Anmerkung: 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.

Anmerkung: 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.

Anmerkung: Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Preface -- List of Abbreviations -- Authors -- Chapter 1 Introduction -- 1.1 Why Statistical Downscaling? -- 1.2 Climate Models -- 1.3 Statistical Downscaling -- 1.4 Selection of Model Scheme -- 1.5 Structure of Chapters -- 1.6 Summary and Conclusion -- Chapter 2 Statistical Background -- 2.1 Probability and Statistics -- 2.1.1 Probabilistic Theory -- 2.1.1.1 Probability Density Function and Cumulative Distribution Function -- 2.1.1.2 Descriptors of Random Variables -- 2.1.2 Discrete Probability Distributions -- 2.1.2.1 Bernoulli Distribution -- 2.1.2.2 Binomial Distribution -- 2.1.3 Continuous Probability Distributions -- 2.1.3.1 Normal Distribution and Lognormal Distributions -- 2.1.3.2 Exponential and Gamma Distributions -- 2.1.3.3 Generalized Extreme Value and Gumbel Distribution -- 2.1.4 Parameter Estimation for Probability Distributions -- 2.1.4.1 Method of Moments -- 2.1.4.2 Maximum Likelihood Estimation -- 2.1.5 Histogram and Empirical Distribution -- 2.2 Multivariate Random Variables -- 2.2.1 Multivariate Normal Distribution and Its Conditional Distribution -- 2.2.2 Covariance and Correlation -- 2.3 Random Simulation -- 2.3.1 Monte Carlo Simulation and Uniform Random Number -- 2.3.2 Simulation of Probability Distributions -- 2.4 Metaheuristic Algorithm -- 2.4.1 Harmony Search -- 2.5 Summary and Conclusion -- Chapter 3 Data and Format Description -- 3.1 GCM Data -- 3.2 Reanalysis Data -- 3.3 RCM Data -- 3.4 Summary and Conclusion -- Chapter 4 Bias Correction -- 4.1 Why Bias Correction? -- 4.2 Occurrence Adjustment for Precipitation Data -- 4.3 Empirical Adjustment (Delta Method) -- 4.4 Quantile Mapping -- 4.4.1 General Quantile Mapping -- 4.4.2 Nonparametric Quantile Mapping -- 4.4.3 Quantile Delta Mapping -- 4.5 Summary and Comparison. , Chapter 5 Regression Downscalings -- 5.1 Linear Regression Based Downscaling -- 5.1.1 Simple Linear Regression -- 5.1.1.1 Significance Test -- 5.1.2 Multiple Linear Regression -- 5.2 Predictor Selection -- 5.2.1 Stepwise Regression -- 5.2.2 Least Absolute Shrinkage and Selection Operator -- 5.3 Nonlinear Regression Modeling -- 5.3.1 Artificial Neural Network -- 5.4 Summary and Conclusion -- Chapter 6 Weather Generator Downscaling -- 6.1 Mathematical Background -- 6.1.1 Autoregressive Models -- 6.1.2 Multivariate Autoregressive Model -- 6.1.3 Markov Chain -- 6.2 Weather Generator -- 6.2.1 Model Fitting -- 6.2.1.1 Precipitation -- 6.2.1.2 Weather Variables (T[sub(max)], T[sub(min)], SR) -- 6.2.2 Simulation of Weather Variables -- 6.2.2.1 Precipitation -- 6.2.2.2 Weather Variables (T[sub(max)], T[sub(min)], SR) -- 6.2.3 Implementation of Downscaling -- 6.3 Nonparametric Weather Generator -- 6.3.1 Simulation under Current Climate -- 6.3.2 Simulation under Future Climate Scenarios -- 6.4 Summary and Conclusion -- Chapter 7 Weather-Type Downscaling -- 7.1 Classification of Weather Types -- 7.1.1 Empirical Weather Type -- 7.1.2 Objective Weather Type -- 7.2 Generation of Daily Rainfall Sequences -- 7.3 Future Climate with Weather-Type Downscaling -- 7.4 Summary and Conclusion -- Chapter 8 Temporal Downscaling -- 8.1 Background -- 8.1.1 K-Nearest Neighbor Resampling -- 8.2 Daily to Hourly Downscaling -- 8.3 Summary and Conclusion -- Chapter 9 Spatial Downscaling -- 9.1 Mathematical Background -- 9.1.1 Bilinear Interpolation -- 9.1.2 Nearest Neighbor Interpolation -- 9.2 Bias Correction and Spatial Downscaling -- 9.3 Bias Correction and Constructed Analogues -- 9.4 Bias Correction and Stochastic Analogue -- 9.5 Summary and Comparison -- References -- Index.

Anmerkung: Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Editors -- Contributors -- Chapter 1 Spatial Distribution of a Daily, Monthly and Annual Precipitation Concentration Index -- 1.1 Introduction -- 1.2 Methodology -- 1.2.1 CI -- 1.2.2 PCI -- 1.3 Results and Discussion -- 1.3.1 Results of Lake Urmia Basin PCI -- 1.3.2 A Study on CI of Precipitation Distribution in Lake Urmia -- 1.4 Conclusion -- References -- Chapter 2 Use of Mid-Infrared Diffuse Reflectance to Assess the Effects of Soil Management on Soil Quality in Tropical Hill Slope Agro Eco-Systems -- 2.1 Introduction -- 2.2 Materials and Methods -- 2.2.1 Study Site -- 2.3 Equipments and Procedures -- 2.3.1 HA Extraction and Fractionation Procedure -- 2.3.2 Sample Preparation and Analysis for DRIFT -- 2.3.3 Spectra Data Acquisition and Analysis -- 2.4 Results and Discussion -- 2.4.1 DRIFT Spectroscopy and Comparison of Peak Ratio (O/R Ratio) of HAs across Locations -- 2.4.1.1 Location 1 -- 2.4.1.2 Location 2 -- 2.4.1.3 Location 3 -- 2.4.1.4 Location 4 -- 2.5 Conclusions -- References -- Chapter 3 Climate Change and Production of Horticultural Crops -- 3.1 Introduction -- 3.2 Causes of Climate Change -- 3.2.1 Challenges Due to Climate Change in Horticulture Production -- 3.3 Mitigation Strategies for Enhancing Horticultural Production -- 3.4 Conclusion -- References -- Chapter 4 Climate Change on Disease Scenario in Crops and Management Strategies -- 4.1 Introduction -- 4.2 Effect of Increased CO[sub(2)] Concentrations on Pathogens -- 4.3 Effect of Increase in Temperature on Pathogens -- 4.4 Effect of Changed Moisture Regime on the Disease Scenario -- 4.5 Effect of Climate Change on Plant Diseases -- 4.6 Changing Disease Scenario in Fruits and Vegetables -- 4.7 Initiatives to Mitigate the Effect of Climate Change on Crops -- 4.8 Need for Adoption of Novel Approaches. , References -- Chapter 5 Solar Thermal Modeling of Microclimatic Parameters of Agricultural Greenhouse -- 5.1 Introduction to Modeling of Agricultural Greenhouse -- 5.1.1 The Purpose of Modeling of Greenhouse Environment -- 5.1.2 The Components of Greenhouse Can Be Considered as -- 5.2 Steps of Greenhouse Modeling -- 5.2.1 Thermal Modeling -- 5.2.2 Some Basic Assumptions -- 5.3 Understand the Distribution of Solar Energy inside the Greenhouse (Tiwari, 2002 -- Taki et al., 2018) -- 5.4 Examples of Application of Greenhouse Model -- 5.4.1 A Greenhouse Attached with Ground Air Collector for Heating in the Winter (Jain and Tiwari, 2002, 2003) -- 5.4.2 A Greenhouse with Evaporative Cooling Pad for Cooling in the Summer (Jain and Tiwari, 2003) -- 5.4.3 Greenhouse Attached with Tray-Type Crop Drying System (Jain, 2005) -- 5.5 An Aquaculture Greenhouse System (Jain, 2007) -- 5.6 Conclusion -- References -- Chapter 6 Development of Agriculture under Climate and Environmental Changes in the Brazilian Semiarid -- 6.1 Characterization of the Brazilian Northeast Semiarid Region -- 6.2 Agriculture in the Brazilian Northeastern in Front of Climate Change and Soil Usage -- 6.2.1 Diagnosis of Agriculture in the Region and its Adversities -- 6.2.2 Future Scenarios -- 6.3 Family Farming and the Use of Techniques and Practices for Agroecological Development -- 6.3.1 Applications of Agroecological Techniques - Case Study -- References -- Chapter 7 Role of PGPR in Sustainable Agriculture under Changing Scenario of Climate Change -- 7.1 Introduction -- 7.2 Historical Background of PGPR -- 7.3 Mechanisms of Action -- 7.4 Characteristics of a Successful PGPR for Formulation Development -- 7.5 PGPR Application Methods -- 7.6 Constraints to Commercialization -- 7.7 Future Thrust -- References -- Chapter 8 Status and Prospect of Precision Farming in India -- 8.1 Introduction. , 8.2 Definition of PF -- 8.3 Rationale of PF in India -- 8.4 Need of PA -- 8.5 Precision in Water Management -- 8.6 Status of PF Globally -- 8.6.1 Water Savings through PF -- 8.6.2 Yield and Profit through Adoption of PF Technologies -- 8.7 Status of PF in India -- 8.8 Micro Irrigation Studies -- 8.8.1 Fertigation Studies -- 8.8.2 Protected Cultivation Studies -- 8.8.3 Automation of Micro Irrigation -- 8.8.4 Surface Irrigation Automation -- 8.9 Evaluation of PF -- 8.10 Benefits of PF -- 8.11 Drawbacks of PF -- 8.12 Opportunities and Challenges -- 8.13 Future Thrust Area for Research - Technology Gaps and Research Needs -- 8.13.1 Micro Irrigation -- 8.14 Protected Cultivation -- 8.15 Surface Irrigation Processes for Automation -- 8.16 The Policy Approach to Promote PF at Farm Level -- 8.17 Conclusions -- 8.18 Policy for Promotion of PF in India -- 8.19 Future of PF -- Bibliography -- Chapter 9 Low-Cost On-Farm Indigenous and Innovative Technologies of Rainwater Harvesting -- 9.1 Introduction -- 9.2 Indigenous Technologies of SWC/Rainwater Harvesting -- 9.2.1 Earthen Field Bunds -- 9.2.2 Stone Bunds -- 9.2.3 Stone Wall Terraces (SWT) -- 9.2.4 Rough Stone Slab Bunds -- 9.2.5 Rough Stone Bunds -- 9.2.6 Vegetative Peripheral Bunds/Barriers -- 9.2.7 Smaller Cross-Sectional Earthen Bunds Covered with Flat Stones or Pieces of Stone Slabs -- 9.2.8 Temporary Sediment Detention Dams (TSDD) -- 9.2.9 Diversion Ditches -- 9.2.10 Stone Wall for Nallah Bank Protection -- 9.2.11 Dhora Pali -- 9.2.12 Kana Bandi (Mulching) -- 9.2.13 Village Pond/Talab -- 9.2.14 Talai - A Small Water Harvesting Structure -- 9.2.15 Dry Stone Masonry Pond -- 9.2.16 Ponds (Nada) -- 9.2.17 Nadi (Semi-Arid/Aravali Region) -- 9.2.18 Nadi (Arid Regions) -- 9.2.19 Tanka -- 9.2.20 Khadin -- 9.3 Innovative Technologies of Rainwater Harvesting -- 9.3.1 Rooftop Rainwater Harvesting. , 9.3.2 Subsoiling -- 9.3.3 Chauka System -- 9.3.4 Double Wall Cement Masonry Structure -- 9.3.5 Plastic-Lined Farm Pond -- 9.3.6 Subsurface Barriers -- References -- Chapter 10 Impact of Climate Change on Food Safety -- 10.1 Introduction -- 10.1.1 Effect on Food Crops and Animals -- 10.1.2 Effect on Fisheries -- 10.1.3 Effect on Food Handling, Processing, and Trading -- 10.1.3.1 Sources and Modes of Transmission -- 10.1.3.2 Climatic Influences (e.g., Temperature, Humidity) on the Prevalence of Some Diseases -- 10.1.3.3 Effect of Climate Change on Zoonotic Disease -- 10.1.3.4 Transmission of Bacteria -- 10.1.3.5 Transmission of Protozoas -- 10.1.3.6 Transmission of Parasites -- 10.1.3.7 Climate Change Effects on BVP -- 10.1.4 Climate Change and its Influence on Mould and Mycotoxin Contamination -- 10.1.5 Influence of Climate Change on Post-Harvest Conditions -- 10.1.5.1 Effect on Post-Harvest Quality of Fruits and Vegetables -- 10.1.5.2 Effect of Temperature on Fruits/Vegetables -- 10.1.5.3 Effect of High Ozone Formation -- 10.1.6 Impacts of HABs -- 10.1.6.1 HAB is Because of: -- 10.1.7 Environmental Contaminants and Chemical Residues in the Food Chain -- 10.1.8 Contamination of Waters -- 10.1.9 The Effect of Climate Change on the Cold-Chain -- 10.2 Addressing Food Safety Implications of Climate Change -- 10.3 Summary and Conclusions -- References -- Chapter 11 Microbial Assisted Soil Reclamation for Sustainable Agriculture in Climate Change -- 11.1 Introduction -- 11.2 Soil Respiration: An Indicator of Soil Health and Climate Change -- 11.3 Exploiting Microbial EPS for Estimating their Role in Plant Growth Management and Combating Plant Pathogens -- 11.4 Conclusion -- Acknowledgments -- References -- Chapter 12 Production of Temperate Fruits in Jammu & -- Kashmir under Climate Change Scenario -- 12.1 Introduction. , 12.2 Cultivation of Old Degenerated Varieties -- 12.3 Poor-Quality Planting Material -- 12.4 Low-Density Plantings -- 12.5 Lack of Pollinizers and Pollinators -- 12.6 Poor Canopy Management -- 12.7 Poor Orchard and Fertilizer Management -- 12.8 Rainfed Orcharding -- 12.9 Old and Senile Orchards -- 12.10 Insect-Pests and Diseases -- 12.11 Lack of Grading, Storage & -- Processing Facilities -- 12.12 Dependence on Unskilled Labor -- 12.13 Likely Impact of Climate Change -- 12.14 Strategies for Optimizing Temperate Fruit Production under Changing Climate Scenario -- References -- Chapter 13 Impact of Climate Change on Quality Seed Production of Important Temperate Vegetable Crops -- 13.1 Introduction -- 13.2 Principle of Greenhouse -- 13.2.1 Popularization of Off-Season Vegetable Production -- 13.2.2 Post-Harvest Management -- 13.2.3 Organic Farming -- 13.2.4 Micro-Irrigation -- 13.2.5 Biotechnology -- 13.3 Benefits of Greenhouse -- 13.3.1 Vegetable Forcing for Domestic Consumption and Export -- 13.3.2 Raising Off-Season Nurseries -- 13.3.3 Protective Structures for Seedling Production -- 13.3.4 Hot Beds -- 13.3.5 Cloches/Low Tunnels -- 13.3.6 Thatches -- 13.3.7 Seed Panes/Boxes -- 13.3.8 Polybag Nursery Raising -- 13.3.9 Polyhouse/Net House -- 13.3.10 Seedling Trays -- 13.4 Ingredients Used as a Media for Growing Transplants -- 13.4.1 Organic Products -- 13.4.2 Inorganic Products -- 13.5 Methods of Seedling Raising -- 13.5.1 Advantages of Seedlings Production in Tray -- 13.5.2 Vegetable Seed Production -- 13.5.3 Hybrid Seed Production -- 13.5.4 Maintenance and Multiplication of Self-Incompatible Line for Hybrid Seed Production -- 13.5.5 Polyhouse for Plant Propagation -- 13.5.6 Status -- 13.6 Types of Greenhouse/Polyhouse -- 13.6.1 Low-Cost Greenhouse/Polyhouse -- 13.6.2 Medium-Cost Greenhouse/Polyhouse -- 13.6.3 High-Cost Greenhouse/Polyhouse. , 13.7 Other Plant-Protection Structures.