nocardia, Pseudonocardia and Streptomyces
genera. Those species were isolated from fresh tissues of G. walla by culturing in the laboratory.
Identification was done by morphological and microscopic characteristics. 100 ml of spore
suspension of each selected species in starch casein broth was inoculated to mature G. walla tree
stems with three replicates. The trees were harvested after three months and discoloured tissue
samples were collected at 5 cm intervals above (+) and below (-) each inoculation point. Agarwood
resin extraction and constituent identification were done by solvent extraction and GC-MS analysis
respectively. The spread of the resinous tissues were the highest in the trees inoculated with Nocardia
(length=+6.10 to -5.50 cm; width=3.20 cm) followed by Pseudonocardia (length=+5.80 to -5.00
cm; width=1.20 cm) and Streptomyces (length=+4.60 to -4.30 cm; width=1.10 cm). Nocardia,
Pseudonocardia and Streptomyces produced respectively brown, strong brown and gray colour
tissues. Extracted resin colour was olive brown, olive yellow and yellow respectively.
Pseudonocardia produced the highest resin content (4.28±2.36%) followed by Nocardia
(2.33±1.09%) and Streptomyces (1.86±0.61%). GC-MS analysis of extracted resins revealed the
presence of agarofuran, agarospirol, valecane, vetispirane, guaiene, eremophilane, selinene and fatty
acids, which produce the characteristic agarwood aroma. The highest number of key compounds were
found in the resin extracted from the tissues formed using Nocardia, followed by Pseudonocardia
and Streptomyces. Therefore, this study confirmed the use of selected Actinomycetes species for
artificially inducing agarwood resin formation.