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This practical guide applies FAO's ecosystem-based model of agriculture, which aims at improving productivity while conserving natural resources, to cassava. The guide shows how "Save and Grow" can help cassava growers avoid the risks of intensification, while realizing the crop's potential for producing higher yields, alleviating hunger and rural poverty, and contributing to national economic development.
This guide has been developed for extension officers in both the public and the private, including those interested in agricultural development in Zambia. The goal of this manual is to serve as a tool that allows readers to access up to date information about various agricultural practices and their advantages and disadvantages. There are many organisations in Zambia that have programs that aim towards sustainable development in the agricultural sector. Amongst these programs, there are many different approaches to the goal of improving livelihoods. Although these various programs have good reasons for promoting their specific methods, this manual aims to take an independent stance to portray what all of them offer and why. This manual also includes significant information about new approaches and traditional farmer practices or conventional farming methods. The central theme in this manual is that there can never be only one way to achieve a goal under such diverse conditions as are found in agriculture. Although a certain amount of benefit can be gained by rigid guidelines to agricultural practice (for example a specific crop spacing, tillage method or fertilizer recommendation), the diverse factors that affect peoples’ decisions relate to economic, social and environmental conditions make such guidelines impractical in many cases.
The book offers a rich toolkit of relevant, adoptable ecosystem-based practices that can help the world's 500 million smallholder farm families achieve higher productivity, profitability and resource-use efficiency while enhancing natural capital.
Sustainable Cassava: Production, Processing, Trade, Consumption and Waste Management Strategies presents viable approaches to promote sustainability in this globally important crop, enabling future generations to benefit. Providing key insights to enhance production while limiting environmental impact, this book provides readers with foundational understanding of growing and utilizing Cassava. Cassava (Manihot Mill. species Euphorbiaceae) is a staple crop in tropical and subtropical regions of the world with diverse food and non-food value. It is a principal energy source but may be fortified to provide improved nutritional status for consumers as well as for the production of value-added products. With the growing human population, there is a need to increase global production and efficiency in trade, diversify and ensure safe consumption, maximize utilization of all cassava processing wastes, and add value to the cassava production chain through sustainable practices Presented in three parts, the first addresses cassava diversity and distribution, sustainable production and cultivation practices, and root processing innovations of the crop. Cassava trade policies and economic value chains, food safety and use of cassava, and agro-industrial cassava products are addressed in the second part. The third part focuses on bioeconomy aspects, cassava waste quality assessment, toxicology, sanitary practices, environmental risk assessment as well as sustainable management strategies for cassava waste using biotechnological and industrial advances. Addressing the need for a unified and standardized approach for the trade, management, and utilization of cassava genetic resources, finished products, and cassava processing wastes, the book also explores policy and governance structure for addressing environmental and economic issues emanating from their use. In the lens of globalization, climate change adaptation and mitigation, and sustainable development, the contents of this book will promote the adoption of novel and advanced practices in cassava cultivation and production, harvest, use, and waste recovery or reduction and contribute to global cooling efforts. - Presents best practices and ideas from around the world, including technological advances for Cassava production and use - Focuses on sustainability throughout the lifecycle - Provides insights translatable to other tuber crops for further enhanced sustainable food security
This manual is specifically designed to help train actual and potential farm mechanization service providers, in order to increase access to sustainable farm power to raise the productivity of smallholder farmers. It focuses on two crucial aspects: the provision of farm mechanization services as a viable business opportunity for entrepreneurs, and the essential criteria of raising productivity in an environmentally sensitive and responsible way i.e. that includes conservation agriculture. Practical guidance on the essential business development and management skills required to successfully run a mechanization service provision business are presented, with a focus on the equipment required to offer services compatible with conservation agriculture. The manual will be of particular interest to policymakers’ intent on achieving sustainable intensification in the agricultural sector. It is also a valuable resource for trainers charged with increasing the supply of well-trained and well-equipped entrepreneurial mechanization service providers through the implementation of training courses tailored to the specific course locations.
FAO’s major publications series are presented together in a user-friendly catalogue. The catalogue features all of the most active series, both new and long-standing, and is divided into areas of work, including agriculture, forestry, fisheries, trade and investment, among others. Each series entry includes technical specifications, language versions, most recent titles, relevant ISSNs, and QR codes linking to online resources in the FAO Document Repository.
Over the last few decades, the new discipline of sustainability science (SS) has evolved with a phenomenal rise in knowledge production, research, and publications, as well as the development of new academic programs and creation of centers and scientific communities, networks, and organizations. With pressing global environmental issues in the 21st century, SS has become an influential discipline and important subject of intellectual inquiry that deserves support from the academy and scientific communities worldwide to find solutions to global problems such as climate change, environmental degradation, and biodiversity loss. Intellectual, Scientific, and Educational Influences on Sustainability Research is a concise and authoritative book that fills the crucial and unmet need for educational materials that integrates theoretical foundations, methodological basis, and practice in the science of sustainability. The goal of the book is to increase accessibility and use of educational and scientific knowledge among academic and non-academic audiences as it assembles the wisdom and insights from up-to-date scholarship and advances in this new discipline. Highlighting various topics such as biodiversity, public transportation, and human development, it is ideal for environmentalists, ecologists, technology developers, policymakers, academicians, researchers, and students.
This edited book support Sustainable Development Goal 2 (SDG 2): Zero Hunger. This book summarizes the contribution of genetic engineering for sustainable crop improvement toward global food and health security, climate resilience and economic growth. The book acts as a compendium of research reports on recent developments in the arena of cisgenics or transgenics or genome editing of crop plants for tolerance to biotic or abiotic stresses, introgression of value-added traits, molecular pharming etc. Sustainable crop productivity, yield and nutrition are the major constrain for food and nutritional security for the human population especially, in developing countries where arable land per capita is shrinking while the human population is steadily increasing. Zero hunger and achieving food security is the top priority of the United Nations development goals. This book explains various methods of genetic transformation such as transgenic, cisgenic, and genome editing for crop improvement. It also encompasses the advantages of genetic engineering in plants and their scope for sustainable crop improvement. The importance, limitations, challenges, GM biosafety regulations, recent advancements and future prospects of GM crops are covered in various chapters. This book is of interest to teachers, researchers, plant tissue culturists, GM crop experts, research scholars, academicians, plant breeders, policymakers etc. Also, the book serves as additional reading material for undergraduate and graduate students of agriculture, forestry, ecology, soil science, and environmental sciences. National and international agricultural scientists and policymakers will also find this to be a useful read.
Increasing human migrations, technological advances, agricultural activities, and climate change are forcing plants to adapt to new environments. This book highlights current morphological, anatomical, physiological, molecular, and genomic advances in plant defense mechanisms. These advances, including epigenetic mechanisms, have been linked to observed phenotypic plant plasticity. The book also outlines next-generation food systems, considering the resilience and sustainability of plant genomes and epigenomes.
Genetic diversity is the key to crop improvement and food security. There are more than 1500 gene banks around the world, and genetic resources are maintained in nature reserves and on farms. Genetic diversity serves as the starting point for breeding crops with improved nutritional quality, higher yields, and better tolerance to abiotic and biotic stresses. However, genetic diversity also provides opportunities for diversifying farm and food systems. Utilization depends on access to material and information. However, many gene banks experience backlogs in characterization, evaluation, regeneration, viability tests, plant health monitoring, and information sharing. This research topic focuses on advances in plant genetic resource conservation and utilization.