Download Free Water And Land Productivity Under Conventional Versus Vertical Cultivation Book in PDF and EPUB Free Download. You can read online Water And Land Productivity Under Conventional Versus Vertical Cultivation and write the review.

Agricultural productivity and sustainability are of the most challenging cases facing the world today with water and land being the limiting factors and increased food demand being the urge. In order to meet the imposed challenges, a wise use of these scarce agricultural resources must be considered. The objective of this research is specially designed to serve the mentioned aim: increasing production by saving space, water, and environment. To meet the above goal, an experiment was designed to measure water and land productivity using a 3-D technique. This technique consisted of vertical columns filled with soil where evaporation was prevented by covering the pipe surface. Another treatment was to keep surface exposed and get the evapotranspiration from the whole pipe. Those two treatments with each containing different density of plantation/ pipe (1, 2, 3 and 4 plants) were compared with the conventional way of plantation. Two crops, strawberry and beans were used in this experiment and results showed a great difference in water and land use using the 3-D technique. In the strawberry experiment the highest water productivity was for the double with a density of three plants/pipe compared to the control and the values were 17.25 kg/m(to the power 3), and 3.62 kg/m(to the power 3), respectively. As for the beans the highest water productivity was for the double pipes with a density of one plant/pipe and the values were 9.93 kg/m(to the power 3), and 1.09 kg/m(to the power 3), respectively.
"The vertical farm is a world-changing innovation whose time has come. Dickson Despommier's visionary book provides a blueprint for securing the world's food supply and at the same time solving one of the gravest environmental crises facing us today."--Sting Imagine a world where every town has their own local food source, grown in the safest way possible, where no drop of water or particle of light is wasted, and where a simple elevator ride can transport you to nature's grocery store - imagine the world of the vertical farm. When Columbia professor Dickson Despommier set out to solve America's food, water, and energy crises, he didn't just think big - he thought up. Despommier's stroke of genius, the vertical farm, has excited scientists, architects, and politicians around the globe. Now, in this groundbreaking book, Despommier explains how the vertical farm will have an incredible impact on changing the face of this planet for future generations. Despommier takes readers on an incredible journey inside the vertical farm, buildings filled with fruits and vegetables that will provide local food sources for entire cities. Vertical farms will allow us to: - Grow food 24 hours a day, 365 days a year - Protect crops from unpredictable and harmful weather - Re-use water collected from the indoor environment - Provide jobs for residents - Eliminate use of pesticides, fertilizers, or herbicides - Drastically reduce dependence on fossil fuels - Prevent crop loss due to shipping or storage - Stop agricultural runoff Vertical farms can be built in abandoned buildings and on deserted lots, transforming our cities into urban landscapes which will provide fresh food grown and harvested just around the corner. Possibly the most important aspect of vertical farms is that they can built by nations with little or no arable land, transforming nations which are currently unable to farm into top food producers. In the tradition of the bestselling The World Without Us, The Vertical Farm is a completely original landmark work destined to become an instant classic.
The frontiers of technologies have been constantly expanded in many industries around the world, including the agricultural sector. Among many “frontier technologies” in agriculture, are protected agriculture, precision agriculture, and vertical farming, all of which depart substantially from many conventional agricultural production methods. It is not yet clear how these technologies can become adoptable in developing countries, including, for example, South Asian countries like India. This paper briefly reviews the issues associated withthese three types of frontier technologies. We do so by systematically checkingthe academic articleslisted in Google Scholar, which primarily focus on these technologies in developing countries in Asia. Where appropriate, a few widely-cited overview articles for each technology were also reviewed. The findings generally reveal where performances of these technologiescan be raised potentially, based on the general trends in the literature. Where evidence is rich, some generalizable economic insights about these technologies are provided. For protected agriculture, recent research has focusedsignificantly on various features of protective structures (tunnel heights, covering materials, shading structures, frames and sizes) indicating that there are potentials for adaptive research on such structures to raise the productivity of protected agriculture. The research on protected agriculture also focuses on types of climate parameters controlled, andenergy structures, among others. For precision agriculture, recent research has focused on the spatial variability of production environments, development of efficient and suitable data management systems, efficiency of various types of image analyses and optical sensing, efficiency of sensors and related technologies, designs of precision agriculture equipment, optimal inputs and service uses, and their spatial allocations, potentials of unmanned aerial vehicles (UAVs) and nano-technologies. For vertical farming, research has often highlighted the variations in technologies based on out-door / indoor systems, ways to improve plants’ access to light (natural or artificial), growing medium and nutrient / water supply, advanced features like electricity generation and integration of production space into an office / residential space, and water treatment. For India, issues listed above may be some of the key areas that the country can draw on from other more advanced countries in Asia, or can focus in its adaptive research to improve the relevance and applicability of these technologies to the country.
Amid economic uncertainties, fluctuating oil prices, and a rising environmental consciousness, the need for sustainable and efficient food production has become dire. The Vertical Farm: Scientific Advances and Technological Developments systematically navigates the realm of vertical farming (VF), rooted in a robust, scientific foundation. Unveiling the intricate convergence of plant biology, environmental science, and agronomy, it provides a profound understanding of contemporary agriculture. The book spans lighting systems and climate control mechanisms, focusing on sustainability. From small urban initiatives to significant commercial endeavors, real-world case studies showcase VF's adaptability, scalability, and resilience. Addressing multiple challenges, the book explores economic considerations and public perceptions, recognizing their roles in fostering meaningful advancements in agricultural innovation. A volume in the Nextgen Agriculture series, this book is valuable to scientists, practitioners, and students in urban agriculture and planning, horticulture, engineering, landscape architecture, and plant/technology sciences.
Unveiling the Future of Food: A Deep Dive into Vertical Farming and its Environmental Benefits Our planet's food system faces immense challenges. Traditional agriculture strains our water resources, contributes to climate change, and threatens biodiversity. But there's a beacon of hope on the horizon: vertical farming. This innovative approach to agriculture utilizes controlled environments and vertical space to grow crops indoors, offering a more sustainable solution for a greener future. This comprehensive guide, Vertical Farming for a Greener Planet, delves deep into the world of vertical farming, exploring its environmental benefits and its potential to revolutionize food production. You'll discover: The Environmental Crisis: How current agricultural practices put a strain on our planet's resources. The Rise of Vertical Farming: Unveiling the technology behind vertical farms and how they function. A Greener Approach to Food: Explore how vertical farming conserves water, reduces land use, and minimizes climate impact. Sustainable Food Production: Discover how vertical farms promote reduced pesticide use, minimize food waste, and contribute to a more circular food system. The Road Ahead: Learn about the challenges and considerations surrounding vertical farming, and the exciting future possibilities it holds. Packed with compelling information, statistics, and captivating examples, this ebook equips you to understand the environmental impact of vertical farming. Here's what you'll gain: A clear understanding of the environmental challenges facing traditional agriculture. In-depth knowledge of how vertical farming addresses these challenges. Insights into the benefits of vertical farming for water conservation, land use, and climate change mitigation. Exploration of the future potential of vertical farming for a more sustainable food system. A call to action to support the growth and adoption of vertical farming practices. Join the movement towards a greener future! Embrace vertical farming as a key solution for sustainable food production and environmental conservation. Download your copy of Vertical Farming for a Greener Planet today!
This book provides a comprehensive overview of sustainable agriculture practices and strategies aimed at improving land use, implementing renewable energy and recycling systems, managing climate risks, developing workplace policies for sustainability, and applying effective agribusiness management practices. Part 1 introduces various approaches to sustainable agriculture, including organic farming, agroforestry, precision agriculture, vertical farming, integrated pest management, soil conservation, and community-supported agriculture. It discusses the challenges and future directions in sustainable agriculture and farm management. Part 2 focuses on developing and implementing sustainable land use strategies. It covers assessing requirements for improved land use, carrying out structural improvements to address threats to sustainability, and treating areas of land degradation. Part 3 delves into developing sustainable agricultural practices that utilize renewable energy and recycling systems. It includes identifying opportunities to use renewable energy, developing strategies to use renewable energy, and implementing these strategies. Part 4 addresses developing climate risk management strategies, reviewing climate and enterprise data, identifying and analysing climate risks and opportunities, and preparing climate risk management strategies. Part 5 deals with developing workplace policy and procedures for environment and sustainability, including the development, communication, implementation, and review of workplace environment and sustainability policies. Part 6 focuses on applying agribusiness management practices, such as developing and reviewing a business plan, developing a farm plan, planning and monitoring production processes, selecting and using agricultural technology, monitoring and managing soils for production, and monitoring and reviewing business performance. Overall, this book is beneficial for farmers, agricultural professionals, policymakers, researchers, and students interested in sustainable agriculture, land management, renewable energy integration, climate risk management, and agribusiness management. It provides practical insights, strategies, and guidelines for implementing sustainable practices in agricultural operations.
THE VERTICAL FARMING MCQ (MULTIPLE CHOICE QUESTIONS) SERVES AS A VALUABLE RESOURCE FOR INDIVIDUALS AIMING TO DEEPEN THEIR UNDERSTANDING OF VARIOUS COMPETITIVE EXAMS, CLASS TESTS, QUIZ COMPETITIONS, AND SIMILAR ASSESSMENTS. WITH ITS EXTENSIVE COLLECTION OF MCQS, THIS BOOK EMPOWERS YOU TO ASSESS YOUR GRASP OF THE SUBJECT MATTER AND YOUR PROFICIENCY LEVEL. BY ENGAGING WITH THESE MULTIPLE-CHOICE QUESTIONS, YOU CAN IMPROVE YOUR KNOWLEDGE OF THE SUBJECT, IDENTIFY AREAS FOR IMPROVEMENT, AND LAY A SOLID FOUNDATION. DIVE INTO THE VERTICAL FARMING MCQ TO EXPAND YOUR VERTICAL FARMING KNOWLEDGE AND EXCEL IN QUIZ COMPETITIONS, ACADEMIC STUDIES, OR PROFESSIONAL ENDEAVORS. THE ANSWERS TO THE QUESTIONS ARE PROVIDED AT THE END OF EACH PAGE, MAKING IT EASY FOR PARTICIPANTS TO VERIFY THEIR ANSWERS AND PREPARE EFFECTIVELY.
Continued population growth, rapidly changing consumption patterns and the impacts of climate change and environmental degradation are driving limited resources of food, energy, water and materials towards critical thresholds worldwide. These pressures are likely to be substantial across Africa, where countries will have to find innovative ways to boost crop and livestock production to avoid becoming more reliant on imports and food aid. Sustainable agricultural intensification - producing more output from the same area of land while reducing the negative environmental impacts - represents a solution for millions of African farmers. This volume presents the lessons learned from 40 sustainable agricultural intensification programmes in 20 countries across Africa, commissioned as part of the UK Government's Foresight project. Through detailed case studies, the authors of each chapter examine how to develop productive and sustainable agricultural systems and how to scale up these systems to reach many more millions of people in the future. Themes covered include crop improvements, agroforestry and soil conservation, conservation agriculture, integrated pest management, horticulture, livestock and fodder crops, aquaculture, and novel policies and partnerships.