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Author: Baldomero Alarcón Zúñiga
Publisher:
ISBN:
Category :
Languages : en
Pages : 184
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Book Description
Alfalfa (Medicago sativa L.) has a broad geographic distribution, with populations adapted to both cold and warm climates. Despite considerable research on winter hardiness, the mechanisms and genetic control of winter survival are poorly understood. We conducted two experiments designed to identify and quantify morphological, physiological, and biochemical traits associated with winter hardiness and to estimate the genetic relationship of these traits with winter hardiness. In Experiment 1, ten alfalfa genotypes were planted in June 2000 and in May 2001 at Ames, IA, and traits were measured in August, November, and the following April in each year. Concentrations of palmitate, palmitoleate, linoleate, linolenate and total fatty acids increased in crowns and roots of all genotypes from August to November and declined by April. Winter injury showed a negative phenotypic correlation with concentrations of palmitate, linoleate, linolenate, total fatty acids in both roots and crowns. These data suggest an important role of fatty acids in winter hardiness. In Experiment 2, we established an F1 segregating population of 200 individuals in the field in successive years at Ames, IA and measured agronomic and physiological traits in August and November. Although differences among the individuals in the F1 population were present for all traits, and transgressive segregation present for many, the population mean tended to fall intermediate to the two parents. Broad sense heritabilities on an entry mean basis were 0.58 for winter injury, 0.60 for plant height in November, and ranged from 0.44 to 0.63 for shoot, crown, and root mass in August and November. Total fatty acid concentration had an H2 of 0.72 in August and 0.44 in November. Autumn plant height had weak positive genetic correlations with winter injury, in contrast to other research. Shoot, crown, and root biomass in both August and November showed strong negative genetic correlations with winter injury, suggesting that in this population, winter survival was related to plant vigor. Preliminary genetic mapping identified several chromosomal locations associated with most traits. These results suggest that the determinants of winter survival in this population formed from semidormant parents differ from those in populations with nondormant parental genotypes.
Author: Baldomero Alarcón Zúñiga
Publisher:
ISBN:
Category :
Languages : en
Pages : 184
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Book Description
Alfalfa (Medicago sativa L.) has a broad geographic distribution, with populations adapted to both cold and warm climates. Despite considerable research on winter hardiness, the mechanisms and genetic control of winter survival are poorly understood. We conducted two experiments designed to identify and quantify morphological, physiological, and biochemical traits associated with winter hardiness and to estimate the genetic relationship of these traits with winter hardiness. In Experiment 1, ten alfalfa genotypes were planted in June 2000 and in May 2001 at Ames, IA, and traits were measured in August, November, and the following April in each year. Concentrations of palmitate, palmitoleate, linoleate, linolenate and total fatty acids increased in crowns and roots of all genotypes from August to November and declined by April. Winter injury showed a negative phenotypic correlation with concentrations of palmitate, linoleate, linolenate, total fatty acids in both roots and crowns. These data suggest an important role of fatty acids in winter hardiness. In Experiment 2, we established an F1 segregating population of 200 individuals in the field in successive years at Ames, IA and measured agronomic and physiological traits in August and November. Although differences among the individuals in the F1 population were present for all traits, and transgressive segregation present for many, the population mean tended to fall intermediate to the two parents. Broad sense heritabilities on an entry mean basis were 0.58 for winter injury, 0.60 for plant height in November, and ranged from 0.44 to 0.63 for shoot, crown, and root mass in August and November. Total fatty acid concentration had an H2 of 0.72 in August and 0.44 in November. Autumn plant height had weak positive genetic correlations with winter injury, in contrast to other research. Shoot, crown, and root biomass in both August and November showed strong negative genetic correlations with winter injury, suggesting that in this population, winter survival was related to plant vigor. Preliminary genetic mapping identified several chromosomal locations associated with most traits. These results suggest that the determinants of winter survival in this population formed from semidormant parents differ from those in populations with nondormant parental genotypes.
Author:
Publisher: Elsevier
ISBN: 0080464475
Category : Technology & Engineering
Languages : en
Pages : 322
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Book Description
Volume 90 of Advances in Agronomy contains seven timely reviews and over 50 descriptive figures. - Maintains the highest impact factor among serial publications in Agriculture - Presents timely reviews on important agronomy issues - Enjoys a long-standing reputation for excellence in the field
Author: Laxman Adhikari
Publisher:
ISBN:
Category :
Languages : en
Pages : 354
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Book Description
Fall dormancy (FD) and winter hardiness (WH) influence seasonal yield, stand persistence, and latitudinal adaptation of alfalfa (Medicago sativa L.). Selection of dormant alfalfa genotypes with higher WH has been a common practice. This research was carried out to dissect the genetic basis of FD and WH through quantitative trait loci (QTL) mapping and explore the potential of incorporating WH in non-dormant alfalfa. Other traits, including time of flowering (TOF), spring yield (SY), cumulative summer biomass (CSB), and leaf rust resistance were also evaluated. An F1 population was derived for linkage analysis and QTL mapping by crossing a dormant winter-hardy cultivar (3010) with a non-dormant cold-sensitive cultivar (CW 1010) Genotyping-by-sequencing was used for single nucleotide polymorphism (SNP) marker discovery. Dormancy and WH were evaluated according to NAAIC protocols. We mapped 45 FD and 35 WH QTLs on the genetic linkage maps of both parents. More than 70% of the FD QTLs did not share genomic locations with WH QTLs, suggesting that the two traits are inherited separately. This study also showed that using late autumn to early winter regrowth height is more reliable than early autumn in estimating alfalfa dormancy in southern environments with mild-winters. The QTL markers with higher phenotypic effects (R2) can be used in marker-assisted selection (MAS) of non-dormant alfalfa with improved WH. Incorporating WH in non-dormant alfalfa can ensure forage production in late autumn and early winter to minimize the forage gaps. In this research, we mapped a total of 25 QTLs for TOF, 17 QTLs for SY, six QTLs for CSB, and eight QTLs for leaf rust resistance in the same alfalfa population. Four TOF QTLs were detected in corresponding genomic positions of flowering QTLs of M. truncatula reported previously. The multiple QTLs detected for leaf rust resistance suggests that alfalfa resistance to the rust pathogen is polygenic. The QTL markers identified in this study constitute an important addition to alfalfa genomic resources and can be validated in populations with diverse genetic backgrounds and in multiple environments for potential use in MAS.
Author: Jun Yang
Publisher: Frontiers Media SA
ISBN: 2889630838
Category :
Languages : en
Pages : 233
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Author:
Publisher: CIMMYT
ISBN: 9789706481061
Category : Plant breeding
Languages : en
Pages : 312
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Author: Ferdinand Henry Steinmetz
Publisher:
ISBN:
Category : Alfalfa
Languages : en
Pages : 44
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Author:
Publisher:
ISBN:
Category : Dissertations, Academic
Languages : en
Pages : 692
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Author: Hongwei Cai
Publisher: CRC Press
ISBN: 1482208113
Category : Science
Languages : en
Pages : 318
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Book Description
Forage crops include several species of grasses and legumes that are widely used as animal fodder in the form of hay, pasturage and silage, as well as for turf and erosion control. Some forage grasses are also being considered for bio-energy generation. In this book leading researchers review the latest advances in molecular genetics and genomics; they also examine the success of breeding programs for forage grasses and legume species. The book will be useful for students and young researchers with an interest in forage, turf and bio-energy crops improvements.
Author: Douglas James Brouwer
Publisher:
ISBN:
Category :
Languages : en
Pages : 364
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Author: Deborah Y. Richardson
Publisher:
ISBN:
Category : Plant breeding
Languages : en
Pages : 62
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Book Description
