Diversified Agri-food Production Systems for Nutritional Security


Book Description

Nutritional security and ecosystem sustainability are the biggest challenges of the 21st century. Globally ~ 2.3 billion people suffer from malnutrition. According to estimates by the World Bank, malnutrition globally costs ~ $ 3.5 trillion per year. On the other hand, the production and availability of staple food is the major emphasis for conventional farming in developing and underdeveloped countries for assured food security. These staple foods are high in carbohydrates and energy availability but low in nutritional value, such as concerning micronutrient, phytochemical, and vitamin contents. Apart from adequate food, there should be consistent access, availability, and affordability of foods and beverages that are nutrient-dense, promote well-being, and minimize diseases. From the experience of the recent COVID-19 crisis, the importance of adequate dietary habits has been emphasized globally since food nutrients are considered inherent sources of immunomodulation.




Farming System and Sustainable Agriculture


Book Description

The land holding of the farmer is decreasing day by day due to urbanisation and there is no chance for horizontal increase in agricultural land. To increase the income of the farmers, few steps for vertical increase in agricultural production have been discussed in this book. A detailed and comprehensive information regarding the historical background of farming system, farming system and its components, integrated farming system and allied enterprises, integrated farming system models in different agroclimatic zones, role of integrated farming system in agriculture and livelihood security, resource cycling and flow of energy in different farming systems, role of crop residues in agriculture, farming system of dryland agriculture, role of agroforestry in farming system, scope of organic farming in farming system have been given. A detailed information regarding the latest concepts of agronomy like conservation agriculture strategies in cropping system, sustainable agriculture, scope of hydroponics techniques in agriculture have also been discussed. In the end tools for determining production and efficiencies in cropping and farming system have also been given.




Microbiological Advancements for Higher Altitude Agro-Ecosystems & Sustainability


Book Description

The book explores the challenges and opportunities associated with high-altitude agro-ecosystems and the factors that influence them. It discusses the various indigenous agricultural practices and approaches, as well as the microbiology of mountain & hill agro-ecosystems, providing a comprehensive overview of the various factors that control the microbiome at high altitudes. The contributions examine microbiological advances, such as use of “omics” technologies for hill agriculture and environmental sustainability, and explore the use of nanotechnology for agricultural and environmental sustainability at higher altitudes. The book also describes various aspects of low-temperature microbiology in the context of high-altitude farming and environmental sustainability.







Soils in the Hindu Kush Himalayas


Book Description

This book focuses on the nature and properties of soils of Hindu Kush-Himalayas and their management for agricultural land use. It discusses all aspects of climatic variations and potential of resources in the Himalayan region including examples from Afghanistan, Bangladesh, Bhutan, China (Tibet), India, Myanmar, Nepal and Pakistan. Chapters cover the geology of the parent material of native soils, soils microbes, flora and fauna. Soil classification has been given in detail to better understand the nature of soils for judicious management strategies. The authors present land use practices and suggestions for changes in land use to benefit from the full potential of the soils in this region. Their ultimate aim is to find ways of feeding the ever-increasing population and raising the standard of life for the people living in the Himalayan mountain region.




Shifting Cultivation Policies


Book Description

Shifting cultivation supports around 200 million people in the Asia-Pacific region alone. It is often regarded as a primitive and inefficient form of agriculture that destroys forests, causes soil erosion and robs lowland areas of water. These misconceptions and their policy implications need to be challenged. Swidden farming could support carbon sequestration and conservation of land, biodiversity and cultural heritage. This comprehensive analysis of past and present policy highlights successes and failures and emphasizes the importance of getting it right for the future. This book is enhanced with supplementary resources. The addendum chapters can be found at: www.cabi.org/openresources/91797




Forgotten Agricultural Heritage


Book Description

Contemporary agriculture is often criticized for its industrial scale, adverse effects on nutrition, rural employment and the environment, and its disconnectedness from nature and culture. Yet there are many examples of traditional smaller scale systems that have survived the test of time and provide more sustainable solutions while still maintaining food security in an era of climate change. This book provides a unique compilation of this forgotten agricultural heritage and is based on objective scientific evaluation and evidence of the value of these systems for present and future generations. The authors refer to many of these systems as Globally Important Agricultural Heritage Systems (GIAHS) and show how they are related to the concepts of heritage and the World Heritage Convention. They demonstrate how GIAHS based on family farms, traditional indigenous knowledge and agroecological principles can contribute to food and nutrition security and the maintenance of agro-biodiversity and environmental resilience, as well as sustain local cultures, economies and societies. Two substantial chapters are devoted to descriptions and assessments of some 50 examples of designated and potential GIAHS from around the world, including rice-fish culture in China, mountain terrace systems in Asia, coffee agroforestry in Latin America, irrigation systems and land and water management in Iran and India, pastoralism in East Africa, and the dehesa agrosilvopastoral system of Spain and Portugal. The book concludes by providing policy and technical solutions for sustainable agriculture and rural development through the enhancement of these systems.




Conservation Agriculture: A Sustainable Approach for Soil Health and Food Security


Book Description

Feeding the increasing global population, which is projected to reach ~10 billion by 2050, there has been increasing demands for more improved/sustainable agricultural management practices that can be followed by farmers to improve productivity without jeopardizing the environment and ecosystem. Indeed, about 95% of our food directly or indirectly comes from soil. It is a precious resource, and sustainable soil management is a critical socio–economic and environmental issue. Maintaining the environmental sustainability while the world is facing resource degradation, increasing climate change and population explosion is the current challenge of every food production sectors. Thus, there is an urgent need to evolve a holistic approach such as conservation agriculture to sustain higher crop productivity in the country without deteriorating soil health. Conservation Agriculture (CA), is a sustainable approach to manage agro–ecosystems in order to improve productivity, increase farm profitabilty and food security and also enhance the resource base and environment. Worldwide, it has been reported various benefits and prospects in adopting CA technologies in different agro-climatic conditions. Yet, CA in arid and semi-arid regions of India and parts of south Asia raises uncertainities due to its extreme climates, large scale residue burning, soil erosion and other constraints such as low water holding capacity, high potential evapotranspiration, etc . Thus, the proposed book has 30 chapters addressing all issues relevant to conservation agriculture/no-till farming system. The book also gives further strengthening existing knowledge in relation to soil physical, chemical and biological processes and health within close proximity of CA as well as machinery requirements. Moreover, the information on carbon (C) sequestration, C credits, greenhouse gas (GHG) emission, mitigation of climate change effects and socio-economic view on CA under diverse ecologies namely rainfed, irrigated and hill eco-region is also deliberated. For large scale adoption of CA practices in South Asian region especially in India and other countries need dissemination of best-bet CA technologies for dominant soil types/cropping systems through participatory mode, strong linkages and institutional mechanism and public-private-policy support. We hope this book gives a comprehensive and clear picture about conservation agriculture/no-till farming and its associated problem, challenges, prospects and benefits. This book shall be highly useful reference material to researchers, scientists, students, farmers and land managers for efficient and sustainable management of natural resources.




Integrated Organic Farming Systems: Approach for Efficient Food Production and Environmental Sustainability


Book Description

Researchers and policy planners are in search of a solution to address the twin challenges of maximizing agricultural production while maintaining/ improving ecosystem sustainability. Enhancing farm productivity is needed in certain regions of the world to satisfy local food consumption and farmers' needs. Linear economy-based-input intensive conventional agriculture (CAPS) has increased production output but has not made agriculture more sustainable. Henceforth, a farming system that aims to reduce the adverse impact on the environment, as well as enhance agricultural productivity by reducing environmental footprint and improving soil health and economic wellbeing is needed in the present day. Integrated organic farming systems (IOFS) involve residue recycling, bio-intensive cropping, high-tech horticulture, mushroom, dairy, poultry, fishery, apiary, etc can improve the ecosystem health and augment the income and livelihood security of the growers. Worldwide, IOFS are gaining popularity due to improved ecosystem services and improving farm productivity and livelihood security. Hence, IOFS- a circular economy-based (reuse-recycle-repair) agricultural production system can be alternatives to energy-intensive inputs based on CAPS. Hence, there is an urgent need to select suitable IOFS models with proper resource optimization for productivity maximization and better ecosystem sustainability. Undoubtedly IOFS reduces energy use from synthetic agrochemicals but food production in IOFS is highly dependent on fossil fuel energy that must be addressed urgently. Despite the enormous positive outlooks, there are several challenges in the adoption of IOFS models. The IOFS is a multiproduct-oriented production system that needs multi specialties and marketing. Capacity building and infrastructure development are also great challenges in adopting IOFS. Moreover, the development of IOFS models is highly individualistic, and location-specific production systems need proper resource optimization and characterization. Hence, the development of site-specific IOFS models to maintain food quality with productivity improvement is a genuine issue to the researchers, which needs to be addressed. Papers (original research/review/letter to the editors) spanning across the discipline related to the IOFS development in sustainable ways are encouraged for inclusion in this research topic. Papers should explicitly cover ecosystem restoration, farm productivity, and profitability and could have a specific focus on the following areas: -the IOFS models for enhancing productivity and environmental quality through an integrated management approach aiming at the maximization of use efficiencies -the management of biomass waste to restore the soil fertility, and ecosystem services the effect of integrated management practices on greenhouse gas emissions and energy use -Critical approaches for climate-smart food production systems