Determination of optimum seed size and quantity of coating materials for monogerm sugar beet seed
D.F.
Taleghani
Sugar Beet Seed Institute – Iran
author
M.
Dehghanshoar
Sugar Beet Seed Institute – Iran
author
A.
Ghasemi
Sugar Beet Seed Institute – Iran
author
V.
Yossefabadi
Sugar Beet Seed Institute – Iran
author
M.A.
Chegini
Sugar Beet Seed Institute – Iran
author
M.
Mesbah
Sugar Beet Seed Institute – Iran
author
F.
Hamdi
Sugar Beet Seed Institute – Iran
author
text
article
2003
per
In order to determination of optimum quantity of seed pelleting materials due to sugar beet monogerm seed size. This study was carried out in seed technology department during 1997-1998. Monogerm cultiver 9597 seed lot (300kg) was firstly graded by 7 round sieves and then 7 rectangle sieves graded each bound. Some factors such as germination , monogermity and proportionate seed pelleting materials due to seed size evaluated of categories seven bounds contained 70% of total weight which had hormal seedling carsteristies. All categories nacked seed lots were coated with 1/1, 1/2 and 1/3 ratio of seed weighty pelleting materials composition, respectively. Germination, monogermity and uniformity and some other factors were determined on pelleted seeds. Results showed that the over using seed pelleting material (1/3) had negative effect on germination and uniformity. This results indicated that tooptaind acceptable germination and uniformity in emergence the proportion of seed pelleting material and seed weight should be 1/1 respectively. The results indicated suitable germination and uniformity in emergence created by 1/1 ratio of seed pelleting material and seed weight.
Journal of Sugar Beet
Sugar Beet Seed Institute
1735-0670
18
v.
2
no.
2003
95
108
https://jsb.areeo.ac.ir/article_8276_5eb15d693b61d43d02e8da6a353e9d0e.pdf
dx.doi.org/10.22092/jsb.2003.8276
Effect of beet mosaic virus on sugar beet seed yield in greenhouse condition
S.
Jalali
Plant Pests and Diseases Dept., Isfahan Agricultural Research Center
author
GH. H.
Masahebi
Tehran Univ., College of Agriculture, Iran
author
M.
Okhovat
Tehran Univ., College of Agriculture, Iran
author
text
article
2003
per
In order to study the effect of beet mosaic virus on sugarbeet seed yield, an isolate of beet mosaic virus was collected from sugarbeet fields in Karaj and biologically was purified by inoculation on Chenopodium amaranticolor and propagated on Beta vulgaris cv. Cicla under greenhouse conditions. The infected sap was inoculated on leaves of sugar beet 7233 variety at two stages, after and before vernalization using a randomized complete design. with 3 treatments and 4 replication. The results showed that infection of plants before vernalization had a serious losses on seed yield. Seed production was decreased 43% as compared with healthy plants (Checks) and showed significant differences with the control. Also, stem length of the infected plants were 33.2% shorter than healthy plants as significant differences with the control. Infection of the plants after vernalization had no significant differences with the control and yield losses were about 7%.
Journal of Sugar Beet
Sugar Beet Seed Institute
1735-0670
18
v.
2
no.
2003
109
118
https://jsb.areeo.ac.ir/article_8278_d045c27b1f671d1c1512adfa42d08b28.pdf
dx.doi.org/10.22092/jsb.2003.8278
Study of autumn sowing of sugar beet in the tropical areas of kermanshah province
J.
Basati1
kermanshah agricultural research center , Iran
author
M.
Kolivand
kermanshah agricultural research center , Iran
author
A.
Neamati
kermanshah agricultural research center , Iran
author
A.
Zareii
kermanshah agricultural research center , Iran
author
text
article
2003
per
Sugar is very important role in humanbeing feed. for sugar Beet production in tropical area detemine sowing and harvesting date is very important . For this reason three sowing date (1 sep, 20 sep and 10 oct) and three harvesting date (15 Apr, 15 may and 15 jun) in complete Blouck design as factorial with three replication in two year in Sarpol area condoucted. Results showed that the first sowing date has highest bolting and third sowing date has lowest bolting. Thirs harvest date has highest level of bolting. Root yield in the first sowing date more than the other. Interaction between two factors showed that 1 Sep sowing date * 15 May harvesting date for root yield was very better than the other interaction factors . The best date of sowing in this area was until 20 Sep and for date harvest was 15 May . For development of sugar beet caltivated in this area need to more investigation.
Journal of Sugar Beet
Sugar Beet Seed Institute
1735-0670
18
v.
2
no.
2003
119
130
https://jsb.areeo.ac.ir/article_8279_1f0cfa0e3fd15d929e1731fa795135d6.pdf
dx.doi.org/10.22092/jsb.2003.8279
Determination of favorite harvesting date of three sugar beet varieties in Hamedan
H.
Ebrahimi koulaei
Agriculture Research Center of Hamedan
author
text
article
2003
per
Short growing season in cold regions is an important factor in not achieving a maximum root yield in sugar beet crop. In an investigation on possible ways to limit the effect of short season culture on the crop, six harvest dates and three sugar beet varieties were considered. The experiment was conducted as a factorial with randomized complete block design in three replications, from 1996-1998 at Ekbatan Research station in Hamedan. Planting dates (The beginning of May) and all cultural practices were kept identical for all treatments. Sugar beet harvest was carried out at selected dates, and data were collected for statistical analysis. Results of ANOVA showed that there were significant differences among sugar beet lines, with BR1 showing the highest: root yield, sugar content and white sugar yield as companed to two other lines. Significant differences were observed for root yield, raw sugar yield, white sugar yield, sugar content, the coefficient of extraction and profit gained in different harvest dates. The two dates of Oct. 12 and Nov. 11, were superior to Sept. 23 and Oct. 2 in all parameters. The highest raw sugar and white sugar content were obtained in Nov. 11 harvest date as compared to others. The highest sugar yield and white sugar yield with 10.09 t/ha and 8.7 t/ha respectively belonged to the harvest of No. 11, which excepted for the No. 1, differed significantly with other harvest dates, coefficient of sugar extraction was increased for the late harvest and the three late harvests, were superior to the early ones regarding average profit obtained in three years and that of the year 2000. Harvest dates of Nov. 11, Nov 1, Nov. 21, Oct 12 and Oct. 2 were respectively 46, 39, 33, 26 and 17% higher as compared to profit of the Sept. 23 harvest date.
Journal of Sugar Beet
Sugar Beet Seed Institute
1735-0670
18
v.
2
no.
2003
131
142
https://jsb.areeo.ac.ir/article_8280_8ff2b8af441524066dd571e59f9aac29.pdf
dx.doi.org/10.22092/jsb.2003.8280
Identification of Fusarium species associated with sugar beet root in Khorasan province and investigation of the pathogenicity of Fusarium oxysporum
R.
Dastjerdi
Seed and Plant Improvement Institute, Iran
author
M.
Falahati-Rastegar
Department of Plant Pathology, Collage of Agriculture, University of Mashhad- Iran
author
B.
Jafarpoor
Department of Plant Pathology, Collage of Agriculture, University of Mashhad, Iran
author
text
article
2003
per
This study was carried out to identify Fusarium species associated with sugar beet root rot and yellows. Pathogenicity of Fusarium oxysporum, the causal agent of Fusariumyellows of sugar beet was also investigated. Samples of infected roots were collected from fields in major sugar beet producing areas in Khorasan province during 1999-2000. Infected roots were washed, surface sterilised and plated on PDA. One hundred sixty eight isolates of Fusarium spp. were recovered. Seven species were identified including Fusarium solani (42 isolates), F. oxysporum (31 isolates), F. acuminatum (27 isolates), F. avenaceum (23 isolates), F. moniliforme (19 isolates), F. equiseti (16 isolates) and F. culmorum (10 isolates). All isolates of F. oxysporum were tested for their pathogenicity on seedlings and matured sugar beet plants. The results showed that 12 isolates (38.7%) of F. oxysporum were non-pathogenic, and 19 isolates (61.3%) were pathogenic.
Journal of Sugar Beet
Sugar Beet Seed Institute
1735-0670
18
v.
2
no.
2003
143
154
https://jsb.areeo.ac.ir/article_8281_1fdac8e166172ea04676836574ddd9e3.pdf
dx.doi.org/10.22092/jsb.2003.8281
Histopathological study of resistance to Cercospora beticola in sugar beet
S.
Abbasi
Tarbiat Modarres Univ. College of Agriculture
author
A.
Alizadeh
Tarbiat Modarres Univ. College of Agriculture
author
M.
Mesbah
Sugar Beet Seed Institute, Iran
author
E.
Mohammadi
Tarbiat Modarres Univ. College of Agriculture, Iran
author
text
article
2003
per
Infection process including spore germination, penetration and intercellular development of Cercospora beticola in the mesophyll of immature and mature leaves of two resistant (FD0018 and HM1836) and a susceptible genotypes (236) of sugar beet were studied, in order to determine the relative importance of defense phenomena in pre and post-penetration stage of infection to the pathogen in sugar beet. The results indicated that pre-penetration stages had no importance in resistance because there was no significant difference between resistant and susceptible genotypes, but in endophytic phase some penetrating germ tubes in resistant genotype stopped in initial stages and did not develop to necrotic phase.
Journal of Sugar Beet
Sugar Beet Seed Institute
1735-0670
18
v.
2
no.
2003
167
155
https://jsb.areeo.ac.ir/article_8282_3efb7242790c1e77402be407292e7488.pdf
dx.doi.org/10.22092/jsb.2003.8282
Short note- New approach to the management of genetically modified herbicide tolerant sugar beet
M.
Abdollahian-Noghabi
Sugar Beet Seed Institute, Iran
author
text
article
2003
per
Journal of Sugar Beet
Sugar Beet Seed Institute
1735-0670
18
v.
2
no.
2003
167
168
https://jsb.areeo.ac.ir/article_8284_2db8101148e44d87099de1c7847de786.pdf
dx.doi.org/10.22092/jsb.2003.8284