Abstract:
Plant Growth Promoting Fungi (PGPF) facilitate a favorable interaction with plants in the
rhizosphere through several biological processes. PGPF play a significant role in phytostimulation,
phytoremediation and biofertilization. The use of PGPF as a biofertilizer has steadily
increased in sustainable agriculture to reduce the use of chemical fertilizers. The objective of the
present study is to investigate the effect of Trichoderma virens on vegetative and reproductive
growth of Capsicum annuum cv. MI2 (green chilli). The trials were conducted in a greenhouse in
the botanical garden, University of Kelaniya. Six weeks-old seedlings of C. annuum cv. MI2 were
transplanted in solarized potting medium prepared by mixing topsoil and compost (3:1), filled
into grow bags. Four treatments (103, 105, 107 conidia/ mL) including control (treated with Urea,
Triple superphostphate and Muriate of Potash) were carried out along with five replications.
Potting medium was inoculated with the conidial suspensions at the time of transplanting,
followed by four inoculations until the time of uprooting. At the completion of 10 weeks after
transplanting, the plants were uprooted, measured and represented as a percentage increment
compared to the control; for the vegetative (shoot height, number of leaves, leaf area, average leaf
length, girth of tap root, total leaf chlorophyll, fresh and dry weights of shoot and root mass) and
reproductive parameters (number of buds, flowers and pods) of C. annuum cv. MI2. The plants
treated with 107 conidia of T. virens per mL showed a significant increase in growth parameters
of shoot height (18.55%), leaf number (79.78%), fresh weight of shoot (122.4%), fresh weight of
root (14.17 %) and a significant increase in reproductive parameters of, number of buds (18.18%),
and number of pods (143.75%) compared to the control was observed. Moreover, the plants
treated with 105 conidia of T. virens per mL showed a significant enhancement in the growth
parameters, leaf area (17.63%), total chlorophyll content (8.87%) and dry weight of root (54.16%)
compared to the control. Present study clearly indicated that C. annuum cv. MI2 show better
vegetative, as well as reproductive growth performance, when treated with conidial suspensions
of T. virens. Therefore, T. virens can be suggested as a potential biofertilizer for C. annuum cv.
MI2.