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Transcription Factors for Biotic Stress Tolerance in Plants (2022)

Wani, Shabir Hussain. [editor.] ; Nataraj, Vennampally. [editor.] ; Singh, Gyanendra Pratap. [editor.]

Cham :Springer International Publishing :

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Keywords: Stress (Physiology). ; Plants. ; Molecular biology. ; Agriculture. ; Biotechnology. ; Plant Stress Responses. ; Molecular Biology. ; Agriculture. ; Biotechnology. ; Plant Signalling.

Description / Table of Contents: 1. Targeted genome editing techniques in plant defense regulation -- 2. Synthetic promoters in regulating disease gene expression -- 3. Transcription factors associated with defense response against fungal biotrophs -- 4. Transcription factors associated with defense response against fungal necrotrophs -- 5. Transcription factors associated with defense response against viruses -- 6. Role of microbial bio-agents as elicitors in plant defense regulation -- 7. Transcriptional Factors Response under Biotic Stress in Wheat -- 8. Potential Transcription Factors for Biotic Stress Tolerance in Sugarcane -- 9. Role of transcription factors in response to biotic stresses in Maize -- 10. Role of transcription factors in response to biotic stresses in Pearl millet -- 11. Role of transcription factors in response to biotic stresses in Tomato -- 12. Role of transcription factors in response to biotic stresses in potato (Solanum tuberosum L.).

Abstract: With the erratic changes in climate, crop plants are facing many forms of biotic stresses. When plants are under stress, among several gene families, regulatory genes play a vital role in signal transduction in modulating the expression of genes underpinning several defense pathways and targeting regulatory proteins (viz, transcription factors (TFs)) can be the alternative. Transcription factors directly regulate the downstream R genes and are excellent candidates for disease resistance breeding. Till date, numerous transcription factors have been identified and characterized structurally and functionally. Of them, TF families such as WRKY, NAC, Whirly, Apetala2 (AP2), ethylene responsive elements (ERF) etc. are found to be associated with transcriptional reprogramming of plant defense response. These TFs are responsive to the pathogen’s PAMPs/DAMPs - host’s PRR protein interactions and specifically binds to the cis-elements of defense genes and regulate their expression. With this background, realizing the importance of TFs in resistance breeding, this book discusses the recent research and developments in this field for various crops.

Type of Medium: Online Resource

Pages: VIII, 247 p. 26 illus., 25 illus. in color. , online resource.

Edition: 1st ed. 2022.

ISBN: 9783031129902

URL: https://doi.org/10.1007/978-3-031-12990-2

DOI: 10.1007/978-3-031-12990-2

DDC: 581.788

Language: English

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New Horizons in Wheat and Barley Research : Crop Protection and Resource Management (2022)

Kashyap, Prem Lal. [editor.] ; Gupta, Vikas. [editor.] ; Prakash Gupta, Om. [editor.] ; [et al.]

Singapore :Springer Nature Singapore :

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Keywords: Agriculture. ; Agricultural biotechnology. ; Plant diseases. ; Agronomy. ; Agriculture. ; Agricultural Biotechnology. ; Plant Pathology. ; Agronomy.

Description / Table of Contents: Part 1 Paradigm shifts in disease management -- 1 Wheat rust research-shifting paradigms globally -- 2 Forecasting of Wheat Diseases: Insights, Methods and Challenges -- 3 Leaf blight disease of wheat and barley-Past present and future -- 4 Smut and bunt diseases of Wheat: Biology, Identification and Management -- 5 Powdery mildew of wheat: Research progress, Opportunities and Challenges -- 6 Antimicrobial agents for wheat disease: Mode of action and its application -- 7 Integrated Management of Barley Diseases: Current Status and Future Research Priorities -- 8 Viral diseases of wheat: Research Progress and future perspectives -- Part 2 Innovations in entomology and nematology research -- 9 Biology and management strategies of major insect-pests of wheat -- 10 Technological Innovations for the Management of Insect-pests in Stored Grains -- 11 Modern Approaches for the Management of Cereal Cyst Nematodes in Wheat and Barley -- 12 Nanotechnology for wheat and barley health management: Current scenario and future prospectus -- Part 3 Expanding horizons in resource management -- 13 Integrated Management Practices for incremental wheat productivity -- 14 Improved Agronomic Practices for Enhancing the Resource Use Efficiency and Productivity of Wheat and Barley.-15 Efficient irrigation water management in rice-wheat cropping system -- 16 Fertilizer consumption in wheat production systems: Trends and Policies -- 17 Technical Efficiency in Indian Wheat Production: Regional Trends and Way Forward -- 18 Frontier Mechanization Technologies for Wheat Based Cropping Systems -- 19 Innovative pathways to increase resource conservation and nutrient use efficiency in rice-wheat cropping systems for food security and decreased environmental footprints -- 20 Integrated Weed Management in Wheat and Barley: Global perspective -- 21 Agroforestry for Sustainable Cereal based Cropping Systems in Indo-gangetic Plain Region. .

Abstract: This book discusses the research progress on pathology, entomology, nematology, and resource management of wheat and barley crops. The volume summarizes the research progress and discusses the future perspectives based on current understanding of the existing issues and advancing cutting-edge technologies in the field. The book aims to help in deciding future research and development agenda by devising better strategies and techniques to cultivate these crops under clean and sustainable environment. Through this book an international group of leading wheat and barley researchers unveil the emerging concepts and issues related to biotic stresses and resource management and offers latest glimpses of technological needs and resource optimization in wheat and barley production system. Also, key topics such as frontier mechanization technologies, improved precision farming techniques, pluralistic extension and policy interventions for enhancing the resource efficiency and livelihood security of the farmers are explored here. This book is of interest to teachers, researchers, molecular breeders, cereal biochemists and biotechnologists, policymakers and professionals working in the area of wheat and barley research, food and cereal industry. Also, the book serves as an additional reading material for undergraduate and graduate students of agriculture and food sciences. National and international agricultural scientists, policy makers will also find this book to be a useful read. Volume 1 of New Horizons in Wheat and Barley Research covers global trends, breeding and quality enhancement.

Type of Medium: Online Resource

Pages: XXI, 637 p. 1 illus. , online resource.

Edition: 1st ed. 2022.

ISBN: 9789811641343

URL: https://doi.org/10.1007/978-981-16-4134-3

DOI: 10.1007/978-981-16-4134-3

DDC: 630

Language: English

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Physiological, Molecular, and Genetic Perspectives of Wheat Improvement (2021)

Wani, Shabir H. [editor.] ; Mohan, Amita. [editor.] ; Singh, Gyanendra Pratap. [editor.]

Cham :Springer International Publishing :

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Keywords: Agriculture. ; Plant biotechnology. ; Plant physiology. ; Nutrition . ; Agriculture. ; Plant Biotechnology. ; Plant Physiology. ; Nutrition.

Description / Table of Contents: 1. Food production: Global challenges to mitigate climate change -- 2. Reduced-immunogenicity wheat now coming to age -- 3. Wheat quality improvement for micronutrients -- 4. Changing Nutrition Scenario: Color wheat- a new perspective -- 5. Genetics and Breeding of Fe and Zn improvement in wheat -- 6. Membrane Fluidity and Compositional Changes in Response to High Temperature Stress in Wheat -- 7. Current understanding of thermo-tolerance in Wheat -- 8. Advances in molecular markers and their use in genetic improvement of wheat -- 9. Genomic selection for wheat improvement -- 10. Genetic Dissection for Yield and Yield Related Traits in Bread Wheat (Triticum aestium L.) -- 11. Marker-assisted breeding for resistance against wheat rusts -- 12. Genome Editing and Trait Improvement in Wheat.

Abstract: World population is growing at an alarming rate and may exceed 9.7 billion by 2050, whereas agricultural productivity has been negatively affected due to yield limiting factors such as biotic and abiotic stresses as a result of global climate change. Wheat is a staple crop for ~20% of the world population and its yield needs be augmented correspondingly in order to satisfy the demands of our increasing world population. “Green revolution”, the introduction of semi-dwarf, high yielding wheat varieties along with improved agronomic management practices, gave rise to a substantial increase in wheat production and self-sufficiency in developing countries that include Mexico, India and other south Asian countries. Since the late 1980’s, however, wheat yield is at a standoff with little fluctuation. The current trend is thus insufficient to meet the demands of an increasing world population. Therefore, while conventional breeding has had a great impact on wheat yield, with climate change becoming a reality, newer molecular breeding and management tools are needed to meet the goal of improving wheat yield for the future. With the advance in our understanding of the wheat genome and more importantly, the role of environmental interactions on productivity, the idea of genomic selection has been proposed to select for multi-genic quantitative traits early in the breeding cycle. Accordingly genomic selection may remodel wheat breeding with gain that is predicted to be 3 to 5 times that of crossbreeding. Phenomics (high-throughput phenotyping) is another fairly recent advancement using contemporary sensors for wheat germplasm screening and as a selection tool. Lastly, CRISPR/Cas9 ribonucleoprotein mediated genome editing technology has been successfully utilized for efficient and specific genome editing of hexaploid bread wheat. In summary, there has been exciting progresses in the development of non-GM wheat plants resistant to biotic and abiotic stress and/or wheat with improved nutritional quality. We believe it is important to highlight these novel research accomplishments for a broader audience, with the hope that our readers will ultimately adopt these powerful technologies for crops improvement in order to meet the demands of an expanding world population.

Type of Medium: Online Resource

Pages: X, 293 p. 31 illus., 22 illus. in color. , online resource.

Edition: 1st ed. 2021.

ISBN: 9783030595777

URL: https://doi.org/10.1007/978-3-030-59577-7

DOI: 10.1007/978-3-030-59577-7

DDC: 630

Language: English

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Maize Improvement : Current Advances in Yield, Quality, and Stress Tolerance under Changing Climatic Scenarios (2023)

Wani, Shabir Hussain. [editor.] ; Dar, Zahoor Ahmad. [editor.] ; Singh, Gyanendra Pratap. [editor.]

Cham :Springer International Publishing :

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Keywords: Agriculture. ; Plant genetics. ; Bioclimatology. ; Plant physiology. ; Plant biotechnology. ; Soil science. ; Agriculture. ; Plant Genetics. ; Climate Change Ecology. ; Plant Physiology. ; Plant Biotechnology. ; Soil Science.

Description / Table of Contents: 1. Maize Genome Genome diversity in Maize -- 2. Maize biodiversity: state of the art and future perspective for breeding -- 3. European maize landraces made accessible for plant breeding and genome-based studies -- 4.Maize genome analysis to elucidate evolution with time -- 5. QTL mapping for high temperature stress in Maize -- 6. QTL mapping advances for European Corn Borer Resistance in maize -- 7. GWAS for maize yield Improvement -- 8. Transcriptional Factor; a molecular switch to adapt Abiotic Stress mechanism in maize -- 9. Gene expression Divergence in Maize -- 10. Physiological and Biochemical Responses of Maize under Drought Stress -- 11. Fungal Pathogen Induced Modulation of Structural and Functional Proteins in Zea mays -- 12.Maize improvement using recent Omics approaches -- 13. Molecular Genetic Approaches to Maize Improvement. -- 14. Genomic selection in maize improvement -- 15. Genetic engineering for improvement of qualitative and quantitative traits in Maize -- 16. Potential of phenomics in climate resilient maize breeding -- 17. Current Genomic Approaches for biotic stress tolerance in Maize -- 18. Genomics approaches for ascertaining Drought stress responses in Maize -- 19. Genotyping advances for Heat stress Tolerance in Maize -- 20. Biofortification in Maize through Marker Assisted Breeding -- 21. Molecular breeding approaches to improve NUE in Maize -- 22. Molecular breeding (QTL mapping) for Phosphorus Use Efficiency in Maize -- 23. Maize improvement for water use efficiency: Advances in Recent molecular marker technology -- 24. Genome editing Advances for Maize Improvement.

Abstract: Maize is one of the most generally grown cereal crops at global level, followed by wheat and rice. Maize is the major crop in China both in terms of yield and acreage. In 2012, worldwide maize production was about 840 million tons. Maize has long been a staple food of most of the global population (particularly in South America and Africa) and a key nutrient resource for animal feed and for food industrial materials. Maize belts vary from the latitude 58° north to the latitude 40° south, and maize ripens every month of the year. Abiotic and biotic stresses are common in maize belts worldwide. Abiotic stresses (chiefly drought, salinity, and extreme temperatures), together with biotic stresses (primarily fungi, viruses, and pests), negatively affect maize growth, development, production and productivity. In the recent past, intense droughts, waterlogging, and extreme temperatures have relentlessly affected maize growth and yield. In China, 60% of the maize planting area is prone to drought, and the resultant yield loss is 20%–30% per year; in India, 25%–30% of the maize yield is lost as a result of waterlogging each year. The biotic stresses on maize are chiefly pathogens (fungal, bacterial, and viral), and the consequential syndromes, like ear/stalk rot, rough dwarf disease, and northern leaf blight, are widespread and result in grave damage. Roughly 10% of the global maize yield is lost each year as a result of biotic stresses. For example, the European corn borer [ECB, Ostrinia nubilalis (Hübner)] causes yield losses of up to 2000 million dollars annually in the USA alone in the northern regions of China, the maize yield loss reaches 50% during years when maize badly affected by northern leaf blight. In addition, abiotic and biotic stresses time and again are present at the same time and rigorously influence maize production. To fulfill requirements of each maize-growing situation and to tackle the above mentions stresses in an effective way sensibly designed multidisciplinary strategy for developing suitable varieties for each of these stresses has been attempted during the last decade. Genomics is a field of supreme significance for elucidating the genetic architecture of complex quantitative traits and characterizing germplasm collections to achieve precise and specific manipulation of desirable alleles/genes. Advances in genotyping technologies and high throughput phenomics approaches have resulted in accelerated crop improvement like genomic selection, speed breeding, particularly in maize. Molecular breeding tools like collaborating all omics, has led to the development of maize genotypes having higher yields, improved quality and resilience to biotic and abiotic stresses. Through this book, we bring into one volume the various important aspects of maize improvement and the recent technological advances in development of maize genotypes with high yield, high quality and resilience to biotic and abiotic stresses.

Type of Medium: Online Resource

Pages: VI, 333 p. 6 illus., 5 illus. in color. , online resource.

Edition: 1st ed. 2023.

ISBN: 9783031216404

URL: https://doi.org/10.1007/978-3-031-21640-4

DOI: 10.1007/978-3-031-21640-4

DDC: 630

Language: English

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New Horizons in Wheat and Barley Research : Global Trends, Breeding and Quality Enhancement (2022)

Kashyap, Prem Lal. [editor.] ; Gupta, Vikas. [editor.] ; Prakash Gupta, Om. [editor.] ; [et al.]

Singapore :Springer Nature Singapore :

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Keywords: Agricultural biotechnology. ; Subsistence farming. ; Agronomy. ; Agricultural genome mapping. ; Agricultural Biotechnology. ; Subsistence Agriculture. ; Agronomy. ; Agricultural Genetics.

Description / Table of Contents: Part 1 Global Trends and policy perspectives -- 1 Wheat and Barley Production Trends and Research Priorities: A Global Perspective -- 2 Policy Analysis for Food System Approach to Food and Nutrition Security -- 3 Wheat in Asia – Trends, Challenges and Research Priorities -- 4 Accelerating varietal replacement in wheat through strengthening of seed systems -- 5 Status of Wheat Variety Protection in India: Implications and Future Directions -- 6 Barley Improvement: Current Status and Future Prospects in Changing Scenario -- 7 Modern Extension Tools and Approaches for Upscaling, Outscaling and Deepscaling Wheat and Barley Technologies -- Part 2 Frontiers in breeding and genetic gain -- 8 Integration of emerging genomic tools in wheat improvement -- 9 Breaking the Yield Barriers to Enhance Genetic Gains in Wheat -- 10 Tackling a Cereal Killer on the Run: Unending Fight between Wheat Breeding and Foliar Rusts -- 11 Wheat blast: A Bio-Security Threat Looming Large -- 12 Breeding wheat for powdery mildew resistance -- 13 Breeding for spot blotch resistance in wheat -- 14 Common bunt and smuts in wheat and barley-Genetics, breeding and management: Current -- 15 Breeding wheat for conservation agriculture (CA) in the era of climate change -- 16 Breeding for aphid resistance in wheat: Status and future prospects -- 17 Broadening genetic base of wheat for improving rust resistance -- 18 Genetic interventions to improve salt and micro element toxicity tolerance in wheat -- 19 Prospects of durum wheat in the realm of climate change -- 20 Abiotic Stress Tolerance in Wheat: Physiological Interventions -- 21 Dicoccum wheat: Current status and future perspectives -- 22 Channelizing Novel Diversity Through Synthetics for Wheat Improvement -- 23 Genetic improvement of wheat and barley using transgenic approaches -- 24 Status and prospects of hybrid wheat: a brief update -- 25 Barley Genomic Research and Breeding Strategies -- Part 3 Advances in biofortification and quality enhancement -- 26 Advances in Malt and Food Quality Research of Barley -- 27 Mainstreaming grain zinc and iron concentration in CIMMYT Wheat breeding to accelerate rates of genetic gain for grain yield and zinc concentration -- 28 Physiochemical components of wheat grain quality and advances in their testing methods -- 29 Molecular, biotechnological and omics-based interventions for improving wheat grain quality: Advances and way forward -- 30 Interventions in wheat processing quality of end products -- 31 Effect of long-term storage on wheat nutritional and processing quality -- 32 Uniqueness of Sharbati and Indian Durum Wheat –Prospects for International Trade.

Abstract: This book outlines comprehensive information on the global trends, policies, research priorities and frontier innovations made in the research domain of breeding, biotechnology, biofortification and quality enhancement of wheat and barley. With contributions by international group of leading wheat and barley researchers, this book offers data-based insights along with a holistic view of the subject and serve as a vital resource of information for scientists engaged in breeding future high-yielding biofortified varieties. It catalogs both conventional as well as modern tools for gene identification and genome editing interventions for enhancing the yield, grain quality, disease and pest resistance, nutrient-use efficiency and abiotic stress tolerance. The prospects of processing high quality wheat end-products with long term storage and high nutritional quality are also discussed. This book is of interest to teachers, researchers, molecular breeders, cereal biochemists and biotechnologist, policymakers and professionals working in the area of wheat and barley research, food and cereal industry. Also, the book serves as an additional reading material for the undergraduate and graduate students of agriculture and food sciences. National and international agricultural scientists, policy makers will also find this book to be a useful read. Volume 2 of New Horizons in Wheat and Barley Research covers topics in crop protection and resource management. .

Type of Medium: Online Resource

Pages: XXIII, 842 p. 1 illus. , online resource.

Edition: 1st ed. 2022.

ISBN: 9789811644498

URL: https://doi.org/10.1007/978-981-16-4449-8

DOI: 10.1007/978-981-16-4449-8

DDC: 630

Language: English

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