Rishabh Gupta, Ajeet Kumar Gupta, Niharika Yaduvanshi, Aman Srivastava, Jay Singh, S. C. Vimal, Piyusha Singh
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The highest positive direct effect on seed yield per plant exhibited by 1000 seed weight (0.2512) followed by length of main raceme (0.2189), the highest positive indirect effect on seed yield per plant was exhibited length on main raceme (0.0477) via seed pre-silique fallowed by the number of siliquae on main raceme (0.0332) via secondary branches per plant. The maximum intra-cluster distance was estimated in case of Cluster VI (2.652) followed by cluster I (2.520), Cluster IV (2.352), cluster III (2.329), cluster VIII (2.148). The highest inter-cluster distance was observed between cluster IV and VI (4.417) followed by cluster III and VI (4.270), VI and VIII (4.251), cluster I and VII (4.156). The maximum cluster mean was found in cluster I (9.21) for seed yield per plant followed by cluster III (8.67) and cluster VII (8.50).","PeriodicalId":477440,"journal":{"name":"Journal of experimental agriculture international","volume":"115 8","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-03-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Path and Genetic Divergence Analysis of Mustard [Brassica juncea (L.) Czern & Coss.] Genotypes\",\"authors\":\"Rishabh Gupta, Ajeet Kumar Gupta, Niharika Yaduvanshi, Aman Srivastava, Jay Singh, S. C. 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引用次数: 0
摘要
本次调查包括 72 个基因型的种子和 3 个对照品种(Varuna、Kranti、NDR-8501),在印度芥菜种质/基因型的扩增区组设计下进行实验,实验于 2019-20 年在印度阿查里亚-纳伦德拉-德瓦农业与技术大学库马甘杰阿约提亚(U.P. India)学生教学农场进行。研究的特征包括:50%开花日数、成熟日数、株高(厘米)、一级分枝数/株、二级分枝数/株、主总状花序长度(厘米)、主总状花序中的纤毛数、种子数/纤毛、千粒重(克)和种子产量/株(克)。1000 粒种子重量(0.2512)对单株种子产量的直接正效应最高,其次是主总状花序长度(0.2189);通过种子前附属物对单株种子产量的间接正效应最高,表现为主总状花序长度(0.0477),其次是主总状花序附属物数量(0.0332)和单株次生分枝数量。簇内距离最大的是簇 VI(2.652),其次是簇 I(2.520)、簇 IV(2.352)、簇 III(2.329)和簇 VIII(2.148)。群组间距离最大的是群组 IV 和 VI(4.417),其次是群组 III 和 VI(4.270)、VI 和 VIII(4.251)、群组 I 和 VII(4.156)。每株种子产量方面,群组平均值最大的是群组 I(9.21),其次是群组 III(8.67)和群组 VII(8.50)。
Path and Genetic Divergence Analysis of Mustard [Brassica juncea (L.) Czern & Coss.] Genotypes
The present investigation consisting of seeds of 72 genotypes with 3 check varieties (Varuna, Kranti, NDR-8501) were used for experimentation under Augmented Block Design in Indian mustard germplasm/genotypes was carried out during 2019-20 on the Student Instructional Farm Acharya Narendra Deva University of Agriculture & Technology Kumarganj Ayodhya (U.P.) India. The characters studies were Days to 50 % flowering, Days to maturity, Plant height (cm), Number of primary branches/plants, Number of secondary branches/plants, Length of main raceme (cm), Number of silique in main raceme, Number of seeds/siliquae, 1000-seed weight (g) and Seed yield/plant (g). The highest positive direct effect on seed yield per plant exhibited by 1000 seed weight (0.2512) followed by length of main raceme (0.2189), the highest positive indirect effect on seed yield per plant was exhibited length on main raceme (0.0477) via seed pre-silique fallowed by the number of siliquae on main raceme (0.0332) via secondary branches per plant. The maximum intra-cluster distance was estimated in case of Cluster VI (2.652) followed by cluster I (2.520), Cluster IV (2.352), cluster III (2.329), cluster VIII (2.148). The highest inter-cluster distance was observed between cluster IV and VI (4.417) followed by cluster III and VI (4.270), VI and VIII (4.251), cluster I and VII (4.156). The maximum cluster mean was found in cluster I (9.21) for seed yield per plant followed by cluster III (8.67) and cluster VII (8.50).
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