Abstract:
Management of soil fertility and plant nutrition by the application of biofertilizers has been in
the practice worldwide, their commercial application is a novel concept to Sri Lanka. Hence,
this research was focused on introducing a native phosphate biofertilizer for Sri Lanka
agriculture.
Soil samples, collected from rhizosphere and bulk soils of organically cultivated eight
cinnamon species, one cocoa species and three pepper species were screened using
Pikovskaya (PVK) medium to isolate phosphate solubilizing microorganisms (PSMs). A total
of 53 PSMs: 12 fungi and 41 bacteria were obtained and coded for convenience. A secondary
screening to detect the persistence of the solubilization ability in the presence of soluble P
yielded 12 fungi and 26 bacteria from the above total. Efficiencies to solubilize insoluble tri
calcium phosphate and ERP were assessed on liquid PVK and ERP-PVK media. Three
fungal: MPsRPl, MCvRFl, TCvgRP5, and one bacterial isolate: MP1RB2, were identified as
efficient solubilizers and identified as Aspergillus niger, Trichoderma virens, Penicillium
oxalicum and Klebsiella variicola. A possible synergism between four species towards
phosphate dissolution was detected using the PVK and ERP-PVK broth cultures. A. niger in
combination with P. oxalicum recorded the highest significant dissolved phosphate levels of
893.43 (±56.768) mg P/L and 309.42 (±42.52) mg P/L, respectively, within 72 h post
inoculation (P<0.05).
A total of 13 different substrates were evaluated for finding a suitable and easily available
substrate for effective mass propagation of A. niger and P. oxalicum and identified refuse tea
as a suitable substrate. A. niger and P. oxalicum combination was tested for their performance
in increasing P nutrition of rice, cinnamon and pepper in pot and field studies. Pot
experiments were conducted according to the complete randomized design while field
experiments were laid out according to the randomized complete block design. In all
experiments, plant growth, and yield parameters, soil available and plant P & soil microbial
parameters were taken into account. The data gathered were subjected to one way ANOVA,
two way ANOVA and multiple mean comparison test using the Minitab 16.1.1 statistical
software.
Rice pot experiment had two factors: (1) microbial inoculation (2) applied phosphorus
amount. A total of fourteen different treatments with five replicates were used. Rice pot
experiment was carried out at RRDI, Bathalagoda. Both the growth and yield parameters
showed significant variability of (p < 0.05) among the treatments. The highest grain weight
per pot (15.21 ±1.69 g) was given by the treatment containing only the inoculum of two fungi
without applied chemical fertilizers. In almost all the parameters measured, significant
increments were observed in treatments containing the inoculum over treatments with
chemical fertilizer.
Rice field experiment consisted of six different treatments: zero input control (To),
recommended level of fertilizers only (T3), half recommended level of TSP + inoculum +
recommended level of urea and MOP (Ts), half recommended level of TSP + half
recommended level of P2O5 replaced by ERP + Inoculum + recommended level of urea and
MOP (T12), sterilized mass cultivation medium only (T13) and inoculum only (T14) and same
parameters used in pot experiment were measured and analyzed. It was carried out in
Kurunegala, in a field which was not fertilized for more than 10 years. Inoculum showed
significantly positive effects on mean plant height, mean number of panicles per plant, mean
number of filled and total grains per plant, mean grain weight and soil available P (p < 0.05).
Most of the parameters measured in the treatment containing inoculum + 50 % TSP showed
significantly high or significantly not different results with that of with the standard control.
The highest mean grain weight per plant (17.76 ± 1.92 g) was recorded in the treatment
containing inoculum + 50% TSP while second highest mean grain weight per plant of 15.71 ±
2.55 g was shown by the standard control.