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200 00$aImproving water and nutrient-use efficiency in food production systems$b[electronic resource] /$feditor, Zed Rengel
210   $aAmes, Iowa $cJohn Wiley & Sons, Inc.$d2013
215   $a1 online resource (323 p.)
300   $aDescription based upon print version of record.
311   $a0-8138-1989-X 
320   $aIncludes bibliographical references and index.
327   $aImproving Water and Nutrient-Use Efficiency in Food Production Systems; Copyright; Contents; Contributors; Preface; 1 Current State and Future Potential of Global Food Production and Consumption; Introduction; Global Food Production; Agricultural Land Expansion; Productivity Growth; Climate Change; Global Food Consumption; Water- and Nutrient-Use Efficiency in Agricultural Production; Conclusions; References; 2 Water Resources and Global Change; Introduction; Observed Global Trends in Precipitation and Temperature; Future Trends in Precipitation and Temperature
327   $aFuture Trends in Water Availability Runoff; Soil Water Storage; Consequences for Agricultural Production; Uncertainties in Climate Change Projections; References; 3 Translating Water into Food: How Water Cycles in Natural and Agricultural Landscapes; Introduction; Physical Basis of Water Cycling; Water Needs for Food Production; Water Fluxes in Agricultural Landscape; Vertical Water Vapor Flux; Vertical Soil Water Flux; Horizontal Water Vapor Flux; Impact of Landscape Structure on Water Cycling; Improvement of Water Management in Agricultural Landscapes; Introduction of Shelterbelts
327   $aRestoration of Small Midfield Ponds Improving Soil Water Retention and Hydraulic Properties; Conclusions; References; 4 Nutrients as Limited Resources: Global Trends in Fertilizer Production and Use; Fertilizer Consumption; Evolution of Global and Regional Fertilizer Consumption since the 1960's; Evolution of the Product Mix and Organic Resources Recycling; Current Situation; Medium-Term Outlook for World and Regional Fertilizer Demand; Long-Term Projections for World Fertilizer Demand; Fertilizer Supply; Evolution of Production and Trade at the Global and Regional Levels since the 1960's
327   $aCurrent Situation Fertilizer Industry's Investment Climate and Capacity Developments; Medium-Term Outlook for World Fertilizer Supply and Supply-and-Demand Balances; Resource Management; Industrial Nitrogen; Phosphate Rock; Potash Ore; Challenges Facing the Fertilizer Industry; Nutrient-Use Efficiency; Developing and Delivering Fertilizer Best Management Practices; References; 5 The Flow of Phosphorus in Food Production and Consumption Systems; The Use of Phosphorus in Global Food Production; Key Challenges: Scarcity and Pollution; Phosphorus as a Scarce Global Resource
327   $aPhosphorus as a Pollutant Sustainable Pathways for Future Phosphorus Flows; Regional Example 1: Australia; Regional Example 2: Sweden; The Road Ahead; References; 6 Matching Soil Nutrient Supply and Crop Demand during the Growing Season; Introduction; Soil Supply of Nutrients; Principles Governing Soil Nutrient Supply; Availability of Nutrients to Plants; Crop Nutrient Demand; Demand for Phloem-Mobile Nutrients; Demand for Phloem-Immobile Nutrients; Amount of Nutrient Required; Matching Supply to Demand; Supply and Demand in Fertilizer Recommendation Systems
327   $aPositional Unavailability of Soil-Immobile Nutrients
330   $aImproving Water and Nutrient Use Efficiency in Food Production Systems provides professionals, students, and policy makers with an in-depth view of various aspects of water and nutrient us in crop production. The book covers topics related to global economic, political, and social issues related to food production and distribution, describes various strategies and mechanisms that increase water and nutrient use efficiency, and review te curren situation and potential improvements in major food-producing systems on each continent. The book also deals with problems experienced
606   $aCrops$xWater requirements
606   $aCrops$xNutrition
606   $aWater conservation
606   $aFertilizers
606   $aPlant nutrients
615  0$aCrops$xWater requirements.
615  0$aCrops$xNutrition.
615  0$aWater conservation.
615  0$aFertilizers.
615  0$aPlant nutrients.
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200 04$aThe architecture of cognition $erethinking Fodor and Pylyshyn's systematicity challenge /$fedited by Paco Calvo and John Symons
210  1$aCambridge, MA :$cMIT Press,$d[2014]
210  4$dİ2014
215   $a1 online resource (483 p.)
300   $aIncludes index.
311   $a0-262-32246-3 
311   $a1-306-68470-6 
320   $aIncludes bibliographical references and index.
330 8 $aIn 1988, Jerry Fodor and Zenon Pylyshyn challenged connectionist theorists to explain the systematicity of cognition. In a highly influential critical analysis of connectionism, they argued that connectionist explanations, at best, can only inform us about details of the neural substrate; explanations at the cognitive level must be classical insofar as adult human cognition is essentially systematic. This volume reassesses Fodor and Pylyshyn's 'systematicity challenge' for a post-connectionist era, covering the most important recent developments in the systematicity debate.
606   $aCognition
606   $aHuman information processing
606   $aConnectionism
610   $aPHILOSOPHY/Philosophy of Mind/General
610   $aCOGNITIVE SCIENCES/General
615  0$aCognition.
615  0$aHuman information processing.
615  0$aConnectionism.
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