Note: Cover -- Title -- Copyright -- Contents -- PREFACE -- ACKNOWLEDGMENTS -- Contributors -- Section 1: Preliminaries -- CHAPTER 1: Introduction -- CHAPTER 2: History and Evolution of Watershed Modeling Derived from the Stanford Watershed Model -- CHAPTER 3: Regional Calibration of Watershed Models -- Section 2: Large Watershed Models -- CHAPTER 4: Large-Scale Hybrid Watershed Modeling -- CHAPTER 5: Simulation of Water and Energy Budgets Using a Macroscale Hydrological Model for the Upper Mississippi River Basin -- Section 3: Streamflow Models -- CHAPTER 6: Gridded Surface/Subsurface Hydrologic Analysis (GSSHA) Model: A Model for Simulating Diverse Streamflow-Producing Processes -- CHAPTER 7: USGS Modular Modeling System (MMS) - Precipitation-Runoff Modeling System (PRMS) -- CHAPTER 8: The Xin'anjiang Model on Digital Basin Platform -- Section 4: Streamflow and Water Quality Models -- CHAPTER 9: A First-Principle, Physics-Based Watershed Model: WASH123D -- CHAPTER 10: Flexible Integrated Watershed Modeling with MIKE SHE -- CHAPTER 11: Better Assessment Science Integrating Point and Nonpoint Sources (BASINS) -- CHAPTER 12: MEFIDIS: A Physically Based, Spatially Distributed Runoff and Erosion Model for Extreme Rainfall Events -- CHAPTER 13: BAYMOD: Modeling Irrigated Catchments Using the Streamflow Integral Approach -- Section 5: Urban Watershed Models -- CHAPTER 14: EPA Storm Water Management Model, SWMM5 -- CHAPTER 15: IDEAL: Integrated Design and Evaluation Assessment of Loadings Model -- CHAPTER 16: SEDIMOT III Model -- Section 6: Agricultural Watershed Models -- CHAPTER 17: The SPAW Model for Agricultural Field and Pond Hydrologic Simulation -- CHAPTER 18: The APEX Model -- CHAPTER 19: GAMES: The Guelph Model for Evaluating the Effects of Agricultural Management Systems on Erosion and Sedimentation -- Section 7: Planning and Management Models. , CHAPTER 20: Use of Distributed Models for Watershed Management: Case Studies -- CHAPTER 21: RiverWare -- CHAPTER 22: A Parsimonious Watershed Model -- CHAPTER 23: MODSIM: River Basin Management Decision Support System -- CHAPTER 24: Water Rights Analysis Package (WRAP) Modeling System -- CHAPTER 25: Hydrological River Basin Environment Assessment Model (Hydro-BEAM) -- CHAPTER 26: State of Colorado's Stream Simulation Model (StateMod) -- INDEX.

Note: Intro -- Preface -- Acknowledgements -- Sponsors and Co-sponsors -- Contents -- About the Editors -- Irrigation -- 1 Identification of Farming Systems in Tribal Region of Zone IV-B of Rajasthan (India) -- Abstract -- Introduction -- Methodology -- Results -- Area Under Various Crops in Study Area -- Livestock Population in the Study Area -- Farming Systems -- Farming Systems in Dungarpur District -- Rain-Fed Condition -- Farming Systems in Banswara District -- Rain-Fed Condition -- Irrigated Condition -- Conclusion -- References -- 2 Energy Assessment of Rice Under Conventional and Drip Irrigation Systems -- Abstract -- Introduction -- Materials and Methods -- Operations -- Method of Energy Calculation -- Evaluation of Manual Energy Input -- Evaluation of Mechanical Energy Use -- Data Recorded for Energy Determination -- Energy Indices -- Results and Discussions -- Conclusions -- References -- 3 Response of Okra Under Microsprinkler and Surface Methods of Irrigation -- Abstract -- Introduction -- Materials and Methods -- Results and Discussions -- Summary and Conclusions -- Acknowledgements -- References -- 4 Development of Universal Ultimate Total Green Chemistry and Eco-Agriculture for Sustainable Productivity -- Abstract -- Introduction -- Materials and Method -- Results -- The Green Chemistry -- Chemistry in Production System -- Salt Formation -- Measures to Overcome the Toxic Heavy Metal and Toxic Gases Generated in the Production Process -- The Racy Nature Agriculture Technology -- The Technology -- Technology Module -- Validation of the Technology -- Crops and Cropping Patterns -- Yearly Yield Enhancement and Water Conservation -- New Cropping Practice Based on Nitrogen Cycle Management -- Improvement in Quality -- Reduction in GHG Releases -- Discussion -- Conclusion -- Acknowledgements -- References. , 5 Landscape Gardening and Environmental Restoration: Concerns in Mughal Kashmir -- Abstract -- Landscape Garden Ecology -- Source and Methodology -- Mughal Concerns -- Other Notable Gardens Established Around Dal Lake -- Of Water and Plants in the Mughal Gardens of Kashmir -- Significance of Water and the water Channels -- Conclusion -- References -- 6 Eco-Treatment Zone in Open Drain -- Abstract -- Introduction -- Make Drains Treatment Zones -- Ecotechnologies -- Advantages -- Case Study I -- Ecological Restoration of Rasoolabad Stream Complex on the Bbanks of Ganga River, Allahabad (Patil et al. 2012) -- Ecological Treatment System Installed Under Rasoolabad Stream Complex -- Some Important Highlight of the Project -- Case Study II -- Ecological Restoration of Udaipur's Ahar River (Kodarkar and Joshi 2010) -- Analysis of Ahar River -- Transparency of River at Various Locations -- Conclusion -- References -- Water Resources Planning and Management -- 7 Water Crisis: Issues and Challenges in Punjab -- Abstract -- Introduction -- Sources of Water and Their Status in Punjab -- Groundwater -- Rainfall -- Rivers and Canal -- Water Quality and Health Issues -- Government Initiatives -- Future Prospects -- Conclusions -- References -- 8 Issues and Challenges of River Health Assessment in India -- Abstract -- Introduction -- River Health-Issues of Concern -- Water Quality Index-Issues of Concern -- Category of Indicators and Sub-indicators for River Health -- Aggregation of Sub-indicators/Indicators -- Grading Scale for River Health -- Conclusions -- References -- 9 Coastal Reservoir-How to Develop Freshwater from the Sea Without Desalination -- Abstract -- Introduction and Problem Statement -- Conclusions -- Acknowledgements -- References -- 10 Leakage Detection Studies for Water Supply Systems-A Review -- Abstract -- Introduction -- Background. , Recent Studies on Leakage Detection -- Discussion -- References -- 11 Quantification of Water Footprint of National Capital Territory (NCT) of Delhi, India -- Abstract -- Introduction -- Water Footprint: Status Quo -- Study Area -- Methodology -- Assessment of Domestic Water Footprint -- Assessment of Agricultural Water Footprint -- Assessment of Industrial Water Footprint -- Assessment of Virtual Water -- Results and Discussion -- Domestic Water Footprint -- Agriculture Water Footprint -- Industrial Water Footprint -- Virtual Water -- Total Water Footprint -- Conclusion -- Limitations -- References -- 12 Salt Water Intrusion and Water Security Issues of Coastal Community: Case of Thane District (Maharashtra) -- Abstract -- Introduction -- Methodology -- Discussion -- Conclusion -- Acknowledgements -- Appendix 1: Spatial Relations -- Bibliography -- 13 Study of Suction Versus Water Content of Soil of Turamdih Area Mixed with Bentonite and Its Implication on the Liner Property of Tailing Dam: A Case Study of East Singhbhum, Jharkhand, Eastern India -- Abstract -- Introduction -- Theoretical Background of Suction -- Methods Used -- Soil Total Suction Measurement -- Experimental Procedure -- Soil Matric Suction Measurements -- Experimental Procedure -- Test Materials -- Result and Discussion -- References -- 14 Long-Term Water Planning: A Review of Kenya National Water Master Plan 2030 -- Abstract -- Introduction -- General Background -- Historical Background -- Study Area -- Socio-economic Development -- Problem Statement -- Methodology -- Results and Discussion -- The Legal and Institutional Setup -- Climate Change -- Population Projections -- Water Availability -- Water Uses -- Balance of Demand and Available Water Resources -- Challenges in Long-Term Water Planning -- Conclusions and Recommendations -- Conclusions -- Recommendations. , Acknowledgements -- References -- 15 Integrated Water Management at Local Government Level for Southern Africa -- Abstract -- Introduction -- Main Objectives and Methodology -- Water Cycle -- Institutional Models -- South Africa -- Namibia -- Zimbabwe -- Botswana -- Zambia -- The WDM Model -- Evaluation Criteria -- Evaluation -- Results -- Conclusions -- Acknowledgement -- References -- 16 Integrated Water Resources Management in Malaysia: Some Initiatives at the Basin Level -- Abstract -- Introduction -- Integrated Water Resources Management -- Langat River Basin in Malaysia -- Water Resources Management Issues in Langat -- Some Initiatives at Basin Level -- Through Establishment of IWRM Research Group -- Through IWRM R& -- D Projects -- Through IWRM Capacity Building Programmes -- Through Stakeholders and Community Engagements -- Key Challenges -- Conclusion -- References -- 17 A Mechanical System for Lake Environment Management -- Abstract -- Introduction -- Water Hyacinth Management in Lakes -- The Invention -- Water Hyacinth Chopper Cum Crusher -- Significant Achievements and Advantages of the Developed Machine -- References -- 18 Wetland Characterization and Implications on Agriculture in L. Victoria Basin -- Abstract -- Introduction -- Materials and Methods -- Study Area -- ERT Imaging -- Transect 1 -- Transect 2 -- Transect 3 -- Transect 4 -- Stable Isotope Signatures -- Results and Discussion -- ERT Imaging -- Profile 1 -- Profile 2 -- Profile 3 -- Profile 4 -- Borehole Distribution in the Study Area -- Stable Isotope Signatures -- Discussion -- Conclusion -- Acknowledgements -- References -- 19 Coastal Land Use/Land Cover and Shoreline Studies for Dakshina Kannada Coast, Karnataka, India -- Abstract -- Introduction -- Study Area -- Data Used -- Methodology -- General Methodology -- Shoreline Configuration -- LU/LC Mapping. , Results and Discussion -- Analysis of Shoreline Change -- Land Use Land Cover -- Conclusions -- References -- 20 Management of Coalbed Methane and Coal Mine Produced Water for Beneficial Use in Damodar Basin of India -- Abstract -- Introduction -- Experimental -- Results and Discussions -- Summary and Conclusion -- References -- 21 Water Supply-Demand Assessment in Ur River Watershed in Tikamgarh District -- Abstract -- Introduction -- Study Area -- Methodology -- Water Balance Equation -- System Inflows -- System Water Use -- Evaporation from Water Bodies -- Evapotranspiration -- Evapotranspiration from Cropped Areas -- Evapotranspiration from Forested Areas -- Water Use for Domestic and Livestock Use -- Water Use for Non-agricultural Production -- System Outflows -- Surface Water Outflow -- Groundwater Outflow -- System Storages -- Unaccounted Water -- Establishment of Water Balance -- Analysis and Results -- Inflows to the System -- Computation of Mean Areal Rainfall -- Water Use in the System -- Evapotranspiration from Cropped Areas -- Evapotranspiration from Forested Areas -- Water Use for Domestic Purposes and Livestock Needs -- System Outflows -- Surface Runoff -- Groundwater Outflow/Inflow -- Change in Storage in the System -- Water Budget -- Conclusions -- References -- 22 Analysis of Spring Discharge in the Lesser Himalayas: A Case Study of Mathamali Spring, Aglar Watershed, Uttarakhand -- Abstract -- Introduction -- Study Area -- Methods of Analysis -- Data Characteristics -- Data Analysis -- Simple Exponential -- Least Squares Method -- Hyperbola -- Autocorrelation -- Flow Duration Curve -- Performance Evaluation -- Results and Discussions -- Autocorrelation -- Flow Duration Curve (FDC) -- Conclusion -- Acknowledgements -- References -- 23 Submerged Geotextile Sand Containers for Coastal Defence -- Abstract -- Introduction -- Objectives. , Experimental Details.

Note: Intro -- Preface -- Acknowledgements -- Sponsors and Co-sponsors -- Contents -- About the Editors -- Climatic Characteristics -- 1 Trends in Temperature for the Himalayan Environment of Leh (Jammu and Kashmir), India -- Abstract -- Introduction -- Materials and Methods -- Study Area -- Mann-Kendall Test -- Estimation of Magnitude of Trends -- Results and Discussion -- Conclusions -- Acknowledgements -- References -- 2 Changes in Sunshine Duration in Humid Environments of Agartala (Tripura), India -- Abstract -- Introduction -- Materials and Methods -- Study Area and Meteorological Data -- Methods of Trend Analysis -- Results and Discussion -- Conclusions -- Acknowledgements -- References -- 3 Application of Multiple Linear Regression as Downscaling Methodology for Lower Godavari Basin -- Abstract -- Introduction -- Literature Review -- Study Area -- Methodology -- Selection of Predictors and Predictands -- Selection of GCM and Representative Concentration Pathways (RCPs) -- Data Preparation -- Statistical Downscaling -- Results and Discussion -- Application of Downscaled Scenarios for Future Periods -- Analysis for Grid 1: 17.5N-80.5E -- Analysis for Grid 2: 17.5N-81.5E -- Analysis for Grid 3: 18.5N-80.5E -- Analysis for Grid 4: 18.5N-81.5E -- Analysis for Grid 5: 18.5N-82.5E -- Summary and Conclusions -- Acknowledgements -- References -- 4 Statistical Downscaling of Minimum Temperature of Raipur (C.G.) India -- Abstract -- Introduction -- Statistical Down Scaling Model (SDSM) -- Study Area and Data Used -- Methodology -- Analysis of Results -- CGCM A1B Forcing Condition -- Generation of Series for A2 Forcing Condition -- Conclusion -- References -- 5 Statistical Downscaling of Daily Temperatures and Precipitation Data from Coupled Model Inter-comparison Project 5 (CMIP5)-RCPs Experiment: In Weyib River Basin, Southeastern Ethiopia -- Abstract. , Introduction -- Materials and Methods -- Study Area (Weyib River Basin) -- Earth System Model (ESM) and RCP Scenarios -- Types of Data Used -- Downscaling Methods -- Statistical Downscaling Model (SDSM) -- Precipitation and Temperatures Scenario Statistics -- Mann-Kendall Trend Test -- SDSM Performance Evaluation -- Coefficient of Determination (R2) -- Nash-Sutcliffe Coefficient (E) -- Root Mean Square Error (RMSE) -- Results and Discussion -- Selected Potential Predictor Variables -- Calibration and Validation of SDSM for Both Temperatures and Precipitation -- Scenarios Developed for Future Temperatures and Precipitation -- Maximum Temperature Scenarios -- Minimum Temperature Scenarios -- Precipitation Scenarios -- Mann-Kendall Trend Test of Future Temperatures and Precipitation -- Summary and Conclusion -- Acknowledgements -- References -- 6 Global Climate Pattern Behind Hydrological Extremes in Central India -- Abstract -- Introduction -- Study Area and Data -- Methodology -- Quantification of Dry and Wet Events Through Standardized Precipitation Anomaly Index (SPAI) -- Identification of the Global Climate Pattern (GCP) for Central India -- Utilization of the Identified GCP for Prediction of Dry and Wet Events in Central India -- Reduction of Dimensionality of GCP -- Model for Classification of Dry and Wet Events -- Evaluation of the Prediction Performance Using GCP as Input -- Results and Discussions -- Identification of the Global Climate Pattern for Central India -- Global Fields of Sea Surface Temperature (SST) -- Global Fields of Surface Pressure (SP) -- Global Fields of Air Temperature (AT), Wind Speed (WS), and Total Precipitable Water (TPW) -- Utilization of the Identified GCP for Prediction of Dry and Wet Events in Central India -- Conclusion -- Acknowledgements -- References. , 7 Changes in ENSO and IOD Effects on the Extreme Rainfall of Hyderabad City, India -- Abstract -- Introduction -- Study Area and Data -- Methodology -- Results and Discussions -- Summary -- Acknowledgements -- References -- Rainfall Analysis -- 8 Detecting Changes in Regional Rainfall Series in India Using Binary Segmentation-Based Multiple Change-Point Detection Techniques -- Abstract -- Introduction -- Methodology -- Estimation of the Multiple Change-Points Using Binary Segmentation Approach -- Estimation of Test Statistics Lambda -- Study Area and Data -- Results and Discussion -- Summary and Conclusions -- References -- 9 Analyzing Non-stationarity in the Hyderabad City Rainfall Intensity-Duration-Frequency Curves -- Abstract -- Introduction -- Study Area and Data -- Methodology -- Trend Analysis -- The Non-stationary IDF Curves -- Results and Discussion -- Summary -- Acknowledgements -- References -- 10 Development of Finer Resolution Rainfall Scenario for Kangsabati Catchment and Command -- Abstract -- Introduction -- Study Area and Data Acquisition -- Methodology -- Development of Downscaling Model for NCEP Reanalysis Outputs -- Multiple Linear Regression (MLR) -- Kernel Regression (KR) -- Performance Evaluation of MLR and KR Downscaling Techniques -- Establishment of Downscaling Technique for Multi-GCM Ensemble Outputs -- Results and Analysis -- Performance Comparison of MLR and KR Statistical Downscaling Techniques -- Multi-GCM Ensemble Rainfall Prediction for Historical and RCP8.5 Scenarios -- Conclusions -- References -- 11 Investigation of the Relationship Between Natural Aerosols and Indian Summer Monsoon Rainfall Using a Climate Model -- Abstract -- Introduction -- Data Set and Methods -- Results -- Summary -- Acknowledgements -- References -- Impacts of Climate Change -- 12 Change Point Analysis of Air Temperature in India -- Abstract. , Introduction -- Methodology -- Study Area -- Data Used -- Pettit's Test -- Results and Discussions -- Change Point Analysis -- Summary and Conclusions -- References -- 13 Greenhouse Gas Emissions from Sewage Treatment Plants Based on Sequential Batch Reactor in Maharashtra -- Abstract -- Introduction -- Materials and Methodology -- Results and Discussion -- Conclusion -- References -- 14 Study of Climate Change in Uttarakhand Himalayas: Changing Patterns of Historical Rainfall -- Abstract -- Introduction -- Study Area and Data Used -- Methodology -- Trend Analysis -- Regression Model -- Mann Kendall Model -- Data Preparation -- Trend Analysis and Results -- Conclusions -- References -- 15 The Impact of Climate Change on Rainfall Variability: A Study in Central Himalayas -- Abstract -- Introduction -- The Study Area -- Data Used -- Methodology -- Determination of Anomalies -- Regression Model -- Magnitude of Trend -- Significance of Trend -- Results and Discussion -- Conclusions -- References -- 16 Estimation of Changes in Annual Peak Flows in Netravathi River Basin, Karnataka, India -- Abstract -- Introduction -- Study Area -- Data Used and Methodology -- Trend of Historical Changes of Annual Peak Flows -- Sen's Slope Estimator Test -- Flood-Frequency Analyses for Full Periods of Record -- Results and Discussions -- Flood-Frequency Analysis for Observed Peak Stream Flows -- Conclusion -- References -- 17 Potential Impacts of Climate Change on Water Resources in Semi-Arid Region of Chittorgarh, India -- Abstract -- Introduction -- Methodology -- Study Area -- Study Framework -- Data Collection -- Data Analysis Using PROMETHEE -- Results and Discussion -- Verification of Results -- Using Analytical Hierarchy Process -- Using Social Choice Method -- Climate Change Impact and Its Prediction -- Conclusions -- References. , 18 Water Availability Under Changing Climate Scenario in Ur River Basin -- Abstract -- Introduction -- Study Area -- Methodology -- Computation of Aerial Average Rainfall -- Potential Evapotranspiration -- Soil Conservation Service Curve Number (SCS-CN) Model -- Monthly Water Balance Model -- Assessment of Climate Change Impacts -- Results and Discussion -- Assessment of Climate Change Impacts -- Conclusions -- References -- 19 Water Sustainability Assessment Under Climatic Uncertainty-A Case Study of Chhattisgarh (India) -- Abstract -- Introduction -- Terminology Used in the Assessment of WSI -- Standardized Precipitation Index (SPI) -- Probability Density Function Used in SPI -- Goodness-of-Fit Tests -- Reliability-Resilience-Vulnerability for SPI Time Series -- Reliability -- Resilience -- Vulnerability -- Relative Vulnerability -- Water Sustainability -- Distance-Based Multicriteria Decision Making -- Proposed Methodology for Water Sustainability Assessment -- Case Study -- WSI Under HadCM3-A2 Climate Change Scenario -- WSI Under HadCM3-B2 Climate Change Scenario -- Conclusions -- References -- Low Flow and Drought -- 20 Coupling of Tennant Concept with Standardized Precipitation Index (SPI) for the Prediction of Environmental Flow Condition from Rainfall in Upper Narmada Basin -- Abstract -- Introduction -- Study Area -- Methodology -- Standardized Precipitation Index -- Tennant Method -- Results and Discussion -- Mohegaon Catchment -- Hridaynagar Catchment -- Manot Catchment -- Sher Catchment -- Conclusion -- Acknowledgements -- References -- 21 Assessment of Drought in Balangir District of Odisha, India Using Drought Indices -- Abstract -- Introduction -- Description of Study Area -- Results and Discussion -- Conclusion -- References. , 22 Impact of HFC Fire Extinguishing Clean Agents on Climate Change and Its System Design Requirements for Fire Hazards in India-A Brief Study.

Note: Intro -- Preface -- Contents -- About the Editors -- Part I Introduction -- 1 An Overview on Environmental Degradation and Mitigation -- 1.1 Introduction -- 1.2 Types of Environmental Degradation -- 1.3 Causes of Environmental Degradation -- 1.4 Impacts of Environmental Degradation -- 1.5 Treatment or Remediation Technologies -- 1.5.1 Prevention of Deforestation -- 1.5.2 Governmental Regulations -- 1.5.3 Sustainable Consumption and Production Regulations -- 1.5.4 Adoption of the Principle of Reduce, Reuse, and Recycle (3R) -- 1.5.5 Adoption of Environment-Friendly Education -- 1.6 Conclusion -- References -- Part II Causes of Degradation -- 2 Deforestation and Forests Degradation Impacts on the Environment -- 2.1 Introduction -- 2.2 Factors Responsible for Deforestation and Forests Degradation -- 2.2.1 Direct Cause -- 2.2.2 Natural Causes -- 2.2.3 Underlying Causes -- 2.3 Environmental Implications of Deforestation and Forests Degradation -- 2.3.1 Deforestation Impacts on Climate Change -- 2.3.2 Deforestation Impacts on Soil Erosion -- 2.3.3 Deforestation Impacts on Disrupted Livelihood -- 2.3.4 Deforestation Impacts on Water Cycles -- 2.3.5 Deforestation Impacts on Social Consequences -- 2.3.6 Deforestation Impacts on Food Security -- 2.3.7 Health Associated with Forest Threats -- 2.4 Forest Landscape Restoration (FLR): An Initiative Towards Degradation Prevention -- 2.4.1 FLR Principles -- 2.4.2 Characteristics of FLR Initiatives (Maginnis et al. 2007) -- 2.4.3 Few Best Practices for Forest Landscape Restoration (FLR) -- 2.5 Policy Interventions -- 2.5.1 UN Sustainable Development Goals (SDGs) -- 2.5.2 Aichi Targets -- 2.5.3 Bonn Challenge -- 2.5.4 REDD and REDD + strategies -- 2.5.5 Recommendations and Future Research Prospects -- 2.6 Conclusions -- References. , 3 Measuring Environmental Impact of Agricultural, Manufacturing, and Energy Sectors in Bangladesh Through Life Cycle Assessment -- 3.1 The State of Bangladesh's Economically Important Sectors and Environmental Footprint -- 3.2 Approach for Identifying Literature -- 3.3 Assessment of Environmental Impact/Degradation Based on the Findings of Available LCA Studies for Bangladesh -- 3.3.1 Agricultural Sector -- 3.3.2 Manufacturing Sectors -- 3.3.3 Energy Sector -- 3.4 Environmental Policy Recommendations for Impact Decoupling -- 3.4.1 Policy Interventions for Agricultural Sector -- 3.4.2 Policy Interventions for Manufacturing Sector -- 3.4.3 Policy Interventions for Energy Sector -- 3.5 Conclusion -- References -- 4 Chemical Fertilizers and Pesticides: Impacts on Soil Degradation, Groundwater, and Human Health in Bangladesh -- 4.1 Introduction -- 4.2 Types of Agrochemicals -- 4.2.1 Fertilizers -- 4.2.2 Pesticides -- 4.3 Global Use of Agrochemicals -- 4.4 Impacts of Chemical Fertilizers and Pesticides -- 4.4.1 Impacts on Soil -- 4.4.2 Impacts on Groundwater Resources -- 4.4.3 Impacts on Human Health -- 4.5 Alternatives to Chemical Fertilizers and Pesticides -- 4.5.1 Organic Farming: A Sustainable Alternative -- 4.5.2 Integrated Pest Management -- 4.5.3 Biocontrol Agents for Reducing Pesticide Consumption -- 4.5.4 Other Approaches -- 4.5.5 Green Chemistry -- 4.6 Conclusions -- 4.7 Recommendations -- References -- Part III Treatment or Remediation Technologies -- 5 Environmental Impacts and Necessity of Removal of Emerging Contaminants to Facilitate Safe Reuse of Treated Municipal Wastewaters -- 5.1 Introduction -- 5.2 Types of Emerging Contaminants of Persistence -- 5.2.1 Pesticides and Herbicides -- 5.2.2 Pharmaceutical and Personal Care Products -- 5.2.3 Dyes -- 5.2.4 Industrial Chemicals -- 5.3 Occurrence of ECs in Wastewater and Environment. , 5.3.1 Occurrence of ECs in Effluent Treatment Plant -- 5.3.2 Occurrence of ECs in Environment -- 5.4 Advanced Oxidation Strategies for Removal of ECs -- 5.4.1 Application of Physical Techniques -- 5.4.2 Application of Chemicals Techniques -- 5.5 Hybrid Systems for Augmentation of Performance -- 5.5.1 O3-UV Advanced Oxidation Systems -- 5.5.2 O3-H2O2 Advanced Oxidation Systems -- 5.5.3 UV and Cl2 Integrated Advanced Oxidation Systems -- 5.6 General Discussion -- 5.7 Recommendation -- 5.8 Conclusion -- References -- 6 Emerging Biotechnological Processes in Controlling Nitrogen Pollution to Minimize Eutrophication of Surface Waters in Asia -- 6.1 Introduction -- 6.2 Emerging Biotechnological Processes in Controlling Nitrogen Pollution -- 6.2.1 Partial Nitritation-Denitrification -- 6.2.2 ANAMMOX -- 6.2.3 SHARON -- 6.2.4 SHARON-ANAMMOX -- 6.2.5 CANON -- 6.2.6 NOx -- 6.2.7 OLAND -- 6.2.8 DEMON -- 6.2.9 DEAMOX -- 6.2.10 SNAD -- 6.2.11 BABE -- 6.2.12 FeOx/MnOx-Mediated Nitrification and Denitrification -- 6.2.13 Feammox/Mnammox -- 6.3 Recommendations -- 6.4 Conclusion -- References -- 7 Hybrid Anaerobic Baffled Reactor and Upflow Anaerobic Filter for Domestic Wastewater Purification -- 7.1 Introduction -- 7.2 Anaerobic Baffled Reactor -- 7.3 Anaerobic Filter for Wastewater Treatment -- 7.4 Experimental Study of the Hybrid System (ABR and AF) -- 7.4.1 Lab-Scale Hybrid System -- 7.4.2 Sampling and Parameter Analysis -- 7.5 Results and Discussion -- 7.5.1 Wastewater Characteristic -- 7.5.2 Performance of the Hybrid System -- 7.6 Conclusion -- 7.7 Recommendation -- References -- 8 Remediation of Heavy Metal Pollutants of Industrial Effluents and Environmental Impacts -- 8.1 Introduction -- 8.2 Materials and Methods -- 8.2.1 Adsorbent (Nano CaSPT) -- 8.2.2 Adsorbate [Zn(II), Pb(II), Cd(II), Cu(II), and Cr(III)] -- 8.2.3 Adsorption Experiments. , 8.3 Results and Discussion -- 8.3.1 Microscopic Study -- 8.3.2 Surface Property Investigation -- 8.3.3 Batch Adsorption Experiments -- 8.3.4 Adsorption Screening of HM Ions with CaSPT -- 8.3.5 Metal Ion Adsorption on Nano CaSPT -- 8.4 Recommendation and Future Research Prospects -- 8.5 Conclusions -- References -- 9 Textile Dye Removal from Industrial Wastewater by Biological Methods and Impact on Environment -- 9.1 Introduction -- 9.2 Textile Wastewater Characteristics -- 9.3 Textile Dyes -- 9.3.1 Dye Structure and Properties -- 9.4 Environmental Impacts of Textile Dyes -- 9.4.1 Impact on Aquatic Environment -- 9.4.2 Impact on Vegetation -- 9.4.3 Impact on Human Health -- 9.5 Textile Dye Decolourization Techniques -- 9.5.1 Physical Treatment Techniques -- 9.5.2 Chemical Treatment Techniques -- 9.5.3 Biological Treatments -- 9.5.4 Decolourization of Textile Dyes in Reactors -- 9.5.5 Biofilms -- 9.5.6 Decolourization of Textile Dyes in Fixed (Packed) Bed Biofilm Reactors -- 9.6 Conclusions -- 9.7 Recommendations -- References -- 10 Environmental Remediation Technologies -- 10.1 Introduction -- 10.2 Remediation Technologies and Their Application -- 10.2.1 NanoRemediation Technology -- 10.2.2 Solidification and Stabilization -- 10.2.3 Thermal Desorption -- 10.2.4 Gas-Based Techniques -- 10.2.5 Phytoremediation -- 10.3 Selection of Relevant Remediation Technology -- 10.4 Conclusions -- 10.5 Recommendations -- References -- 11 Wastewater Remediation: Emerging Technologies and Future Prospects -- 11.1 Introduction -- 11.2 Conventional Effluent Treatment Techniques -- 11.2.1 Physico-chemical Treatment Processes -- 11.2.2 Biological Treatments -- 11.3 Advanced Effluent Treatment Techniques -- 11.3.1 Membrane Distillation (MD) -- 11.3.2 Forward Osmosis -- 11.3.3 Photocatalysis -- 11.3.4 Nanomaterial and Nanotechnology. , 11.4 Sustainability and Value Addition in WWT -- 11.4.1 Recovery of Value Added Products from Effluent Streams -- 11.4.2 Process Intensification -- 11.5 Conclusion and Future Work -- References -- Part IV Impacts of Degradation -- 12 Microbial Diversity and Physio-Chemical Characterization and Treatment of Textiles Effluents -- 12.1 Introduction -- 12.2 Pollutants and Aquatic Environment -- 12.3 Effects of Industrial Effluents in Aquatic Environment -- 12.4 Textile Colorants -- 12.5 Study of Textile Effluents -- 12.6 Physico-Chemical Characteristics of Effluent -- 12.7 Bioremediation -- 12.7.1 Oscillatoria -- 12.8 Materials and Methods -- 12.8.1 Collection of Samples -- 12.8.2 Study of Microbial Diversity -- 12.9 Results and Discussion -- 12.9.1 Swimming Activity -- 12.9.2 Opercular Beats -- 12.9.3 Rate of Oxygen Consumption -- 12.9.4 Haematological Parameters -- 12.9.5 Biochemical Studies -- 12.9.6 Enzymes Studies -- 12.10 Conclusion -- 12.11 Recommendations -- References -- 13 A Sustainable Solution for the Rehabilitation of Surface Water Quality Degradation -- 13.1 Introduction -- 13.1.1 Best Management Practice (BMP) to Mitigate Diffuse Pollution -- 13.1.2 Vegetated Ditch -- 13.2 Case Studies of Vegetated Ditch -- 13.2.1 Nitrogen Removal -- 13.2.2 Phosphorus Removal -- 13.2.3 Pesticides Removal -- 13.2.4 Organic Matter Removal -- 13.2.5 Solids Removal -- 13.2.6 Pathogen Removal -- 13.2.7 Heavy Metals Removal -- 13.2.8 Contaminants of Emerging Concern (CECs) Removal -- 13.3 Challenges Faced by the VD and Recommendations for the Enhancement of VD Systems -- 13.3.1 Contaminant Removal Efficiencies -- 13.3.2 Operational and Maintenance Issues -- 13.4 Conclusion -- References -- 14 Recovery from Natural Disasters and Environmental Destruction in East Japan -- 14.1 Introduction -- 14.2 Characteristics of the East Japan Area. , 14.3 The Impact of the Great East Japan Earthquake.

Note: Front Cover -- Planning and Evaluation of Irrigation Projects -- Dedication -- Planning and Evaluationof Irrigation Projects Methods and Implementation -- Copyright -- Contents -- Preface -- Acknowledgments -- 1 - INTRODUCTION -- 1.1 IRRIGATION: DEFINITION, FUNCTIONS, ADVANTAGES, AND DISADVANTAGES -- 1.2 IRRIGATION PLANNING -- 1.3 NEED OF EVALUATION: BENCHMARKING AND WATER AUDITING -- 1.4 ORGANIZATION OF THIS BOOK -- 2 - IRRIGATION PROJECT PLANNING -- 2.1 PLANNING STAGES -- 2.1.1 PROJECT IDENTIFICATION -- 2.1.2 PROJECT PREPARATION AND ANALYSIS -- 2.1.3 PROJECT APPRAISAL -- 2.1.4 PROJECT IMPLEMENTATION -- 2.1.5 MONITORING AND EVALUATION -- 2.2 INVESTIGATION PHASES AND DATA COLLECTION -- 2.2.1 DATA COLLECTION -- 2.3 SCOPE OF WORK FOR PLANNING OR PREFEASIBILITY REPORT STAGE -- 2.4 SCOPE OF WORK FOR DETAILED INVESTIGATION OR DETAILED PROJECT REPORT STAGE -- 2.4.1 ACTIVITIES FOR THE PREPARATION OF DETAILED PROJECT REPORT -- 2.4.2 DELIVERABLES AND IMPLEMENTATION PLAN TO BE INCORPORATED IN DETAILED PROJECT REPORT -- 2.5 FACTORS AFFECTING THE DEVELOPMENT OF IRRIGATION FACILITIES -- 2.5.1 SOIL -- 2.5.2 CLIMATE -- 2.5.3 TOPOGRAPHY -- 2.5.4 WATER SOURCE -- 2.5.5 WATER QUANTITY -- 2.5.6 WATER QUALITY -- 2.5.7 CROP(S) TO BE CULTIVATED -- 2.5.8 ENERGY -- 2.5.9 LABOR -- 2.5.10 CAPITAL -- 2.5.11 ECONOMIC FACTOR -- 2.5.12 ENVIRONMENTAL ASPECTS -- 2.5.13 NATIONAL POLICY AND PRIORITY -- 2.5.14 SOCIOCULTURAL ASPECTS -- 2.5.15 INSTITUTIONAL INFRASTRUCTURE -- REFERENCES -- 3 - BASIC HYDRAULIC COMPUTATIONS -- 3.1 BASIC TERMINOLOGY -- 3.1.1 CLASSIFICATION OF OPEN CHANNEL FLOW -- 3.2 CONSERVATION LAWS -- 3.2.1 LAW OF MASS CONSERVATION OR CONTINUITY EQUATION -- 3.2.2 LAW OF MOMENTUM CONSERVATION -- 3.2.2.1 Specific Force -- 3.2.3 LAW OF ENERGY CONSERVATION -- 3.2.3.1 Steady-State Flow Equation -- 3.2.3.2 Specific Energy Equation -- 3.2.3.3 Application of Specific Energy. , 3.2.3.3.1 Channel Transition -- 3.3 HYDRAULIC JUMP -- 3.3.1 ELEMENTS OF HYDRAULIC JUMP -- 3.3.1.1 Chaurasia (2003) -- 3.3.1.2 Swamee and Rathie (2004) -- 3.4 COMPUTATION OF CRITICAL DEPTH -- 3.5 UNIFORM FLOW COMPUTATION -- 3.5.1 COMPUTATION OF NORMAL DEPTH -- 3.5.1.1 Explicit Method of Computing the Normal Depth -- 3.6 GRADUALLY VARIED FLOW -- 3.6.1 CLASSIFICATION OF GRADUALLY VARIED FLOW -- 3.6.2 COMPUTATION OF GRADUALLY VARIED FLOW OR WATER LEVEL PROFILE -- 3.6.2.1 Direct Integration Method -- 3.6.2.2 Direct Step Method -- 3.6.2.3 Standard Step Method -- 3.6.2.4 Predictor-Corrector Method -- 3.7 CONCLUDING REMARKS -- REFERENCES -- FURTHER READING -- 4 - HYDROLOGIC COMPUTATIONS -- 4.1 ANALYSES OF RAINFALL DATA -- 4.1.1 OPTIMUM NUMBER OF RAIN GAUGES -- 4.1.1.1 Coefficient of Variation Technique -- 4.1.2 ESTIMATION OF AVERAGE RAINFALL -- 4.1.3 ESTIMATION OF RAINFALL TRENDS FOR CLIMATIC VARIATION: THE MANN-KENDALL TEST -- 4.2 HYDROLOGIC CYCLE -- 4.2.1 COMPONENTS OF HYDROLOGIC CYCLE AND IMPORTANT TERMINOLOGY -- 4.3 HYDROLOGIC EQUATION AND WATER BALANCE -- 4.3.1 PERIOD OF WATER-BALANCE EXERCISE -- 4.3.2 PURPOSE OF WATER BALANCE -- 4.4 ESTIMATION OF RESERVOIR INFLOW USING OBSERVED DATA -- 4.4.1 DETERMINATION OF CATCHMENT OR RESERVOIR YIELD -- 4.5 ESTIMATE OF CATCHMENT YIELD USING RAINFALL-RUNOFF MODELING -- 4.5.1 STRANGE TABLE -- 4.5.2 SIMPLE WATER-BALANCE MODEL -- 4.5.2.1 Components of SWMB -- 4.5.2.1.1 Upper Layer Water Balance -- 4.5.2.1.2 Lower Layer Water Balance -- 4.5.2.1.3 Subsurface Runoff -- 4.5.2.1.4 Surface Runoff -- 4.5.2.2 Runoff Routing -- 4.5.3 MODIFIED SCS-CN MODEL -- 4.5.3.1 Rainfall-Excess Computation -- 4.5.3.2 Soil Moisture Budgeting -- 4.5.3.3 Computation of Evapotranspiration -- 4.5.3.4 Catchment Routing -- 4.5.3.5 Baseflow Computation -- 4.6 INFLOW ESTIMATION IN MULTI-RESERVOIR CASE. , 4.6.1 RESERVOIR ROUTING: STORAGE-INDICATION METHOD -- 4.6.2 CHANNEL ROUTING -- 4.6.2.1 The Muskingum Method -- 4.6.2.1.1 Parameter Estimation of the Muskingum Method -- 4.6.2.2 The Muskingum-Cunge Method -- 4.6.2.3 Modified Muskingum-Cunge Method (Ponce and Yevjevich, 1978) -- 4.7 DESIGN-FLOOD ESTIMATION FOR FIXING THE SPILLWAY CAPACITY -- 4.7.1 UNIT HYDROGRAPH METHOD -- 4.7.1.1 Assumptions of the Unit Hydrograph -- 4.7.1.2 Derivation of Unit Hydrograph -- 4.7.1.3 Unit Duration of UH -- 4.7.1.4 Limitations of Unit Hydrograph -- 4.7.1.5 Computation of Floods From UH Using Convolution -- 4.7.1.6 Changing the Duration of UH -- 4.7.1.6.1 Principle of Superposition -- 4.7.1.6.2 S-Hydrograph Method -- 4.7.2 SYNTHETIC HYDROGRAPH METHOD -- 4.7.2.1 Snyder's Method -- 4.7.2.2 SCS Synthetic UH Method -- 4.7.2.3 Synthetic Unit Hydrograph Method of CWC -- 4.7.3 CONCEPTUAL MODELS -- 4.7.3.1 The Clark-Based IUH Model -- 4.7.3.1.1 Parameters of the Clark Model -- 4.7.3.1.1.1 Time of Concentration, tc -- 4.7.3.1.1.2 Time-Area (TA) Diagram -- 4.7.3.1.1.2.1 TA Diagram Using the DEM -- 4.7.3.1.1.2.2 Synthetic TA and TAC Curve -- 4.7.3.1.1.3 Storage Coefficient, K -- 4.7.3.1.2 Governing Equation of the Clark Model -- 4.7.3.1.2.1 Derivation of Routing Equation -- 4.7.4 DESIGN-FLOOD ESTIMATION USING FLOOD-FREQUENCY ANALYSIS -- 4.7.4.1 Components of Frequency Analysis -- 4.8 RESERVOIR SIZING -- 4.8.1 STORAGE ZONES IN A RESERVOIR -- 4.8.2 AREA-ELEVATION AND CAPACITY-ELEVATION CURVES -- 4.8.3 DETERMINATION OF RESERVOIR CAPACITY -- 4.8.3.1 Flow-Mass Curve Analysis -- 4.8.3.2 Sequent Peak Algorithm -- 4.8.3.2.1 Graphical Procedure -- 4.8.3.2.2 Analytical Procedure -- 4.8.4 RESERVOIR OPERATION -- 4.8.4.1 Standard Operating Policy -- 4.8.5 RESERVOIR RULE CURVE -- 4.9 RESERVOIR SEDIMENTATION -- 4.9.1 DIRECT MEASUREMENT OF SEDIMENT YIELD AND EXTENSION OF MEASURED DATA. , 4.9.1.1 Extension of Sediment Data -- 4.9.1.2 Estimating Sediment Yield -- 4.9.2 TRAP EFFICIENCY OF RESERVOIR -- 4.9.2.1 Brune (1953) Method -- 4.9.2.2 USDA-SCS (1983) Method -- 4.9.2.3 Churchill (1948) Method -- 4.9.3 SEDIMENT DISTRIBUTION IN RESERVOIR -- 4.9.3.1 Empirical Methods for Evaluating Sediment Distribution -- 4.9.3.1.1 Area-Increment Method -- 4.9.3.1.2 Empirical Area-Reduction Method -- 4.10 CONCLUDING REMARKS -- REFERENCES -- FURTHER READING -- 5 - ESTIMATION OF LAKE EVAPORATION AND POTENTIAL EVAPOTRANSPIRATION -- 5.1 ESTIMATION OF LAKE EVAPORATION -- 5.2 ESTIMATION OF REFERENCE CROP EVAPOTRANSPIRATION -- 5.2.1 FAO-56 AND ASCE-EWRI METHOD -- 5.2.2 HARGREAVES METHOD -- 5.3 CONCLUDING REMARKS -- REFERENCES -- 6 - ESTIMATING IRRIGATION DESIGN PARAMETERS -- 6.1 ESTIMATION OF CROP WATER REQUIREMENT -- 6.1.1 CROP GROWTH STAGE -- 6.1.2 CROP COEFFICIENTS -- 6.1.3 PRINCIPAL CROPS AND THEIR WATER REQUIREMENT AND CRITICAL STAGES -- 6.2 IRRIGATION WATER REQUIREMENT -- 6.2.1 WATER REQUIRED FOR LAND SOAKING, WRLS -- 6.2.2 WATER REQUIRED FOR LAND PREPARATION, WRLP -- 6.2.3 WATER REQUIRED FOR LEACHING, WRL -- 6.2.4 GROSS IRRIGATION WATER REQUIREMENT, GIWR -- 6.3 IRRIGATION EFFICIENCY -- 6.3.1 WATER CONVEYANCE EFFICIENCY (EC) -- 6.3.2 WATER APPLICATION EFFICIENCY (EA) -- 6.3.3 SCHEME IRRIGATION EFFICIENCY -- 6.4 IRRIGATION COMMAND AREA -- 6.4.1 IRRIGATION INTENSITY -- 6.4.2 PEAK IRRIGATION DEMAND -- 6.4.3 WATER ALLOWANCE -- 6.4.4 DUTY, DELTA, AND BASE PERIOD -- 6.4.4.1 Duty, D -- 6.4.4.2 Delta, Δ -- 6.4.4.3 Base Period, B -- 6.4.5 RELATIONSHIP BETWEEN DUTY, DELTA, AND BASE PERIOD -- 6.5 DETERMINATION OF IRRIGATED COMMAND AREA, PROJECT DUTY, DUTY AT OUTLET HEAD AND CANAL HEAD, WATER ALLOWANCE, AND CANAL CAPACITY -- REFERENCES -- FURTHER READING -- 7 - DESIGN OF IRRIGATION CANALS -- 7.1 TYPICAL CANAL GEOMETRY -- 7.2 DESIGN OF LINED CANALS. , 7.2.1 DESIGN OF THE MOST ECONOMICAL SECTION -- 7.3 DESIGN OF STABLE UNLINED CANALS USING THE REGIME THEORY -- 7.4 DESIGN OF UNLINED CANAL USING TRACTIVE FORCE APPROACH -- 7.4.1 DESIGN OF UNLINED CANAL USING KENNEDY'S THEORY -- 7.5 DETERMINING L-SECTION OF THE CANAL -- 7.6 DEVELOPMENT OF DRAW-OFF STATEMENT FOR THE CANAL -- 7.7 CONCLUDING REMARKS -- REFERENCES -- FURTHER READING -- 8 - DESIGN OF CANAL OUTLETS AND THEIR CALIBRATION -- 8.1 CLASSIFICATION OF OUTLETS -- 8.2 PERFORMANCE OF MODULE OR OUTLET -- 8.2.1 FLEXIBILITY -- 8.2.2 PROPORTIONALITY AND SETTING -- 8.2.3 SENSITIVITY -- 8.3 DESIGN OF OUTLETS: DISCHARGE THROUGH OUTLETS -- 8.3.1 NONMODULAR OUTLET -- 8.3.2 SEMIMODULAR OUTLET -- 8.3.2.1 Pipe Outlet Discharging Freely Into the Water Course -- 8.3.2.2 Open Flume Outlet -- 8.3.2.3 Adjustable Orifice Semimodules -- 8.4 CALIBRATION OF OUTLET -- 8.5 CONCLUDING REMARKS -- REFERENCES -- FURTHER READING -- 9 - CANAL ARCHITECTURE -- 9.1 CANAL CLASSIFICATION -- 9.1.1 CLASSIFICATION ACCORDING TO FUNCTION OF THE CANAL -- 9.1.2 CLASSIFICATION ACCORDING TO ALIGNMENT -- 9.1.3 CLASSIFICATION ACCORDING TO NATURE OF SOURCE AND SUPPLY -- 9.1.4 CLASSIFICATION ACCORDING TO DISCHARGE AND RELATIVE IMPORTANCE -- 9.2 COMMAND AREA SURVEY -- 9.2.1 SURVEY MAPS FOR INITIAL PLANNING -- 9.2.2 SURVEY MAPS FOR DETAILED PLANNING -- 9.3 CANAL ALIGNMENT -- 9.3.1 IMPORTANT POINTS FOR CANAL ALIGNMENT -- 9.4 MARKING AND FINALIZATION OF AREA PROPOSED TO BE IRRIGATED BY EACH CHANNEL -- 9.5 DESIGN OF CANAL -- 9.6 CONCLUDING REMARKS -- REFERENCES -- FURTHER READING -- 10 - IRRIGATION METHODS -- 10.1 METHODS OF IRRIGATION -- 10.1.1 BASIN IRRIGATION -- 10.1.2 FURROW IRRIGATION -- 10.1.3 BORDER IRRIGATION -- 10.1.4 SPRINKLER IRRIGATION -- 10.1.5 DRIP IRRIGATION -- 10.2 FACTORS AFFECTING THE SELECTION OF IRRIGATION METHOD -- 10.3 LAYOUT OF BASIN IRRIGATION. , 10.4 LAYOUT FOR FURROW IRRIGATION.

Note: Intro -- Preface -- Acknowledgements -- Contents -- About the Editors -- Part I Hydrological Monitoring -- 1 Wireless Sensor Networks for Hydrological Monitoring, Helpful Tools for Accurate Models -- 1.1 Introduction -- 1.2 Methods -- 1.3 Results and Discussion -- 1.4 Conclusions -- References -- 2 Automatic Extraction of Surface Water Bodies from High-Resolution Multispectral Remote Sensing Imagery Using GIS and Deep Learning Techniques in Dubai -- 2.1 Introduction -- 2.2 Methods -- 2.2.1 Study Area -- 2.2.2 Input Data -- 2.2.3 Training Data of the Deep Learning Model -- 2.2.4 Load Model Architecture -- 2.2.5 Train the Model Through Learning Rate Tuning and Transfer Learning -- 2.2.6 Test Time Augmentation -- 2.2.7 Accuracy Assessment -- 2.3 Results and Discussion -- 2.3.1 Confidence Threshold and Accuracy of Water Bodies Dataset -- 2.3.2 Confusion Matrix -- 2.3.3 False Positives -- 2.3.4 Cartography Enhancement -- 2.3.5 Validate the Extracted Water Body Layer Against Reference Layers -- 2.3.6 Water Bodies Layer Dissemination -- 2.4 Conclusions -- References -- Part II Rainfall and Floods -- 3 Multiple Non-linear Reservoirs to Model Water Balance Components in Sandy Soils -- 3.1 Introduction -- 3.2 Methods -- 3.2.1 Assumption of Gravity-Driven Infiltration (GD) -- 3.2.2 One Non-linear Reservoir -- 3.2.3 Multiple Non-linear Reservoirs -- 3.3 Results and Discussion -- 3.3.1 Water Content Profiles for Constant Rainfall Intensity -- 3.3.2 Mass Water Balance -- 3.3.3 Effect of Number of Reservoirs -- 3.3.4 Comparison Between the GD Solution and the Richards Equation -- 3.3.5 Water Content Profiles for Variable Rainfall Intensity -- 3.4 Conclusions and Perspectives -- References -- 4 Flood Mapping and Assessment During Typhoon Ulysses (Vamco) in Cagayan, Philippines Using Synthetic Aperture Radar Images -- 4.1 Introduction. , 4.2 Study Area and Methodology -- 4.2.1 Description of Study Area -- 4.2.2 Satellite Data -- 4.2.3 Flooded Area Determination -- 4.2.4 Standing Crops Analysis -- 4.3 Results and Discussion -- 4.3.1 Quantification of Flooded Area -- 4.3.2 Affected Rice Area Analysis -- 4.4 Conclusions -- References -- 5 Trends in Annual Maximum Flood Data in New South Wales Australia -- 5.1 Introduction -- 5.2 Methods -- 5.2.1 Selection of AMF Data for Trend Analysis -- 5.2.2 Trend Analysis -- 5.3 Results and Discussion -- 5.4 Conclusions -- References -- 6 The Impact of Flash Floods on the Extreme Functioning of Undeveloped Basins: Case of the Srou Catchment (March 2010 Flood) (Oum Er-Rbia Basin, Morocco) -- 6.1 Introduction -- 6.2 Presentation Du Domaine D'etude -- 6.3 Climatic and Hydrological Framework -- 6.3.1 Development of Rainfall Characteristics -- 6.3.2 Monthly Flow Coefficient of Wadi Srou (1975-2016) -- 6.4 Material and Methodology -- 6.4.1 Extraction of Floods from Instantaneous References -- 6.5 Results and Discussion -- 6.5.1 Extraction of Floods Form Instantaneous References of the Srou Catchment (1975-2015) -- 6.5.2 Instantaneous Flood Recorded in 2010 -- 6.5.3 2010 Spring Flood Analysis -- 6.5.4 Flood Survey 2010 in Chacha Namalleh and Aval Lahri Station in m3/s -- 6.6 Conclusions -- References -- 7 Analysis of Non-stationary Return Levels Using Extreme Daily Rainfall for Surat City, India -- 7.1 Introduction -- 7.2 Methods -- 7.2.1 Study Area and Data Collection -- 7.2.2 Methodology -- 7.3 Result and Discussion -- 7.3.1 Trend Analysis -- 7.3.2 Detection of Non-stationarity in the Time Series -- 7.3.3 The Selection of Best Non-stationary Model -- 7.3.4 Model Diagnosis of the Selected GEV Models -- 7.4 Stationary and Non-stationary Return Levels -- 7.5 Conclusions -- References -- Part III Droughts. , 8 Analysis of Hydrological Drought in the Eastern Part of Slovakia Using Standardized Precipitation Index -- 8.1 Introduction -- 8.2 Material and Methods -- 8.3 Results and Discussion -- 8.4 Conclusions -- References -- 9 Low Flow in the Oued El Abid Basin (Morocco): Better Understand It to Better Manage It (Oum Errbia Basin-Morocco) -- 9.1 Introduction -- 9.2 Methods -- 9.3 Results and Discussion -- 9.3.1 The Appearance of Low Water Levels in the Oued El Abid Basin -- 9.3.2 Analysis of the Variability of CNds in the Watershed of Oued El Abid Upstream of the Bin El Ouidane Dam -- 9.3.3 Frequency Analysis of CNds in the Oued El Abid Watershed -- 9.3.4 Usefulness of VCNds for Managers -- 9.4 Conclusion -- Bibliography -- Part IV Groundwater -- 10 Development of Long Short-Term Memory Model for Prediction of Water Table Depth in United Arab Emirates -- 10.1 Introduction -- 10.2 Materials and Methodology -- 10.3 Results and Discussion -- 10.4 Conclusion -- References -- 11 Assessment and Management of Seawater Intrusion in Gaza Aquifer Due to Over Pumping and Sea Level Rise -- 11.1 Introduction -- 11.2 Materials and Methods -- 11.2.1 Study Area and Boundary Conditions -- 11.2.2 Numerical Model -- 11.3 Results -- 11.3.1 Current Situation of SWI in Gaza Aquifer -- 11.3.2 Numerical Model Verification -- 11.3.3 Seawater Intrusion in Wadi Gaza in Response to Over Pumping and Sea Level Rise -- 11.3.4 Management of SWI in Wadi Gaza -- 11.4 Discussions -- 11.5 Conclusions -- References -- 12 Analysis of a Joint Impact of Climate Change and Anthropogenic Interventions on Groundwater Depletion in Arid and Semi-Arid Areas -- 12.1 Introduction -- 12.1.1 Aim -- 12.2 Aim -- 12.2.1 Methods -- 12.2.2 Data Collection and Analysis -- 12.3 Results and Discussion -- 12.3.1 Characteristics of Climate Parameters -- 12.3.2 Climate Condition. , 12.3.3 Results Related to Groundwater -- 12.3.4 Regulatory Framework -- 12.4 Conclusions -- References -- 13 Modeling and Prediction of Groundwater Level Fluctuations Using Geoinformatics and Artificial Neural Networks in Al Ain City, UAE -- 13.1 Introduction -- 13.2 Methodology -- 13.2.1 Data Processing -- 13.2.2 Artificial Neural Networks -- 13.2.3 Mapping and Visualization -- 13.3 Results and Discussion -- 13.4 Conclusions -- References -- 14 Factors Influencing the Site Selection Criteria for Efficient Aquifer Storage and Recovery (ASR) System in Saline Regions -- 14.1 Introduction -- 14.2 Methods -- 14.3 Results and Discussion -- 14.3.1 Aquifer Hydraulic Conductivity and Hydraulic Gradient -- 14.3.2 Aquifer Thickness -- 14.3.3 Longitudinal and Transverse Dispersivity -- 14.3.4 Density Difference -- 14.4 Conclusions -- References -- 15 Estimation of Groundwater Resources According to Watershed and Groundwater Divide -- 15.1 Introduction -- 15.2 Methods -- 15.2.1 Selected MASCH -- 15.2.2 Fundamentals RENATA Code -- 15.3 Results and Discussion -- 15.3.1 RENATA Code Application -- 15.3.2 Recharge Distribution According to the Watershed and the Groundwater Divides -- 15.4 Conclusions -- References -- 16 CFD Analysis of a Microchannel Heat Exchanger Based 3-D Printed Solar Receiver -- 16.1 Introduction -- 16.2 Mathematical Modelling -- 16.3 Results and Discussion -- 16.4 Conclusions -- References -- 17 Mapping Groundwater Potential Zones in UAE Using GIS-Based Hydrogeological Modeling -- 17.1 Introduction -- 17.2 Hydrogeological Setting -- 17.3 Materials and Methods -- 17.4 Results and Discussion -- 17.5 Conclusion -- References -- 18 Trihalomethane Species Development in Drinking Water -- 18.1 Introduction -- 18.2 Methods -- 18.2.1 Sources of Water Samples -- 18.2.2 Experimental Procedure -- 18.2.3 Analytical Methods -- 18.3 Results and Discussion. , 18.4 Conclusions -- References -- 19 Climate Change Impact on Water Resources and Rainwater Harvesting Systems in the Semi-arid Regions of India -- 19.1 Introduction -- 19.2 Methods -- 19.3 Results and Discussion -- 19.3.1 Rainwater Harvesting -- 19.3.2 Rooftop and Storm Water Harvesting in Urban Area -- 19.3.3 Sustainable Environmental Technology to Harvest Rainwater in Rural Area -- 19.4 Conclusions -- References -- Part V Water Quality -- 20 Soil Erosion Prioritization of Yarmouk River Basin, Jordan Using Multiple Approaches in a GIS Environment -- 20.1 Introduction -- 20.2 Study Area -- 20.3 Data and Methods -- 20.3.1 Morphometric Analysis -- 20.3.2 Prioritization by Land Use/Land Cover (LULC) -- 20.4 Results and Discussion -- 20.4.1 Prioritization Based on Morphometric Analysis -- 20.4.2 Prioritization Based on Land Use/Land Cover (LULC) -- 20.5 Conclusions -- Appendix 1: Methodology Adopted for Computation of Morphometric Parameters -- Appendix 2: Morphometric Parameters of YRB -- Appendix 3: The Morphometric Parameters of Sub-watersheds in YRB -- References -- 21 Effects of Leachate from Osisioma Open Dumpsite in Aba, Abia State, Nigeria on Surrounding Borehole Water Quality -- 21.1 Introduction -- 21.1.1 Description of the Study Area -- 21.2 Methods -- 21.2.1 Sample and Sampling Techniques -- 21.2.2 Groundwater and Leachate Sample Collection and Analysis -- 21.2.3 Statistical Analysis -- 21.3 Results and Discussion -- 21.3.1 Physiochemical and Microbiological Parameters Concentration with Distance from the Dumpsite -- 21.3.2 Concentration Variation in Physiochemical Parameters of Sampled Boreholes and Leachate -- 21.3.3 Concentration Variation in Chemical (Heavy Metals) Variables in Sampled Boreholes and Leachate -- 21.3.4 Concentration Variation in Microbiological Variables in Sampled Boreholes and Leachate. , 21.3.5 Relationship Between Sampled Borehole Water and W.H.O. Water Quality Standard.

Note: Cover -- Half Title -- Title -- Copyright -- Dedication -- Contents -- Foreword -- Preface -- Editors -- Contributors -- Section I: Groundwater Resources and Assessment -- 1: Coastal Groundwater Development: Challenges and Opportunities -- 2: Gangetic Alluvial Plains: Uniqueness of the Aquifer System for Food Security and for Carbon Dioxide Sequestration -- 3: Assessment of Groundwater Resources in Brazil: Current Status of Knowledge -- Section II: Exploration -- 4: An Overview of Six Decades of Research and Evolution in Resistivity Exploration for Groundwater in Hard-Rock Terrain of India -- 5: Application of Electrical Resistivity Tomography in Delineation of Saltwater and Freshwater Transition Zone: A Case Study in West Coast of Maharashtra, India -- 6: GIS-Based Probabilistic Models as Spatial Prediction Tools for Mapping Regional Groundwater Potential -- 7: Hydraulic Fracturing from the Groundwater Perspective -- Section III: Flow Modeling -- 8: Significance of Dar Zarrouk Parameters in Groundwater Management and Aquifer Protection -- 9: Estimation of Stream Conductance -- 10: Conceptual Understanding and Computational Models of Groundwater Flow in the Indian Subcontinent -- 11: Simulation Optimization Models for Groundwater Management -- 12: A New Approach for Groundwater Modeling Based on Connections -- 13: Mathematical Modeling to Evolve Predevelopment Management Schemes: A Case Study in Boro River Valley, Okavango Delta, Botswana, Southern Africa -- 14: Tackling Heterogeneity in Groundwater Numerical Modeling: A Comparison of Linear and Inverse Geostatistical Approaches-Example of a Volcanic Aquifer in the East African Rift -- Section IV: Transport Modeling -- 15: Transform Techniques for Solute Transport in Ground Water. , 16: Precise Hydrogeological Facies Modeling for Vertical 2-D and 3-D Groundwater Flow, Mass Transport, and Heat Transport Simulation -- 17: Simulation of Flow and Transport in Fractured Rocks: An Approach for Practitioners -- 18: Modeling of Radionuclide Transport in Groundwater -- 19: Benchmarking Reactive Transport Codes for Subsurface Environmental Problems -- Section V: Pollution and Remediation -- 20: Toward Quantification of Ion Exchange in a Sandstone Aquifer -- 21: Evolution of Arsenic Contamination Process and Mobilization in Central Gangetic Plain Aquifer System and Its Remedial Measures -- 22: Fluoride in Groundwater: Mobilization, Trends, and Remediation -- 23: Compound Wells for Skimming Freshwater from Fresh Saline Aquifers -- 24: An Overview of Electrochemical Processes for Purification of Water Contaminated by Agricultural Activities -- 25: Fashionable Techniques for Assessment of Groundwater Potential, Pollution, Prevention, and Remedial Measures -- Section VI: Management of Water Resources and the Impact of Climate Change on Groundwater -- 26: Managing Groundwater Resources in a Complex Environment: Challenges and Opportunities -- 27: Water Availability and Food Security: Implication of People's Movement and Migration in Sub-Saharan Africa (SSA) -- 28: Utilization of Groundwater for Agriculture with Reference to Indian Scenario -- 29: Groundwater Resource Management Using GIS Tools -- 30: Application of Natural and Artificial Isotopes in Groundwater Recharge Estimation -- 31: Impact of Climate Change on Groundwater -- 32: Multimodeling Approach to Assess the Impact of Climate Change on Water Availability and Rice Productivity: A Case Study in Cauvery River Basin, Tamil Nadu, India -- Index.

Note: Intro -- Contents -- About the Editors -- 1 Applications of Geospatial and Information Technologies Toward Achieving Sustainable Development Goals -- 1.1 Introduction -- 1.2 Sustainable Development Goals -- 1.2.1 Targets -- 1.2.2 Sustainable Development Goals Index (SDGI) and Its Global Perspective -- 1.2.3 Impact of COVID-19 Pandemic on SDGs Implementation -- 1.3 Importance and Scope of Geospatial Technology on SDGs Implementation -- 1.4 Application of Geospatial Techniques Toward Achieving SDGs -- 1.5 Application of Information and Communication Technology Toward Achieving SDGs -- 1.5.1 Application of Big Data -- 1.5.2 Application of Artificial Intelligence -- 1.5.3 Application of Internet of Things -- 1.6 Integration of Geospatial Technology with ICT and Its Significance -- 1.7 Gaps or Challenges -- 1.7.1 Data-Related Challenges -- 1.7.2 Lack of Technology Infrastructure -- 1.7.3 Skilled/Trained Manpower -- 1.7.4 Lack of Awareness -- 1.7.5 Others -- 1.8 Conclusions -- References -- 2 Comparison of Maximum Likelihood, Neural Networks, and Random Forests Algorithms in Classifying Urban Landscape -- 2.1 Introduction -- 2.2 Study Area -- 2.3 Methodology -- 2.3.1 Preprocessing -- 2.3.2 Classification Algorithms -- 2.3.3 Image Classification -- 2.4 Results and Discussion -- 2.4.1 Comparison of Overall Accuracies -- 2.4.2 Comparison of Producer's and User's Accuracies -- 2.5 Conclusion -- References -- 3 Crowd-Assisted Flood Disaster Management -- 3.1 Introduction -- 3.2 Background of Crowdsourced Data (CSD) -- 3.3 Challenges and Opportunities in CSD -- 3.4 Applications of CSD -- 3.5 Quality and Performance of CSD -- 3.5.1 Credibility of Crowdsourced Data -- 3.5.2 Relevance of Crowdsourced Data -- 3.6 Case Study: Flood Disaster Management -- 3.6.1 CSD Location Availability. , 3.6.2 CSD Credibility Analysis: A Naïve Bayesian Network-Based Model for CSD Credibility Detection -- 3.7 Conclusion -- References -- 4 Geospatial Big Earth Data and Urban Data Analytics -- 4.1 Introduction -- 4.2 Big Earth Data and their Characteristics -- 4.3 Big Earth Data Sources -- 4.4 Existing Platforms for Big Earth Data Processing and Management -- 4.5 Big Earth Data Analytics -- 4.6 Big Earth Data and Urban Studies -- 4.7 Big Data Urban Analytics Toward Society 5.0 -- 4.8 Challenges and Way Forward -- References -- 5 A Comparative Analysis of Spatiotemporal Drought Events from Remote Sensing and Standardized Precipitation Indexes in Central America Dry Corridor -- 5.1 Introduction -- 5.2 Case Study -- 5.3 Methodology -- 5.3.1 Data Acquisition -- 5.3.2 Drought Calculation -- 5.3.3 Drought Vegetation Monitoring Indexes -- 5.3.4 Normalized Difference Vegetation Index NDVI -- 5.3.5 Vegetation Condition Index VCI -- 5.3.6 Climatological Drought Indexes -- 5.3.7 Spatiotemporal Monitoring -- 5.4 Results and Discussion -- 5.4.1 Climatological Drought Index -- 5.4.2 Drought Vegetation Monitoring Indexes -- 5.4.3 Spatiotemporal Approach -- 5.4.4 Drought Tracking -- 5.5 Conclusions -- 5.6 Recommendations -- References -- 6 RETRACTED CHAPTER: Application of GIS and Remote Sensing Tools in Assessment of Drought Using Satellite and Ground-Based Data -- 7 Determining the Yield of Rice Using the Leaf Area Index (LAI) in Iran -- 7.1 Rice Cultivation in Iran -- 7.2 Types of Rice Cultivation in Iran -- 7.2.1 The Method of Transplanting -- 7.2.2 Direct Seeding Method -- 7.3 Rice Yield Remote Estimation Indices -- 7.4 Leaf Area Index -- 7.5 Detection of Rice Crop by Remote Sensing Method -- 7.5.1 Unsupervised Classification -- 7.5.2 Supervised Classification -- 7.6 Determining Rice Yield -- 7.7 Results Evaluation of Rice Yield -- 7.8 Discussion and Conclusion. , References -- 8 Soil Erosion Modeling Using Remote Sensing and GIS -- 8.1 Introduction -- 8.2 Study Area -- 8.3 Methodology -- 8.3.1 Erosion Modeling Using RUSLE -- 8.3.2 Erosion Modeling Using MMF Model -- 8.3.3 Sediment Delivery Ratio (SDR) -- 8.3.4 Model Validation -- 8.4 Results and Discussion -- 8.4.1 Soil Loss by RUSLE Model -- 8.4.2 Soil Loss by MMF Model -- 8.5 Conclusions -- References -- 9 The Mapping of the Intensity of Degradation According to the Different Land Use in Arid Regions: The Case of the Bouhamed Watershed, Southern Tunisia -- 9.1 Introduction -- 9.2 Study Area Exposed to Desertification Problems -- 9.2.1 Arid Climate and Fragile Biophysical Context -- 9.2.2 Ancient and Changing Human Occupation -- 9.3 Methodological Approach to Mapping Land Degradation Based on Remote Sensing and GIS -- 9.3.1 Data and Tools -- 9.3.2 Soil Degradation Mapping Method -- 9.4 Study and Assessment of Degradation Intensity in the Bouhamed Watershed -- 9.4.1 Mapping of the Surface State by the Spectral Indices Approach -- 9.4.2 Mapping Human Occupation Patterns -- 9.4.3 Determination of the Intensity of Degradation -- 9.4.4 Assessment of the State of Desertification by Specification of the Sensitivity Level: Summary Map -- 9.5 Discussion -- 9.6 Conclusion -- 9.7 Recommendation -- References -- 10 Applicability of the Global Land Evaporation Amsterdam Model Data for Basin-Scale Spatiotemporal Drought Assessment -- 10.1 Introduction -- 10.2 Materials and Methods -- 10.2.1 Case Study -- 10.2.2 WEAP Model -- 10.2.3 GLEAM Data -- 10.2.4 The Wet-Environment Evapotranspiration and Precipitation Standardized Index (WEPSI) -- 10.2.5 Experimental Setup -- 10.3 Results and Discussion -- 10.3.1 WEPSI Calculation and Performance Evaluation -- 10.3.2 Eligibility of a Global ET Dataset for Local WEPSI Applications -- 10.4 Conclusions -- References. , 11 Remote Sensing-Based Estimation of Shallow Inland Lake Morphometry: A Case Study of Sambhar Salt Lake, Ramsar Site-464, India -- 11.1 Introduction and Background -- 11.1.1 Why Lake Morphometry? -- 11.2 Significant Literature Inferences About Importance of Lake Morphometry -- 11.3 Material and Methods -- 11.3.1 Study Area-General Description -- 11.3.2 Image Preprocessing -- 11.3.3 Extraction of Water Surface -- 11.3.4 Calculation of the Lake Morphometric Parameters -- 11.4 Results and Discussion -- 11.4.1 Lake Water Surface Area (A) or (a) -- 11.4.2 Maximum Length (Lmax) -- 11.4.3 Maximum Width (Bmax) and Mean Width (overlineB) -- 11.4.4 Lake Water Depth (Maximum Depth Dmax) and (Mean Depth overlineD) -- 11.4.5 Lake Volume (V) and Form Factor (Vd) -- 11.4.6 Dynamic Ratio (DR), Erosion-Transportation (ET) Areas, and Accumulation Areas (Ao) -- 11.5 Conclusion -- References -- 12 Remote Sensing and GIS in Spatial Monitoring of the Wetlands: A Case Study of Loktak Lake Catchment, India -- 12.1 Introduction -- 12.2 Wetlands Classifications and Distributions -- 12.2.1 Ramsar Classification -- 12.2.2 Wetlands Classifications in India -- 12.2.3 Distributions of Wetlands in India -- 12.3 Drivers for Change in Wetland Conditions -- 12.4 Land Use Land Cover Change (LULCC) Modeling Techniques -- 12.4.1 Vector-Based CA (VEC-GCA) -- 12.4.2 CA-Support Vector Machine (SVM) (CA-SVM) -- 12.4.3 CA-MCE -- 12.5 Case Study of Herbaceous Wetlands (Phumdis) and Wetlands in Loktak Lake Catchment, Manipur, India -- 12.6 Results -- 12.7 Discussions -- 12.8 Conclusion and Recommendation -- References -- 13 Delineation of Groundwater Potential Zones in a Tropical River Basin Using Geospatial Techniques and Analytical Hierarchy Process -- 13.1 Introduction -- 13.2 Study Area -- 13.3 Data and Methodology -- 13.4 Results and Discussion -- 13.4.1 Lithology. , 13.4.2 Geomorphological Features -- 13.4.3 Land Use/Land Cover (LU/LC) -- 13.4.4 Soil Texture -- 13.4.5 Lineament Density -- 13.4.6 Slope Angle -- 13.4.7 Drainage Density -- 13.4.8 Topographic Wetness Index (TWI) -- 13.4.9 Rainfall -- 13.4.10 Relative Importance of the Factors -- 13.4.11 Groundwater Potential Zones (GWPZs) -- 13.4.12 Discussions -- 13.5 Summary and Conclusions -- References -- 14 Management of Environmentally Stressed Areas in Watershed Using Multi-criteria Decision Tool in GIS: A Noble Technique to Conserve Soil for Agriculture -- 14.1 Introduction -- 14.1.1 Rain Splash Erosion -- 14.1.2 Sheet Erosion -- 14.1.3 Rill Erosion -- 14.1.4 Gully Erosion -- 14.1.5 Bank Erosion -- 14.2 Soil Erosion in India -- 14.3 Assessment of Soil Erosion -- 14.4 Watershed Prioritization and Design of SWC Measures -- 14.5 Application of GIS -- 14.6 Case Study -- 14.6.1 Module-I: Prioritization -- 14.6.2 Module-II: Development of CAT Plan for SWC Measures -- 14.7 Study Area and Data Used -- 14.8 Results and Discussion -- 14.8.1 Module-I: Prioritization of Sub-watersheds -- 14.8.2 Module-II CAT Plan for Soil Water Conservation Measures -- 14.9 Conclusions -- References -- 15 Geospatial Technology for Estimating the Physical Vulnerability of Building Structures to Natural Hazards -- 15.1 Introduction -- 15.2 The Study Area -- 15.3 Methodology -- 15.3.1 Identification and Grading of Relevant Hazards -- 15.3.2 Determination of Physical Vulnerability of Building Structures to Floods -- 15.3.3 Calculation of the Vulnerability Index (VI) -- 15.4 Risk Assessment for Physical Vulnerability of Building Structures to Floods -- 15.4.1 The Results of Hazard Assessment -- 15.4.2 Results of the Vulnerability Assessment -- 15.5 Conclusion -- 15.6 Future Directions -- References. , 16 Cooling Potential Simulation of Urban Green Space Using Remote Sensing and Web-Based GIS Integration in Panat Nikom Municipality, Thailand.

Note: Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Editors -- Contributors -- Chapter 1 Application of Plastics in Postharvest Management of Crops -- 1.1 Postharvest Management of Crops -- 1.2 Field Handling of Crops -- 1.3 Removal of Field Heat -- 1.4 Field Curing of Root, Tuber, and Bulb Crops -- 1.5 Grading and Sorting -- 1.6 Conveying -- 1.7 Packaging of Fresh and Processed Crops -- 1.7.1 Classification of Packaging Systems -- 1.7.2 Plastic Bags -- 1.7.3 Shrink Wrap -- 1.7.4 Rigid Plastic Packages -- 1.7.5 Biodegradable Films -- 1.7.6 Modified Atmospheric Packaging -- 1.8 Storage -- 1.9 Transportation of Crops -- 1.10 Drying of Crops -- 1.10.1 Open Sun Drying -- 1.10.2 Polyhouse Drying -- 1.10.3 Refractive Window Drying -- 1.11 Conclusion -- References -- Chapter 2 Potassium-Solubilizing Microorganisms for Sustainable Agriculture -- 2.1 Introduction -- 2.2 Potassium in Soil -- 2.2.1 Potassium Fixation in Soil -- 2.3 K-Solubilizing Microorganism -- 2.4 Mechanism of Potassium Solubilization -- 2.5 Potential Role of Potassic Biofertilizer -- 2.6 Effect of KSMs on Plant Growth and Yield -- 2.7 Future Prospects -- 2.8 Conclusion -- References -- Chapter 3 Weed Control for Conservation Agriculture in Climate Change Scenario -- 3.1 Introduction -- 3.2 Prospects of CA -- 3.3 Weed Management -- 3.3.1 Preventive Measures -- 3.3.2 Cultural Practices -- 3.3.3 Crop Residues -- 3.3.4 Intercropping -- 3.3.5 Crop Diversification -- 3.3.6 Chemical Weed Management -- 3.4 Limitations in Adoption of CA Systems -- 3.5 Climate Change and Weed Management -- 3.5.1 Challenges -- 3.6 Conclusion -- References -- Chapter 4 In-situ Soil Moisture Conservation with Organic Mulching under Mid Hills of Meghalaya, India -- 4.1 Introduction -- 4.2 Materials and Methods -- 4.3 Results and Discussion -- 4.3.1 Seed Emergence. , 4.3.2 Soil Moisture Depletion -- 4.3.3 Tensiometer Observations -- 4.3.4 Crop Yield Parameters -- 4.4 Conclusion -- Acknowledgment -- References -- Chapter 5 High-Altitude Protected Vegetable Cultivation - A Way for Sustainable Agriculture -- 5.1 Introduction -- 5.2 Climate and Farming -- 5.3 High Altitudes and Protected Cultivation -- 5.3.1 Problems -- 5.3.2 Objectives -- 5.3.3 Protected Structures -- 5.4 Points to Be Considered for Cool Climate -- 5.5 Greenhouse Designing -- 5.5.1 Types of Plastic Coverings -- 5.6 Environmental Considerations in Greenhouse Cultivation -- 5.6.1 Temperature -- 5.6.2 Light -- 5.6.3 Relative Humidity -- 5.6.4 Carbon Dioxide -- 5.7 Planning of Protected Structures -- 5.7.1 Site Selection and Preparation -- 5.7.2 Orientation -- 5.7.3 Roads -- 5.7.4 Access to Utilities - Water -- 5.7.5 Light -- 5.7.6 Wind -- 5.8 Climate Regulation, Equipment, and Management -- 5.8.1 Temperature -- 5.8.2 Drainage of Rain Water -- 5.8.3 Lighting -- 5.8.4 Water and Nutrients -- 5.8.5 Pollination -- 5.9 Instruments Required for Polyhouse -- 5.9.1 Covering Material -- 5.9.2 Design of Load -- 5.9.3 Potential Crops -- 5.9.4 Limitations in Protected Cultivation -- 5.10 Conclusions -- References -- Chapter 6 Applications of Remote Sensing in Crop Production and Soil Conservation -- 6.1 Introduction -- 6.2 Applications of Remote Sensing and GIS Technology in Crop Production and Soil Conservation -- 6.2.1 Cropping System Analysis -- 6.2.2 Agro-Ecological Zone-Based Land Use Planning -- 6.3 Soil Erosion Inventory -- 6.4 Soil Carbon Dynamics and Land Productivity Assessment -- References -- Chapter 7 Flash Floods Cause and Remedial Measures for Their Control in Hilly Regions -- 7.1 Introduction -- 7.2 Causes of Flood -- 7.3 Flood Problems in India -- 7.3.1 Brahmaputra River Basin -- 7.3.2 Ganga River Basin -- 7.3.3 North-West River Basins. , 7.3.4 Central India and Deccan Rivers Basin -- 7.4 Flash Flood -- 7.4.1 Climate Change and Extreme Rain Events -- 7.4.2 Cloudbursts -- 7.4.3 Glacial Lakes -- 7.4.4 Landslide Lake Outburst Floods -- 7.5 Flood Management and Control in India -- 7.5.1 Non-Structural Measures -- 7.5.1.1 Flood Forecasting -- 7.5.1.2 Flood Plain Zoning -- 7.5.1.3 Decision Support System for Real-Time Flood Warning and Management -- 7.6 Who is Responsible? -- 7.7 Future Needs in Flood Management -- 7.7.1 Focused Approach -- 7.7.2 Legislation for Flood Plain Zoning -- 7.7.3 Inadequacy of Flood Cushion in Reservoirs -- 7.7.4 Flood Insurance -- 7.7.5 Flood Data Center -- 7.7.6 Research and Development -- 7.7.7 Community Participation -- 7.7.8 International Cooperation -- 7.7.9 Modernization of Flood Forecasting Services -- 7.8 Containing the Damage in the Hilly Basins -- 7.9 Conclusion -- References -- Chapter 8 Role of Crop Modeling in Mitigating Effects of Climate Change on Crop Production -- 8.1 Introduction -- 8.2 Types of Models -- 8.3 Climate Change and Crop Modeling -- 8.3.1 Climate Change -- 8.3.1.1 The Causes of Climate Change -- 8.3.1.2 Greenhouse Effect -- 8.3.2 Effects of Climate Change -- 8.4 Role of Crop Modeling in Agriculture on Climate Change -- 8.4.1 Applications and Uses of Crop Growth Models in Agriculture -- 8.4.1.1 On-Farm Decision-Making and Agronomic Management -- 8.4.2 Strategies to Mitigate the Impacts of Climate Change -- 8.4.3 Future Issues Related to Weather on Crop Modeling -- 8.4.4 Minimum Dataset Required for Crop Weather Relations and Crop Simulation Models-Rice -- 8.5 Conclusion -- References -- Chapter 9 Forestry and Climate Change -- 9.1 Introduction -- 9.2 Role of Forests -- 9.2.1 Productive Functions of the Forests -- 9.2.2 Protective and Ameliorative Functions of the Forests -- 9.2.3 Recreation and Educational Functions of the Forests. , 9.2.4 Forests' Developmental Functions -- 9.3 Weather and Climate? -- 9.3.1 Climate Change -- 9.3.2 Evidences of Climate Change -- 9.4 Effects of Climate Change -- 9.5 Climate Change in Jammu and Kashmir -- 9.6 Climate Change and Forests -- 9.6.1 The Effects of Climate Change on Plant Phenology -- 9.6.2 Impacts on Indian Forest Vegetation Types -- 9.7 Management Options -- 9.8 Agroforestry as an Alternate Land Use System -- 9.9 Carbon Sequestration Potential of Agroforestry -- 9.9.1 Case Studies -- 9.10 Conclusion -- References -- Chapter 10 Agroforestry Role in Sustainable Management of Degraded Watersheds -- 10.1 Introduction -- 10.2 Rehabilitation of Degraded Watersheds -- 10.2.1 Catchment Area -- 10.2.1.1 Upper Catchment -- 10.2.1.2 Second Tier/Intermediate Slopes -- 10.2.2 Command Area -- 10.2.3 Submergence Area -- References -- Chapter 11 Infiltration Studies of Major Soils under Selected Land Use Practices in Ranikhola Watershed of Sikkim, India -- 11.1 Introduction -- 11.2 Materials and Methods -- 11.2.1 Study Area: Ranikhola Watershed -- 11.2.2 Study Area: Soil Types of Ranikhola Watershed -- 11.3 Methodology -- 11.3.1 Delineation of Watershed -- 11.3.2 Measurement of Infiltration -- 11.3.3 Infiltration Models -- 11.3.3.1 Horton's Infiltration Model -- 11.3.3.2 Philip's Infiltration Model -- 11.3.3.3 Kostiokov Infiltration Model -- 11.3.3.4 Green-Ampt Infiltration Model -- 11.4 Results and Discussion -- 11.4.1 Comparison of Observed and Calculated Infiltration Rates or Accumulated Infiltration -- 11.5 Conclusion -- References -- Chapter 12 Toward Conservation Agriculture for Improving Soil Biodiversity -- 12.1 Introduction -- 12.2 How Conservation Tillage and Residue Management Can Help in Improving Soil Properties and Ultimately Soil Quality -- 12.3 Impact of Conservation Tillage (CT) on Soil Biological Properties. , 12.4 The Economic Value of Soil Biodiversity -- 12.4.1 The Importance of Soil Biodiversity -- 12.4.2 Microorganisms -- 12.4.3 Mesofauna -- 12.4.4 Macrofauna -- 12.4.5 Conservation Agriculture and Soil Biodiversity -- 12.5 Soil Biodiversity under Conventional and No Tillage Systems -- 12.6 Conclusion -- References -- Chapter 13 Point-Injection Nitrogen Application under Rice Residue Wheat for Resource Conservation -- 13.1 Introduction -- 13.2 Methodology -- 13.2.1 Field Experimental Design -- 13.2.2 Statistical Analysis -- 13.3 Results -- 13.3.1 Effect of Methods of Nitrogen Application on Mulch Decomposition -- 13.3.1.1 Reduction in Straw Mulch Concentration -- 13.3.2 Rate of Decay of Standing Stubble -- 13.3.3 Effect of Methods of Nitrogen Application on Nitrogen Uptake -- 13.3.3.1 Plant N Concentration -- 13.3.4 Total Plant N Uptake -- 13.3.5 Nitrogen Accumulation in Straw Mulch -- 13.3.6 Grain Yield and Nitrogen Use Efficiency (NUE) -- 13.4 Conclusion -- References -- Chapter 14 The Importance of Water in Relation to Plant Growth -- 14.1 Introduction -- 14.2 Role of Water in Plant Growth -- 14.3 Effect of Moisture Stress on Crop Growth -- 14.4 Management of Water Stress -- 14.5 Soil Moisture Availability and Unavailability -- 14.6 Water Budgeting -- 14.7 Rooting Characteristics -- 14.8 Moisture Extraction Pattern -- 14.8.1 Neutron Scattering Method -- 14.8.2 Advantages of Neutron Scattering Method -- 14.8.3 Limitations of Neutron Scattering Method -- 14.9 Conclusion -- References -- Chapter 15 Influence of Deficit Irrigation on Various Phenological Stages of Temperate Fruits -- 15.1 Introduction -- 15.1.1 Drought -- 15.1.2 The Concept of Deficit Irrigation -- 15.1.3 Regulated Deficit Irrigation -- 15.1.4 Partial Root-Zone Drying -- 15.1.5 Water Stress - Why and How? -- 15.1.6 Effects of Water Stress on Plants. , 15.1.6.1 Photosynthesis and Respiration.

Note: Intro -- Preface -- Contents -- List of Figures -- List of Tables -- 1 River Basins of India and Water Resources -- 1.1 River Systems -- 1.1.1 Himalayan Rivers -- 1.1.2 Coastal Rivers -- 1.1.3 Deccan Rivers -- 1.1.4 Inland Drainage Basins -- 1.2 Classification of Indian River Basin Based on Drainage Area -- 1.3 Water Resources of India -- 1.3.1 Surface Water Resources -- 1.3.2 Ground Water Resources -- References -- 2 Salient Features of the Yamuna River Basin -- 2.1 Tributaries of the Yamuna River -- 2.2 Yamuna River Catchment Area -- 2.3 Water Allocation -- 2.4 Uses of Yamuna River Water -- 2.4.1 Abstractive Uses -- 2.4.1.1 Domestic Water Supplies -- 2.4.1.2 Irrigation -- 2.4.1.3 Western Yamuna Canal (WJC) -- 2.4.1.4 Eastern Yamuna Canal (EJC) -- 2.4.1.5 Agra Canal -- 2.4.1.6 Gurgaon Canal -- 2.4.2 In-Stream Uses -- 2.4.2.1 Hydropower -- 2.4.2.2 Fisheries -- 2.4.2.3 Growing Aquatic Plants -- 2.4.2.4 Navigation -- 2.4.2.5 River Bathing and Washing -- 2.4.2.6 Recreational Uses -- 2.4.2.7 Cattle Bathing and Washing -- 3 Climate of the Basin -- 3.1 Rainfall -- 3.1.1 Average Rainfall -- 3.1.2 Probability Analysis of Annual Rainfall -- 3.1.3 Quantile Estimates of Daily Maximum and Annual Rainfall -- 3.1.4 Onset of Effective Monsoon and Number of Rainydays -- 3.2 Temperature -- 3.3 Wind -- 3.4 Humidity -- 3.5 Evapotranspiration -- 3.6 Aridity Index and Climate Classification -- 3.7 Concluding Remarks -- References -- 4 Pattern Changes in Climatic Variables -- 4.1 Statistical Test for Climatological Data -- 4.1.1 Persistence -- 4.1.2 Trend -- 4.1.2.1 Mann-Kendall Test -- 4.1.2.2 Modified Mann-Kendall Test -- 4.1.2.3 Mann-Kendall Test with Pre-whitening -- 4.1.3 Periodicity -- 4.1.3.1 Statistical Significance Test -- 4.2 Application -- 4.2.1 Data Processing -- 4.3 Results and Discussions -- 4.3.1 Persistence -- 4.3.2 Trend Analysis -- 4.3.3 Periodicity. , 4.4 Concluding Remarks -- References -- 5 Geomorphology and Geology -- 5.1 Topographic Characteristics -- 5.2 Major Tributaries -- 5.3 Geomorphologic Characteristics -- 5.3.1 Geomorphologic Parameters -- 5.3.1.1 Basin Order and Channel Order -- 5.3.1.2 Basin Area -- 5.3.1.3 Basin Shape -- 5.3.1.4 Basin Slope -- 5.3.1.5 Drainage Basin Similarity -- 5.3.1.6 Drainage Density -- 5.3.2 Determination of Hortons Ratio -- 5.3.2.1 Bifurcation Ratio Rb -- 5.3.2.2 Stream-Length Ratio R1 -- 5.3.2.3 Stream-Area Ratio Ra -- 5.4 Geology of the Basin -- 5.5 Lithology and Hydrogeology of the Basin -- 5.5.1 Himalayan Region -- 5.5.2 National Capital Region (NCR) Region -- 5.5.3 Ken and Betwa Catchment -- 5.5.4 Chambal Catchment -- References -- 6 Soil, Landuse and Agriculture -- 6.1 Soil Classification -- 6.2 Landuse -- 6.2.1 Forests and Protected Areas -- 6.2.2 National Parks and Sanctuaries -- 6.2.3 Biodiversity -- 6.2.3.1 Haryana -- 6.2.3.2 Rajasthan -- 6.2.3.3 Uttar Pradesh and Uttarakhand -- 6.3 Agriculture in the Basin -- 6.3.1 Agro-climatic Zones -- 6.3.2 Crop Seasons -- 6.3.2.1 Cropping Pattern -- 6.3.2.2 State-Wise Agro-ecosystem -- 6.3.2.3 Cropping Intensity -- 6.4 Irrigation -- 6.5 State-Wise Agriculture -- 6.5.1 Uttar Pradesh -- 6.5.2 Madhya Pradesh -- 6.5.3 Rajasthan -- 6.5.4 Delhi -- 6.5.5 Haryana -- 6.6 Fertilizer and Pesticides Application -- 6.7 Practice of IPM and IPNM -- References -- 7 Socio-economic Status -- 7.1 Demography -- 7.1.1 Urban and Rural Population -- 7.1.2 Population Density -- 7.1.3 Population Growth Rate -- 7.1.4 The Rate of Urbanization -- 7.1.5 Migrants -- 7.2 Sex Ratio -- 7.3 Literacy -- 7.4 Main and Marginal Workers -- 7.4.1 Cultivator and Agricultural Labourer -- 7.5 Health: Vital Statistics -- 7.6 Population Below Poverty Line (BPL) -- 7.7 Human Development Index -- 7.8 Livelihood and Employment -- 7.9 Livestock Population. , 7.10 Water Supply -- 7.10.1 Water Auditing -- 7.10.1.1 Transmission Losses -- 7.10.1.2 Water Conservation -- References -- 8 Water Resources and Water Budgeting -- 8.1 Water Resources Assessment -- 8.1.1 Surface Water Resources -- 8.1.1.1 Surface Water Storage -- 8.1.2 Groundwater Resources -- 8.1.3 Soil Moisture Storage -- 8.2 Water Demand Estimation -- 8.2.1 Agricultural Water Demand -- 8.2.2 Surplus and Deficit Analysis -- 8.3 Flood Hydrograph Estimation for the Catchments -- 8.3.1 Regional Synthetic Unit Hydrograph Technique -- 8.3.2 Geomorphology Based Synthetic Unit Hydrograph Technique -- 8.3.2.1 Derivation of Geomorphologic Unit Hydrograph (GUH) -- 8.3.2.2 The Nash Model -- 8.3.2.3 Geomorphology Based Parameter Estimation of Nashs GIUH -- 8.3.2.4 Application of the GIUH Methodology -- References -- 9 Water Pollution -- 9.1 Sources of Pollution -- 9.1.1 Point Sources of Pollution -- 9.1.1.1 Domestic Pollution -- 9.1.1.2 Industrial Pollution -- 9.1.2 Non Point or Diffused Sources of Pollution -- 9.1.2.1 Agricultural Pollution -- 9.1.3 Dumping of Garbage and Dead Bodies -- 9.1.4 Immersion of Idols -- 9.1.5 Pollution Due to In-Stream Use of Water -- 9.2 Water Quality Issues in Yamuna River -- 9.2.1 High Organic Contents -- 9.2.2 High Nutrients -- 9.2.3 Excessive Presence of Pathogens -- 9.2.4 Accumulation of Pollutants in the Catchment Area -- 9.2.5 Aesthetic Value -- 9.2.6 Deforestation in the Catchment Area -- 9.2.7 Reduction in the Quantity of Water -- 9.2.8 Discharges from Sewage Treatment Plants -- 9.2.9 Role of Barrages -- 9.3 River Segmentation -- 9.4 Water Quality Monitoring -- 9.5 Physico-Chemical Characteristics of Water Quality Parameters -- 9.6 Water Quality Standards -- References -- 10 Wastewater Generation and Treatment -- 10.1 Urbanization in the Yamuna Basin -- 10.2 Water Supply and Wastewater Generation. , 10.3 Trends in Sewage Generation and Treatment -- 10.4 Inventory of Water Treatment and Sewage Treatment Plants -- 10.5 Industrial Wastewater Generation, Treatment and Disposal -- 10.6 Pollution Load Generation from Industrial Sources -- 10.7 Wastewater Discharged into the Yamuna -- 10.7.1 Wastewater Discharged from Delhi -- 10.7.1.1 Pollution Load Generation from Domestic Sources in Delhi -- 10.7.1.2 Pollution Load Generation from Industrial Sources -- 10.7.1.3 Pollution Loads Contributed to Yamuna and Agra Canal Through Drains -- 10.8 Concluding Remarks -- References -- 11 Water Quality Index and Status -- 11.1 Water Quality Index -- 11.1.1 National Sanitation Foundations WQI (NSF-WQI) -- 11.1.1.1 Rating Curve for Fecal Coliform -- 11.1.1.2 Rating Curve for Total Solids -- 11.1.1.3 Rating Curve for Dissolved Oxygen -- 11.1.1.4 Rating Curve for Turbidity -- 11.1.1.5 Rating Curve for pH -- 11.1.1.6 Rating Curve for BOD -- 11.1.1.7 Rating Curve for Nitrate -- 11.1.1.8 Rating Curve for Phosphate -- 11.1.1.9 Rating Curve for Temperature Change -- 11.1.2 Multiplicative NSF-WQI -- 11.1.3 CCME WQI -- 11.1.3.1 Data Requirement -- 11.1.3.2 Calculation of Index -- 11.1.4 WQI -- 11.1.4.1 Formulation of WQI -- 11.1.4.2 Water Quality Rating Curve -- 11.1.4.3 Rating Curve for Radionuclides -- 11.1.4.4 Rating Curve for Heavy Metals -- 11.1.4.5 Rating Curve for EC -- 11.1.4.6 Rating Curve for SO4 -- 11.1.4.7 Rating Curve for Suspended Solids (SS) -- 11.1.4.8 Water Quality Classification -- 11.1.5 Universal WQI Based on European Classification Scheme (UWQI) -- 11.1.5.1 Aggregation Function of UWQI -- 11.1.6 Concluding Remarks on Water Quality Index -- 11.2 Water Quality Status Based on the Data -- 11.2.1 Water Quality Trends in the Yamuna -- 11.2.2 Water Quality Profile of the Yamuna -- 11.2.2.1 Bio-mapping of the Yamuna River. , 11.2.3 Monthly Variation in Water Quality Parameters -- 11.3 Concluding Remarks -- References -- 12 Environmental Flows -- 12.1 Definition -- 12.2 Methods for Assessment of Environmental Flows -- 12.3 The Tennant Method -- 12.3.1 The Modified Tennant Method -- 12.3.2 Application of Modified Tennant Method -- 12.4 EMC Based Environmental Flow Calculator -- 12.4.1 Establishing Environmental Flow Duration Curve -- 12.4.2 Simulating Continuous Monthly Time Series of Environmental Flows -- 12.4.3 Application of the Methodology -- 12.4.3.1 Paonta Saheb (Origin to Hathinikund reach) -- 12.4.3.2 Kalanaur Site (Hathinikund Barrage to Wazirabad Barrage Reach) -- 12.4.3.3 Delhi Railway Bridge, DRB (Wazirabad to Okhla Reach) -- 12.4.3.4 Agra site (Okhla to Agra Reach) -- 12.4.3.5 Pratappur Site (Agra to Allahabad Reach) -- 12.5 Development of Component Based Environmental Flow Estimator -- 12.5.1 Water Requirement for Assimilation of Polluted River Water -- 12.5.2 Water Required for Evaporation -- 12.5.2.1 Estimation of Evaporation -- 12.5.3 Water Required for Groundwater Conservation -- 12.5.3.1 Estimation of Wetted Perimeter -- 12.5.4 Water Required for Aquatic-Habitat Conservation -- 12.5.5 Application of Methodology -- 12.5.5.1 Data Preparation and Analysis -- 12.6 Comparison of the Approaches -- 12.7 Concluding Remarks -- References -- 13 Cropping Plan for Water Resources Management -- 13.1 Landuse and Agriculture -- 13.2 Parameters of Cropping Pattern -- 13.2.1 Estimation of Crop Water Requirement -- 13.2.2 Suitability of Crops Based on Physical Environment -- 13.2.2.1 Cropping Systems -- 13.3 Identification of Suitable Crop Rotation -- 13.4 Identification of Suitable Cropping Patterns -- 13.5 Water Conservation Under Different Cropping Patterns -- 13.6 Impact of Change in Cropping Patterns on Water Allocation -- 13.7 Concluding Remarks -- References. , Appendix A Salient Feature of Dams in the Yamuna Basin.