Year 2002http://localhost:8080/handle/123456789/27502026-04-04T13:34:04Z2026-04-04T13:34:04ZGENETIC STIDIFJS ON EDIBLE POD YIELD IN F2 DIALLEL POPULATION OF LABLAB BEAN (Lablabpurpureus L.)RAHMAN, JAM ILURhttp://localhost:8080/handle/123456789/4982019-10-20T05:36:40Z2002-11-01T00:00:00ZGENETIC STIDIFJS ON EDIBLE POD YIELD IN F2 DIALLEL POPULATION OF LABLAB BEAN (Lablabpurpureus L.)
RAHMAN, JAM ILUR
A 6 x 6 F2 diallel experiment (without reciprocal) on Lablab bean (Lablab
purpurezt L.) was conducted to study combining ability and inheritance in some
selected genotypes for pod yield and other related characters such as flowering, pod
setting, no. of inllorescences per plant, no. of flowers per inflorescence, no. of pods
per inflorescence, inflorescence length, pod length, pod width, 10-pod weight and
20-seed weight.
There were significant variations among the genotypes for all the characters
studied. Variances for general combining ability (gca) and specific combining
ability (sea) were significant for ten out of eleven characters including pod yield
per plant, suggesting the presence of both additive and non-additive components in
the genetic systems of these characters. For days to l' flowering and I St pod setting,
the genetic system was predominantly of non-additive gene action. The parental
genotype DS-52 was found to be the best general combiner for early flowering, pod
setting and 20-seed weight. The parent DSN-26 was the best general combiner for
inflorescences per plant, pod length, pod width, 10-pod weight and also for pod
yield per plant. For sea effect the cross DS-52 x DS-161 and DS-30 x DSN-26
were the best specific combiners for early flowering and early pod setting. For 10-
pod weight and pod yield per plant the cross DSN-26 x KBS-3 and DS-30 x KBS-2
were the best specific combiners.
Vr-Wr analysis relating to graphical presentation of major genetic features
were done for all the eleven characters. Complete dominance was observed for pod
yield per plant, partial dominance for no, of flowers per inflorescence, pod length,
10-pod weight, and 20-seed weight. While overdominance was recorded for days to
l flowering, days to 1M pod setting, no. of infloreseenees per plant, no. of pods per
inflorescence, inflorescence length and pod width.
Components of variation and various genetic parameters such as degree of
dominance, dominance ratio, narrow sense heritability etc. were estimated. Results
showed that positive and negative alleles were in unequal proportion among the
parents for all characters. The dominant alleles were in excess for all characters
except pod length, pod width and 20-seed weight. Dominant and recessive genes
were unequally distributed in the parents for all characters. High narrow sense
heritability was observed for pod yield per plant and 10-pod weight, whereas for
the others it was moderate to poor.
A Thesis
By
JAM ILUR RAUMAN
Examination Roll No. O1AgGPB-JD 13M
Registration No. 20508 (1993-94)
Semester July - December, 2002
2002-11-01T00:00:00ZMIXING ABILITY AND INTER.-GENOTYPIC COMPETITION FROM 7x7 UNIBLENDS AND BIBLENDS OF SOYBEAN GENOTYPESMAIIMUD, FIROZhttp://localhost:8080/handle/123456789/4952019-10-20T05:32:22Z2002-11-01T00:00:00ZMIXING ABILITY AND INTER.-GENOTYPIC COMPETITION FROM 7x7 UNIBLENDS AND BIBLENDS OF SOYBEAN GENOTYPES
MAIIMUD, FIROZ
Mixing ability and inter-genotypic competition from 70 mechanical diallel mixtures
excluding reciprocals of Soybean (Glycine mat L.) were studied, during November
2001-April 2002, under two experimental sets which provided for intra-row and interrow
mixing of genotypes in biblend, designated respectively as Set I and Set 11, as well
as uniblend stand in both. The significant differences among the genotypes were found
for all the traits examined. The mean performance analysis showed that, the genotype
PM-78 had earliness for flowering and maturity, and the biblends PM-fl + Ramsom
and BS-3+ 85-16 exhibited earliest flowering and maturity behaviour. The genotype
G-2 showed the best performance for pods/plant, seeds/plant, yield/plant, biological
yield/plant, and yield/plot.
Variances due to general mixing ability (GMA) and specific mixing ability (SMA) were
significant for most of the traits. The predominant role of OMA variances were affirmed
in all the characters studied.
The genotype PM-iS was found to be the best general mixer for earliness in flowering
and maturity in both experimental sets. The genotype BS-16 was found to be a good
general mixer for plant height, branches/plant, yield/plant, biological yield/plant, and
yield/plot in both the experimental sets. The genotype G-2 had a good mixing ability for
pods/plant, seeds/S-pods and seeds/plant in the both experimental sets. Whilst the
genotype BS-60 was found to be a good general mixer for harvest index in both
experiments, as revealed by thcir respective uniblend stand. The mixture (biblend)
BS-60 + 85-16 was earliest in flowering and maturity. The plant mixture BS-3+BS-16
was found to be a good specific mixer for plant height, branches/plant, pods/plant,
seeds/plant, yield/plant, biological yield/plant, and yield/plot in experimental Set-I. But
in experimental Set-Il, the mixture P13-l+BS-16 was found to be a good mixer for
branches/plant, pods/plant, seeds/S-pods, seeds/plant, yield/plant, biological yield/plant,
yield/plot and 100-seed weight. For experimental Set I, the biblend BS-3+BS-16 and for
experimental Set lithe biblend PB-I +BS-1 6 were the best specific mixers.
A Thesis
By
FIROZ MAIIMUD
Sul'niitted to the Pepartment of Genetics anti Plant breeding
angatiesh Agricultural University. Mymensingh
in partial fulfilment of requirements
for the degree of
MASTER OF SCIENCE (MS)
IN
GENETICS AND PLANT BREEDING
2002-11-01T00:00:00Z