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Author: Saba Mahjourimajd
Publisher:
ISBN:
Category : Crops and nitrogen
Languages : en
Pages : 346
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Book Description
"Nitrogen (N) is essential for high grain yield (GY) in cereals. A major aim of breeding programs is to increase GY while minimising the level of external inputs, such as N fertilisation. Nitrogen Use Efficiency (NUE) is a complex trait controlled by both genetic and environmental factors resulting in variation depending on seasonal growth conditions. Only 30-50% of N supplied is actually taken up by the plants with the extra N lost through run-off, leaching, denitrification and gas emission. These losses have a negative environmental impact, leading to surface and underground water pollution, algae blooms and intensifying global warming. In addition, nitrogen (N) application is costly further emphasising the importance of NUE improvement to reduce the economic and environmental issues associated with N application. NUE of wheat is important in all production areas but little is known about genetic variation for NUE in low-yielding environments such the Mediterranean-type climate of Southern Australia with low rainfall and high temperatures during critical growth periods. Research described in this thesis evaluated variation in NUE in Australian wheat germplasm and then to identify loci regulating NUE traits in a bi-parental mapping population of RAC875/Kukri. Improvement in NUE will require the integration of physiological and molecular aspects of N status in plants under different growth conditions: the highly variable conditions of field trials and controlled environments such as under hydroponics. The assessment of NUE and N response under both field and controlled conditions could facilitate the identification of traits and QTL and lead to the discovery of candidate genes underlying the traits. The first step of this research involved NUE traits and N response assessment of Australian cultivars in different environments, with varying N input. Genetic variation for NUE was identified in Australian spring wheat cultivars, and the cultivars were ranked for their N-efficiency and responsiveness. The dissection of genetic variation for NUE was investigated in the RAC875/Kukri population across six field trials between 2011 and 2013 covering 16 environment by treatment combinations. Nitrogen responsiveness was compared with N efficiency and the genotypes were ranked for the consistency of a positive response and high efficiency of N use versus negative responsiveness and low efficiency. Quantitative Trait Loci (QTL) analysis identified the genome regions associated with GY, grain quality and responsiveness to N. In addition, specific-environment associated N QTL were identified. A QTL on chromosome 2A was detected for most of traits studied and across multiple environments. Further stable QTL were identified on chromosomes 1A, 1B, 2A, 3D, 7A and 7B for GY across environments. The physiological response to N was studied at the early stages of growth for selected lines in a hydroponics system that allowed the measurement of N uptake and utilisation. The aim of the experiments was to investigate the physiological basis for the effects seen in the field trials. However, no consistent response was seen in these studies suggesting that future work should focus on later growth stages. To conclude, the results showed significant genetic variation and transgressive segregation for NUE despite the complex nature of the effect of N on grain yield and quality traits. These genome regions can be used to support marker assistance selection (MAS) for improved NUE and for cloning genes underlying the loci affecting NUE in wheat. The results show that selection for improved NUE is possible and also provide a base for further molecular and physiological studies on efficient use of applied N." -- abstract, leaves 3-4.
Author: Saba Mahjourimajd
Publisher:
ISBN:
Category : Crops and nitrogen
Languages : en
Pages : 346
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Book Description
"Nitrogen (N) is essential for high grain yield (GY) in cereals. A major aim of breeding programs is to increase GY while minimising the level of external inputs, such as N fertilisation. Nitrogen Use Efficiency (NUE) is a complex trait controlled by both genetic and environmental factors resulting in variation depending on seasonal growth conditions. Only 30-50% of N supplied is actually taken up by the plants with the extra N lost through run-off, leaching, denitrification and gas emission. These losses have a negative environmental impact, leading to surface and underground water pollution, algae blooms and intensifying global warming. In addition, nitrogen (N) application is costly further emphasising the importance of NUE improvement to reduce the economic and environmental issues associated with N application. NUE of wheat is important in all production areas but little is known about genetic variation for NUE in low-yielding environments such the Mediterranean-type climate of Southern Australia with low rainfall and high temperatures during critical growth periods. Research described in this thesis evaluated variation in NUE in Australian wheat germplasm and then to identify loci regulating NUE traits in a bi-parental mapping population of RAC875/Kukri. Improvement in NUE will require the integration of physiological and molecular aspects of N status in plants under different growth conditions: the highly variable conditions of field trials and controlled environments such as under hydroponics. The assessment of NUE and N response under both field and controlled conditions could facilitate the identification of traits and QTL and lead to the discovery of candidate genes underlying the traits. The first step of this research involved NUE traits and N response assessment of Australian cultivars in different environments, with varying N input. Genetic variation for NUE was identified in Australian spring wheat cultivars, and the cultivars were ranked for their N-efficiency and responsiveness. The dissection of genetic variation for NUE was investigated in the RAC875/Kukri population across six field trials between 2011 and 2013 covering 16 environment by treatment combinations. Nitrogen responsiveness was compared with N efficiency and the genotypes were ranked for the consistency of a positive response and high efficiency of N use versus negative responsiveness and low efficiency. Quantitative Trait Loci (QTL) analysis identified the genome regions associated with GY, grain quality and responsiveness to N. In addition, specific-environment associated N QTL were identified. A QTL on chromosome 2A was detected for most of traits studied and across multiple environments. Further stable QTL were identified on chromosomes 1A, 1B, 2A, 3D, 7A and 7B for GY across environments. The physiological response to N was studied at the early stages of growth for selected lines in a hydroponics system that allowed the measurement of N uptake and utilisation. The aim of the experiments was to investigate the physiological basis for the effects seen in the field trials. However, no consistent response was seen in these studies suggesting that future work should focus on later growth stages. To conclude, the results showed significant genetic variation and transgressive segregation for NUE despite the complex nature of the effect of N on grain yield and quality traits. These genome regions can be used to support marker assistance selection (MAS) for improved NUE and for cloning genes underlying the loci affecting NUE in wheat. The results show that selection for improved NUE is possible and also provide a base for further molecular and physiological studies on efficient use of applied N." -- abstract, leaves 3-4.
Author: Yun Zhao (PhD)
Publisher:
ISBN:
Category : Crops and nitrogen
Languages : en
Pages : 230
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Book Description
Author: Susanna Von Caemmerer
Publisher: CSIRO PUBLISHING
ISBN: 9780643063792
Category : Science
Languages : en
Pages : 186
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Book Description
Increasing concerns of global climatic change have stimulated research in all aspects of carbon exchange. This has restored interest in leaf-photosynthetic models to predict and assess changes in photosynthetic CO2 assimilation in different environments. This is a comprehensive presentation of the most widely used models of steady-state photosynthesis by an author who is a world authority. Treatments of C3, C4 and intermediate pathways of photosynthesis in relation to environment have been updated to include work on antisense transgenic plants. It will be a standard reference for the formal analysis of photosynthetic metabolism in vivo by advanced students and researchers.
Author: Mohammad Pessarakli
Publisher: CRC Press
ISBN: 082474134X
Category : Science
Languages : en
Pages : 997
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Book Description
With contributions from over 70 international experts, this reference provides comprehensive coverage of plant physiological stages and processes under both normal and stressful conditions. It emphasizes environmental factors, climatic changes, developmental stages, and growth regulators as well as linking plant and crop physiology to the production of food, feed, and medicinal compounds. Offering over 300 useful tables, equations, drawings, photographs, and micrographs, the book covers cellular and molecular aspects of plant and crop physiology, plant and crop physiological responses to heavy metal concentration and agrichemicals, computer modeling in plant physiology, and more.
Author: Christian R. Landry
Publisher: Springer Science & Business Media
ISBN: 9400773471
Category : Science
Languages : en
Pages : 358
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Book Description
Researchers in the field of ecological genomics aim to determine how a genome or a population of genomes interacts with its environment across ecological and evolutionary timescales. Ecological genomics is trans-disciplinary by nature. Ecologists have turned to genomics to be able to elucidate the mechanistic bases of the biodiversity their research tries to understand. Genomicists have turned to ecology in order to better explain the functional cellular and molecular variation they observed in their model organisms. We provide an advanced-level book that covers this recent research and proposes future development for this field. A synthesis of the field of ecological genomics emerges from this volume. Ecological Genomics covers a wide array of organisms (microbes, plants and animals) in order to be able to identify central concepts that motivate and derive from recent investigations in different branches of the tree of life. Ecological Genomics covers 3 fields of research that have most benefited from the recent technological and conceptual developments in the field of ecological genomics: the study of life-history evolution and its impact of genome architectures; the study of the genomic bases of phenotypic plasticity and the study of the genomic bases of adaptation and speciation.
Author: Yasunari Ogihara
Publisher: Springer
ISBN: 4431556753
Category : Science
Languages : en
Pages : 421
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Book Description
This proceedings is a collection of 46 selected papers that were presented at the 12th International Wheat Genetics Symposium (IWGS). Since the launch of the wheat genome sequencing project in 2005, the arrival of draft genome sequences has marked a new era in wheat genetics and genomics, catalyzing rapid advancement in the field. This book provides a comprehensive review of the forefront of wheat research, across various important topics such as germplasm and genetic diversity, cytogenetics and allopolyploid evolution, genome sequencing, structural and functional genomics, gene function and molecular biology, biotic stress, abiotic stress, grain quality, and classical and molecular breeding. Following an introduction, 9 parts of the book are dedicated to each of these topics. A final, 11th part entitled “Toward Sustainable Wheat Production” contains 7 excellent papers that were presented in the 12th IWGS Special Session supported by the OECD. With rapid population growth and radical climate changes, the world faces a global food crisis and is in need of another Green Revolution to boost yields of wheat and other widely grown staple crops. Although this book focuses on wheat, many of the newly developed techniques and results presented here can be applied to other plant species with large and complex genomes. As such, this volume is highly recommended for all students and researchers in wheat sciences and related plant sciences and for those who are interested in stable food production and food security.
Author: M. P. Reynolds
Publisher: CIMMYT
ISBN: 9706480773
Category : Physiology
Languages : en
Pages : 246
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Book Description
Author: Nandula Raghuram
Publisher: Frontiers Media SA
ISBN: 2889742849
Category : Science
Languages : en
Pages : 318
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Author: E H Satorre
Publisher: CRC Press
ISBN: 9781560228745
Category : Technology & Engineering
Languages : en
Pages : 544
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Book Description
Discussing the latest processes involved in researching yield generation, Wheat: Ecology and Physiology of Yield Determination will help you design various types of crop production systems for maximum yield. Featuring information on developing high-yielding, low-input, and quality-oriented systems, this book offers you both physiological and ecological approaches that will help you understand the crop as well as increase its production. Discussing aspects of wheat growth for specific regions around the world, Wheat provides you with information that will improve the size and quality of your crops, including: how temperature, vernalization, and the photoperiod affect the development of wheat using the correct amount of nitrogen fertilizers for wheat crops an explanation of the reproduction and nitrogen cycles of wheat how elements and conditions such as lipids, proteins, nitrogen, and climate enhance grain quality estimating and determining optimal sowing dates examining factors that may affect wheat yield-density relationships, such as planting arrangement and date of sowing preventing seed decay and examining effects of mildews and leaf blights examining historical trends of the crop to see what further research needs to be done You'll also receive information on the genetic gains in wheat research that are improving the physiological traits and numerical components of this essential grain. Within Wheat, you'll find data and methods from international experts in the field that will improve the yield and growth of the world's most important crop.
Author: Sudheer Kumar
Publisher: CRC Press
ISBN: 0429894074
Category : Science
Languages : en
Pages : 157
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Book Description
Wheat Blast provides systematic and practical information on wheat blast pathology, summarises research progress and discusses future perspectives based on current understanding of the existing issues. The book explores advance technologies that may help in deciding the path for future research and development for better strategies and techniques to manage the wheat blast disease. It equips readers with basic and applied understanding on the identification of disease, its distribution and chances of further spread in new areas, its potential to cause yield losses to wheat, the conditions that favour disease development, disease prediction modelling, resistance breeding methods and management strategies against wheat blast. Features: Provides comprehensive information on wheat blast pathogen and its management under a single umbrella Covers disease identification and diagnostics which will be helpful to check introduction in new areas Discusses methods and protocol to study the different aspects of the disease such as diagnostics, variability, resistance screening, epiphytotic creation etc. Gives deep insight on the past, present and future outlook of wheat blast research progress This book’s chapters are contributed by experts and pioneers in their respective fields and it provides comprehensive insight with updated findings on wheat blast research. It serves as a valuable reference for researchers, policy makers, students, teachers, farmers, seed growers, traders, and other stakeholders dealing with wheat.
