Gene action and combining ability estimates using cytoplasmic-genic male sterile lines to develop pigeonpea hybrids for rainfed condition
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AN Tikle, Ravikoti Vijaykumar, KB Saxena, Chanda Venkata Sameer Kumar. (Accepted on 4/2/2016). Gene action and combining ability estimates using cytoplasmic-genic male sterile lines to develop pigeonpea hybrids for rainfed condition. International Journal of Scientific and Research Publications.
Abstract
Pigeonpea is the major source of vegetable protein in
Indian diet. About 72.5 percent area and 62.5 production of
world’s pigeonpea is in India.Pigeonpea is the only food legume
where cytoplasmic-genic male sterility is being exploited for
commercial use of hybrids. The discovery of stable CMS system
and breeding of commercial hybrids in pigeonpea has become a
landmark in increasing the productivity of this crop. Keeping in
view the combining ability estimates were worked out through
Line x Tester analysis of 10 hybrids developed by crossing 2
lines (Males) with five cytoplasmic male sterile (CMS) lines
(Females) to know the genetic architecture of yield attributes-
Days to maturity, branches plant
1
, pods plant
1
, seed yield, wilt
resistance and pollen fertility. Analysis of variance revealed
significant differences among genotypes, crosses, lines, testers
and Line x tester interactions for most of the traits.
Preponderance of non-additive gene action was realized by
higher values of specific combining ability compared to general
combining ability. The average degree of dominance were more
than unity (>1) and predictability ratio was less than unity (<1)
for all the traits, signifying non-additive gene action resulted
from dominance, over dominance, epistasis and various other
interactions. Hence, heterosis breeding is effective for increasing
yield potential of hybrids in pigeonpea.The proportional
contribution of testers was observed to be lower than that of line
x tester interactions, thus highest estimates of SCA variances.
The estimates of GCA effects indicated male parent ICPL 87119
was good general combiner for days to maturity and pollen
fertility and among the female parent ICP 2043 was good general
combiner. Cross combinations ICP 2043 x ICP 87119, ICP 2048
x ICP 20108, ICP 2078 x ICP 87119 and ICP 2092 x ICP 20108
were found to be good specific combinations for seed yield
plant1 and other desirable traits.