dc.description.abstract |
Field experiments were conducted where four at Sher-e-Bangla Agricultural
University, Dhaka and the rest one at at Shahpur, Charghat, Rajshahi to identify
climate change resilient heat tolerant varieties, suitable sowing dates, irrigation
regimes and application of supplemental N of wheat during two rabi seasons. The
first experiment conducted in 2014-15 rabi season consisted of two varieties (V
=
BARI Gom 21,V
2
=BARI Gom 23) four sowing dates (S
1
= 10 November, S
= 20
November, S
3
= 30 November, S
= 10 December). The second experiment
implemented in 2014-15 rabi season with variety BARI Gom 26 comprised three
irrigation levels (I
1 =
field capacity, I
4
2 =
of the field capacity and I
of the
field capacity), four sowing dates (S
1
=10 November, S
2
3 =
=20 November, S
=30
November and S
=10 December) and two top dressing of nitrogen at the
reproductive stage (N
4
1
= no nitrogen application, N
=20% N of the basal as top
dressing). Third experiment carried out in 2014-15 rabi season with BARI Gom 25
focused on four sowing dates (S
1
=10 November, S
2
2
= 20 November, S
= 30 November
and S
4
=10 December), three irrigation levels (I
=Irrigation at heading stage,
I
2
=Irrigation after 10 days of I
1,
I
3
1
=Irrigation after 10 days of I
) and two supplemental
N application at the post heading stage (N
0
2
= no supplemental N application and
N
=application of 20% supplemental N). The fourth and fifth experiments were
implemented during rabi 2016-17 season at SAU and Rajshahi, respectively to
examine phenology, chlorophyll, canopy temperature, growth and yield as
influenced by sowing dates (S
1
1
= November 20, S
2
= November 30, S
3
3
= Dec 10, S
= Dec
20, S
5
= Dec 30) and varieties (V
1
= BARI Gom 25,V
2
= BARI Gom 26, V
= BARI Gom 27,
V
4
= BARI Gom 28, V
5
= BARI Gom 29, V
= BARI Gom 30). In experiment 1 significantly,
the highest seed yields (4.23 - 4.27 t ha
6
-1
) were obtained with variety BARI Gom 23
when sown on November 10 and November 20. In experiment 2 significantly the
highest grain yields (3.2 to 4.3 t ha
-1
) were obtained with November 10 and
November 30 sowing treatments. Irrigation keeping the soil at field capacity level
showed significantly highest grain yield (3.95 t ha
-1
). In this experiment the
combination treatment I
1
S
2
N
2
had the highest grain yield (4.81 t ha
) which was
significantly different than other combination treatments. This was attributed to the
significantly higher number of grain spike
-1
(50.83) and 1000 seed weight (50.57 g) of
the treatment I
1
S
2
N
2
compared to the lowest grain spike
-1
3
-1
2
4
(46.83), 1000 seed weight
3
1
(48.90 g) when irrigated at 25% water of the field capacity . In experiment 3
November20 sowing gave the highest grain yield. Irrigation application at 10 days
after heading produced the highest grain yield (3.9 t ha
vii
-1
) which was at par with
irrigation at heading. The higher grain yield was attributed to the higher values of
grains spike
-1
(43.63) and 1000 seed weight (53.90 g). The combined effect of sowing
date and irrigation showed that November 20 sowing with giving irrigation either at
heading or 10 days after heading had significantly the highest grain yield (4.81 t ha
).
An extra irrigation 10 days after heading and supplying supplemental 20% N at post
heading stage in experiment 3 had seed yields (4.6-4.81 t ha
) which was
significantly higher than the lowest grain yield of November 10 sowing (3.3 t ha
)
under the above conditions. The November 20 sowing with extra N application had
higher grain yield (4.47 t ha
-1
). Again the combination treatments I
had significantly higher seed yields (4.480 and 4.600 tha
-1
respectively) than other
combined treatments. In Rajshahi (in experiment 4), the sowing date treatment
November 30 and December 10 gave significantly higher grain yields (at or over 3.52
t/ha). While in experiment five the varieties BARI Gom 28 and BARI Gom 30 at SAU
had significantly higher but identical seed yields (3.72 to 3.81 t ha
-1
). The correlation
analysis using the data of yield and yield attributes of the experiment 2 and 3 at
SAU, showed that higher correlations of grain yield were found with the number of
spikelet spike
-1
(r=0.820 - 0.814), 1000 seed weight (0.806-0.819), biological yield
(r=0.802-0.912) and harvest index (r=0.802-0.912). The linear as well as polynomial
regression showed that the higher temperature at the vegetative stage had positive
impact on grain weight/plant and grain yield ha
-1
1
(slope+6 to 2086, R
=0.120 to
0.957), while at the anthesis to maturity, values of most grain yield and yield
attributes decreased due the increase in ambient temperatures. The grain yield was
higher at minimum and average temperature not above 15.5 and 22.5°C,
respectively (R
2
=0.922-0.992). The polygonal regression also revealed that for
obtaining the maximum yield/ha, the maximum temperature should not be above
25.5°C before anthesis while the maximum, minimum and average temperature
after anthesis should not be beyond 29.5, 15.5 and 22.5°C, respectively. |
en_US |