During the last two decades the modern techniques of histochemistry, electron microscopy, plant physiology, biochemistry, cell and molecular biology, immunology, and genetics have been applied to investigate the intricacies of the processes involved in embryo formation, and considerable new information has been generated. A better understanding of these processes has enhanced our capacity to manipulate fertilization and embryo development. This has changed the face of the embryology of angiosperms from a descriptive science to an experimental and applied science. The revolutionary progress made in this fascinating field of sexual reproduction was the motivation to prepare this volume. It includes 21 chapters written by experts who have made substantial contributions to their respective fields. It covers all aspects of the embryology of angiosperms, ranging from development, isolation, and structure of male and female gametes, their fusion in vivo and in vitro, and structure, physiology, and genetics of zygotic embryogenesis, to endosperm and seed development. Advances in somatic embryogenesis, synthetic seed technology and regeneration of haploid plants from male and female gametophytes are discussed. Other important topics covered in this volume are sexual incompatibility, parthenocarpy, and apomixis. The last chapter deals with the embryological perspective of inheritance of extra-nuclear genes. All the chapters contain up-to-date information and are profusely illustrated. Graduate and postgraduate students, teachers, and scientists of botany and other areas of plant sciences will find this book extremely useful.

This book is the first to provide a detailed and critical account of the emergence, development, and implementation of plant variety protection laws in Asian countries. Each chapter undertakes a critical socio-legal analysis of one or more legal frameworks to understand, evaluate, and explore the concerns of diverse national stakeholders, the histories and dynamics of law-making, and the ways in which plant variety protection and seed certification laws interact with local agricultural systems. The book also assesses how Asian countries can capitalise on the 'unused policy space' in international agreements such as the Agreement on Trade-Related Aspects of Intellectual Property Rights and the International Convention for the Protection of New Varieties of Plants, as well as international obligations beyond these, such as those contained in the Convention on Biological Diversity and the Plant Treaty. It also highlights the many ways in which Asian experiences can offer new insights into the relationship between intellectual property and plants, and how relevant laws might be re-imagined in other regions, including Africa, Europe, and the Americas. By adding an important new perspective to the ongoing debate on intellectual property and plants, this book will appeal to academics, practitioners, and policy-makers engaged in work surrounding intellectual property laws, agricultural biodiversity, and plant breeding.

This book presents a comprehensive overview of plant stresses caused by salt, drought, extreme temperatures, oxygen and toxic compounds, which are responsible for huge losses in crop yields. It discusses the latest research on the impact of salinity and global environment changes, and examines the advances in the identification and characterization of the mechanisms that allow plants to tolerate biotic and abiotic stresses. Further it presents our current understanding of metabolic fluxes and the various transporters that collectively open the possibility of applying in vitro technology and genetic engineering to improve stress tolerance. Exploring advanced methods that augment traditional plant tissue culture and breeding techniques toward the development of new crop varieties that can tolerate biotic and abiotic stresses to achieve sustainable food production, this book is a valuable resource for plant scientists and researchers.

This book presents a detailed analysis of up-to-date literature on in vitro morphogenesis at cell, tissue, organ, and whole plant levels. Its driving force is the substantial advances made in the field of morphogenesis in tissue cultures during the last 25 years.

In nature, plants are constantly challenged by various abiotic and biotic stresses that can restrict their growth, development and yields. In the course of their evolution, plants have evolved a variety of sophisticated and efficient mechanisms to sense, respond to, and adapt to changes in the surrounding environment. A common defensive mechanism activated by plants in response to abiotic stress is the production and accumulation of compatible solutes (also called osmolytes). This include amino acids (mainly proline), amines (such as glycinebetaine and polyamines), and sugars (such as trehalose and sugar alcohols), all of which are readily soluble in water and non-toxic at high concentrations. The metabolic pathways involved in the biosynthesis and catabolism of compatible solutes, and the mechanisms that regulate their cellular concentrations and compartmentalization are well characterized in many important plant species. Numerous studies have provided evidence that enhanced accumulation of compatible solutes in plants correlates with increased resistance to abiotic stresses. New insights into the mechanisms associated with osmolyte accumulation in transgenic plants and the responses of plants to exogenous application of osmolyte, will further enhance our understanding of the mechanisms by which compatible solutes help to protect plants from damage due to abiotic stress and the potential roles compatible solutes could play in improving plants growth and development under optimal conditions for growth. Although there has been significant progress made in understanding the multiple roles of compatible solute in abiotic stress tolerance, many aspects associated with compatible solute-mediated abiotic stress responses and stress tolerance still require more research. As well as providing basic up-to-date information on the biosynthesis, compartmentalization and transport of compatible solute in plants, this book will also give insights into the direct or indirect involvement of these key compatible solutes in many important metabolic processes and physiological functions, including their antioxidant and signaling functions, and roles in modulating plant growth, development and abiotic stress tolerance. In this book, Osmoprotectant-mediated abiotic stress tolerance in plants: recent advances and future perspectives, we present a collection of 16 chapters written by leading experts engaged with compatible solute-induced abiotic stress tolerance in plants. The main objective of this volume is to promote the important roles of these compatible solutes in plant biology, by providing an integrated and comprehensive mix of basic and advanced information for students, scholars and scientists interested in, or already engaged in, research involving osmoprotectant. Finally, this book will be a valuable resource for future environmental stress-related research, and can be considered as a textbook for graduate students and as a reference book for front-line researchers working on the relationships between osmoprotectant and abiotic stress responses and tolerance in plants.

This book provides insight into the biology and genomics of the genus Boswellia (family Burseraceae), a natural resource used for the production of frankincense, an oleo-gum resin. The Boswellia species are ecologically, medicinally, commercially and culturally important. Significantly contributing to the paucity of comprehensive literature on this genus, this volume provides a detailed discussion on the genomics, physiology and ecology of Boswellia. The chapters cover a wide range of topics, including taxonomy, distribution, genetic diversity and microbiology. The production process of frankincense and its impact on the species are presented as well. In light of the recent decline of various Boswellia populations, species propagation and conservation are discussed. Plant scholars, ecologists and conservation biologists will find this book to be an important and informative reference.

This book represents the authors' lifetime dedication to the study of inhibitors and phytohormones as well as its practical applications for achieving a more sustainable agriculture. Their work focuses on the functions of various groups of active molecules, their direct effect upon plant growth, but also implications for their impact upon the surrounding environment are explored. The main idea of the book evolved from the need to determine a balance among natural growth inhibitors and phytohormones. This approach was pursued through a better understanding of their biochemical pathways, their effects on plants physiological functions, and their influence upon stress factors on plant ontogenesis. Therefore, this effort proposes a more holistic approach to the study of plant physiology, in which the plant-soil interactions are discussed, with a profound description of different allelochemicals and their effects on plants growth. A rigorous attention is also paid to discuss the role of microorganisms in ecosystems and their capability to synthesize physiologically active substances, which trigger also unique plant-microbial interactions. These synergies are leading scientists to the discovery of major breakthroughs in agriculture and pharmacology that are revolutionizing old epistemologies and thus, contributing to the emergence of a philosophy of interconnectedness for the whole biosphere.

Part of a series which presents papers of topical interest relating to the breeding of plants important to agriculture and horticulture.

This open access book shares the experiences of Tropical Legumes III (TLIII) project in facilitating access to seed of improved legume varieties to smallholder farmers through innovation platforms. It highlights practices and guiding principles implemented in eight developing countries of sub-Saharan Africa and South Asia. This book details key processes that respective teams employed to create an innovation space that delivers seed, other inputs, knowledge and financial services to agricultural communities and most importantly, the underserved farmers in remote areas of the drylands. It offers valuable insights into the pathway to establishing, promoting and operating innovation platforms to enhance the performance and competitiveness of legume crops' value chains, and addresses critical issues that must be considered to make innovation platforms more sustainable and attractive to beneficiaries. The book offers a wealth of practical insights for development workers, technical staff, and project managers. This publication is all about TLIII community of practice. It will definitely inspire other development workers and scientists to share their own experiences for others to learn from.

Plant breeding has played a significant role in the development of human civilizations. Conventional plant breeding has significantly improved crop yield by genetically manipulating agronomically important traits. However, it has often been criticized for ignoring indigenous germplasm, failing to address the needs of the marginal and the poor farmers, and emphasizing selection for broad instead of local adaptation. Participatory plant breeding (PPB) is the process by which the producers and other stakeholders are actively involved in a plant-breeding programme, with opportunities to make decisions throughout. The Working Group on Participatory Plant Breeding (PPBwg) was established in 1996 under the framework of the Consultative Group on International Agricultural Research (CGIAR). Research in PPB can promote informed participation and trust in research among consumers and producers, and in recent years, PPB has had a significant impact on food production by quickly and cost-effectively producing improved crop varieties. At the same time, there has been significant research in the area. PPB offers significant advantages that are particularly relevant to developing countries where large investments in plant breeding have not led to increased production, especially in the marginal environments. In addition to the economic benefits, participatory research has a number of psychological, moral, and ethical benefits, which are the consequence of a progressive empowerment of the farming communities. PPB can empower groups such as women or less well-off farmers that are traditionally left out of the development process. This book explores the potential of PPB in the coming decades. The topic is more relevant since international breeding efforts for major crops are aimed at decentralizing local breeding methods to better incorporate the perspective of end users into the varietal development process. The first book incorporating the upcoming research on this novel breeding approach, it reviews the important tools and applications of PPB in an easy-to-read, succinct format, with illustrations to clarify these complex topics. It provides readers with a basic idea of participatory plant breeding as well as advances in the field and insights into the future to facilitate the successful integration of farmers into breeding programmes. This book is a valuable reference resource for agriculturists, agricultural advisers, policy makers, NGOs, post-doctoral students and scientists in agriculture, horticulture, forestry and botany.

Proceedings of a Seminar in the CEC Programme of the Coordination of Research on Plant Protein Improvement, held in Gembloux, Belgium, Sept. 3-5, 1985

This book reviews modern strategies in the breeding of vegetables in the era of global warming. Agriculture is facing numerous challenges in the 21st century, as it has to address food, nutritional, energy and environmental security. Future vegetable varieties must be adaptive to the varying scenarios of climate change, produce higher yields of high- quality food and feed and have multiple uses. To achieve these goals, it is imperative to employ modern tools of molecular breeding, genetic engineering and genomics for 'precise' plant breeding to produce 'designed' vegetable varieties adaptive to climate change. This book is of interest to scientists working in the fields of plant genetics, genomics, breeding, biotechnology, and in the disciplines of agronomy and horticulture.

This collection of essays looks at sexuality and reproduction from an evolutionary perspective. Covering experimental discoveries as well as theoretical investigations, the volume explores the relationship between evolution and other areas of human behaviour.

Plant adaptation is a fundamental process in plant breeding. It was the first criterion in the initial domestication of plants thousands of years ago. Adaptedness is generally a quantitative complex feature of the plant, involving many traits, many of which are quantitative. Adaptation to stresses like cold, drought or diseases are among the most central problems in a world grappling with global food security. Modern plant breeding, based on mendelian genetics, has made plant improvement more effective and more precise and selective. Molecular genetics and genetic engineering has considerably increased this selectivity down to single genes affecting single traits. The time has come when plant breeding efficiency may cause loss of genetic resources and adaptation. In these proceedings an effort is made to merge modern plant breeding efficiency with ecological aspects of plant breeding, reflected in adaptation. It is hoped that this merger results in more sustainable use of genetic resources and physical environments. The book is based on 10 keynotes addressing a wide spectrum of themes related to adaptation. In addition each subject is further elaborated in up to three case studies on particular plant species or groups of plants. The keynotes do in fact overlap to some degree and there are articles in this volume that seemingly contradict each other, a common aspect in advanced fields of research. The keen reader may conclude that, in a world where climates and environments are under continuous change and where human society is more and more polarized into a developed and a developing part, adaptation of our cultivated plants has different constraints on yields depending on ecology, and indeed economy.

With the continued effects of climate change threatening the security of the global food system, there is a greater emphasis on ensuring successful crop establishment as a means of optimising agricultural production. Advances in seed science and technology for more sustainable crop production considers how an improved understanding of seed quality, germination and seedling emergence can address this challenge. The book reviews the development of new techniques to ensure seed quality control, including seed phenotyping, as well as the role of genetic and environmental factors in determining seed longevity. In its comprehensive exploration of seed science and technology, the book highlights how an informed understanding of seed biology can contribute to mitigating the effects of climate change on seed quality and consequently crop production.

"Advances in Botanical Research" publishes in-depth and up-to-date reviews on a wide range of topics in plant sciences. Currently in its 72nd volume, the series features several reviews by recognized experts on all aspects of plant genetics, biochemistry, cell biology, molecular biology, physiology and ecology. This thematic volume features reviews on the molecular genetics of floral transition and flower development.
Publishes in-depth and up-to-date reviews on a wide range of topics in plant sciencesFeatures a wide range of reviews by recognized experts on all aspects of plant genetics, biochemistry, cell biology, molecular biology, physiology and ecologyVolume features reviews on the molecular genetics of floral transition and flower development

"Biotechnology and Plant Breeding" includes critical discussions of the newest and most important applications of biotechnology in plant breeding, covering key topics such as biometry applied to molecular analysis of genetic diversity, genetically modified plants, and more. This work goes beyond recombinant DNA technology to bring together key information and references on new biotech tools for cultivar development, such as double-haploids, molecular markers, and genome-wide selection, among others.

It is increasingly challenging for plant breeders and agricultural systems to supply enough food, feed, fiber and biofuel for the global population. As plant breeding evolves and becomes increasingly sophisticated, a staggering volume of genetic data is now generated. "Biotechnology and Plant Breeding" helps researchers and students become familiar with how the vast amounts of genetic data are generated, stored, analyzed and applied.

This practical resource integrates information about plant breeding into the context of modern science, and assists with training for plant breeders including those scientists who have a good understanding of molecular biology/biotechnology and need to learn the art and practice of plant breeding. Plant biologists, breeding technicians, agronomists, seed technologists, students, and any researcher interested in biotechnologies applied to plant breeding will find this work an essential tool and reference for the field.
Presents in-depth but easy-to-understand coverage of topics, so plant breeders can readily comprehend them and apply them to their breeding programs Includes chapters that address the already developed and optimized biotechnologies for cultivar development, with real-world application for usersFeatures contributions by authors with several years of experience in their areas of expertise

Plant improvement has shifted its focus from yield, quality and disease resistance to factors that will enhance commercial export, such as early maturity, shelf life and better processing quality. Conventional plant breeding methods aiming at the improvement of a self-pollinating crop usually take 10-12 years to develop and release of the new variety. During the past 10 years, significant advances have been made and accelerated methods have been developed for precision breeding and early release of crop varieties. This book focuses on the accelerated breeding technologies that have been adopted for major oil crops. It summarizes concepts dealing with germplasm enhancement and development of improved varieties based on innovative methodologies that include doubled haploidy, marker assisted selection, marker assisted background selection, genetic mapping, genomic selection, high-throughput genotyping, high-throughput phenotyping, mutation breeding, reverse breeding, transgenic breeding, shuttle breeding, speed breeding, low cost high-throughput field phenotyping, etc. This edited volume is therefore an excellent reference on accelerated development of improved crop varieties.

This book is open access under a CC BY-NC 2.5 license. This book offers 19 detailed protocols on the use of induced mutations in crop breeding and functional genomics studies, which cover topics including chemical and physical mutagenesis, phenotypic screening methods, traditional TILLING and TILLING by sequencing, doubled haploidy, targeted genome editing, and low-cost methods for the molecular characterization of mutant plants that are suitable for laboratories in developing countries. The collection of protocols equips users with the techniques they need in order to start a program on mutation breeding or functional genomics using both forward and reverse-genetic approaches. Methods are provided for seed and vegetatively propagated crops (e.g. banana, barley, cassava, jatropha, rice) and can be adapted for use in other species.

The first review series in virology and published since 1953, Advances in Virus Research covers a diverse range of in-depth reviews, providing a valuable overview of the field. The series of eclectic volumes are valuable resources to virologists, microbiologists, immunologists, molecular biologists, pathologists, and plant researchers. Volume 90 features articles on control of plant virus diseases.

Manyexcitingdiscoveriesinrecentdecadeshavecontributednewknowledgeto ourunderstandingofthemechanismsthatregulatevariousstagesofplantgrowth anddevelopment. Suchinformation,coupledwithadvancesincellandmolecular biology,isfundamentaltocropimprovementusingbiotechnologicalapproaches. Twovolumesconstitutethepresentwork. The?rst,comprising22chapters, commenceswithintroductionsrelatingtogeneregulatorymodelsforplantdev- opmentandcropimprovement,particularlytheuseofArabidopsisasamodelplant. Thesechaptersarefollowedbyspeci?ctopicsthatfocusondifferentdevelopmental aspectsassociatedwithvegetativeandreproductivephasesofthelifecycleofa plant. Six chapters discuss vegetative growth and development. Their contents considertopicssuchasshootbranching,buddormancyandgrowth,thedevel- ment of roots, nodules and tubers, and senescence. The reproductive phase of plantdevelopmentisin14chaptersthatpresenttopicssuchas?oralorganinit- tionandtheregulationof?owering,thedevelopmentofmaleandfemalegametes, pollengerminationandtubegrowth,fertilization,fruitdevelopmentandripening, seed development, dormancy, germination, and apomixis. Male sterility and self-incompatibilityarealsodiscussed. Volume2has20chapters,threeofwhichreviewrecentadvancesinsomatic embryogenesis,microsporeembryogenesisandsomaclonalvariation. Sevenofthe chapterstargetplantprocessesandtheirregulation,includingphotosynthatepartiti- ing,seedmaturationandseedstorageproteinbiosynthesis,theproductionandregu- tionoffattyacids,vitamins,alkaloidsand?owerpigments,and?owerscent. This secondbookalsocontainsfourchaptersonhormonalandenvironmentalsignaling (aminocompounds-containinglipids,auxin,cytokinin,andlight)intheregulationof plantdevelopment;othertopicsencompassthemoleculargeneticsofdevelopmental regulation,includingRNAsilencing,DNAmethylation,epigenetics,activationt- ging,homologousrecombination,andtheengineeringofsyntheticpromoters. Thesebookswillserveaskeyreferencesforadvancedstudentsandresearchers involved in a range of plant-orientated disciplines, including genetics, cell and molecularbiology,functionalgenomics,andbiotechnology. August2009 E-C. PuaandM. R. Davey v Contents PartI CellDifferentiationandDevelopmentInVitro 1 DevelopmentalBiologyofSomaticEmbryogenesis ...3 R. J. Rose,F. R. Mantiri,S. Kurdyukov,S-K. Chen,X-D. Wang, K. E. Nolan,andM. B. Sheahan 1. 1 Introduction ...3 1. 2 BasicRequirementsforInVitroSE ...4 1. 3 ExplantandStemCellBiology ...5 1. 3. 1 Genotype ...5 1. 3. 2 ExplantCells ...6 1. 4 EarliestEventinEmbryogenesis-AsymmetricCellDivision ...8 1. 4. 1 CellWallinEstablishmentofPolarity,DivisionAsymmetry andCellFate ...8 1. 4. 2 DivisionAsymmetryintheInitiationofSE ...10 1. 4. 3 AsymmetricDivisionandtheSuspensorinSE ...10 1. 5 StressComponentintheInitiationofSE ...11 1. 5. 1 ReactiveOxygenSpecies ...11 1. 5. 2 Stress-RelatedHormoneSignalling ...12 1. 6 HormonesandtheInitiationofSE ...13 1. 7 InductionofSEbyOver-ExpressionofLeafyCotyledon TranscriptionFactorsandTheirRelationshiptoSEInductionand Repression-theGAConnection ...14 1. 8 ABA,StressandGA ...16 1. 9 SolubleSignalsandCell-CellInteractionsthatPromoteSEin SuspensionCultures ...16 1. 9. 1 SecretedProteinsthatIn?uenceSE ...16 1. 9. 2 AGPSignallinginSE:MechanismsandInteractionsBetween SignallingPathways ...17 1. 9. 3 Cell-AsymmetricCellDivision ...8 1. 4. 1 CellWallinEstablishmentofPolarity,DivisionAsymmetry andCellFate ...8 1. 4. 2 DivisionAsymmetryintheInitiationofSE ...10 1. 4. 3 AsymmetricDivisionandtheSuspensorinSE ...10 1. 5 StressComponentintheInitiationofSE ...11 1. 5. 1 ReactiveOxygenSpecies ...11 1. 5. 2 Stress-RelatedHormoneSignalling ...12 1. 6 HormonesandtheInitiationofSE ...13 1. 7 InductionofSEbyOver-ExpressionofLeafyCotyledon TranscriptionFactorsandTheirRelationshiptoSEInductionand Repression-theGAConnection ...14 1. 8 ABA,StressandGA ...16 1. 9 SolubleSignalsandCell-CellInteractionsthatPromoteSEin SuspensionCultures ...16 1. 9. 1 SecretedProteinsthatIn?uenceSE ...16 1. 9. 2 AGPSignallinginSE:MechanismsandInteractionsBetween SignallingPathways ...17 1. 9. 3 Cell-Manyexcitingdiscoveriesinrecentdecadeshavecontributednewknowledgeto ourunderstandingofthemechanismsthatregulatevariousstagesofplantgrowth anddevelopment. Suchinformation,coupledwithadvancesincellandmolecular biology,isfundamentaltocropimprovementusingbiotechnologicalapproaches. Twovolumesconstitutethepresentwork. The?rst,comprising22chapters, commenceswithintroductionsrelatingtogeneregulatorymodelsforplantdev- opmentandcropimprovement,particularlytheuseofArabidopsisasamodelplant. Thesechaptersarefollowedbyspeci?ctopicsthatfocusondifferentdevelopmental aspectsassociatedwithvegetativeandreproductivephasesofthelifecycleofa plant. Six chapters discuss vegetative growth and development. Their contents considertopicssuchasshootbranching,buddormancyandgrowth,thedevel- ment of roots, nodules and tubers, and senescence. The reproductive phase of plantdevelopmentisin14chaptersthatpresenttopicssuchas?oralorganinit- tionandtheregulationof?owering,thedevelopmentofmaleandfemalegametes, pollengerminationandtubegrowth,fertilization,fruitdevelopmentandripening, seed development, dormancy, germination, and apomixis. Male sterility and self-incompatibilityarealsodiscussed. Volume2has20chapters,threeofwhichreviewrecentadvancesinsomatic embryogenesis,microsporeembryogenesisandsomaclonalvariation. Sevenofthe chapterstargetplantprocessesandtheirregulation,includingphotosynthatepartiti- ing,seedmaturationandseedstorageproteinbiosynthesis,theproductionandregu- tionoffattyacids,vitamins,alkaloidsand?owerpigments,and?owerscent. This secondbookalsocontainsfourchaptersonhormonalandenvironmentalsignaling (aminocompounds-containinglipids,auxin,cytokinin,andlight)intheregulationof plantdevelopment;othertopicsencompassthemoleculargeneticsofdevelopmental regulation,includingRNAsilencing,DNAmethylation,epigenetics,activationt- ging,homologousrecombination,andtheengineeringofsyntheticpromoters. Thesebookswillserveaskeyreferencesforadvancedstudentsandresearchers involved in a range of plant-orientated disciplines, including genetics, cell and molecularbiology,functionalgenomics,andbiotechnology. August2009 E-C. PuaandM. R. Davey v Contents PartI CellDifferentiationandDevelopmentInVitro 1 DevelopmentalBiologyofSomaticEmbryogenesis ...3 R. J. Rose,F. R. Mantiri,S. Kurdyukov,S-K. Chen,X-D. Wang, K. E. Nolan,andM. B. Sheahan 1. 1 Introduction ...3 1. 2 BasicRequirementsforInVitroSE ...4 1. 3 ExplantandStemCellBiology ...5 1. 3. 1 Genotype ...5 1. 3. 2 ExplantCells ...6 1. 4 EarliestEventinEmbryogenesis-AsymmetricCellDivision ...8 1. 4. 1 CellWallinEstablishmentofPolarity,DivisionAsymmetry andCellFate ...8 1. 4. 2 DivisionAsymmetryintheInitiationofSE ...10 1. 4. 3 AsymmetricDivisionandtheSuspensorinSE ...10 1. 5 StressComponentintheInitiationofSE ...11 1. 5. 1 ReactiveOxygenSpecies ...11 1. 5. 2 Stress-RelatedHormoneSignalling ...12 1. 6 HormonesandtheInitiationofSE ...13 1. 7 InductionofSEbyOver-ExpressionofLeafyCotyledon TranscriptionFactorsandTheirRelationshiptoSEInductionand Repression-theGAConnection ...14 1. 8 ABA,StressandGA ...16 1. 9 SolubleSignalsandCell-CellInteractionsthatPromoteSEin SuspensionCultures ...16 1. 9. 1 SecretedProteinsthatIn?uenceSE ...16 1. 9. 2 AGPSignallinginSE:MechanismsandInteractionsBetween SignallingPathways ...17 1. 9. 3 Cell-CellInteractionandRelevancetoSEinSuspension Cultures ...18 vii viii Contents 1. 10 DevelopmentProgramAfterSEInduction ...19 1. 11 ConcludingRemarksandaModelBasedonStudiesin Medicagotruncatula ...19 1. 12 SEandBiotechnology ...20 References ...21 2 MicrosporeEmbryogenesis ...27 A. Olmedilla 2. 1 Introduction ...27 2. 2 DiscoveryoftheProductionofHaploidsbyAntherCulture ...29 2. 3 StrategiesfortheInductionofMicrosporeEmbryogenesis ...29 2. 4 In?uenceofDifferentFactorsinMicrosporeEmbryogenesis ...30 2. 4. 1 Genotype ...30 2. 4. 2 DonorPlantPhysiology ...31 2. 4. 3 StageofPollenDevelopment ...

This collection of essays looks at sexuality and reproduction from an evolutionary perspective. Covering experimental discoveries as well as theoretical investigations, the volume explores the relationship between evolution and other areas of human behaviour.

First published in 1985: This book presents a comprehensive survey of progress and current knowledge of those biochemical processes with greater potential for the development of superior cultivars: Photosynthesis, photorespiration, nitrate assimilation, biological nitrogen fixation, and starch and protein synthesis.

Palynology finds applications in various fields. Some of them are taxonomy, plant evolution, plant breeding programmes, biotechnology, microbiology of water, soil and air, the pharmaceutical industry, cosmetic industry, energy food industry, forensic science, aerobiology, allergy, epidemiology, meteorology, fossil fuel exploration and biodiversity. On account of these applications, palynology has gained a lot of importance and is attracting different scientific disciplines. Published literature on the above aspects is widely scattered.

This book reports on the current global status of mungbean and its economic importance. Mungbean (Vigna radiata)-also called green gram-is an important food and cash crop in the rice-based farming systems of South and Southeast Asia, but is also grown in other parts of the world. Its short duration, low input requirement and high global demand make mungbean an ideal rotation crop for smallholder farmers. The book describes mungbean collections maintained by various organizations and their utilization, especially with regard to adapting mungbean to new environments. It provides an overview of the progress made in breeding for tolerance to biotic and abiotic stresses; nutritional quality enhancement including genomics approaches; and outlines future challenges for mungbean cultivation. In addition, genomic approaches to evaluating the evolutionary relationship between Vigna species and addressing questions concerning domestication, adaptation and genotype-phenotype relationships are also discussed