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Abstract
A 3-year project was implemented jointly by Sher-e-Bangla Agricultural
University, Dhaka; Agrarian Research Foundation, Dhaka; and Bangladesh Wheat
and Maize Research Institute, Dinajpur during 2015 to 2017 to find out better
performing varieties out of 47 and generate technologies for white maize
production in Bangladesh under a project named 'Collection, Evaluation and
Introduction of White Maize for Consumption in Bangladesh' using the funds of
Krishi Gobeshona Foundation. The project was implemented by Sher-e-Bangla
Agricultural University, Dhaka and WRSS, Dinajpur) both on stations and in
farmers field of six different agro climatic zones (Dhamrai, Rangpur, Dinajpur,
Barisal, Bandarban, Nilphamari). In Rabi season, the varieties (PSC-121,
Changnuo-l, Q-Xiangnuo -1, Changnuo-6, Yangnuo-30 , BRAC Uttoron, BRAC2622,
Yangnuo-3000, Shuvra, Yu2, CIMMYT lines 15003,15010,15009,15007,
14003, 15006, 15008) ) significantly yielded higher (7.160-12.948 t/ha) in Dhaka
region in rabi season. At Rangpur, the variety Changnuo-l produced significantly
higher yields showing seed yield range of 6.348-12.165 t/ha). At Bandarban:
varieties PSC-121 showed higher seed yields (7.717-9.103 tons/ha), while the
CIMMYT lines (14003, 15003, 15008, 15010) produced significantly higher seed
yields (13.122-14.074 t/ha). At Dinajpur, the varieties PSC-121, Yangnuo-30
and Changnuo-6 proved to be better giving yield up to 8.61-11.749 tlha, while the
CIMMYT lines 15001, 15003, 15010 and 14003 gave significantly higher yields
from 14.373-15.041 t/ha. At Nilphamari, the variety PSC-121 showed the highest
seed yield of 10.590 t/ha. At Barishal, PSC-121 and KS-510 produced yields
6.422 and 7.585 tons/ha, respectively. In Kharif season, the variety Yangnuo3000
and PSC-121 were consistent showing seed yields of 5.353-5.915 t/ha in
Dhaka region. Almost in all the regions, using 100-125% of the fertilizer dose as
recommended for the HYVs by BARI had significantly higher seed yield (8.284-
11.635 tlha) as compared to lower doses. But in Nilphamari, significantly the
highest yield was obtained using 150% more dose. At Dhamrai: Fertilizer dose
125% had the highest seed yield (7.901 tlha). But at Rangpur fertilizer dose 100125%
had higher seed yield. Planting configuration using row to row spacing
from 50 ern x 25 ern were proved to be optimum. Nutritional analyses showed
that the local white maize varieties had highest protein content (1l.75%) than the
exotic and inland HYVs (7.11-8.22%). On an average, white maize had higher protein content than the yellow ones. Maximum fat content was obtained with
Suvra (4.39%), while the fiber with PSC-121 (2.93%), ash with local (1.69%) and
carbohydrate with Changnuo-l. The maximum apparent amylose content (AAC)
was with Changnuo-l and Suvra (around 24.5%) while the least in local (6.83%).
The highest glycemic index (GI) was obtained with Yangnuo-7 and local maize
(71 %) while other varieties showed glycemic index a bit over 60%. Leaf clipping
trials showed that removal of uppermost three leaves had no significant effect on
the yield reduction of maize. Irrigation lesser than four (25QAS+50DAS+
75DAS+ 1OODAS) reduced seed yields significantly. Spraying antitranspirant
'Kaolin' at vegetative stage with 1%, while at tasseling stage with 3% increased
seed yields significantly as compared to no application. Alternate furrow
irrigation reduced seed yield (by 14%) significantly. Seedling transplanting
reduced the seed yield by 15% as compared to the direct sown crops (6.035 vs
5.141 t/ha). Results from two different herbicides (aryl triazolinones and
Pendimethalin) showed that moistening upper soil layer with a post emergence
application of Pendimethalin 1.5 between two adjacent lines yielded the highest
(8.817 t/ha). Weeding experiments showed that weeding at 60 DAS and complete
weeding treatments had identical seed yields (9.675 and 9.213, respectively).
Key words: generated, technologies, cultivation, white maize, production. |
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