Agronomi og planteproduktion

Nanotechnology and Nanomaterials in the Agri-Food Industries: Smart Nanoarchitectures, Technologies, Challenges, and Applications brings together the latest advances in the utilization of advances nanotechnology, nanoarchitectures, and nanomaterials in the agricultural and food sectors. The book begins by discussing recent trends towards sustainable synthesis and application, covering green nanomaterials and biodegradable nanomaterials and composites. Subsequent chapters focus on key application areas of engineered nanomaterials in both agriculture and food processing, such as crop production and protection, delivery vehicles, detection of contaminants, nanobionic and genetic engineering in plants, active food packaging and preservation, enhanced food formulations and nutrients, nanoscale additives for freshness, and nanosensors. This is followed by a section that addresses key challenges relating to the application of nanostructures and nanodevices in these sectors, including global market considerations, health and environmental concerns, and intellectual property and socio-economic issues. Finally, policy implications and future perspective for the field are reviewed in detail.

This collection considers the ways in which rootstock health can be optimised to improve agricultural production and fruit quality. Chapters consider recent advances in the development and utilisation of fruit tree rootstocks and how they can be used to mitigate the effects of abiotic stresses.

This collection explores and reviews the wealth of recent research undertaken in the field of agricultural robotics, both in terms of core technologies and range of applications.

Genomics, Transcriptomics, Proteomics and Metabolomics of Crop Plants presents current operational methods applied to model crop plants. Including subcellular organelles, DNA fingerprinting and barcoding, sRNA, gene expression, rhizosphere engineering, marker assisted and 5G breeding, plant-microorganism interactions, stress signaling and responses, the book highlights important factors that are often overlooked and explores the latest research. The book also explores cutting-edge approaches for immediate application in new research such as OMICS, genome-wide transcriptome profiling, bioinformatics and database, DNA fingerprinting and barcoding, sRNA, gene expression, genome editing, diagnostics, rhizosphere engineering, marker assisted and 5G breeding, crop plant-microorganism interactions, stress signaling and responses. Additionally, the book describes opportunities to manipulate crop plants genetic and metabolic systems, while also exploring the related bioethical and biosafety issues. These topics are chosen and covered in detail to fill the gap in this understanding of crop molecular biology.

This volume discusses the need to adopt Climate-Resilient Agriculture (CRA) practices to address the increasing global impact that climate change has on agricultural productivity and agriculture-dependent communities. This approach applies technological, policy and economic measures to achieve sustainable agricultural growth in the sectors of grain, fruit, vegetable, fiber, feed, livestock, fisheries and forestry, with the ultimate goal of adapting and building resilience to climate change. The book also uses GIS, crop modeling and remote sensing techniques for future climate resilience applications in agriculture, and covers pest control measures that avoid the use of pesticides to boost crop and livestock productivity for improved food security. The book will be of interest to researchers and students in environmental science, climate science, sustainability and agriculture, as well as policy makers and environmental organizations. 

Hormonal Cross-Talk, Plant Defense and Development: Plant Biology, Sustainability and Climate Change focuses specifically on plants and their interaction to auxins, gibberellins, cytokinins, ethylene, abscisic acid, jasmonates, brassinosteroids, strigolactones, and the potential those interactions offer for improved plant health and production. Plant hormones (auxins, gibberellins, cytokinins, ethylene, abscisic acid, jasmonates, brassinosteroids, salicylic acid, strigolactones etc.) regulate numerous aspects of plant growth and developmental processes. Each hormone initiates a specific molecular pathway, with each pathway integrated in a complex network of synergistic, antagonistic and additive interactions. This is a valuable reference for those seeking to understand and improve plant health using natural processes. The cross-talks of auxins - abscisic acid, auxins - brassinosteroids, brassinosteroids- abscisic acid, ethylene - abscisic acid, brassinosteroids - ethylene, cytokinins - abscisic acid, brassinosteroids - jasmonates, brassinosteroids - salicylic acid, and gibberellins - jasmonates - strigolactones have been shown to regulate a number of biological processes in plant system. The cross-talk provides robustness to the plant immune system but also drives specificity of induced defense responses against the plethora of biotic and abiotic interactions.

Biofortification of Grain and Vegetable Crops: Molecular and Breeding Approaches is a comprehensive overview of important food crops whose vitamin and mineral enhancement can contribute significantly to improved food and nutrition security. Providing the latest information on crops including cereals, oilseeds, legumes and vegetables, this book provides details of agronomic and molecular resources for enhanced mineral production. Each chapter focuses on a specific food crop and the unique opportunities offered by each through breeding practices. This will be a valuable resource for researchers, academics and those in industry who are exploring biotechnological approaches as a powerful tool to combat malnutrition.

This book compiles information on genetic resources and genomics to facilitate the identification of specific germplasms, trait mapping, cropping systems, and genome engineering needed for more effective development of biotic and abiotic stress resistant cereals. It presents practical approaches for enhancing crop production in a sustainable way.

This collection reviews the process of phosphorus acquisition in crops and considers the key soil, root and microbial processes that can influence the success of it. Chapters also consider recent developments in breeding programmes to improve phosphorus acquisition efficiency, as well as the environmental effects of phosphorus fertilisation.

This collection provides a considered exploration of the nutritional and health benefits of key beverage crops, focussing primarily on tea and coffee. Chapters explore their potential in preventing the onset of chronic diseases, such as cancer and diabetes, as well as the analytical techniques available to identify phytochemicals.

This collection provides a comprehensive overview of the varied applications of biostimulants in agriculture, from their use as a tool in integrated pest management programmes to suppress pest infestations, to their utilisation as means of enhancing crop root function and nutrient use.

This collection considers the variety of applications of Artificial Intelligence in agriculture, highlighting its use in vineyards to improve precision irrigation, as well as its use in harvest-assist platforms in citrus orchards.

This book presents the progress, changes, and evolvement for apple mechanical harvest during the past decades, which include, but not limited to, bulky harvest method, harvest platform, apple infield sorting, and harvest robotics. Though there are significant progresses in apple harvest robotics, there still is a long way ahead before its practical applications, with existing and potential bottlenecks described in this book. Hence, other researchers would take advantage of this book to have a hint of the apple mechanical harvest history and state-of-the-art progress, so that they can find the room for their new research. This book targets senior undergraduates and more importantly graduate students in the field of agricultural engineering, sensing, automatic, and robotics.

Contained within this book is a complete introductory guide to creating and maintenance hay fields. Establishment and Maintenance of Hay Fields offers the reader simple, clear descriptions and explanations of what should and should not be done, coupled with expert tips and other information invaluable to the farmer. The contents include: Farming Establishment And Maintenance Of Hay Fields Stirring the Sod of Mowing Fields Spring or Autumn Seeding Grass Seeds must not be Deeply Buried Methods of Sowing Grass Experiments with Buried Grass Seeds Winter-killing of Grass Snow Protects Grass Spring Rolling of Grass Fields Burning off of Grass Many vintage books such as this are increasingly scarce and expensive. It is with this in mind that we are republishing this volume now in an affordable, modern, high-quality edition complete with a specially-commissioned new introduction on farming.

This edited book provides a comprehensive account of the sustainable intensification process through various forms of case studies and scientific approaches studied across the globe. It also focuses on the agroecosystem services and their subsequent management for ecological integrity. The book helps to understand the interconnection of food, nutrition, economic growth, and environmental security on the planet. It provides comprehensive information with photographic illustration and various other forms of scientific databases on sustainable intensification of agroecosystems. The book also supports decision-making, strategies, and policy formulation for effective implementation of sustainable intensification towards higher productivity along with maintenance and management of agroecosystem services. Proper sustainable intensification of agroecosystem services and their management by maintaining ecological harmony is the future prospect for sustainable development. High input agriculture gives rise to a high-energy footprint, agricultural pollution, resource depletion, loss of agro-biodiversity, and decline of human health. Through this connection, the sustainable intensification approach addresses the advanced food security, sustainability, and overall prosperity of humankind. The book is helpful for both undergraduate and postgraduate students, policymakers, the farming community, as well as the scientific community across the globe to understand the concept of sustainable intensification and its application in relevant fields for proper management of agroecosystems services.

Landraces possess a very large genetic base in population structure and are dynamic populations of cultivated plants with historical origin, distinct identity, and without any formal crop improvement. They are often genetically diverse, locally adapted, and associated with traditional farming systems. Resistance genes to biotic and abiotic stress factors, which are especially diversified in landraces, are of great interest to plant breeders, faced with global climate challenge. In addition, gene pools made of different landraces grown in different ecological conditions can be used for wheat breeding to enhance quality; yield and other desirable agricultural parameters. An estimated 75% of the genetic diversity of crop plants was lost in the last century due to the replacement of high yielding modern varieties. There is, thus, an urgent need to preserve existing species, not only for posterity but also as a means to secure food supply for a rising world population. In this book, we provide an overview of wheat landraces with special attention to genetic diversities, conservation, and utilization. 

This edited book opens up new vistas for sustainable intensification in agriculture to provide food to ever growing population as well as adapting to the risks of global environmental change. Diverting from conventional agriculture, the book explores new dimensions and concepts that have been identified for future research and development in sustaining agriculture in Asia and Africa regions. The chapters are written by leading researchers and practitioners in the field of agroforestry. The book demonstrates how agroforestry could be instrumental in bringing stability and sustainability in agricultural production. It offers sustainable solutions for the impending problems of climate change, ecosystem degradation, declining agricultural productivity, and uncertain food security. It is an essential resource for students in agroforestry courses, as well as a valuable introduction to the field for professionals in related areas.

This collection considers current challenges facing irrigated agriculture and reviews the wealth of research on the range of interventions which can be applied to address these challenges, from understanding and managing water flows at the watershed scale, through to improved use of water resources.