Abstract:
Rough bark disease (RBD) is an economically important disease in cinnamon grown in Sri Lanka.
The aim of the present study was to determine the fungal genera/species consistently associated
with the RBD-infected stems and their relative abundance at different stages of the pathogenesis.
Cinnamon stems showing typical RBD symptoms of initial, moderate, and severe stages of the
disease development were collected from a total of 41 fields in Galle, Matara, Ratnapura, Kalutara
and Matale districts. Fungi were isolated using PDA medium and identified based on their colony
and spore morphology. Morphologically different fungal isolates which were consistent to
different locations of a selected district and different disease developmental stages were proved
for pathogenicity by standard Koch’s rules under field conditions. Data collected was used to
calculate colony forming unit (CFU) richness, fungal colony abundance, relative abundance of
morphologically identified fungi and Shannon-Wiener diversity index. A total of 2407 different
fungal isolates were obtained as pure cultures and based on the colony and spore morphology,
they were grouped as Pestalotia-like (1909), Colletotrichum-like (150), Botryodiplodia- like
(213), Phomopsis spp.-like (110), Trichoderma spp. (2) and unidentified fungi (23). A
representative set of fungi of the above categories were identified by molecular methods as
Pestalotia spp., Colletotrichum spp., Botryodiplodia spp., Phomopsis spp. and Trichoderma spp.
Fungal CFU richness did not differ significantly among the districts but differed among the disease
developmental stages. Fungal abundance significantly varied among the districts from where the
samples were collected (P<0.05). Fungal diversity index differed significantly among disease
developmental stages (P<0.05) having the highest at the severe stage. Relative abundance of
Botryodiplodia, Colletotrichum and Pestalotia spp. differ significantly (P<0.05) among the disease
developmental stages. No significant difference for the relative abundance of Botryodiplodia spp.,
Colletotrichum spp., Pestalotia spp., Phompsis spp. and Trichoderma spp. among the districts
(P>0.05). Findings confirmed that consistent association of Pestalotiopsis, Colletotrichum,
Botryodiplodia and Phomopsis spp. (which were proven to be pathogenic) with RBD infected
stems with a shift of their relative abundance among the disease developmental stages.