Abstract:
The experiment was conducted in a net house of Soil Science Department at Sher-e-
l3angla Agricultural University. Dhaka. Bangladesh during the period from July 2011 to
April 2012 to study the effect of fertilizer and manure application on yield and yield
components of rice and leaching toss of nutrients through undisturbed soil columns. The
experiment consists of 2 factors i. e. soils and fertilizer plus manure. Two levels of soils
(S1 = SAU Soil and
L. it) r a r y
S2=
Sonargaon Soil) with 4 levels of fertilizer plus manure, as
Control, T1
: 100% N120 P20K45
S20 (Recommended dose). 12: 50% NPKS + 5 ton
cowdung/ha, 13
: 50% NPKS + 2.1 ton poultry manure/ha. were imposed during T.Aman
and boro rice season. T. Aman (BR! 1) and Boro rice (BRRI dhan29) were grown in the
soil cores and fertilizer and manure treatments were applied to the soils. There were 8
treatment combinations and 3 replications. Results revealed that soil had no significant
effect on the yield and yield parameters. The yield contributing characters and yields
were significantly affected by fertilizer and manure application. During T.Anian season,
the highest effective tillers/core (17.00), plant height (105.57 cm), panicle length (23.70
cm), grain yield (0.046 kg/core) and straw yield (0.053 kg/core) were found from T
1
(R1)CF) treatment. The highest 1000 grain wt. (23.70 g) was obtained from T
2
and filled
grain/panicle (121.83 ) from T
3
treatment and the lowest in To treatment. The highest
grain yields was found by the application of Recommended dose of chemical fertilizer
which was statically similar to T
3
treatment. The combined effects of soil and fertilizer
were not significant but the highest grain (0.049 kg/core) and
straw yields (0.056
kg/core) were recorded from S2T1 (Sonargaon Soil + 100% NPKS) and the lowest (0.010
kg/core) from S
1 T0
(SAU Soil) treatment combination. Leachate samples were collected
at
25. 35, 45, 55. 65
and 75 days after transplantation of T. Aman rice and analyzed for
N, P. K and S by using standard analytical method. The N concentration in the leachate
during varied significantly with different soil, fertilizer treatment and time.
The higher N concentrations were found in the leachate of SAU (5,) soil compared to
Sonargaon soil. Higher leachate K concentrations were found in Sonargaon soil
compared to SAU soil. Among the fertilizer treatments, significantly higher
concentrations of K were found in the leachate of 100% chemical fertilizer treatment
compared to other. 1-ligher S concentrations were found in the leachate of SAU soil
compared to Sonargaon soil. The l3oro rice grain nutrient concentrations were
significantly affected by the application of fertilizer and manure. The highest
concentrations of grain N (1.205%). p (0.261%), K (0.296%) were recorded from 12 and
concentration of S (0.125%) was highest from T treatment and lowest from To
treatment. The higher nutrient concentrations were recorded in S
1 T3. S,T
2
5212. 5211,
treatment combination. After harvest of J3oro rice, the post-harvest soil samples were
collected from the soil cores up to 20 cm depth at 10 cm intervals. Similarly. highest
grain and straw yields of horo rice were obtained from T
1
treatment which was statically
and T3
treatment. The levels of pH and nutrient concentration were
increased in the post harvest soils where manure plus inorganic fertilizer were used.
Description:
A Thesis
Submitted to the Department of Soil Science
Sher-e-Bangla Agricultural University, Dhaka,
in partial fulfillment of the requirements
for the degree of
MASTER OF SCIENCE
IN
SOIL SCIENCE
SEMESTER: JULY-DECEMBER, 2013