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Alternative agriculture --- Cropping systems --- Soil biochemistry --- Farm manure --- Dairy farms --- Management

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Wheat --- Cropping systems --- Productivity --- Evaluation --- Pacific Northwest. --- Agricultural systems --- Soil management --- Breadstuffs --- Cultivated wheats --- Spring wheat --- Triticum --- Triticum aestivum --- Triticum sativum --- Triticum vulgare --- Wheats, Cultivated --- Grasses --- Cascadia Region --- Oregon Country

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India’s rice and wheat crops are in crisis – a dangerous situation for a nation where 75 per cent of the population depends on agriculture for a living. Today’s falling or static yields in these two key crops have been the result of the intensification of agriculture from the 1960s on. That so-called ‘Green Revolution’, which depended heavily on chemical fertilizers and pesticides, saw crop production keep pace with population growth until the end of the last millennium. Today, however, the sector is suffering from depleted soils and reduced ground water levels. Past excesses have even left the current generation of farmers with health hazards. The authors of this volume, experts in agriculture and agronomy in the subcontinent, say a new approach is needed. India’s population will rise from today’s 1.18 billion people to as many as 1.5 billion by 2020, with 25 per cent more mouths to feed. Not only that, but agriculture’s pre-eminent place in the country’s economy, where it is 18 per cent of total GDP and the biggest single export sector, make any problem in the industry one of national importance. Other nations in Asia, including Pakistan, Nepal, China and Bangladesh, have already recognized the problem of static yields and have developed the concept of the ‘Integrated Nutrient Management’ (INM) system. Its aim is to make agricultural cropping sustainable by maintaining or enhancing the soil quality while leaving room for increases in yields, and it advocates the balanced use of both organic and inorganic methodologies. Mahajan and Gupta, both highly experienced experts in the science of agriculture, and in Gupta’s case a leading environmentalist, examine in detail India’s cropping crisis as well as the possible remedies. They conclude that the INM System is an essential component of any solution. The book also delineates potential sources of organic plant nutrients and bio-fertilizers in India, and analyzes the rice-wheat cropping system and the role INM could play in sustaining crop productivity. The authors also provide insight into the balanced use of plant nutrients in increasing rice and wheat productivity and about the effective use of fertilizers and water management practices for rice and wheat crops. Constraints in the adoption of INM system and future research strategies are the other crucial topics which are covered in this comprehensive text.

Alternative agriculture --India. --- Cropping systems --India. --- Crops --Nutrition --India. --- Fertilizers --India. --- Soil productivity --India. --- Alternative agriculture --- Fertilizers --- Crops --- Soil productivity --- Cropping systems --- Agriculture --- Earth & Environmental Sciences --- Agriculture - General --- Nutrition --- Fertilizers. --- Nutrition. --- Artificial fertilizers --- Chemical fertilizers --- Fertilisers --- Fertilization of soils --- Fertilizers and manures --- Field crops --- Soils --- Fertilization --- Life sciences. --- Agriculture. --- Microbiology. --- Life Sciences. --- Life Sciences, general. --- Agricultural chemicals --- Plants --- Soil amendments --- Soil fertility --- Microbial biology --- Biology --- Microorganisms --- Biosciences --- Sciences, Life --- Science --- Farming --- Husbandry --- Industrial arts --- Life sciences --- Food supply --- Land use, Rural

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Cropping systems --- Irrigation farming --- Specialty crops --- Biomass energy --- Sustainable agriculture --- Biomass energy. --- Cropping systems. --- Irrigation farming. --- Specialty crops. --- Sustainable agriculture. --- Pacific Northwest. --- Low-input agriculture --- Low-input sustainable agriculture --- Lower input agriculture --- Resource-efficient agriculture --- Sustainable farming --- Agriculture --- Alternative agriculture --- Special crops --- Crops --- Irrigated agriculture --- Irrigated farming --- Irrigation agriculture --- Arid regions agriculture --- Irrigation --- Crops and water --- Agricultural systems --- Soil management --- Bio-energy (Biomass energy) --- Bioenergy (Biomass energy) --- Biofuels --- Biological fuels --- Energy, Biomass --- Microbial energy conversion --- Energy conversion --- Fuel --- Microbial fuel cells --- Refuse as fuel --- Waste products as fuel --- Biomass as fuel --- Renewable fuels --- Renewable energy sources --- Cascadia Region --- Oregon Country