ICAR Research Data Repository for Knowledge Management
Genetic divergence and path analysis for yield and its component traits in rice
KrishiKosh
View Archive Info| Field | Value | |
| Title |
Genetic divergence and path analysis for yield and its component traits in rice
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| Creator |
Pandya, Tushar
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| Contributor |
Sarial, A. K.
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| Subject |
Developmental stages, Yields, Genetics, Grain, Planting, Rice, Genotypes, biological phenomena, Heritability, Harvesting
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| Description |
Forty-nine rice genotypes belonging to different maturity group and genetic background (basmati, non-basmati and hybrids) were evaluated in RBD with three replications at the experimental farm of the Rice Research Station, CCS Haryana Agricultural University, Kaul during the kharifseason of 2010 for variability, genetic divergence, correlation and path coefficient analysis. The plot size was kept at 1.5 x 0.2 x 3 sq m. The data were recorded on 5 randomly selected plants per genotype per replication for 15 traits viz., grain yield (GY), days to flowering (DTF),days to maturity(DTM), plant height (PHT), effective tillers per plant (T/PT), panicle length (PLTH), panicle weight (PWT), number of spikelets per panicle (S/PAN), per cent filled spikelets (FSPK), test weight (TWT), biological yield per plant (BYD), harvest index(HI), hulling per cent (H%), milling per cent (M%) and head rice recovery (HRR). The analysis of variance revealed significant differences among the genotypes for all the characters. The results revealed that the PCV and GCV were higher for GY, PW and HI and moderate for S/PAN, B. YD, P HT, FSPK and TWT.Heritability estimates were high for DTF, P HT, P WT, S/PAN, FSPK, TWT, HI and H% while moderate for DTM, P LTH, BYD and GY. High heritability with high genetic advance was observed for PH and S/PAN while high heritability with moderate genetic advance forFSPK and HI. The correlation coefficient analysis indicated that grain yield was positively and significantly associated with PWT, S/PAN, FSPK, TWT, BYD, HI, H%, M% and HRR.PWT had the highest indirect effect via HI (0.656) and by its direct effect (0.168) contributed maximum towards grain yield. The genetic dissimilarity measurement using generalized Mahalanobis distances (D2) indicated that the genotypes with greater dissimilarity were HKR-07-36 and Pusa Basmati-1. The D2values ranged from 5.04 to 959.43. The genotypes were grouped into 6 clusters. Cluster V was the largest cluster comprised of 12 genotypes followed by Cluster II with 11 genotypes. The intra-cluster distances ranged from 9.29 (Cluster III) to 3.51 (Cluster II). Character-wise PH with 32.31% contribution had maximum share to the total divergence.Based on inter-cluster distance the most divergent clusters were III and VI followed by Clusters II and III and Clusters I and III suggesting wide diversity between them. Accordingly based on inter cluster distances the following genotypes were identified those could be hybridized for further improvement for grain yield IR-79584 x HKR 06-34, IR 76939 x HKR 04-487; for HI- HKR 06-47 X HKR 06-34; for maturity- HKR 06-47 X PUSA BASMATI-1; for TWT- HKR 06-47 x HKR-06-34 and for HRR- IR 79089 x HKR-04-487. The results obtained thus have great relevance to the future breeding programme |
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| Date |
2016-11-08T12:12:02Z
2016-11-08T12:12:02Z 2012 |
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| Type |
Thesis
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| Identifier |
http://krishikosh.egranth.ac.in/handle/1/84407
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| Language |
en
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| Format |
application/pdf
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| Publisher |
CCSHAU
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