2012, July (Vol. 6, No. 2)http://localhost:8080/handle/123456789/22122026-04-18T16:17:36Z2026-04-18T16:17:36ZYIELD PERFORMANCE OF TEN MUNGBEAN GENOTYPES AT MAGURASultana, N.Alam, M. S.http://localhost:8080/handle/123456789/22352019-02-20T04:59:19Z2011-01-01T00:00:00ZYIELD PERFORMANCE OF TEN MUNGBEAN GENOTYPES AT MAGURA
Sultana, N.; Alam, M. S.
With a view to study the performance of summer mungbean genotypes in respect of yield and yield attributes,
an experiment was carried out in the experiment Held of Bangladesh Institute of Nuclear Agriculture sub-station
at Magura during the period from February 2006 to May 2006. The experimental treatment comprised often
genotypes viz. N4J-207, N4.1-210, N2M-402, EiJ-603, EJ-60S, E2M-SII, E.I-913, Binarnoog-S, Binamoog-7
and Barimoog-S. Among the genotypes, last three were widely cultivated varieties and the rest seven were
advanced mutants. The experiment was laid out in Randomized Complete Block Design (RCBD) with tour
replications. The results indicated that the plant height, number of branches plant"], TDM plant"], number of
pods plant"], pod length, number of seeds plant"], lOOO-seedweight, seed yield plant"], seed yield m"l and
harvest index varied significantly among the genotypes. It was observed that the highest plant height (4S.S3 em)
and maximum number of branches (9.75) were produced by the genotype EjJ-603, but maximum number of
pods plant"] (2S.40) and number of seeds plant"] (176.00) were produced by the genotype N4J-207. The
genotype Barimoog-5 produced the highest pod length (7.S7 em) and lOOO-seed weight (47.00 g). Maximum
total dry matter (20.96 g) was produced by the genotype N2M-402. The genotype N4J-207 produced maximum
seed yield/plant (6.69 g), seed yield/m2 and the maximum harvest index (47.67%). The mutant N4J-207 may be
released after few more trials in farmers' Held for commercial cultivation.
2011-01-01T00:00:00ZEFFECT OF FUNGICIDES, BOTANICALS AND NUTRIENTS ON PURPLE BLOTCH OF ONIONHossain, K. M. K.Islam, M. R.Amlnuzzamarr, F. M.Hosen, M. I.http://localhost:8080/handle/123456789/22342019-02-20T04:56:40Z2011-01-01T00:00:00ZEFFECT OF FUNGICIDES, BOTANICALS AND NUTRIENTS ON PURPLE BLOTCH OF ONION
Hossain, K. M. K.; Islam, M. R.; Amlnuzzamarr, F. M.; Hosen, M. I.
A field experiment was conducted to evaluate the nine treatments using botanicals, nutrients and fungicides
against purple blotch of onion caused by Alternaria porri. Both fungicides and botanicals were used as seed
bulb treatments and foliar spray while the three nutrients B, Sand Zn were applied to the soil of unit plots under
all treatments as basal dose except control. The experiment was laid out in a randomized complete block design
CRCBD) comprising three replications. The highest reduction of disease severity of purple blotch of onion was
obtained by the application of Rovral 50 WP @ 0.2% in combination of nutrients followed by Ridomil Gold
MZ-72 @ 0.2% with nutrients and gave the maximum height of umbel stalk, number of onion seed stalk",
number of umbel plot", umbel diameter, 1000 seed weight and seed-yield, The highest onion seed yield 650 kg
ha" was recorded from the application of Rovral 50 WP @ 0.2% combination with nutrients followed by 590
kg ha-I from Ridomil Gold MZ-72 @ 0.2% adding with nutrients. Neem leaf extract gave the better
performance than Allamanda leaf extract in reducing the disease incidence, severity and increasing seed yield
and improving yield contributing characters of onion. The most effective fungicide was Rovral 50 WP followed
. by Ridomil Gold MZ-72 and Dithane M-45 gave 61.11, 48.15 and 42.65% reduction in disease severity and
58.64,43.90 and 39.83% increase in seed yield, respectively. At least eight sprays with seven days interval are
required to achieve satisfactory results.
2011-01-01T00:00:00ZAPPRAISAL OF SUIT ABILITY OF SHEEP CARCASS IN A COMMERCIAL SLAUGHTER HOUSEHossain, M. M.Rahman, M. A.Talukder, A. K.Islam, M. S.http://localhost:8080/handle/123456789/22332019-02-20T04:52:36Z2011-01-01T00:00:00ZAPPRAISAL OF SUIT ABILITY OF SHEEP CARCASS IN A COMMERCIAL SLAUGHTER HOUSE
Hossain, M. M.; Rahman, M. A.; Talukder, A. K.; Islam, M. S.
The study identified the common causes of organs and whole carcass condemnation of slaughtered sheep in a
commercial abattoir in Bangladesh. A total number of 8046 sheep were slaughtered during the period from July
2007 to June 2008. Animals were undertaken into three ante-mortem inspections from arrival to slaughter. The
first inspection was done immediately after unloading of animal, second during resting of the animals and the
last inspection was performed before slaughtering of the animals. A total number of 703 organs from carcasses
were condemned due to several reasons. The liver (42%) and lungs (39.1) were the most condemned organs in
sheep. Fascioliasis was the leading cause of liver condemnation in sheep (86.8%). Pneumonia was the main
cause of lung condemnations at the rate of 54.5% in sheep. Hydatidiosis caused both liver (6.4%) and lungs
(40%) condemnation in sheep. Abscess was also responsible for organ condemnation affecting liver (6.8%),
lungs (5.5%) and kidney (30.8%) in sheep. The major cause of muscles condemnation of sheep were due to
cystocercosis (75.0%) and grass seed poisoning especially sorghum poisoning (25.0%).Grass seed poisoning
was the only cause that was responsible for three sheep carcass whole condemnation. The results of the present
study concluded that liver and lungs were the mostly affected organs to be condemned caused by mainly
fascioliasis and pneumonia in sheep and grass seed poisoning was the single cause for whole carcass
condemnation in sheep
2011-01-01T00:00:00ZSTUDY ON PLANT DIVERSITY IN SHER-E-BANGLA AGRICULTURAL UNIVERSITY CAMPUSSultana, N.Mahmud, J. A.Solaiman, A. H. M.http://localhost:8080/handle/123456789/22322019-02-20T04:43:12Z2011-01-01T00:00:00ZSTUDY ON PLANT DIVERSITY IN SHER-E-BANGLA AGRICULTURAL UNIVERSITY CAMPUS
Sultana, N.; Mahmud, J. A.; Solaiman, A. H. M.
A survey carried out to assess the plant diversity and conservation of plant genetic resources in Sher-e-Bangia
Agricultural University, Dhaka. The data were collected during May 2011 to April 2012. The total number of
plants belongs to 150 families under 244 genera and 319 species respectively. Out of all plant species 19 timber
species (including 13 genera and II families), 42 fruit plant species (28 genera 19 families), 61 medicinal plant
species (55 genera and 34 families), 78 flower plant species (51 genera 27 families), 40 ornamental plant
species (33 genera and 24 families), 41 vegetable plant species (30 genera 16 families), 13 spices plant species
(II genera 8 families), 6 fodder plant species (6 genera and 5 families), 5 bamboo plant species (2 genera I
families), 3 ficus plant species (l genus and I family), 2 fibre plant species (2 genus and 2 family), to palm
plants (lO genera and 2 families), 2 rubber plants (2 genera and I families) have been documented. All the
species, 133 were found abundantly, while 73, 31, and 85 plants species respectively were recorded frequently,
occasionally and rarely in the studied area. Out of total species 119 are trees, 75 shrubs, 85 herbs, 35 climbers
and 5 woody grasses in habit. Fabaceae is the largest family having many plant species. A record on the plant
genetic resources of Sher-e-Bangia Agricultural University have also been developed with the taxonomic ways
of resources. Huge number of plant species are found as rare and threatened. Some suggestions have been made
to enhance the co
2011-01-01T00:00:00Z