Combining Ability And Heterosis For Some Yield Traits And Protein Content In Pearl Millet






Heterosis, Combining Ability in Pearl Millet

Author : Rakesh Parmar

Publisher : LAP Lambert Academic Publishing

Page : 132 pages

File Size : 14,49 MB

Release : 2015-01-16

Category :

ISBN : 9783659668722

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Book Description

This book is based on my M.Sc(Agri.) studied HETEROSIS AND COMBINING ABILITY FOR GRAIN YIELD AND YIELD COMPONENTS IN PEARLMILLET [Pennisetum glaucum (L.) R. Br.] at DEPARTMENT OF PLANT BREEDING AND GENETICS CHIMANBHAI PATEL COLLEGE OF AGRICULTURE SARDARKRUSHINAGAR DANTIWADA AGRICULTURAL UNIVERSITY SARDARKRUSHINAGAR - 385 506 The present investigation was undertaken to study the magnitude of heterosis and combining ability for grain yield and yield components in pearl millet [Pennisetum glaucum (L.) R. Br.]. The crosses were attempted by adopting line x tester mating design among five lines and fourteen testers during kharif 2007. The resultant seventy hybrids along with nineteen parents were evaluated in a randomized block design with three replications at the Bajra Research Station, Regional Research Station, Sardarkrushinagar Dantiwada Agricultural University, Sardarkrushinagar, during kharif 2007. As Plant breeder i made so hard work for this. From: Rakesh Parmar









Heterosis for Grain Yield Components in Pearl Millet (Pennisetum Glaucum (L.) R. Br.).

Author : M. Vetriventhan

Publisher :

Page : 0 pages

File Size : 21,47 MB

Release : 2011

Category :

ISBN :

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Book Description

An experiment comprised of five male sterile lines and 30 inbred testers of pearl millet and their 150 hybrids was conducted at millet breeding station, Center for Plant Breeding and Genetics, Tamil Nadu Agricultural University, Coimbatore during 2005-2007 for studying the extent of hybrid vigour in F1 for grain yield and its components. Highest and significant negative relative heterosis, heterobeltiosis and standard heterosis was observed in the cross ICMA 94111A x PT 5259 and the same combination showed negative relative heterosis, heterobeltiosis and standard heterosis for the trait plant height. The cross combination ICMA 94111A x PT 5423 showed higher magnitude of positive relative heterosis and heterobeltiosis for the trait total number of tillers. Highest and significant positive standard heterosis was recorded in ICMA 88004A x PT 5164 for total number of tillers. The hybrid cross combination ICMA 94111A x PT 5423 showed highest and significant relative heterosis, heterobeltiosis and standard heterosis for total productive tillers. The hybrid ICMA 88004A x PT 5181 recorded highest and significant positive standard heterosis for ear head length and 100 grain weight, ICMA 88004A x PT 5200 for ear head girth. 13 hybrids recorded highly significant standard heterosis for grain yield per plant. among 150 hybrids studied, seven hybrids namely ICMA 88004 A x PT 5164, ICMA 88004 A x PT 5200, ICMA 88004 A x PT 5232, ICMA 88004 A x PT 5130, ICMA 88004 A x PT 5173, 732 A x PT 5172 and ICMA 88004 A x PT 5809 were selected as best crosses since they expressed high standard heterosis over standard hybrid (MBH163) for many of the traits studied for high grain yield.



Genetic and Agro-Morphological Diversity and Genotype by Environment Interaction of Yield and Nutritional Quality Traits in Pearl Millet Germplasm from Sudan

Author : Elfadil M A Bashir

Publisher : Cuvillier Verlag

Page : 142 pages

File Size : 16,87 MB

Release : 2015-06-22

Category : Science

ISBN : 3736980302

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Book Description

Due to its adaptation to extremely harsh environments, pearl millet (Pennisetum glaucum (L) R. Br.) is one of the most important staple cereals cultivated in the arid and semi-arid tropics of Asia and Africa. In these regions pearl millet is mainly produced under low-input, rainfed conditions in traditional farming systems, where several constrains are affecting pearl millet production, such as inter-annual rainfall variability, pests, diseases, Striga and use of low yielding varieties. The majority of the human population in these regions is affected by nutritional deficiencies of essential minerals causing micronutrient malnutrition (so-called ‘hidden hunger’). Plant genetic resources provide basic materials for selection and improvement of crop productivity through the optimal design of breeding programs to meet food security needs of the world’s rapidly rising population. The advent of PCR-based molecular markers such as simple sequence repeats (SSRs) has created an opportunity for fine-scale genetic characterization of germplasm collections. Understanding the structure of diversity and the identification of distinct materials with complementary traits for recombination by crossing provides the foundation for effective and sustained pearl millet population breeding and synthetic and hybrid development, based on the concept of heterotic groups in this allogamous crop.