Ph.D. Thesishttp://103.7.193.12:8080/xmlui/handle/123456789/1502026-04-17T15:36:34Z2026-04-17T15:36:34ZDEVELOPMENT OF HEALTHY SEED PRODUCTION TECHNOLOGY OF RADISH (RAPHANUS SATIVUS L.)RASHID, MD. MAMUNURhttp://103.7.193.12:8080/xmlui/handle/123456789/7832022-04-24T07:12:29Z2008-05-01T00:00:00ZDEVELOPMENT OF HEALTHY SEED PRODUCTION TECHNOLOGY OF RADISH (RAPHANUS SATIVUS L.)
RASHID, MD. MAMUNUR
Radish (Raphanus sativus L. var. Tasaki Mula) belonging to the family Cruciferae, the high
yielding tropical annual type, developed by the Bangladesh Agricultural Research Institute,
was used in the present investigations. In total, 27 seed samples were randomly collected
from 27 farmers comprising nine farmers from each of three upzillas viz. Thakurgaon sadar,
Birgonj and Kaharol of Dinajpur district for testing their quality and health status. Laboratory
studies revealed that all the seed samples were infected with Alternaria at different range of
infection (0.5-25.4%), Alternaria brassicae was recorded as the dominant pathogen, where A.
brassicicola wok alternata were found minor. The efficacies of four seed treating
fungicides (Iprodione, Mancozeb, Carbendazim and Vitavax-200) and one bio-control means
(BAU-Biofungicide) were tested for their performance of raising stickling in seed beds.
Among the chemicals, Mancozeb was found superior to other fungicides in terms of
increasing the field emergence and stickling stand by 53.16% and 65.38%, respectively and
lowering post emergence death by 58.91% over non-treated control. BAU-Biofungicide was
found statistically at par with Mancozeb where the field emergence and stickling stand were
increased by 40.65% and 50.59%, respectively over non-treated control with a decrease of
post emergence death by 47.39%. Pathogenicity studies in pots showed that Alternaria
brassicae, A. brassicicola and A. alternata were pathogenic to radish plants. But A. brassicae
was found as major and_A. brassicicola and A. alternata were minor pathogens. In field
studies on foliar spray’ Iprodione (0.25%) followed by Mancozeb (0.3%) provided maximum
control of Alternaria blight and increased seed yield. The results in second cropping Season
(2005-2006), 10 December (early) transplanting with three sprays of Iprodione resulted
lowest leaf area diseased, whereas plants in 25 December (normal) transplanting had the
lower pod area diseased. In third cropping season (2006-2007), 25 October transplantation
with BAU-Biofungicide (2.0%) and Iprodione (0.25%) foliar application showed significant
effect in reducing Alternaria blight and increased seed yield by 120.45% and 97.73%,
respectively over non-sprayed control. Bio-Biofungicide ranked second in reducing the
disease, but ranked first in increasing seed yield. The cost benefit analysis of management
practices for radish seed crop during 2005-2006 revealed that stickling transplanting in 25
December (normal) with two sprays of IprSdione (0.25%) yielded the highest return (BCR
3.27), whereas negative result (BCR -0.89) has been estimated in case of non-sprayed control
plots in late transplanting (10 January). But cost benefit analysis of cropping season 2006-
2007 revealed that BAU-Biofungicide (2.0%) six sprays yielded the highest return (BCR
4.41) followed by six sprays of Iprddione (BCR 3.90). Out of the three different storage
conditions (dehumidified, BADC storage and farmers house) and four different containers
(metal, glass bottle, polythene bag and plastic bottle), maximum germination (95.25%) with
lowest (3.00%) infection was recorded in dehumidified conditions in metal container, while
lowest germination (71.25%) with highest (6.25%) infection was obtained in case of farmers
conditions of plastic bottle. There was increase in starch, reducing sugar, non-reducing sugar
and ash in the diseased seed as compared to healthy looking seed but crude protein and crude
lipid were decreased in diseased seed as compared to healthy looking seed. Sugar was higher
in Alternaria infected seed than the healthy looking seeds of radish variety cv. Tasaki Mula.
Finally, it may be concluded that Integration of early transplanting (25 October) with foliar
sprays of BAU-Biofungicide (2.0%) was found best for eco-friendly management of
Alternaria blight of radish seed crop with significantly higher seed yield.
Radish (Raphanus sativus L., n=9) belonging to the family Cruciferae is a popular
and widely grown vegetable in Bangladesh as well as in different parts of the
world. It has multidimensional uses as dish item like vegetable, green leaf, salad,
pickle, sauce and also used as chicken feed. Radish gets its English name, as well
as similar names in French and Italian, from radix, the Latin word for "root,"
especially a radish root. Radish is thought to be originated in Caspian-sea to EastMediterranean region. But Italy is the origin of wild annual radish and East-Syria is
the origin of biennial radish (Rashid, 1999). It is the third most important vegetable
crop next to potato and eggplant (Rashid, 1999) and fifth most important vegetable
seed crop next to onion, amaranth, eggplant and chillies in Bangladesh (Anon.,
1997). Now days this crop is being cultivated round the year. At present 445 tons of
radish seeds are produced in 44 thousand hectares of land in the country. Total
requirement of radish seed in Bangladesh is above 700 tons for vegetable purposes
(Anon., 1997). Out of the total requirement, 48% is locally produced by
tremment, NGOs and some seed companies and rest 52% is imported from
abroad (Hoque. 2005). The cultivation of radish as seed crop has become very
popular among the vegetable growers of the Dinajpur region of Bangladesh and
now it is zero alternative fast coming vegetables cum green leaves at scarcity
period of vegetables due to prevailing long time flood and rains.
2008-05-01T00:00:00ZBIOLOGICAL CONTROL OF ROOT-KNOT OF TOMATOHASSAN, S. M. A EMDADULhttp://103.7.193.12:8080/xmlui/handle/123456789/1512022-04-18T08:28:45Z2010-05-01T00:00:00ZBIOLOGICAL CONTROL OF ROOT-KNOT OF TOMATO
HASSAN, S. M. A EMDADUL
Extracts of botanicals viz. leaf extracts of neem (Azadirachta indica), marigold (Tagetes
patula), dholkalmi (Ipomoea fistulosa), bashak (Adhatoda vasica), shatodrone (Leucas
aspera), tulsi (Ocimum sanctum), datura (Datura metal), durba (Cynodon dactylon), thunkuni
(Centella asiatica) and biskathali (Polygonum hydropiper); rhizome extracts of ginger
(Zingiber officinale) and turmeric (Curcuma longa); mustard (Brassica campestris) oil-cake
extract, bulb extract of onion (Allium cepa) and garlic (Allium sativum); fruit extracts of
bitter-gourd (Momordica charantia) and pineapple (Ananas comosus) and root extract of
shatamuli (Asparagus racemosus) along with BAU-Biofungicide were evaluated in the
laboratory on juvenile (Jz stage) mortality of Meloidogyne javanica. The studies were
conducted in the laboratory and in the field laboratory of the Department of Plant Pathology,
Hajee Mohammad Danesh Science and Technology University (HSTU), Dinajpur,
Bangladesh. Out of eighteen extracts of botanicals, Adhatoda vasica (S/100) has been found
more effective followed by Ananas comosus (S/10), Brassica napus oil-cake (S/10) and
Tagetes patula (S/10) on 100% juvenile (Jz stage) mortality of Meloidogyne javanica after 96
hour of exposure in-vitro. BAU-Biofungicide (2%) exerted superior result on juvenile
mortality of Meloidogyne javanica. In case of pot experiment, seven selected extracts of
botanicals (leaf extracts of Azadirachta indica, Tagetes patula, Ipomoea fistulosa and
Adhatoda vasica; rhizome extract of Zingiber officinale, oil-cake extract of Brassica
campestris and fruit extract of Ananas comosus) and BAU-Biofungicide were evaluated
against root-knot (Meloidogyne javanica) of tomato var. Raton. Out of the botanical extracts,
bashak (Adhatoda vasica) followed by pineapple (Ananas comosus) showed better
performance on shoot and root length, shoot and root weight with higher yield of tomato
consequently with the reduced galling as well as suppressed number of eggmass, Jo, J3, J4
stages and adult females of Meloidogyne javanica. But BAU-Biofungicide was found
superior over the extracts of botanicals. In seedbed experiment, seed treatment with BAUBiofungicide resulted higher response on plant growth of tomato as well as reduced galling
incidence, eggmass, juveniles and adult female in tomato root-knot (Meloidogyne javanica)
of 30 days old tomato seedling over the control. The selected extracts of botanicals (leaf
extracts of Azadirachta indica, Tagetes patula, Ipomoea fistulosa and Adhatoda vasica,
thizome extract of Zingiber officinale, oil-cake extract of Brassica campestris and fruit
extract of Ananas comosus), BAU-Biofungicide and curaterr were evaluated against rootknot (Meloidogyne javanica) of tomato var. Raton under field condition. Higher plant growth
(length of shoot and root, weight of shoot and root), fruit yield (number of fruit as well as
weight of fruit per plant) corresponding lower galling incidence (number of galls/g root),
eggmass, Jo, J3, J4 and adult females in tomato plants were recorded by applying BAUBiofungicide and curaterr. Out of the extracts of botanicals used, Adhatoda vasica was found
superior in controlling root-knot (Meloidogyne javanica) of tomato followed by Ananas
comosus by root dipping plus soil drenching after 7 days of transplantation. The highest
benefit-cost ratio was recorded in case of BAU-Biofungicide (2%) as root dipping and soil
drenching (2%) after 7 days of transplantation followed by spraying of BAU-Biofungicide
(2%) at every 10 days interval initiated 14 days after transplantation at 90 days after
inoculation.
Tomato (Lycopersicon lycopersicum L.) belonging to the family solanaceae is one of the
most important, popular and nutritious vegetable crops grown in the country. It is abundantly
available in the winter season in Bangladesh. At present, tomato ranks third next to potato
and sweet potato in terms of world vegetable production (FAO, 2008) and tops the list of
canned vegetables (Choudhury, 1979). Besides, it ranks second in importance to potato in the
tropics on the basis of production and economic importance. In Bangladesh, 19.8 thousand
hectare of land was under cultivation of tomato where total production was 143.0 thousand
metric tons per annum approximately (BBS, 2008). However, its yield in Bangladesh (6.82 t /
ha) is much lower compared to even the neighbouring countries like India (17.00 t / ha),
Pakistan (9.67 t / ha), Srilanka (7.57 t / ha), Philippines (8.77 t / ha) and Thailand (23.79 t /
ha) as per FAO (2008) because of its poor agronomic practices and lack of proper disease
management (Hassan et al. 2005 a).
2010-05-01T00:00:00Z