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As the world's population increases and the demand for water increases apace there is a rising demand for information concerning the reuse of wastewater, particularly for the irrigation of key food crops worldwide. This important new book addresses in detail the use of treated wastewater in agricultural situations, its impact on crops and the soil environment. Coverage includes the composition and treatment of wastewater, health considerations, regulations and economic aspects. Major sections of the book also concentrate on crop management and the soil environment. This book is an essential purchase for all those working in irrigation, water management and crop production worldwide. Use of Treated Wastewater (TWW) for irrigation is increasingly important as the world's population increases Chapters prepared by leading scientists in the field Comprehensive coverage of current knowledge and advances in the area of TWW Focus on possible environmental impacts (positive and negative)
This book offers a broad and global level description of the current status of wastewater use in agriculture and then brings the readers to various places in the MENA Region and Europe to explain how some countries and regions have addressed the challenges during implementation. On a global scale, over 20 million hectares of agricultural land are irrigated using wastewater. This is one good, and perhaps the most prominent, example of the safe use potential of wastewater. Water scarcity and the cost of energy and fertilisers are among the main factors driving millions of farmers and other entrepreneurs to make use of wastewater. In order to address the technical, institutional, and policy challenges of safe water reuse, developing countries and countries in transition need clear institutional arrangements and more skilled human resources, with a sound understanding of the opportunities and potential risks of wastewater use. Stakeholders in wastewater irrigation who need to implement from scratch or improve current conditions, find it difficult to gather the necessary information on practical implementation aspects. The main objective of this book is to bridge that gap.
Biotreatment of Agricultural Wastewater is based on a symposium held in Lake Arrowhead, California in 1986, supported by a coalition of federal, state, and local agencies, and sponsored by the engineering firm of Swanson/Oswald Associates (Lafayette, California) and the research and development firms of Aquasearch, Inc. and EcoTechnology Corp. (La Jolla, California). This book is a synopsis of topics covered by world renowned experts on the biology and aquaculture of algae and bacteria and on the engineering of industrial scale systems for biological wastewater treatment and economists that were gathered to evaluate historically proven systems and develop new and innovative approaches to the biological treatment of agriculture wastewater.
Solid or water wastes are resources from which monetary values can be derived. Food and agriculture industry hold enormous economic potential in the form of agricultural wastes. During the last few decades, world has become more aware of the consequences of environmental pollution and its impacts on human life. We have also witnessed public awareness of environmental influence of wastewater discharge. Therefore, the treatment and reuse of agricultural wastewater is essential to harness the true potential of agricultural waste. Irrigated agriculture yields 33% of the world's crop products and 50% return from worldwide crop production. However, in numerous areas of the world, particularly in arid and semiarid regions the future of irrigation based agriculture is endangered by existing or projected freshwater shortages. These water shortages essentially result from the ever-growing demand of water by rapidly growing global population and their elegant lifestyle. Water reuse (recycling), wastewater treatment and the utilization of treated sewage effluents for industry agriculture, and non-potable environmental and urban applications can offer a highly efficacious and sustainable approach to exploit water resources in regions afflicted by water shortage.This book consists of 8 chapters. All the chapters focus on modern methods and techniques regarding reuse and treatment of agricultural wastewaters.
Wastes, whether they are solid wastes or wastewater, are resources from which economic values may be derived. Almost all components of agricultural and food wastewater can be and should be utilized or recovered; the stumbling block of achieving this aspiration is economical, not technical. The last one and a half decades have seen the surging of agricultural and non-agricultural commodity prices across the board and increased public consciousness of environmental impact of industrial wastewater discharge and treatment. The confluence of these new developments have generated new interests and applications of agricultural and food wastewater and their treatment residuals in diverse fields and industries. This new edition will expand topics related to wastewater utilizations and new uses of treatment residuals while providing up-to-date information on new treatment technologies and practices across the globe. The new edition’s target audience is anyone who has the responsibility of dealing with its plant effluents in agricultural and food processing operations. It should be of value to waste management personnel responsible for managing major waste effluents from agro and food industries. It will also be useful for college students whose majors are in environmental science or waste management fields as a reference.
The objective of this paper is to provide a review of the characteristics of wastewater used for irrigation, and the reasoning behind the international guidelines presently used in regulating wastewater reuse for agriculture. This paper presents various systems of wastewater treatment available and discusses their benefits and shortcomings. A selective review of recent empirical studies identifies major impacts both positive and negative impacts of wastewater irrigation. Finally, the paper provides the review of environmental valuation techniques for analyzing impacts of wastewater uses in agriculture, and suggest a framework for application of some of these techniques. This framework will be applied to a developing country case study (Faisalabad area in Pakistan), in the ongoing IWMI research program.
In recent times, the coalescence of different pressure has put a major strain on water supply globally. The level of water abstraction is reaching its natural limits, and this calls for a dramatic shift in water utilization concepts. This publication addresses the economic and financial issues and the methodology and procedures involved in the analysis of water recycling projects as part of a comprehensive water planning process. The issue is dealt within the wider context of water resources and covers human health, water quality, acceptability, institutional constraints, and other factors, all of which have economic implications and affect the feasibility of reuse schemes. The recycling of urban wastewater is a key link in Integrated Water Resource Management that can fulfill several different, but interrelated objectives. These are expressed as win-win propositions, delivering simultaneous benefits to farmers, cities and natural environmental systems, part of solutions to the urgent global problems of food, clean water, the safe disposal of waters and the protection of the vital aquatic ecosystems.
Field Practices for Wastewater Use in Agriculture discusses the growing importance of wastewater application in the field of agriculture. Addressing the tremendous need for the irrigation sector to reduce the demand for freshwater in agriculture, this volume looks at wastewater as a source for agricultural irrigation. The volume is divided into four sections: current and emerging issues in wastewater use in agriculture, wastewater management with biological systems, effective field practices for wastewater use, and case studies that provide information on scientific analytical studies on the environment under the influence of wastewater quality from different pollution sources. This book sheds light on the vast potential of wastewater use in agricultural irrigation while also considering safety of the agricultural products for human consumption. Much emphasis has also been given to technological aspects for the treatment of wastewater to protect our environment for better public health protection.
This comprehensive work examines the fundamentals required for reclaimed water schemes to deliver sustainable farming operations that achieve the yield and quality of produce necessary for acceptance in the market. Growing Crops with Reclaimed Wastewater reviews the historical background of water treatment, its use and disposal from Australian wastewater treatment facilities and the technologies now utilised to treat our wastewater for reuse. The major concerns of chemical, physical and pathological qualities of reclaimed water are addressed, ensuring that the environmental, economic and social requirements of today’s society are met. It reviews the state and national regulatory requirements and guidelines that have made Australia a world leader in the management of reclaimed water and also examines the guidance in the United States of America (Federal) and in California, the World Health Organization guidance and the situation in Israel. This is the first time such a definitive review has been produced on the use of wastewater for horticulture and it will be a key tool for decision makers, researchers and practitioners to understand the main issues and constraints. It will be of particular interest to agricultural scientists, waste and horticulture consultants, engineers, planners, state agencies, environmental officers and students.