dc.description.abstract |
A field experiment was conducted at the Agricultural Farm of Sher-e-Bangla
Agricultural University, Sher-e-l3angla Nagar, Dhaka, Bangladesh during the rabi season
of November 2011 to February 2012 to characterize and genetic diversity analysis of 21
radish varieties based on some physiological characters. Four distinct clusters were
observed among the radish varieties on the basis of total dry matter (TDM), relative
growth rate (RGR). crop growth rate (CGR). leaf area index (LAI), net assimilation rate
(NAR), leaf area ratio ([AR). leaf weight ratio (LWR), leaf number per plant, harvest
index (HI), days to harvest and root yield per plant. Cluster IV consisted of the highest
number of varieties, viz.. Mino Early Long White (Ufsi Mula), BARI Radish-S (Druti),
Mino Long White, Early White-35, Chaniak, Nong Woo Bio (F1 hybrid), Radish Royal-
40, White Prince (F1 hybrid radish). Cluster II composed of Lucky (Early 35 Days),
Paira-40, Bright White 40, Rupsa, Tasakisan (China). Rocky-45. Cluster III composed of
Snow White (IF1 hybrid). BARI Radish-2 (Pinky), BARI Radish4. Barisal Local,
Ramboo-40. BARI Radish-I (Tasakisan) and Ivory White formed cluster 1. The highest
root yield was observed in cluster 1(380.06) which also produced the highest 1DM and
[Al. The longest cluster distance was observed between cluster I and cluster II.
Clustering pattern was not influenced by the genotypic origin. Ivory white produced the
highest root yield, TDM, and LA! which was followed by BARI radish-I. Ivory white
did not flower in growing season. BARI radish-2 produced the highest ROR and NAR.
Rupsa produced the highest harvest index. Leaf area index, LAR, LWR and leaf number
per plant were the major components of genetic divergence in the radish varieties.
Considering genetic diversity and other performances. BARI radish-I, BARI radish-2
and Rupsa appear to be promising parents for future hybridization program. |
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