Abstract:
A long term investigation on the influence of rice straw application on grain yield, yield
components and growth parameters of rice with special reference to soil organic matter and
microbiology in rain-fed wetland rice fields with different yield levels in the Low Country
Intermediate Zone of Sri Lanka was carried out. Makandura and Wariyapola were selected
as the experimental sites. The cut off point to separate high and low yielding environments
was taken as 1.50 t/ha. An experiment with six treatments laid out in a randomized
complete block design with two replications was conducted over eight consecutive
cultivation seasons of yala and maha from 1996 to 2000 at both sites. All yala seasons at
Wariyapola were considered as low yielding environments. The plot size of the experiment
was 6 m x 3 m. The treatments included in the experiment were: (i) straw (2 t/ ha) with
inorganic fertilizer ‘a’, (ii) straw (3 M ha) with inorganic fertilizer ‘b\ (iii) only straw 21/ ha, (iv)
only straw 3 t/ ha, (v) only inorganic fertilizer and (vi) the control (neither straw nor inorganic
fertilizer). Application of straw alone increased rice yield only in environments with yield
levels higher than 1.5 t/ ha. Application of inorganic fertilizer in addition to straw could
further enhance grain yield due to increase in number of filled grains per panicle and 1000
grain weight as a result of increase in crop growth. Application of rice straw together with
inorganic fertilizer initially increased microbial growth which in turn may have increased the
decomposition and release of native nutrients in the soil organic matter. Long term
application of rice straw did not deplete soil N and P levels but improved the soil K level
over time irrespective of the yield level of the environment. A relatively high level of soil
organic matter content could be maintained even in deeper layers of soil when the soil was
incorporated with straw. Increase in the organic matter content in the soil resulted in
increase in grain yield in a field which was free from inorganic fertilizer. The soil microbial
activity increased with the increase in straw level irrespective of the season and the yield
level of the environment. No association was found between microbial activity and grain
yield and soil microbial activity was reduced by the application of inorganic fertilizer. The
soil microbial activity was measured by C02 emission caused by soil respiration. The total
soil bacterial population increased with the increase in straw level irrespective of the season
and yield levels of the environment. Strong associations of soil bacterial population with
grain yield of rice and soil organic matter content were found in an environment free from
inorganic fertilizer. What was interesting here was that application of straw resulted in
increase in bacterial population in rice soils, which in turn resulted in increase in grain yield
of rice under an inorganic fertilizer free environment. Soil organic matter content governed
the density of soil microbes hence may have increased microbial activity and nutrient
recycling.