Abstract:
The hybridization and selection procedure of Hevea brasiliensisplay an important
role in the genetic improvement of planting material with a wide range of genetic
diversity aim to develop superior Hevea clones. Time is the critical factor of the
conventional breeding programs, as it needs around 20-25 years to complete one
cycle. Early selection is very important to shorten the Hevea breeding program.
However,the selections are needed to be strengthened through a thorough analysis
of all possible yield parameters. This study mainly aimed at the precise selection of
genetically superior genotype(s) at the early stage of the Hevea breeding cycle (first
evaluation stage) to reduce the evaluation period of the breeding cycle. Four high
yielding genotypes which were already selected as outstanding genotypes and 4
low yielding genotypes based on their yield belong to 2011 hand pollination
progeny were taken to the study. Yield performance was measured using other
yield traits such as girth, bark thickness and bark anatomical parameters (number
of latex vessels/unit area (density), number of latex vessel rows and diameter of
latex vessels). Each parameter was analyzed with their yield performance. These
genotypes analyzed to verify the previous selections to develop the correlation of
these parameters. Regression analysis, cluster analysis and two-sampled t-tests in
Minitab 17 version were used to analysis data. A 39.3% positive and 4.6% negative
correlations were observed for girth and bark thickness, respectively with yield.
Strong positive correlations 81.9% and 91.7% were reported respectively for latex
vessels’ density and number of latex vessel rows with yield. In addition to 57.4%, a
negative correlation was observed between the yield and diameter of latex vessels.
In the cluster analysis with yield, girth and all the bark anatomical parameters,
three clusters showed significant difference. Out of four outstanding genotypes,
only the 2011HP-42 separated from the other three genotypes showing higher
outstanding characters while the other three genotypes showed moderate
characters. All four low yielding genotypes separated to cluster three showing the
lowest performances. Results clearly showed that the early selection procedure can
be strengthened by taking more yield parameters and their correlations which will
be helpful to develop yield index in the future.