05219oam 2200769I 450 991078129670332120200520144314.00-429-14541-11-4200-9271-510.1201/b10600 (CKB)2550000000031691(EBL)665561(OCoLC)86068782(SSID)ssj0000469576(PQKBManifestationID)11280842(PQKBTitleCode)TC0000469576(PQKBWorkID)10511164(PQKB)11281824(MiAaPQ)EBC665561(Au-PeEL)EBL665561(CaPaEBR)ebr10448667(CaONFJC)MIL694049(OCoLC)759865770(PPN)15307261X(EXLCZ)99255000000003169120180331d2011 uy 0engur|n|---|||||txtccrGIS applications in agricultureVolume twoNutrient management for energy efficiency /edited by David E. Clay, John F. ShanahanBoca Raton, Fla. :CRC Press,2011.1 online resource (464 p.)GIS applications in agricultureDescription based upon print version of record.1-322-62767-3 1-4200-9270-7 Includes bibliographical references and index.Front Cover; Contents; Series Preface; Preface; Editors; Contributors; Chapter 1: Energy and Climate Implications for Agricultural Nutrient Use Efficiency; Chapter 2: Nutrient Management for Improved Energy Efficiency; Chapter 3: Using Precision Farming to Overcome Yield-Limiting Factors in Southern Brazil Oxisols: A Case Study; Chapter 4: Collecting and Analyzing Soil Spatial Information Using Kriging and Inverse Distance; Chapter 5: Integration of USDA-NRCS Web Soil Survey and Site Collected DataChapter 6: Space, Time, Remote Sensing, and Optimal Nitrogen Fertilization Rates: A Fuzzy Logic ApproachChapter 7: Digital Northern Great Plains and Zone Mapping Application for Precision Agriculture; Chapter 8: Spatial Variability of Field Machinery Use and Efficiency ; Chapter 9: Precision Manure Application Requirements; Chapter 10: Case Study for Improving Nutrient Management Efficiency by Optimizing the Plant Population; Chapter 11: Soil Water Status Maps for Variable Rate IrrigationChapter 12: Maximizing Nutrient Efficiency through the Adoption of Management Practices That Maintain Soil Organic Carbon: CalcChapter 13: Predictive Mapping of Soil Organic Carbon: A Case Study Using Geographically Weighted Regression Approach; Chapter 14: Tillage and Crop Residue Effects on Soil Carbon Turnover Using the Michaelis-Menten Approach; Chapter 15: Geospatial Management of Andean Technology by the Inca Empire; Chapter 16: Calculating Energy Efficiency of Applying Fresh and Composted Manure to SoilChapter 17: Quantifying Greenhouse Gas (CO2, CH4, and N2O) Fluxes from Soil in a PastureChapter 18: Improved Nitrogen and Energy-Use Efficiency Using NIR-Estimated Soil Organic Carbon and N Simulation Modeling; Chapter 19: Computing Wheat Nitrogen Requirements from Grain Yield and Protein Maps; Chapter 20: Review of Low- and High-Technology Nitrogen Management Approaches for Improved Nitrogen Use Efficiency; Chapter 21: Use of GIS-Based Site-Specific Nitrogen Management for Improving Energy Efficiency; Chapter 22: Geographic Information and the Management of Animal ManureChapter 23: Spatial Ramifications of Crop Selection: Water Quality and Biomass EnergyChapter 24: Estimating Soil Productivity and Energy Efficiency Using the USDA Web Soil Survey, Soil Productivity Index Calculat; Back CoverWe are entering a new era in production agronomics. Agricultural scientists the world over call for the development of techniques that simultaneously increase soil carbon storage and reduce agriculture's energy use. In response, site-specific or precision agriculture has become the focus and direction for the three motivating forces that are changing agriculture today: the expanding capacity of personal computers, the molecular biology revolution, and the recent developments in information technology such as the increasing use of geographical information systems (GIS).Using maGIS applications in agriculture series.Nutrient management for energy efficiencyAgricultureRemote sensingGeographic information systemsAgricultural mappingAgricultureData processingPlantsNutritionAgricultureRemote sensing.Geographic information systems.Agricultural mapping.AgricultureData processing.PlantsNutrition.631.8/1Clay David(David E.)1339603Shanahan John Francis1955-1491418MiAaPQMiAaPQMiAaPQBOOK9910781296703321GIS applications in agriculture3713228UNINA