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Author: Elina Adhikari Publisher: ISBN: Category : Languages : en Pages :
Book Description
Wheat production has been improved significantly through plant breeding and agronomic practices. Nonetheless, the yield drive came with the cost of reduced genetic diversity in elite varieties. Bottleneck due to domestication, complexity in gene sharing due to polyploidization, loss of genetic diversity during hybridization, and years of selective breeding during commercialization narrowed the genetic base of the hexaploid wheat as compared to its wild counterparts. Availability of ancestral genomes in the wild relatives provides a fallback option for finding new allelic diversity required in wheat breeding. The wheat wild relatives are adapted to a wide range of climatic conditions. However, only a small fraction of the existing genetic diversity has been used in improving the adaptive potential of the hexaploid wheat. In my dissertation, I study how wheat evolved to adapt to its local climate using two immediate progenitors of wheat, Ae. tauschii and wild emmer wheat. In my first study, I used wild emmer, a tetraploid wild relative of the hexaploid wheat to study the genetics of clinal adaptation in wild emmer. The major objective of this study is to understand the role of geography and climate in shaping the allele frequency distributions indicating clinal adaptation. This study identifies the genomic signatures of adaptation and uses them for predicting adaptive potential. I use 444 geo-referenced wild emmer accessions collected throughout the wide climatic range of Israel. Genotyping is carried out using the 90K iSelect SNP array (90K) and the sequence-based genotyping (GBS) and is mapped to a wild emmer reference genome. The GBS and 90 K respectively identify 341,228 SNPs and 26,548 SNPs, among which, 26,697 SNPs and 9,175 SNPs are retained for respective genotyping platforms. The analysis of population stratification revealed four genetically distinct groups of wild emmer accessions largely reflecting their geographic distribution. Pearson correlation among 103 historical bioclimatic variables identifies twenty-five unique climatic variables that are noncollinear (Person correlation 0.85). Partitioning of genetic variance shows that geography and climate together explain 44% of genetic variations among emmer accessions with climatic factors accounting for 10% of the SNP variance. The eco-geographic adaptation alleles identified through environmental association scans of historical on-site climatic data improved the prediction accuracy of the heading date by 9%. This research finds that geography and climate play a vital role in shaping the genetic diversity of the wild emmer wheat. In my second study, I examine the environmental drivers guiding the clinal adaptation in Ae. tauschii, one of the diploid wild relative of wheat. A genome-wide environmental scan is used to identify the climate associated alleles (CAA) and select a representative set of 21 Ae. tauschii accessions enriched for CAAs. Using the top six Kansas adapted wheat varieties as recurrent parents and the selected Ae. tauschii accessions as donor parents, inter-specific population carrying introgression of the Ae. tauschii alleles in the D genome. Three hundred and fifty-one inter-specific BC1F3:5 lines developed through direct hybridization are used in studying the genomic pattern of alien introgression. Using 136 georeferenced Ae. tauschii accessions collected throughout the wide range of climatic conditions, I find that the Ae. tauschii broad lineages segregate with the eco-geographic climatic gradients. Out of 103 historical bioclimatic variables, twelve unique non-collinear climatic variables were identified. Climate, geography, and climate together with geography, respectively, explain 28%, 55%, and 65% of the SNPs variation. A genome-wide environmental scan identified a total of 508 CAAs, out of which 322 were successfully transferred into the Ae. tauschii-wheat inter-specific population. A separate analysis using the same data finds that hybrid sterility, reduced introgression in the pericentromeric regions, and reduced retention of the introgressed alleles in regions carrying domestication gene contribute to low retention of alien introgression in the inter-specific population. The field-based evaluation of 351 introgression lines in drought vs rainfed trials showed that 25 % of these lines outperform the best checks, implying successful introgression of beneficial variants positively affecting wheat performance under stress conditions. However, more in-depth analysis is required to understand the effect of these alien introgressions on wheat performance. Overall, my research demonstrates the tremendous potential of wild relatives' genetic diversity for breeding climate-resilient wheat.
Author: Elina Adhikari Publisher: ISBN: Category : Languages : en Pages :
Book Description
Wheat production has been improved significantly through plant breeding and agronomic practices. Nonetheless, the yield drive came with the cost of reduced genetic diversity in elite varieties. Bottleneck due to domestication, complexity in gene sharing due to polyploidization, loss of genetic diversity during hybridization, and years of selective breeding during commercialization narrowed the genetic base of the hexaploid wheat as compared to its wild counterparts. Availability of ancestral genomes in the wild relatives provides a fallback option for finding new allelic diversity required in wheat breeding. The wheat wild relatives are adapted to a wide range of climatic conditions. However, only a small fraction of the existing genetic diversity has been used in improving the adaptive potential of the hexaploid wheat. In my dissertation, I study how wheat evolved to adapt to its local climate using two immediate progenitors of wheat, Ae. tauschii and wild emmer wheat. In my first study, I used wild emmer, a tetraploid wild relative of the hexaploid wheat to study the genetics of clinal adaptation in wild emmer. The major objective of this study is to understand the role of geography and climate in shaping the allele frequency distributions indicating clinal adaptation. This study identifies the genomic signatures of adaptation and uses them for predicting adaptive potential. I use 444 geo-referenced wild emmer accessions collected throughout the wide climatic range of Israel. Genotyping is carried out using the 90K iSelect SNP array (90K) and the sequence-based genotyping (GBS) and is mapped to a wild emmer reference genome. The GBS and 90 K respectively identify 341,228 SNPs and 26,548 SNPs, among which, 26,697 SNPs and 9,175 SNPs are retained for respective genotyping platforms. The analysis of population stratification revealed four genetically distinct groups of wild emmer accessions largely reflecting their geographic distribution. Pearson correlation among 103 historical bioclimatic variables identifies twenty-five unique climatic variables that are noncollinear (Person correlation 0.85). Partitioning of genetic variance shows that geography and climate together explain 44% of genetic variations among emmer accessions with climatic factors accounting for 10% of the SNP variance. The eco-geographic adaptation alleles identified through environmental association scans of historical on-site climatic data improved the prediction accuracy of the heading date by 9%. This research finds that geography and climate play a vital role in shaping the genetic diversity of the wild emmer wheat. In my second study, I examine the environmental drivers guiding the clinal adaptation in Ae. tauschii, one of the diploid wild relative of wheat. A genome-wide environmental scan is used to identify the climate associated alleles (CAA) and select a representative set of 21 Ae. tauschii accessions enriched for CAAs. Using the top six Kansas adapted wheat varieties as recurrent parents and the selected Ae. tauschii accessions as donor parents, inter-specific population carrying introgression of the Ae. tauschii alleles in the D genome. Three hundred and fifty-one inter-specific BC1F3:5 lines developed through direct hybridization are used in studying the genomic pattern of alien introgression. Using 136 georeferenced Ae. tauschii accessions collected throughout the wide range of climatic conditions, I find that the Ae. tauschii broad lineages segregate with the eco-geographic climatic gradients. Out of 103 historical bioclimatic variables, twelve unique non-collinear climatic variables were identified. Climate, geography, and climate together with geography, respectively, explain 28%, 55%, and 65% of the SNPs variation. A genome-wide environmental scan identified a total of 508 CAAs, out of which 322 were successfully transferred into the Ae. tauschii-wheat inter-specific population. A separate analysis using the same data finds that hybrid sterility, reduced introgression in the pericentromeric regions, and reduced retention of the introgressed alleles in regions carrying domestication gene contribute to low retention of alien introgression in the inter-specific population. The field-based evaluation of 351 introgression lines in drought vs rainfed trials showed that 25 % of these lines outperform the best checks, implying successful introgression of beneficial variants positively affecting wheat performance under stress conditions. However, more in-depth analysis is required to understand the effect of these alien introgressions on wheat performance. Overall, my research demonstrates the tremendous potential of wild relatives' genetic diversity for breeding climate-resilient wheat.
Author: E. Nevo Publisher: Springer Science & Business Media ISBN: 9783540417507 Category : Nature Languages : en Pages : 400
Book Description
Wild emmer is the progenitor of most cultivated wheats and thus an important source of wheat improvement. This book draws the results from multidisciplinary studies on the ecological, genetic, genomic, agronomic, and evolutionary aspects of wild emmer, conducted at many labs around the world. It is divided into the following parts: Origin and Evolution of Wheat - Population Genetics of Wild Emmer Wheat at the Protein and DNA Levels - Genetic Resources of Wild Emmer for Wheat Improvement - Genome Organization and Genetic Mapping - Conclusions and Prospects. The authors describe the evolution of wild emmer as a model organism of a selfer in evolutionary biology, and its rich potential genetic resources for wheat improvement.
Author: National Research Council Publisher: National Academies Press ISBN: 0309131863 Category : Technology & Engineering Languages : en Pages : 476
Book Description
This anchor volume to the series Managing Global Genetic Resources examines the structure that underlies efforts to preserve genetic material, including the worldwide network of genetic collections; the role of biotechnology; and a host of issues that surround management and use. Among the topics explored are in situ versus ex situ conservation, management of very large collections of genetic material, problems of quarantine, the controversy over ownership or copyright of genetic material, and more.
Author: Nigel Maxted Publisher: CABI ISBN: 1845938518 Category : Nature Languages : en Pages : 387
Book Description
Based on the 2010 conference "Towards the establishment of genetic reserves for crop wild relatives and landraces in Europe", this book is the cutting edge discussion of agrobiodiversity conservation. By considering the benefits of understanding and preserving crop wild relatives and landraces, it encompasses issues as wide-ranging and topical as habitat protection, ecosystem health and food security. Focusing on Europe, but globally relevant, Agrobiodiversity Conservation is ideal for postgraduate students of conservation and environmental studies, conservation professionals, policy makers and researchers.
Author: Henryk Czosnek Publisher: Springer Science & Business Media ISBN: 140204769X Category : Science Languages : en Pages : 437
Book Description
Ideally suited to horticulturalists and plant virologists, this highly useful text offers a multidisciplinary view on one of the major diseases of tomato crops, the tomato yellow leaf curl disease. It deals with epidemiological aspects of the disease as well as integrated pest management in the field. Coverage discusses the efforts aimed at breeding tomato plants resistant to the virus by classical breeding, by marker-assisted breeding and by genetic engineering.
Author: Publisher: Food & Agriculture Organization of the UN (FAO) ISBN: 9789251084410 Category : Aquatic germplasm resources Languages : en Pages : 0
Book Description
Genetic resources for food and agriculture play a crucial role in food security, nutrition and livelihoods and in the provision of environmental services. They are key components of sustainability, resilience and adaptability in production systems. They underpin the ability of crops, livestock, aquatic organisms and forest trees to withstand a range of harsh conditions. Climate change poses new challenges to the management of the world's genetic resources for food and agriculture, but it also underlines their importance. At the request of the Commission on Genetic Resources for Food and Agriculture, FAO prepared thematic studies on the interactions between climate change and plant, animal, forest, aquatic, invertebrate and micro-organism genetic resources. This publication summarizes the results of these studies.
Author: Narinder Singh Publisher: ISBN: Category : Languages : en Pages :
Book Description
Wheat is perhaps the most important component in human diet introduced since the conception of modern agriculture, which provides about 20% of the daily protein and calorie intake to billions of people. Adaptable to wide range of climates, wheat is grown worldwide, lending it the potential to mitigate the imminent risk of food security for future population of 9.5 billion people. For developing improved crop varieties in the future, genetic diversity is a key factor in plant breeding. Constraints in wheat evolution and artificial selection practices have resulted in erosion of this ingredient in elite germplasm. However, wheat wild relatives, such as Ae. tauschii, D-genome donor of wheat, are a storehouse for unexploited genetic diversity that can be used for improving wheat for disease and insect resistance, yield, quality, and tolerance to abiotic stresses. More than 1700 genebanks around the world hold over 7 million accessions of these wild relatives. These genebanks are expensive to maintain, therefore, efficient curation is necessary. We developed and implemented a protocol to identify duplicate accessions using genomic tools. Implementing this approach with three genebanks, we identified over 50% duplicated accessions across genebanks. There are over a million Triticeae accessions held collectively, and it is likely as more number of genebanks are tested, there will be decreasing number of unique accessions. Selecting and utilizing the wild genetic diversity is no easy task. Historically, breeders and geneticists have chosen the accessions primarily based on associated phenotypic data. Unless focusing on a targeted trait, this practice is imperfect in capturing the genetic diversity with some other limitations, such as confounding phenotypic data with the testing environment. Utilizing next-generation sequencing methods, we selected a MiniCore consisting of only 40 accessions out of 574 capturing more than 95% of the allelic diversity. This MiniCore will facilitate the use of genetic diversity present in Ae. tauschii for wheat improvement including resistance to leaf rust, stem rust, Hessian fly, and tolerance to abiotic stresses. Hessian fly is an important insect pest of wheat worldwide. Out of 34 known resistance genes, only six have been mapped on the D sub-genome. With swift HF evolution, we need to rapidly map and deploy the resistance genes. Some of the undefeated HF resistance genes, such as H26 and H32, were introgressed from Ae. tauschii. In this study, we mapped three previously known genes, and a new gene from Ae. tauschii accession KU2147. Genes were mapped on chromosomes 6B, 3D, and 6D. Further, identification and cloning of resistance genes will enhance our understanding about its function and mode of action. In conclusion, wild wheat relatives are genetically diverse species, and utilizing the novel genetic diversity in Ae. tauschii will be fruitful for wheat improvement in the wake of climate change to ensure future food security to expected 2 billion newcomers by 2050.
Author: Mohd. Kamran Khan Publisher: Elsevier ISBN: 0443220891 Category : Technology & Engineering Languages : en Pages : 0
Book Description
Wild Wheat Relatives: Developing Abiotic Stress Tolerance under Climate Change presents the state-of-the-art outline of the problem issues, opportunities, and modern developments in the utilization of Wild Wheat Relatives (WWR) and related neglected species for wheat crop improvement specifically focusing the environmental constraints. Wheat is a major staple food crop that has largely been focused for fulfilling the food requirements of world population during the Green revolution. Since then, it has come to cover more agricultural land than any other commercial crop. Continuously changing climatic conditions have drastically affected the wheat production in recent years, however, and its yield has been largely limited by environmental constraints. The production losses caused by crop vulnerability to climate change may be resolved by using wheat wild relatives that are closely related to cultivated genotypes and are known for their beneficial traits. This book comprehensively discusses different wheat wild relatives including major genus Triticum and Aegilops and their utilization in mitigating different environmental constraints using agronomic, physiological, and molecular approaches. Chapters provide insights into the advancement in the deployment of wheat genetic resources including wild relatives and neglected species for crop improvement towards environmental issues. Covers a variety of wheat genetic resources including wheat wild relatives (WWR) and neglected wheat species Describes advances in agronomic, biochemical, physiological, and molecular approaches to counter the effect of individual environmental issues of drought, heat, salt, cold, nutrients and heavy metals constraints Explores the benefits of contemporary biotechnological tools including whole genome sequencing, and genome editing
Author: Chris Stokes Publisher: CSIRO PUBLISHING ISBN: 0643102051 Category : Technology & Engineering Languages : en Pages : 297
Book Description
Adapting Agriculture to Climate Change is a fundamental resource for primary industry professionals, land managers, policy makers, researchers and students involved in preparing Australia’s primary industries for the challenges and opportunities of climate change. More than 30 authors have contributed to this book, which moves beyond describing the causes and consequences of climate change to providing options for people to work towards adaptation action. Climate change implications and adaptation options are given for the key Australian primary industries of horticulture, forestry, grains, rice, sugarcane, cotton, viticulture, broadacre grazing, intensive livestock industries, marine fisheries, and aquaculture and water resources. Case studies demonstrate the options for each industry. Adapting Agriculture to Climate Change summarises updated climate change scenarios for Australia with the latest climate science. It includes chapters on socio-economic and institutional considerations for adapting to climate change, greenhouse gas emissions sources and sinks, as well as risks and priorities for the future.
Author: Robert Prescott-Allen Publisher: Earthscan Publications ISBN: Category : Law Languages : en Pages : 120
Book Description
Genes from the Wild describes the growing contribution of wild genetic resources to the production of food and raw materials, describes their characteristics, explains the benefits and problems of using them and outlines the ways in which they are threatened and the measures being taken to conserve them.
Author: Elina Adhikari
Author: Elina Adhikari
Author: E. Nevo
Author: National Research Council
Author: Nigel Maxted
Author: Henryk Czosnek
Author: 
Author: Narinder Singh
Author: Mohd. Kamran Khan
Author: Chris Stokes
Author: Robert Prescott-Allen