Abstract:
It has been estimated that a 50% increase in the major food crop yields, including rice, is needed
to feed the projected population by 2050. In this regard, Silicon fertilization, has been identified
as an effective approach to increase the growth and yield of rice. Continuous cultivation of high yielding rice genotypes removes silicon from the soil. Therefore, soil available silicon must be
replenished to ensure sustainable production. As a scanty of information is available on the silicon
requirement of the indica rice, a pot experiment was carried out to identify the silicon requirement
of an indica rice using Bw 367, a high yielding, silicon responsive, and popular genotype. Each
experimental unit contained four uniformly grown seedlings. The experiment was arranged in
RCBD with three replicates. Silicon was applied to the soil at the rates of 0, 50, 75, 100, 125, and
150 kg SiO2/ha as a basal dressing. At harvesting, plant height (PH), shoot dry weight (SDW) and
yield attributes such as number of tillers per plant (TP), total number of grains per panicle (TG),
total number of filled grains per panicle (TFG), total unfilled grains per panicle (TUG), 1000-grain
weight (TGW) and grain yield (GY) were recorded. Data were analyzed using SAS. Both PH and
SDW were significantly increased with added silicon, and a 52% increment in SDW was observed
at 100 kg SiO2/ha rate, while TP and TGW were not significantly affected by silicon. The TFG was
increased with the application of Si at 100 kg SiO2/ha over the control by about 51%. With the
application rate of 100 kg SiO2/ha, a 30% reduction in TUG was found, which was statistically
equal to 125 kg SiO2/ha. Plants fertilized with 100 kg SiO2/ha produced the highest TG (392
grains). According to the quadratic function, the optimum grain yield was found at a rate of 115
kg SiO2/ha. It could be concluded that addition of silicon improved the growth and yield of rice.
Basal application at the rate of 115 kg SiO2/ha was identified as the best rate to achieve the
optimum yield.