Note: Intro -- Acknowledgements -- Contents -- Contributors -- Chapter 1: Activism! Toward a More Radical Science and Technology Education -- Navigating the Contemporary -- Building a Collection -- A Brief Overview of the Collection -- Framing a More Radical Approach to Science and Technology Education -- Science and Technology Education Should Be Critically Reworked in Relation to Contemporary Economic, Social, Ecological and Ma... -- Science and Technology Education Should Be Critically Reworked as Political Practice -- Science and Technology Education Should Be Critically Reworked to Support Learners as Subjects in Change and Not Objects of Ch... -- Science and Technology Education Should Be Critically Reworked as Moral and Ethical Praxis -- Partialities and Possibilities -- References -- Part I: Constituting Theories -- Preamble -- Chapter 2: The Elephant in the Room: Science Education, Neoliberalism and Resistance -- Opening -- Foucault´s Neoliberalism -- Occupy Wall Street: The Incessancy of Resistance -- Science Education, Neoliberalism and Activism/Resistance -- Not an Ending but a Beginning -- References -- Chapter 3: Science Education as a Site for Biopolitical Engagement and the Reworking of Subjectivities: Theoretical Considerat... -- A Context for Science Education -- Biopolitics and Biopower -- The ``Making of Subjects´´ -- Biopolitics and Subjectivities in Science Education -- Racisms, Colonialisms and the Power to Make Die -- Neoliberal Subjectivity -- Sex/Gender and Sexuality -- The ``Ethical Subject´´ in Science Education -- The Biosubject of Biotechnology -- Biopolitics as a Path Forward -- References -- Chapter 4: A Critical Pedagogy for STEM Education -- Introduction -- Global Capitalism -- STEM and Activism in Education -- STEM Education, Research and Practice -- A Critical Pedagogy for STEM Education -- Community and Revolution. , Theoretical Freestyle -- Analytical Freestyle in Science Education -- Closing Remarks -- References -- Chapter 5: Becoming Part of the Solution: Learning about Activism, Learning through Activism, Learning from Activism -- Making the Case for an Action-Oriented Science Curriculum -- Building a Curriculum: Learning About the Issues -- Building a Curriculum: Learning to Care -- Engaging Emotions, Managing Emotions -- Building a Curriculum: Learning to Act -- Learning about, through and from Action -- Apprenticeship in Activism -- Further Considerations -- References -- Chapter 6: From Promoting the Techno-sciences to Activism - A Variety of Objectives Involved in the Teaching of SSIs -- Variation in Educational Objectives -- The Implications of the Educational Choices on SSIs -- Institutional Activism in Agricultural Education in France -- Scientific, Humanistic and Political Education -- References -- Chapter 7: Hopeful Practices: Activating and Enacting the Pedagogical and Political Potential in Crisis -- Science, Technology, and Society Education (STSE) -- Understanding and Learning from Crisis -- Learning from and Through Crisis: Opportunities -- Conclusion -- References -- Chapter 8: Using Collaborative Inquiry to Better Understand Teaching and Learning -- Science Curricula as a Central Factor in the Reform of Science Education -- Chapter Overview -- Changing Faces of Research and Science Education -- Dealing with Difference in Research on Teaching and Learning -- Participants Doing Research to Understand and Improve Practice -- Listening to and Learning from Others´ Voices -- Learning to Teach from and with Others -- Searching for and Learning from Spikes in the Curve -- Authentic Inquiry as an Overarching Methodology -- Reflections on the Changing Faces of My Research Methodologies -- References. , Chapter 9: From Knowledge to Action? Re-embedding Science Learning Within the Planet´s Web -- Introduction -- Complex Problems and the Role of Science and Technology -- A Critical Role for Science Education -- The Outline of a Science for Sustainability -- Acquiring Consciousness of Limits -- Opening Up Towards Dialogue -- The Thinking of the `Others´ -- Enhancing Life Through Cultural Diversity -- Redefining Science Education? -- From Objective and Objectifying Knowledge to a Science of Relationships -- Dealing with Conflict -- Conclusions -- References -- Chapter 10: Education for Sustainable Contraction as Appropriate Response to Global Heating -- The Heating Is Happening -- Denial and Cognitive Dissonance in Response to Global Heating -- Denial and Cognitive Dissonance in the Field of Education for Sustainable Development -- Education for Sustainable Contraction (ESC): Nailing Nine Propositions to the Laboratory Door -- References -- Chapter 11: Learning to Let Go of Sustainability -- Introduction -- Sustainability as Restoring -- The Paradox of Sustainable Development -- To Hold onto, or to Let Go? -- Sustainability as Returning -- Romanticizing the Return? -- Resisting the Return -- Complicating the Return -- Learning to Let Go of Sustainability -- Letting Go of Sustainability -- Remembering Forward as a Different Way of Being in the World -- Coda: The Glass Jar -- References -- Part II: The Public Sphere -- Preamble -- Chapter 12: Street Medicine as a Science Education for Activists -- Know Your Street Medics -- States of Emergency: Where Only Street Medics Dare to Tread -- Street Medicine and the State of Exception -- Street Medicine Is Education -- The Street and the School -- References -- Chapter 13: Why Science Education Mediates the Way We Eat -- Introduction -- Neoliberalism in Science Education, In Brief. , A Pocket of Resistance-Local and Organic Food -- Organic Farmers´ Market Culture -- A Responsibly Nurtured Organic Place -- Local Knowledge -- Interdisciplinary Knowledge -- Change and Adaptability -- Embodied Change and Positionality -- Environmental Condition -- A Market Creates a Relationship with Food -- A Critique of Neoliberalism -- Implications for School Science -- References -- Chapter 14: From-Within-the-Event: A Post-constructivist Perspective on Activism, Ethics, and Science Education -- Environmental Activism at Work -- Transforming the Practices in One Municipality -- Science Education as/for Participation in the Community -- The Morality of Community-Based Activism: Is It Something to Feel Good About? -- From Activism to the Eventness of Events -- Activism -- From-Within-the-Event or the Eventness of Events -- Activism and Ethics -- Classically Understood -- From-Within-the-Event -- Conclusion -- References -- Chapter 15: #OccupyTech -- The Rise of Internetworked Social Movements -- Prefigurative Politics and Technology -- Hacking the Technical Code -- The Repertoire of Electronic Contention -- OccupyTech -- Disruptive Technologies: Building Tools for Revolution -- Communications -- From Technology to Technique: Prefiguring Change -- Conclusion -- References -- Chapter 16: Trajectories of Socioscientific Issues in News Media: Looking into the Future -- Introduction -- The ``Black Box´´ of News Media -- The Media and Presentations of Science -- Influence of Media -- Manipulations of the Media -- Commercial Interests of the Media -- The Competency and Practices of Journalists -- Prelude to a News Story -- The J-School Experience: Insights into Media Practices Reporting Science -- Modifiers and ``Verbs of Saying´´ -- Being the ``Instant Expert´´ -- The Reducibility of Complex Relationships -- Production of a News Story. , Demonstrating the Need for Science Journalist Experts in News Media -- Connections Between the SMCC Anecdote and the Radio Workshop -- Copy Story Modification -- Analysis of Copy Story Modifications -- The Media Making Sense of Science: A Case Study of Two Publications -- Conclusions and Implications About Science in the News Media -- Implications for Understanding Science from the News Media -- Looking at the Preparation of Journalists -- Implications of Using News Media in the Classroom for Studying Socioscientific Issues -- References -- Chapter 17: The Perils, Politics, and Promises of Activist Science -- Introduction -- The Perils of Activist Science -- Historical Lessons from Ecology -- A View from the Front Lines -- All Science Is Political, but Politics Are Complicated -- Activism and Power -- References -- Chapter 18: Passive No More -- Introduction -- Awakening Dissonance -- Activism for Inaction, a Complacency That Will Kill and Destroy -- Growing Up on an Overheated Planet -- The Neoliberal Activist Attack on Climate Science and the Environment -- Disclosing Power, the Courtiers to Climate Disaster -- Reinventing Participatory Democracy -- Developing a Skeptical Way of Reading the Media -- Whose Long-Term Interests Are Being Served? -- Conclusion -- References -- Chapter 19: Joining Up and Scaling Up: Analyzing Resistance to Canada´s ``Dirty Oil´´ -- Activism Against the Oilsands -- Aboriginal Activism -- Environmental Activism -- Religiously-Based Activism -- Labour Activism -- Growing the Movement (Horizontally and Vertically) -- Joining Up: Creating Coalitions Among Unlikely Allies -- Scaling Up: Crossing Borders -- Building Cross-Organizational, Cross-Border Consensus -- Assessing the Movement´s Strengths and Challenges -- Conclusion -- References -- Part III: Elementary and Secondary Education -- Preamble. , Chapter 20: We Got Involved and We Got to Fix It!: Action-Oriented School Science.

Note: Intro -- Preface -- Acknowledgements -- Contents -- Contributors -- An Overview of Conservation Paleobiology -- 1 Defining and Establishing Conservation Paleobiologyas a Discipline -- 2 Data in Conservation Paleobiology -- 3 Looking Forward -- References -- Should Conservation Paleobiologists Save the World on Their Own Time? -- 1 Always Academicize? -- 2 To Advocate, or Not to Advocate -- 3 Speaking Honestly to Power -- 4 From Pure Scientist to Honest Broker -- 5 Keeping It Real -- 6 Overcoming the Fear Factor -- 7 Later Is Too Late -- References -- Conceptions of Long-Term Data Among Marine Conservation Biologists and What Conservation Paleobiologists Need to Know -- 1 What is "Long Term"? -- 2 Survey Implementation -- 3 Survey Responses and What They Mean for Conservation Paleobiologists -- Conservation Goals -- Long-Term Data -- Environmental Stressors -- Baselines -- Challenges -- 4 Takeaways for Conservation Paleobiologists -- 5 Moving Forward -- Appendix 1: Survey Questions -- Appendix 2: Survey Population Selection -- Appendix 3: Categorization of Responses -- References -- Effectively Connecting Conservation Paleobiological Research to Environmental Management: Examples from Greater Everglades' Restoration of Southwest Florida -- 1 Introduction -- 2 Defining the Problem -- 3 Ensuring Success as a Conservation Paleobiologist -- Developing Partnerships and Collaborative Teams -- Becoming or Engaging a Liaison -- Participate in "Management Collaboratives" -- Compose Technical Reports in Addition to Peer-Reviewed Journal Articles -- Present Your Findings to Stake Holder Groups -- Attend and Present at Environmental Science and Restoration Conferences -- Train our Students -- Reward Faculty for Conducting Community-Engaged Scholarship -- Promote and Reward Community Service for Work with Environmental Agencies and NGOs. , 4 Case Studies from Greater Everglades' Restoration -- Case Study 1: Water Management of the Caloosahatchee River -- Case Study 2: Picayune Strand Restoration Project -- 5 Conclusions -- References -- Using the Fossil Record to Establish a Baseline and Recommendations for Oyster Mitigation in the Mid-Atlantic U.S. -- 1 Introduction -- 2 Methods -- Pleistocene Localities -- Field and Museum Sampling -- Oyster Size and Abundance Data -- Reconstructing Paleotemperature and Salinity -- Modern and Colonial Data -- 3 Results -- Paleoenvironmental Reconstruction of Holland Point -- Paleotemperature -- Paleosalinity -- Shell Height -- Growth Rate -- 4 Discussion -- Comparing Pleistocene to Modern Oysters -- Environmental Controls on Oyster Size -- Human Factors Influencing Oyster Size -- Implications for Restoration -- A Role for Conservation Paleobiology -- 5 Conclusion -- References -- Coral Reefs in Crisis: The Reliability of Deep-Time Food Web Reconstructions as Analogs for the Present -- 1 Introduction -- Preserving the Past -- Endangered Coral Reefs -- 2 Fossilizing a Coral Reef -- Dietary Breadth -- Trophic Chains and Levels -- Modularity -- 3 Guild Structure and Diversity -- Identifying Guilds in a Food Web -- 4 Reconstructing the Community -- Diversity and Evenness -- Simulated Food Webs -- 5 Summary -- Appendix 1 -- Hypergeometric Variance -- Appendix 2 -- References -- Exploring the Species -Area Relationship Within a Paleontological Context, and the Implications for Modern Conservation Biology -- 1 Introduction -- 2 Geological Setting -- 3 Methods -- 4 Results -- 5 Discussion -- 6 Conclusion -- References -- Marine Refugia Past, Present, and Future: Lessons from Ancient Geologic Crises for Modern Marine Ecosystem Conservation -- 1 Introduction -- 2 Defining Refugium. , A Species Must Have a Range Contraction, Range Shift, or Migration in Order to Escape the Onset of Global Environmental Degradation That Would Otherwise Cause Extinction of That Species -- Range Shifts -- Habitat Shifts -- Isolated Geographic Refugia -- Life History Refugia -- Cryptic Refugia -- Harvest Refugia -- The Environmental Conditions of a Refugium Are Sufficiently Habitable Such That the Species' Population Remains Viable During Its Time in the Refugium -- A Species' Population Is Smaller in the Refugium Than Its Pre-environmental Perturbation Size -- The Species Remains in the Refugium for Many Generations -- After the Environmental Crisis Ends, the Species Recovers by Inhabiting Newly Re-opened Habitats, Either Through Population Expansion or Through Adaptive Radiation -- Otherwise, the Refugium Became a Trap -- 3 Identifying Ancient Refugia -- Fossil Data -- Phylogeographic Studies -- Species Distribution Models -- 4 Lessons from the Past for Identifying Future Refugia -- As the Marine Environment Continues to Change, Refugia May Need to Shift -- Refugial Size and Connectivity Can Enhance Survivorship, But Can Also Have Evolutionary Consequences -- Conditions Inside Refugia May Not Necessarily Remain Pristine, But Will Need to Be of Sufficiently Lower Magnitude of Total Stress to Maintain Viable Populations -- Beware the Refugial Trap -- 5 Future Directions for Investigating Ancient Refugia -- 6 Conclusions -- Appendix -- References -- Training Tomorrow's Conservation Paleobiologists -- 1 Business As Usual Is Not Enough -- 2 A Call to Action -- 3 Bridging the Gap -- Recommendation 1 -- Recommendation 2 -- Recommendation 3 -- Recommendation 4 -- Recommendation 5 -- Recommendation 6 -- 4 Okay, But… -- 5 In the Meantime… -- 6 A Bright Future -- References -- A Conceptual Map of Conservation Paleobiology: Visualizinga Discipline. , 1 Determining the Current State and Structure of Conservation Paleobiology -- 2 Mapping a Discipline -- Bibliographic Co-Authorship Visualizations -- Text Co-Occurrence Visualizations -- Bibliographic Co-Citation Visualizations -- Bibliographic Coupling Visualizations -- 3 Bibliometric Networks -- Bibliographic Co-Authorship Networks -- Text Co-Occurrence Networks -- Bibliographic Co-Citation Networks -- Bibliometric Coupling Networks -- 4 The Intellectual Landscape -- 5 Emerging Frontiers -- 6 Conclusions -- References -- Index.

Note: Cover -- Half Title -- Title -- Copyright -- Dedication -- Contents -- List of contributors -- Preface -- Foreword -- Acknowledgements -- List of journals -- 1 Environmental science on the move -- 2 The sustainability debate -- 3 Environmental politics and policy processes -- 4 Environmental and ecological economics -- 5 Biodiversity and ethics -- 6 Population, adaptation and resilience -- 7 Climate change -- 8 Managing the oceans -- 9 Coastal processes and management -- 10 GIS and environmental management -- 11 Soil erosion and land degradation -- 12 River processes and management -- 13 Groundwater pollution and protection -- 14 Marine and estuarine pollution -- 15 Urban air pollution and public health -- 16 Preventing disease -- 17 Environmental risk management -- 18 Waste management -- 19 Managing the global commons -- Index.

Note: Intro -- Contents -- Part I: Introduction -- Chapter 1: Ecological Informatics: An Introduction -- 1.1 Introduction -- 1.2 Data Management -- 1.3 Analysis and Synthesis -- 1.4 Communicating and Informing Decisions -- 1.5 Case Studies -- References -- Part II: Managing Ecological Data -- Chapter 2: Project Data Management Planning -- 2.1 Introduction -- 2.2 Components of a Data Management Plan -- 2.2.1 Context -- 2.2.2 Data Collection and Acquisition -- 2.2.3 Data Organization -- 2.2.4 Quality Assurance/Quality Control -- 2.2.5 Documentation -- 2.2.6 Storage and Preservation -- 2.2.7 Data Integration, Analysis, Modeling and Visualization -- 2.2.8 Data Policies -- Box 2.1 Recommended Data Citation Guidelines from Dryad Digital Repository (2016) -- 2.2.9 Communication and Dissemination of Research Outputs -- 2.2.10 Roles and Responsibilities -- 2.2.11 Budget -- 2.3 Developing and Using a Data Management Plan -- 2.3.1 Best Practices for Creating the Plan -- 2.3.2 Using the Plan -- 2.4 Conclusion -- References -- Chapter 3: Scientific Databases for Environmental Research -- 3.1 Introduction -- 3.2 Challenges for Scientific Databases -- 3.3 Examples of Scientific Databases -- 3.3.1 A Useful Analogy -- 3.3.2 Examples of Databases -- 3.4 Evolving a Database -- 3.4.1 A Strategy for Evolving a Database -- 3.4.2 Choosing Software -- 3.4.3 Database Management System (DBMS) Types -- 3.4.4 Data Models and Normalization -- 3.4.5 Advantages and Disadvantages of Using a DBMS -- 3.5 Interlinking Information Resources -- 3.5.1 A Database Related to the Human Genome Project -- 3.5.2 Environmental Databases for Sharing Data -- 3.5.3 Tools for Interlinking Information -- 3.6 Conclusions -- References -- Chapter 4: Quality Assurance and Quality Control (QA/QC) -- 4.1 Introduction -- 4.2 Quality Assurance -- 4.3 Quality Control -- 4.3.1 Data Filters. , 4.3.2 Graphical QC -- 4.3.3 Statistical QC -- 4.3.4 Treatment of Errors and Outliers -- 4.4 Implementing QA/QC -- 4.5 Conclusion -- References -- Chapter 5: Creating and Managing Metadata -- 5.1 Introduction -- 5.2 Metadata Descriptors -- 5.3 Metadata Standards -- 5.3.1 Dublin Core Metadata Initiative -- 5.3.2 Darwin Core -- 5.3.3 Ecological Metadata Language -- 5.3.4 GBIF Metadata Profile -- 5.3.5 FGDC CSDGM -- 5.3.6 ISO 19115 -- 5.4 Metadata Management -- 5.4.1 Metadata Tools -- 5.4.2 Best Practices for Creating and Managing Metadata -- 5.5 Conclusion -- References -- Chapter 6: Preserve: Protecting Data for Long-Term Use -- 6.1 Introduction -- 6.1.1 Preservation and Its Benefits -- 6.2 Practices for Preserving Ecological Data -- 6.2.1 Define the Contents of Your Data Files -- 6.2.2 Define the Parameters -- 6.2.3 Use Consistent Data Organization -- 6.2.4 Use Stable File Formats -- 6.2.5 Specify Spatial Information -- 6.2.6 Assign Descriptive File Names -- 6.2.7 Document Processing Information -- 6.2.8 Perform Quality Assurance -- 6.2.9 Provide Documentation -- 6.2.10 Protect Your Data -- 6.3 Prepare Your Data for Archival -- 6.4 What the Archive Does -- 6.4.1 Quality Assurance -- 6.4.2 Documentation and Metadata -- 6.4.3 Release of a Data Set -- 6.5 Data Users -- 6.6 Conclusions -- Appendix: Example R-Script for Processing Data -- References -- Chapter 7: Data Discovery -- 7.1 Introduction -- 7.2 Discovering Data Created by Others -- 7.2.1 Internet Search Engines -- 7.2.2 Data Repositories -- 7.2.3 Data Directories -- 7.2.4 Data Aggregators -- 7.3 Best Practices for Promoting Data Discovery and Reuse -- 7.3.1 Data Products -- Box 7.1 DataCite Recommendations for Data Citation -- Box 7.2 Dryad Digital Repository Data Citation Recommendations -- 7.3.2 Scientific Code -- References -- Chapter 8: Data Integration: Principles and Practice. , 8.1 Introduction -- 8.2 Essential Characteristics of All Data -- 8.3 Data as Records About Reality -- 8.4 Record-Keeping and Prose Documents as Data Integration Challenges -- 8.5 Formal Data Structures Facilitate Integration -- 8.5.1 Sets and Sequences -- 8.5.2 Matrices -- 8.5.3 Cross-classifications -- 8.5.4 Tables -- 8.5.5 Tables or Spreadsheets? -- 8.5.6 Tables or Cross-classifications? -- 8.5.7 Modeling True Tables -- 8.5.8 Need for Global Keys -- 8.6 Merging or JOINing Tables -- 8.6.1 APPENDING or Unioning -- 8.6.2 JOINs -- 8.7 The Datum Is the Atom -- 8.8 Conclusion -- References -- Part III: Analysis, Synthesis and Forecasting of Ecological Data -- Chapter 9: Inferential Modelling of Population Dynamics -- 9.1 Introduction -- 9.2 Inferential Modelling of Ecological Data by the Hybrid Evolutionary Algorithm -- 9.2.1 Population Dynamics of the Cyanobacterium Microcystis in Lake Müggelsee (Germany) -- 9.2.2 Meta-Analysis of Population Dynamics of the Cyanobacterium -- 9.3 Inferential Modelling of Ecological Data by Regression Trees -- 9.3.1 Induction Algorithm of Regression Trees -- 9.3.2 Pruning of Regression Trees -- 9.3.3 Diatom Populations in Lake Prespa (Mazedonia) -- 9.3.4 Vegetation Status of Selected Land Sites in Victoria (Australia) -- 9.4 Conclusions -- References -- Chapter 10: Process-Based Modeling of Nutrient Cycles and Food-Web Dynamics -- 10.1 Introduction -- 10.2 Zero- and One-Dimensional Lake Models -- 10.2.1 Zero-Dimensional Model for the Phosphorus Cycle in a Hypereutrophic Wetland -- 10.2.2 One-Dimensional Model for Nutrient Cycles and Plankton Dynamics in Lakes and Reservoirs -- 10.3 Multi-dimensional Lake Models -- 10.3.1 Horizontal and Vertical Transport of Nutrients and Organisms -- 10.3.2 Multi-segment Lake Model for Studying Dreissenids and Macrophytes -- 10.4 Concluding Remarks -- References. , Chapter 11: Uncertainty Analysis by Bayesian Inference -- 11.1 Does Uncertainty Really Matter? -- 11.2 Hamilton Harbour -- 11.2.1 Introduction -- 11.2.2 Eutrophication Modeling to Elucidate the Role of Lower Food Web -- 11.2.3 Nutrient Export Modeling for the Hamilton Harbour Watershed -- 11.3 Bay of Quinte -- 11.3.1 Introduction -- 11.3.2 Modeling the Relationship Among Watershed Physiography, Land Use Patterns, and Phosphorus Loading -- 11.3.3 Eutrophication Risk Assessment with Process-Based Modeling and Determination of Water Quality Criteria -- 11.4 Concluding Remarks -- References -- Chapter 12: Multivariate Data Analysis by Means of Self-Organizing Maps -- 12.1 Introduction -- 12.2 Properties of a Self-Organizing Map -- 12.3 Data Preparation -- 12.3.1 Missing Values and Outliers -- 12.3.2 Data Transformation -- 12.3.3 Distance Measure -- 12.4 Self-Organizing Maps -- 12.4.1 Architecture -- 12.4.2 Learning Algorithm -- Box 12.1 Sequential Learning Algorithm of an SOM -- 12.4.3 Evaluation of Trained Map Quality -- 12.4.4 Optimum Map Size -- 12.4.5 Clustering SOM Units -- 12.4.6 Evaluation of Input Variables -- 12.4.7 Relations Between Biological and Environmental Variables -- 12.5 Application in Ecological Modelling -- 12.6 SOM Tools -- 12.7 Example of SOM Application -- 12.8 Advantages and Disadvantages -- 12.8.1 Utility for Training and Information Extraction -- 12.8.2 Visualization and Recognition -- 12.8.3 Architecture Flexibility -- 12.8.4 Flexibility in Combining with Other Models -- 12.8.5 Constraints on Measure Consistency and Output Variability -- 12.8.6 Necessity of Sufficient Data -- 12.9 Future Development -- 12.10 Conclusions -- References -- Chapter 13: GIS-Based Data Synthesis and Visualization -- 13.1 Introduction -- 13.2 Synthesizing Species Distributions by Virtual Species. , 13.3 Cartograms to Synthesize and Visualize Sampling Effort Bias -- 13.4 Fuzzy Methods to Synthesize Species Distribution Uncertainty -- 13.5 Synthesis of Remote Sensing Data -- 13.5.1 Exploratory Data Analysis -- 13.5.1.1 Correlation of Remotely Sensed Bands by Hexagon Binning -- 13.5.1.2 Correlation Among Several Layers by Texture Measures -- 13.5.2 Fourier Transformations -- 13.6 Synthesizing Diversity Measurements from Space: The Case of Generalized Entropy -- 13.7 Neutral Landscapes -- 13.8 Conclusions -- References -- Part IV: Communicating and Informing Decisions -- Chapter 14: Communicating and Disseminating Research Findings -- 14.1 Introduction -- 14.2 Publishing Research Findings -- 14.2.1 Scholarly Publications -- 14.2.1.1 Journal Articles -- 14.2.1.2 Abstracts -- 14.2.1.3 Technical Reports -- 14.2.1.4 Books and Book Chapters -- 14.2.2 Newspaper and Magazine Articles for General Audiences -- 14.2.3 Designing Effective Figures -- 14.3 Communicating Research Findings Outside of Publications -- 14.3.1 Simple Steps for Giving an Effective Presentation -- 14.3.2 Best Practices for Slides -- 14.3.2.1 Slide Design -- 14.3.2.2 Text Slides -- 14.3.2.3 Graphics -- 14.3.3 Handouts -- 14.3.4 Posters -- 14.4 Communication in a Virtual Environment -- 14.4.1 Websites -- 14.4.2 Types and Uses of Different Social Media -- 14.4.3 Simple Steps for Effective Use of Social Media -- 14.4.4 Understanding Your Social Media Impact -- 14.5 Metrics and Altmetrics -- 14.6 Conclusion -- References -- Chapter 15: Operational Forecasting in Ecology by Inferential Models and Remote Sensing -- 15.1 Introduction -- 15.2 Early Warning of HABs Based on Inferential Modelling -- 15.2.1 Cyanobacterium Cylindrospermopsis in Lake Wivenhoe (Australia) -- 15.2.2 Cyanotoxin Microcystins in Lake Vaal (South Africa) -- 15.3 Early Warning of HABs Based on Remotely-Sensed Data. , 15.3.1 Earth Observation of Water Quality Parameters.

Note: Cover -- Title Page -- Copyright Page -- Contents -- List of Contributors -- Preface -- Section I Single Use Plastics -- Chapter 1 Scientometric Analysis of Microplastics across the Globe -- 1.1 Introduction -- 1.2 Materials and Methods -- 1.3 Results and Discussion -- 1.3.1 Trends in Scientific Production and Citations -- 1.3.2 Top Funding Agencies -- 1.3.3 Top 10 Global Affiliations -- 1.3.4 Top Countries -- 1.3.5 Top 10 Databases and Journals -- 1.3.6 Top 10 Published Articles -- 1.3.7 Top 10 Author Keywords and Research Areas -- 1.4 Conclusion -- Acknowledgments -- References -- Chapter 2 Microplastic Pollution in the Polar Oceans - A Review -- 2.1 Introduction -- 2.1.1 Plastics -- 2.1.2 Plastic Pollution -- 2.1.3 Microplastics -- 2.1.4 Importance of Microplastic Pollution in the Polar Oceans -- 2.2 Polar Regions -- 2.2.1 General -- 2.2.2 Sea Ice -- 2.2.3 Water -- 2.2.4 Sediments -- 2.2.5 Biota -- 2.3 Future Perspectives -- 2.4 Conclusions -- References -- Chapter 3 Microplastics - Global Scenario -- 3.1 Introduction -- 3.2 Environmental Issues of Plastic Waste -- 3.3 Coprocessing of Plastic Waste in Cement Kilns -- 3.3.1 Cost of Plants to Convert Plastic Waste to Refused-Derived Fuel (RDF) -- 3.4 Disposal of Plastic Waste Through Plasma Pyrolysis Technology (PPT) -- 3.4.1 Merits of PPT -- 3.5 Constraints on the Use of Plastic Waste Disposal Technologies -- 3.6 Alternate to Conventional Petro-based Plastic Carry Bags and Films -- 3.7 Improving Waste Management -- 3.7.1 Phasing Out Microplastics -- 3.7.2 Promoting Research into Alternatives -- 3.7.3 Actions and Resolutions -- References -- Chapter 4 The Single-Use Plastic Pandemic in the COVID-19 Era -- 4.1 Introduction -- 4.2 Materials and Methods -- 4.2.1 Data Sources -- 4.2.2 Estimation of the General population's Daily Use of Face Masks. , 4.2.3 Estimation of the Daily Amount of Medical Waste in Hospitals -- 4.3 Trends in Production and Consumption of SUPs during the Pandemic -- 4.3.1 Personal Protective Equipment -- 4.3.2 Packaging SUPs -- 4.3.2.1 Trends in Plastic Waste Generation, Management, and Environmental Fate during the COVID-19 Era -- 4.4 SUP Waste from the Pandemic -- 4.4.1 Environmental Impacts from SUP Waste -- 4.4.2 Management of SUP Waste -- 4.5 Conclusions and Future Prospects -- References -- Section II Microplastics in the Aerosphere -- Chapter 5 Atmospheric Microplastic Transport -- 5.1 The Phenomenon of Microplastic Transport -- 5.2 Factors Affecting Microplastic Transport -- 5.2.1 Types of MPs -- 5.2.2 Characteristics and Sources of Microplastics Emitters -- 5.2.3 Meteorological Conditions -- 5.2.4 Altitude and Surface Roughness -- 5.2.5 Microplastic Deposition Processes in the Ocean -- 5.2.6 Microplastics Deposition Processes in the Air -- 5.3 Microplastic Transport Modelling -- 5.3.1 Eulerian Method -- 5.3.2 Lagrangian Method -- References -- Chapter 6 Microplastics in the Atmosphere and Their Human and Eco Risks -- 6.1 Introduction -- 6.2 Microplastics in the Atmosphere -- 6.2.1 Size, Shapes, and Colours -- 6.2.2 Chemical Composition -- 6.2.3 Sources of Microplastics -- 6.2.4 Spatial Distribution and Rate of Deposition -- 6.2.5 Effects of Climatic Conditions on MP Distribution -- 6.2.6 Transport Pathways -- 6.2.7 Pollutants Associated with MPs -- 6.3 Impact of Microplastics on Human Health and the Eco Risk -- 6.3.1 Impact on Human Health -- 6.3.2 Eco Risk -- 6.4 Strategies to Minimise Atmospheric MPs through Future Research -- 6.5 Conclusion -- Acknowledgements -- References -- Chapter 7 Sampling and Detection of Microplastics in the Atmosphere -- 7.1 Introduction -- 7.2 Classification -- 7.3 Sampling Microplastics -- 7.3.1 Sampling Airborne Microplastics. , 7.3.2 Sediment -- 7.3.3 Water -- 7.3.4 Biota -- 7.4 Sample Preparation -- 7.5 Detection and Characterisation of MPs in the Atmosphere -- 7.5.1 Microscopic Techniques for Detecting MPs -- 7.5.1.1 Stereomicroscopy -- 7.5.1.2 Fluorescence Microscopy -- 7.5.1.3 Polarised Optical Microscopy (POM) -- 7.5.1.4 Scanning Electron Microscopy (SEM) -- 7.5.1.5 Atomic Force Microscopy (AFM) -- 7.5.1.6 Hot Needle Technique -- 7.5.1.7 Digital Holography -- 7.5.2 Spectroscopic Techniques for Analysing MPs -- 7.5.2.1 Fourier Transform Infrared (FTIR) Spectroscopy -- 7.5.2.2 Raman Spectroscopy -- 7.5.3 Thermal Analysis -- 7.5.3.1 Differential Scanning Calorimetry (DSC) -- 7.5.3.2 Thermogravimetric Analysis (TGA) -- 7.5.3.3 Pyrolysis-Gas Chromatography-Mass Spectrometry (Pyr-GC-MS) -- 7.6 Conclusion -- Funding -- References -- Chapter 8 Sources and Circulation of Microplastics in the Aerosphere - Atmospheric Transport of Microplastics -- 8.1 Introduction -- 8.1.1 Occurrence and Abundance of Atmospheric MP -- 8.1.2 Plastic Polymers and Their Properties -- 8.1.3 Sources and Pathways of MPs in the Atmosphere -- 8.2 Temporal and Spatial Trends in MP Accumulation -- 8.2.1 Roadside MPs -- 8.2.2 Agricultural Fields and Soil -- 8.2.3 Wastewater and Sludge -- 8.2.4 Ocean/Marine Debris -- 8.3 Formation of MPs -- 8.3.1 Physical Weathering -- 8.3.2 Chemical Weathering -- 8.3.3 Biodegradation -- 8.3.4 Photo-thermal Oxidation -- 8.3.5 Thermal Degradation -- 8.4 Atmospheric Circulation, Transport, Suspension, and Deposition -- 8.4.1 Wet Deposition -- 8.4.2 Dry Deposition -- 8.4.3 Urban Dust -- 8.4.4 Suspended Atmospheric MPs -- 8.5 Atmospheric Chemistry of MPs -- 8.6 Predicting MP Dispersion and Transport -- 8.7 Eco-Environmental Impacts -- 8.7.1 Impacts on Human and Wildlife Health -- 8.7.2 Impacts on the Climate -- 8.8 Future Perspectives -- References. , Section III Microplastics in the Aquatic Environment -- Chapter 9 Interaction of Chemical Contaminants with Microplastics -- 9.1 Introduction -- 9.2 Interactions -- 9.3 Mechanisms -- 9.3.1 Interactions between Organic Contaminants and Microplastics -- 9.3.2 Interactions between Heavy Metals and Microplastics -- 9.3.3 Kinetics of the Sorption Process -- 9.3.4 Pseudo-First-Order Model -- 9.3.5 Pseudo-Second-Order Model -- 9.3.6 Intraparticle Diffusion Model -- 9.3.7 Film Diffusion Model -- 9.3.8 Isotherm Models -- 9.3.9 Langmuir Model -- 9.3.10 Freundlich Model -- 9.4 Environmental Burden of Microplastics -- 9.5 Future Approaches -- References -- Chapter 10 Microplastics in Freshwater Environments -- 10.1 Introduction -- 10.2 Microplastics in Rivers and Tributaries -- 10.3 Microplastics in Lakes -- 10.4 Microplastics in Groundwater Sources -- 10.5 Microplastics in Glaciers and Ice Caps -- 10.6 Microplastics in Deltas -- 10.7 Conclusion -- Acknowledgment -- References -- Chapter 11 Microplastics in Landfill Leachate: Flow and Transport -- 11.1 Plastics and Microplastics -- 11.2 Microplastics in Landfill Leachate -- 11.3 Summary -- Acknowledgments -- References -- Chapter 12 Microplastics in the Aquatic Environment - Effects on Ocean Carbon Sequestration and Sustenance of Marine Life -- 12.1 Introduction -- 12.2 Microplastics in the Aquatic Environment -- 12.2.1 Major Sources -- 12.2.2 Chemical Nature and Distribution Processes -- 12.2.2.1 Chemical Nature -- 12.2.2.2 Distribution Processes -- 12.3 Microplastics and Ocean Carbon Sequestration -- 12.3.1 Ocean Carbon Sequestration -- 12.3.2 Effect of Microplastics on Ocean Carbon Sequestration -- 12.3.2.1 Effect on Phytoplankton Photosynthesis and Growth -- 12.3.2.2 Effect on Zooplankton Development and Reproduction -- 12.3.2.3 Effect on the Marine Biological Pump -- 12.4 Microplastics and Marine Fauna. , 12.4.1 Effects on Corals -- 12.4.2 Effects on Fisheries and Aquaculture -- 12.4.2.1 Shrimp -- 12.4.2.2 Oysters and Mussels -- 12.4.2.3 Fish -- 12.4.3 Effects on Sea Turtles and Sea Birds -- 12.4.4 Effects on Marine Mammals -- 12.5 Microplastic Pollution, Climate Change, and Antibiotic Resistance - A Unique Trio -- 12.6 Conclusion and Future Perspectives -- Acknowledgments -- References -- Section IV Microplastics in Soil Systems -- Chapter 13 Entry of Microplastics into Agroecosystems: A Serious Threat to Food Security and Human Health -- 13.1 Introduction -- 13.2 Sources of Microplastics in Agroecosystems -- 13.2.1 Plastic Mulching -- 13.2.2 Plastic Use in Modern Agriculture -- 13.2.3 Application of Sewage Sludge/Biosolids -- 13.2.4 Compost and Fertilizers -- 13.2.5 Wastewater Irrigation -- 13.2.6 Landfill Sites -- 13.2.7 Atmospheric Deposition -- 13.2.8 Miscellaneous Sources -- 13.3 Implications of Microplastic Contamination on Agroecosystems -- 13.3.1 Implications for Soil Character -- 13.3.2 Implications for Crop Plants and Food Security -- 13.4 Human Health Risks -- 13.5 Knowledge Gaps -- 13.6 Conclusion and Future Recommendations -- Acknowledgments -- References -- Chapter 14 Migration of Microplastic-Bound Contaminants to Soil and Their Effects -- 14.1 Introduction -- 14.2 Microplastics as Sorbing Materials for Hazardous Chemicals -- 14.3 Types of Microplastic-Bound Contaminants in Soils -- 14.3.1 Heavy Metals and Metalloids - Inorganic Contaminants Adsorbed to MPs -- 14.3.2 Persistent Organic Pollutants, Pharmaceuticals, Antibiotics, Pesticides, and Other Organic Contaminants Adsorbed to MPs -- 14.4 Effects of Exposure and Co-exposure in Soil - Consequences of Contaminant Sorption for MP Toxicity and Bioaccumulation -- 14.5 Microplastic-Bound Contaminants in Soils as Potential Threats to Human Health -- 14.6 Conclusions -- References. , Chapter 15 Plastic Mulch-Derived Microplastics in Agricultural Soil Systems.

Note: Intro -- Foreword -- Preface -- Acknowledgments -- Abbreviations -- Contents -- Part IBuilding Forest Inventory Institutions -- 1 The Growing Mandate of Forest Inventories -- 1.1…Emerging Environmental Problems -- 1.2…The Road from Stockholm to Rio -- 1.3…Global Forest Resources Assessments During 2000--2010 -- 1.4…The Existing Capacity in the Tropical Regions -- 1.5…The Purpose and Organization of the Book -- 1.5.1 Purpose of the Book -- 1.5.2 Organization of the Book -- 1.5.3 The Information Sources -- Recommended Further Reading -- On Web -- 2 Forest Inventory Problem Formulation -- 2.1…Linking Forest Inventory with the Problem -- 2.2…The Changing Demand for Forest Inventory Information -- 2.3…Problem-Oriented Classification of Forest Inventories -- 2.4…Identification of Information Needs -- 2.5…Identification and Assessment of Environmental Functions of Forests -- Recommended Further Reading -- 3 Organizing Existing Information -- 3.1…The Role of Existing Information -- 3.2…The Existing Forest Inventories Data and Reports -- 3.3…The Existing Forest Research Data -- 3.4…National/International Libraries and Journals -- 3.5…Forest Dynamics Plots (FDP) -- 3.6…FAO FORIS: An Example of Organizing Country Data -- Recommended Further Reading -- 4 Technology Transfer and Applications -- 4.1…The Role of Technology in Forest Inventory -- 4.2…A Classification of Emerging Technologies -- 4.3…Strategy for Adopting New Technologies -- 4.3.1 Strengthening Core Competence -- 4.4…Special Considerations in Technology Applications -- 4.5…FAO Remote Sensing Surveys of Tropical Forests -- 4.5.1 Background -- 4.5.2 Methodology -- 4.5.3 Main Findings -- Recommended Further Reading -- On Web -- 5 Capacity Building in Planning and Forest Assessments -- 5.1…The Problem Formulation -- 5.2…Areas for Capacity Development in Forest Assessments. , 5.3…Integration of Planning with Forest Inventory: An Important Issue -- 5.3.1 Long-Term Forestry Planning (Strategic Forestry Planning) -- 5.3.2 Medium and Short-Term Forestry Planning (or Forest Management Planning) -- 5.4…Sustainable Non-Timber Forest Management: An Emerging Area -- 5.5…European Experience with Capacity Development -- 5.6…The Role of International/Regional Cooperation -- Geomatics Center of the Andhra Pradesh Forest Department, Hyderabad, India -- Recommended Further Reading -- Geomatics Center of the Andhra Pradesh Forest Department, Hyderabad, India (contd.)An Analysis of Causes for the Success: The subject is complex to analyze, but some of the contributory factors are briefly touched upon. Initially, FAO provided a vision for the GIS development, application and its institutional growth on a continuing basis including establishing a main center at Dullapalli, close to Hyderabad, and the vision of the three regional sub-centers by ecological zone. All these are real -- Part IIPractice of Forest Inventory -- 6 Statistical Planning -- 6.1…The Purpose of Statistical Planning -- 6.2…Role of the Forest Statistician -- 6.3…Main Steps in the Sample Survey Design -- 6.4…Some Commonly Used Designs for Forest Assessments -- 6.4.1 A Brief Description of Designs -- 6.5…Survey of Trees Outside Forests -- 6.5.1 Introduction -- 6.5.2 The Formulation of Survey Objectives -- 6.5.3 Defining Survey Universe -- 6.5.4 Survey Methodology -- 6.5.5 Bangladesh National Inventory of Village Forests -- 6.5.6 Survey of Trees Outside Forests in India -- 6.5.7 Distance Method for Study of Discontinuous Vegetation of Andhra Pradesh, India -- 6.6…A Forest Inventory Planning Checklist -- Recommended Further Reading -- On Web -- 7 Special Studies -- 7.1…The Scope of Special Studies -- 7.2…The Planning of Special Studies -- 7.3…Development of Volume Equations. , 7.4…Biomass Functions -- 7.5…Non-Wood Forest Products -- 7.5.1 Fruit/Seed/Pulp Yield -- Recommended Further Reading -- 8 Data Collection -- 8.1…Classification of Data Sources -- 8.2…Field Plan and Logistics -- 8.3…Field Manual and Field Forms -- 8.4…Special Studies -- 8.5…Check-Crew Work -- 8.6…Computer-Assisted & -- !nbsp -- Editing & -- !nbsp -- and & -- !blank -- Data & -- !nbsp -- Archival & -- !nbsp -- Routines -- Recommended Further Reading -- 9 Data Processing -- 9.1…Roles of Data Processing -- 9.2…Data Processing Operations in a Forest Inventory -- 9.2.1 Phase I: Manual and Computer-Assisted Editing of Field Forms -- 9.2.2 Phase II: Development of Volume Functions -- 9.2.3 Phase III: Tree Volume Estimation and Plot Level Summaries for Error Calculation -- 9.2.4 Phase IV: Estimation of Means and Standard Errors -- 9.2.5 Phase V: Final Tabulations and Database Storage and Archival Routines -- 9.3…Some Strategic Data Processing Questions -- 9.4…Generalized Versus Tailor-Made EDP Systems -- 9.5…Case Study of FAO Forest Inventory Data Processing System (FIDAPS) -- 9.5.1 Output and Input Specifications -- 9.5.2 PC-FIDAPS documentation -- 9.5.3 Concluding Remarks -- 10 The Report Writing -- 10.1…General Comments on Reporting -- 10.2…Forest Inventory Problem Formulation -- 10.3…The Statistical Planning -- 10.3.1 The Sampling Design -- 10.3.2 Special Studies -- 10.4…Main Findings of the Survey -- 10.4.1 The Land Cover and Forest Changes -- 10.4.2 The Condition of the Forest Floor -- 10.4.3 Trees Outside Forests -- 10.4.4 Comparison with Other Forests in the District -- 10.4.5 Livelihood and Resource-Use Pattern -- 10.4.6 Fuelwood Gathering and Sal Leaf Plucking -- 10.5…Survey Evaluation and Recommendations -- Recommended Further Reading -- Part IIISouth-South Cooperation -- 11 Common Patterns of Spatial Variations in the Tropics. , 11.1…Similarities in Forest Formations Across the Continents -- 11.2…Macro-Variation Patterns and Their Significance for Stratification -- 11.3…Meso-Variation Patterns and Their Significance for the Sampling Design -- 11.4…Micro-Variation Patterns and Their Significance for Plot Size and Shape -- 11.5…Rain Forest Loss and Change -- Recommended Further Reading -- 12 Remote Sensing Applications in Forest Inventory -- 12.1…On Rapid Developments in Remote Sensing Technology -- 12.2…Lidar Potentials in Forest Inventory -- 12.3…Applications of Aerial Photographs in Forest Inventory -- 12.3.1 Complete Photo Interpretation -- 12.3.2 Point Photo Interpretation -- 12.4…Estimating Cost-Effectiveness of Remote Sensing -- 12.5…A Case Study of FSI State of Forest Report -- 12.5.1 Assessment Method -- 12.5.2 Accuracy Assessment -- Recommended Further Reading -- 13 Growth and Yield Studies -- 13.1…Special Growth and Yield Conditions in the Tropics -- 13.2…Growth and Yield of Tropical Plantations -- 13.2.1 Methods of Study -- 13.2.2 The Current State of Knowledge -- 13.3…Growth and Yield Research in the Temperate Zone -- 13.3.1 The Current Status -- 13.3.2 Forest Plantation's Development Modeling -- Increment and Volume Relation -- 13.4…Growth and Yield of Mixed Tropical Forests -- 13.5…Growth and Yield of Individual Trees -- 13.5.1 Methods of Research -- 13.5.2 Stump and Stem Analysis -- 13.5.3 Increment Borings -- 13.6…Applications of G& -- Y Research in Forest Management Planning -- 13.6.1 Hill Dipterocarp Forests of Malaysia -- 13.6.2 Mixed Tropical Forests, Indonesia -- Recommended Further Reading -- 14 Estimating Potential Productivity of Forests -- 14.1…The Need for Potential Productivity Estimation -- 14.2…Description of Climatic Indices -- 14.2.1 Paterson Climate--Vegetation--Productivity Index -- 14.2.2 Validation of Paterson Index for India. , 14.2.3 Weck Productivity Index (WPI) -- 14.2.4 Validation of Weck Productivity Indices -- 14.3…Recent Availability of Climatic Data for the Tropics -- 14.3.1 Temperature -- 14.3.2 Growing Season -- 14.3.3 Relative Humidity -- 14.3.4 Day Length -- 14.3.5 Precipitation -- 14.4…The Areas of Further Research on Forest--Climate Relation -- 14.4.1 Productivity Indices -- 14.4.2 Annual Growth Indices -- 14.4.3 Hardness Index -- 14.4.4 Suggestions for a Climatic Index -- 14.5…South--South Cooperation in Climate--Change Research -- Recommended Further Reading -- 15 Land Evaluation Techniques for Forestry Planning -- 15.1…The Purpose of Land Evaluation -- 15.2…Description of Land Evaluation Techniques -- 15.3…Applications of Land Evaluation Techniques in Forestry -- 15.4…Land Evaluation for Forestry Planning at the National Level -- 15.5…Land Evaluation for Forestry Planning at the District Level -- Recommended Further Reading -- Part IVInternational Dimensions of ForestResources Assessments -- 16 Identification and Evaluation of Environmental Functions of Forests -- 16.1…The Problem Formulation -- 16.2…Components of Cultural and Natural Ecosystems -- 16.3…The Ecosystem Dynamics -- 16.4…The Ecosystem Variables and Change Model -- 16.5…Example of a Study Using Ecosystem Approach -- Recommended Further Reading -- 17 Ecological Zoning and Assessments of Biological Diversity in the Tropics -- 17.1…The Need for Ecological Zoning -- 17.2…The Approach for Ecological Zoning -- 17.2.1 The Choice of Parameters -- 17.2.2 The Classification and Mapping of EFZ -- 17.2.3 The Validation Phase -- 17.3…The EFZ Map and the Database -- 17.4…The Tropical Forest Ecosystems Report 1992 -- 17.5…Biodiversity Loss Associated with Tropical Deforestation -- 17.5.1 Problem Formulation -- 17.5.2 Modeling of Biological Diversity Richness Loss: FRA1990 Approach. , 17.5.3 Species Area Relation by Ecological Zone.

Note: Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Editor's Note -- Board of Advisers -- Contributors -- Alphabetical List of Entries -- Thematic List -- Reader's Guide to the History of Science -- A -- Académie des Sciences -- Accademia dei Lincei -- Accademia del Cimento -- Accountability -- Accountancy -- Acoustics -- Acupuncture -- Adler, Alfred -- Aether -- Affinity -- Africa: south of the Sahara -- Africa: health and healing -- Age of the Earth -- Agrícola, Georgius -- Agriculture -- AIDS -- Alchemy -- Algebra -- Alienation -- Almanacs -- Anatomy -- Anthropology -- Anthropometry -- Anti-Vivisection -- Arabic Science -- Archaeology -- Archimedes -- Aristotle -- Arithmetic -- Artificial Intelligence -- Astrolabes -- Astrology -- Astronomical Instruments -- Astronomy: general works -- Astronomy: non-European -- Astrophysics -- Asylums -- Atomic Theory -- Atomic Weapons -- Atomism -- Australia and New Zealand -- Automobiles -- Avogadro, Amedeo -- Axiomatics -- B -- Bacon, Francis -- Bacteriology -- Baer, Karl Ernst von -- Baeyer, Adolf von -- Banks, Joseph -- Bateson, Gregory -- Bauer, Georg -- Behring, Emil von -- Bernard, Claude -- Berthollet, Claude-Louis, Comte de -- Berzelius, Jöns Jacob -- Bichat, Marie François Xavier -- Big Bang Theory -- Big Science -- Biochemistry -- Biometrics, Statistical Biology, and Mathematical Statistics -- Biotechnology -- Birth Control -- Blowpipe -- Boas, Franz -- The Body -- Boerhaave, Herman -- Bohr, Niels -- Boltzmann, Ludwig Eduard -- Botanical and Zoological Gardens -- Botanical Gardens -- Zoological Gardens -- Botany: general works -- Botany: Britain -- Boyle, Robert -- Brahe, Tycho -- Brazil -- British Association for the Advancement of Science -- Buckland, William -- Buffon, Georges-Louis Leclere, Comte de -- C -- Calculating Devices -- Canada -- Cancer -- Cantor, Georg. , Capitalism and Science -- Cardiology -- Cartesianism -- Cartography -- CERN -- Chaos Theory -- Charcot, Jean-Martin -- Chemical Analysis -- Chemical Revolution -- Chemistry -- China: general works -- China: agriculture -- China: astronomy and mathematics -- China: medicine -- China: natural history -- Clinical Science -- Clinical Trials -- Clocks -- Colloid Chemistry -- Colonialism and Science -- Complementary Medicine -- Computing -- Comte, Auguste -- Continental Drift -- Copernicanism -- Copernicus, Nicolaus -- Cosmology -- Court Society -- Cryogenics -- Curie, Marie -- Cuvier, Georges -- D -- Darwin, Charles -- Darwinism -- Darwinism in Germany -- Davy, Humphry -- Dee, John -- Degeneration -- Denmark -- Dentistry -- Descartes, René -- Dialectical Materialism -- Discipline -- Discovery -- DNA -- Doctor-Patient Relationship -- Drugs -- Duhem, Pierre Maurice Marie -- Durkheim, Émile -- Dyestuffs -- E -- École Polytechnique -- Ecology -- Edison, Thomas Alva -- Education -- Egypt and Mesopotamia -- Ehrlich, Paul -- Einstein, Albert -- Electrical Engineering -- Electrical Instruments -- Electricity -- Electromagnetism -- Embryology -- Encyclopedias -- Endocrinology -- Energy -- Engineering Schools -- Engines: steam -- Engines: turbo -- Enlightenment -- Environmental Sciences -- Epidemics -- Epidemiology -- Error Theory -- Ethnomathematics -- Ethnoscience -- Ethology and Animal Behaviour -- Euclid -- Eugenics -- Evans-Pritchard, Edward Evan -- Evolution -- Evolutionary Synthesis -- Exhibitions -- Expeditions -- Experimental Physiology -- Experiments -- F -- Fact -- Faraday, Michael -- Fermat, Pierre -- Fermi, Enrico -- Fevers -- Feynman, Richard -- Fischer, Emil -- Fleming, Alexander -- Florey, Howard Walter -- Forensic Sciences -- Foucault, Michel -- France: scientific and technical education -- Franklin, Benjamin -- Fraunhofer, Joseph von. , Freud, Sigmund -- Function -- Functionalism and Structuralism: biological sciences -- G -- Galen -- Galilean School -- Galilei, Galileo -- Galton, Francis -- Galvani, Luigi -- Galvanic Battery -- Gauss, Carl Friedrich -- Gay-Lussac, Joseph Louis -- Gender: general works -- Gender and Identity -- Gender and Sex -- Genetic Engineering -- Genetics: general works -- Genetics: post-DNA -- Genius -- Geography of the Sciences -- Geology -- Geometry -- Germanophone Areas -- Gesellschaft Deutscher Naturforscher und Ärzte -- Gilbert, William -- Global Organizations -- Gödel, Kurt -- Goethe, Johann Wolfgang von -- Graphical Method -- Greece: general works -- Greece: medicine -- Group Theory -- Gynaecology -- H -- Haeckel, Ernst -- Hahn, Otto -- Hale, George Ellery -- Halley, Edmond -- Harvey, William -- Hayek, Friedrich August von -- Health, Mortality, and Social Class -- Heat -- Heisenberg, Werner -- Helmholtz, Hermann von -- Herbalism -- Heredity -- Hermeticism -- Herschel, William -- Hertz, Heinrich Rudolf -- Hilbert, David -- Hippocrates -- Histology -- History of Science: general works -- Hodgkin, Dorothy -- Holistic Medicine -- Home Economics -- Homoeopathy -- Hooker, Joseph Dalton -- Horticulture -- Hospitals -- Human Genome Project -- Human Sciences -- Humanism -- Humboldt, Alexander von -- Hungary -- Hunter, John -- Hutton, James -- Huxley, Thomas -- Huygens, Christiaan -- Hysteria -- I -- Ideology -- Immunology -- India: general works -- India: medicine -- Indigenous Knowledge Systems -- Industrial Chemistry -- Information -- Instrument as Embodied Theory -- Instrument Makers -- Internalism versus Externalism -- International Science -- J -- Japan: general works -- Japan: medicine -- Japan: technology -- Jesuits -- Journals -- Jung, Carl Gustav -- K -- Kaiser-Wilhelm-Gesellschaft zur Förderung der Wissenschaften -- Kant, Immanuel -- Kepler, Johannes. , Keynes, John Maynard -- Klein, Melanie -- Knowledge and Power -- Koch, Robert -- L -- Latin America -- Laue, Max von -- Lavoisier, Antoine Laurent -- Lawrence, Ernest Orlando -- Leibniz, Gottfried Wilhelm -- Leonardo da Vinci -- Lévi-Strauss, Claude -- Liebig, Justus von -- Linguistics -- Linné, Carl von -- Linnaeus, Carl -- Lister, Joseph -- Literature and Science -- Lorenz, Konrad -- Lyell, Charles -- Lysenko, Trofim Denisovich -- M -- Mach, Ernst -- Madness -- Magnetism -- Malaria -- Malthus, Thomas -- Malthusianism -- Management Sciences -- Marey, Etienne-Jules -- Marshall, Alfred -- Martineau, Harriet -- Marx, Karl -- Marxism and Science -- Materials Science -- Mathematical Instruments -- Mathematical Modernity -- Maupertuis, Pierre-Louis Moreau de -- Maxwell, James Clerk -- Measurement -- Mechanization -- Medical Ethics -- Medical Instruments -- Medical Specialization -- Medicine and Law -- Medicine, Disease, and Health -- Medieval Science and Medicine -- Meitner, Lise -- Mendel, Gregor -- Mendeleev, Dmitrii Ivanovich -- Mersenne, Marin -- Merton Thesis -- Mesmerism -- Metallurgy -- Metaphor -- Meteorological Instruments -- Meteorology -- Metrology -- Michelson, Albert A. -- Microscopes -- Midwifery -- Mill, John Stuart -- Millikan, Robert Andrews -- Mills and Waterwheels -- The Mind -- Molecular Biology -- Monge, Gaspard -- Muséum National d'Histoire Naturelle -- Museums -- Music and Science: antiquity to 1700 -- Music and Science: since 1700 -- N -- Napier, John -- National Styles of Reasoning -- Natural Law -- Natural Selection -- Nature -- Navigational Instruments -- Nernst, Walther -- Netherlands: technology -- Neumann, Salomon -- Neurosciences -- Newton, Isaac -- Newtonianism -- Nobel Institution -- Nuclear Physics -- Number Theory -- Nursing -- Nutrition -- O -- Objectivity -- Observation -- Obstetrics and Midwifery -- Occult Sciences. , Oceanography -- Oppenheimer, J. Robert -- Optics -- Organic Chemistry -- Orientalism -- Ornithology -- Ørsted, Hans Christian -- Ostwald, Wilhelm -- P -- Pain -- Paleontology -- Paracelsus -- Paradigm -- Particle Physics -- Pasteur, Louis -- Pathology -- Pavlov, Ivan Petrovich -- Pearson, Karl -- Performance -- Pharmacology -- Pharmacy -- Philosophy of Science -- Photography -- Phrenology -- Physical Chemistry -- Physical and Human Geography -- Physics: 20th century -- Physikalisch-Technische Reichsanstalt -- Physiology: France -- Physiology: Germany -- Piaget, Jean -- Plague -- Planck, Max -- Plastic Surgery -- Plastics and Polymers -- Plato -- Poincaré, Jules Henri -- Polar Science -- Political Economy -- Popularization -- Positivism -- Practice -- Prehistory: archaeology and anthropology -- Priestley, Joseph -- Printing -- Probability -- Professionalization -- Progress -- Psychiatry -- Psychoanalysis: conceptual -- Psychoanalysis: gender -- Psychoanalysis: institutional -- Psychology -- Psychophysics -- Public and the Private -- Public Health -- Pythagoras 6th century BC -- Q -- Quackery -- Quantification -- Quantum Mechanics -- Quantum Theory -- Quételet, Lambert Adolphe Jacques -- R -- Race -- Radioactivity -- Radiology -- Raman, Chandrasekhara Venkata -- Ramón y Cajal, Santiago -- Rationality -- Rational Mechanics -- Reading Culture and Science -- Relativity -- Religion and Science: general works -- Religion and Science: Islam -- Religion and Science: Medieval -- Religion and Science: Renaissance -- Representation -- Reproductive Medicine -- Research and Development -- Respiration -- Rhetoric -- Rittenhouse, David -- Rockefeller Foundation -- Romanticism -- Röntgen, Wilhelm Conrad -- Rowland, Henry Augustus -- Royal Institution -- Royal Society of London -- Russia -- Russian Academy of Sciences -- Rutherford, Ernest -- S. , Scheele, Carl Wilhelm.

Note: Intro -- Preface -- Introduction - Perspectives of Water Resources Management -- Abstract -- 1.1. Water and the Society -- 1.2. Availability of Water on the Earth -- 1.3. Hydrologic Cycle and Human Intervention -- 1.4. Global Climate Change and the Water Resource -- 1.5. Future Challenges of Water Resources Management -- Relevant Journals -- References -- Assessment of Water Resources -- Abstract -- 2.1. Estimation of Surface Water Resource -- 2.2. Investigation of Groundwater -- 2.2.1. Planning an Investigation -- 2.2.2. Steps Involved in a Site Investigation -- Field Reconnaissance -- Literature Search -- Determination of Data Requirement and Selection of Method -- 2.2.3. Approaches of Investigation -- 2.3. MechanicalApproach -- Drilling of Exploratory Bore Wells -- Avoiding Cross Contamination during Drilling -- Limitations -- Sampling Interval and Representation -- 2.4. Geo-PhysicalApproach -- Principle of Geophysical Approach -- 2.5. ElectricalMethod -- Principle of the Method -- 2.6. Electromagnetic Method -- Principle of the Method -- 2.7. Estimation of Groundwater Potential -- 2.7.1. Quantitative Estimation of Groundwater -- 2.7.2. Groundwater Availability for Pumping in Terms of Potential Recharge -- 2.7.3. Groundwater Availability in Terms of Safe Yield -- Determination of Specific Yield -- 2.7.4. Water Budget Approach -- Expression of Water Budget -- I-Input -- Estimation of Potential Recharge -- O-Output -- Surface Runoff -- Groundwater Discharge -- Evapotranspiration -- S - Storage -- Estimation of Absolute Change (Amount) -- 2.8. Groundwater Development Potential and Issues in Saline/Coastal Areas -- 2.9. Environmental Flow Assessment -- Building Block Method (BBM) -- Drift Method -- Relevant Journals -- Exercises -- Estimation of Groundwater Recharge -- Abstract -- 3.1. Concept, Purpose and Significance of Recharge Estimation. , Concept -- Purpose -- Significance -- 3.2. Relevant Terminologies -- Infiltration -- Percolation -- Seepage -- Actual Recharge -- Potential Recharge -- Direct/Diffuse Recharge -- Indirect Recharge -- Localized/Focused Recharge -- Artificial Recharge -- Natural Recharge -- Induced Recharge -- Base-Flow -- Darcy's Equation or Law -- Deep Drainage -- Drainage Basin -- Groundwater Basin -- Hydrologic Budget or Water Budget -- Piston Flow or Plug Flow -- Preferential Recharge -- Recharge Area -- Rejected Recharge -- Residence Time -- Residual -- 3.3. Sources and Mechanism of Recharge -- 3.4. Factors Affecting Recharge -- Soil Factor -- Topography -- Land-Surface and Vegetation -- Sub-Surface Geology -- Climate -- Rainfall Amount and Its Distribution -- Evaporative Demand of the Atmosphere -- Existence of Water Bodies or Streams -- Storage Capacity of the Aquifer -- Depth to Aquifer -- 3.5. GW Recharge-Discharge/Withdrawal Relationship and Sustainability Issues -- 3.6. Functional Form of Recharge and Limiting Conditions -- 3.6.1. Functional Form -- 3.6.2. Limiting Conditions -- 3.7. Recharge Estimation - Available Approaches and Methods -- Initiating Recharge Study/Preliminary Recharge Estimate -- Recharge Estimation Techniques -- 3.7.1. Water Budget (or Water Balance) Method -- Principle of the Method -- Boundaries Require -- Mathematical Formulation of Water Budget Equation -- Merits of Water Budget Method -- Demerits of Water Budget Method -- 3.7.2. Water-Table Fluctuation Method -- Principle of the Method -- Appropriateness/Suitability of the Method -- Assumptions -- Mathematical Formulation -- Limitations -- Merits of the Method -- Demerits of the Method -- 3.7.3. Lysimeter Method -- Measurement Procedure -- ET Measurement -- Limitations -- Merits of Lysimeter Method -- Demerits/Shortcomings -- 3.7.4. Seepage Meter Method -- Principle of the Method. , Detail Method -- Merits -- Demerits -- 3.7.5. Field Plot Water Balance -- Principle -- Detail Method -- Merits of the Method -- Demerits -- 3.7.6. Soil-Water Balance Approach -- Merits -- Demerits -- 3.7.7. Zero-Flux Plane -- Principle -- Methods -- In Absence of a Zero Flux Plane -- Limitations -- Merits -- Demerits -- 3.7.8. Darcy's Law Approach -- 3.7.8.1. Darcy's Law Method for Unsaturated Zone -- Principle -- Method -- Suitability/Limitations -- Merits -- Demerits -- 3.7.8.2. Darcy's Law Method for Saturated Zone -- Merits -- Demerits/Shortcomings -- 3.7.9. Base-Flow Discharge -- Principle of the Method -- Detail Method -- Merits -- Demerits -- 3.7.10. Numerical Method -- 3.7.10.1. Numerical Method for Watershed modeling -- Merits -- Demerits -- 3.7.10.2. Numerical Modeling for Unsaturated-Zone Studies -- Merits -- Demerits -- 3.7.10.3. Numerical Model for Saturated-Unsaturated Flow -- Merits -- Demerits -- 3.7.11. Tracer Techniques -- Characteristics of an Ideal Tracer -- 3.7.11.1. Chemical Tracer -- Perspectives and Procedure -- Merits -- Demerits -- 3.7.11.2. Isotopic Tracer -- Stable Isotope -- Radioactive Isotope -- Detail Working Method -- Merits -- Demerits -- 3.7.11.3. Environmental Tracers -- Chloride Mass Balance (CMB) Approach -- Perspectives and Methods -- Merits -- Demerits -- 3.7.11.4. Historical Tracer -- Perspectives and Procedure -- Merits -- Demerits -- 3.7.11.5. Groundwater Dating -- Perspectives and Methods -- Age from 3H/3He Data -- Use of 14C for Groundwater Age -- Recharge Rate from GW Age -- Characteristics and Considerations -- Merits -- Demerits -- 3.7.11.6. Limitations/Restrictions of Using Tracer -- 3.7.11.7. Interpretation of Tracer Results -- 3.7.11.8. Merits of Tracer Techniques over Other Methods, and Concerns -- Merits -- Concerns -- 3.7.12. Empirical Method -- Anderson et al. (1992) Formula -- Chaturvedi Formula. , Kumar and Seethapathi Formula -- Merits of Empirical Methods -- Demerits -- Future Refinement -- 3.7.13. Application of Multiple Techniques -- 3.8. Recharge Estimation Related to Aquifer Vulnerability to Contamination -- 3.9. Choosing an Appropriate Method for Recharge Estimation -- 3.9.1. Factors to be Considered in Selecting a Recharge Estimation Method -- Aim or Objective of Recharge Estimation -- Required Accuracy of Recharge Estimate -- Geomorphology of the Target Area -- Climate -- Geology -- Source and Mechanism of Recharge -- Temporal and Spatial Scale Required -- Availability of Time and Money -- Limitations/Suitability of the Methods themselves -- 3.9.2. Optimization among Different Factors and Estimating Recharge -- 3.10. Developing a Conceptual Model of Recharge/Conceptualizing a Recharge Model -- 3.11. Challenges in Predictive Relations and Recharge Generalization -- 3.12. Geological Mapping of the Recharge Areas -- General Guidelines for Mapping Recharge Area -- 3.13. Methods for Estimating/Measuring Components of Water Budget Equation -- 3.13.1. Evapotranspiration -- Direct Measurement of ET by Lysimeter -- Indirect Method -- From Field Plot -- From Crop Coefficient -- 3.13.2. Surface Runoff -- From Crop Fields -- SCS Runoff Method -- Peak Runoff from Single Storm Event -- 3.14. Worked Out Problems -- Example 3.1 -- Solution -- Example 3.2 -- Solution -- Example 3.3 -- Solution -- Example 3.4 -- Solution -- Example 3.5 -- Solution -- Example 3.6 -- Solution -- Example 3.7 -- Solution -- Relevant Journals -- Questions/Exercise -- References -- Water-Well Construction and Well Hydraulics -- Abstract -- 4.1. Construction of Water-Well -- 4.1.1. Importance of Proper Design and Construction of Well -- 4.1.2. Types of Well -- Bored Wells -- Drilled Wells -- 4.1.3. Well Construction -- 4.1.3.1. Principal Activities in Well Construction. , Site Selection -- Drilling -- 4.1.3.2. Drilling Methods -- 4.1.3.3. Definition of Relevant Terminologies -- 4.2. Well Design -- 4.2.1. Design Elements and Design Considerations -- Well Depth -- Casing Size and Material Type -- Well Screen -- Slot Size Openings -- Screen Length, Pattern, Total Open Area, and Placement -- Screen Material -- Filter Material -- Casing Materials -- 4.2.2. Design Criteria and Procedure -- Diameter of Slot/SCREEN opening -- Screen Open Area -- Length of Screen -- Position of Screen -- Screen Material -- Hydraulic Criteria/Velocity of Water -- Diameter of Screen Pipe, Vertical Velocity -- Gravel Pack/Filter Material -- 4.3. Well Completion and Development -- 4.3.1. Well Completion -- Well Casing and Sealing -- The Annular Seal -- Annulus Seal -- Well Cap -- Filter Material -- 4.3.2. Well Development -- 4.3.3. Disinfection of Well -- 4.3.4. Economic Considerations -- 4.4. Well Hydraulics -- 4.4.1. Relevant Terminologies -- Specific Capacity -- Well Capacity or Yield -- Well Efficiency -- 4.4.2. Well Yield in Aquifer -- 4.4.2.1. Flow of Water to Well in Unconfined Aquifer -- Theim Equation -- 4.4.2.2. Flow of Water to Well in Confined AQUIFER -- Theis Equation -- Derivation of the Equation -- 4.5. Pumping Test/Well Yield Test and Determination of Aquifer Parameters -- 4.5.1. Relevant Terminologies -- Residual Drawdown -- Specific Capacity -- Well Efficiency -- 4.5.2. Perspectives of Pumping Test -- 4.5.3. General Assumptions in Pumping Test -- 4.5.4. Constant Rate Test -- Observation Wells -- 4.5.5. Step Wise Test -- 4.5.6. Analysis of Pump Test Data -- Theis Method -- Cooper-Jacob Method -- Time-Drawdown Approach -- Distance-Drawdown Approach -- Theis Recovery Approach -- Limitations -- Relevant Journals -- Questions/Exercises -- References -- Management of Water Resources -- Abstract. , 5.1. Concept of Water Resources Management.

Note: Intro -- Preface -- Contents -- About the Authors -- List of Abbreviations and Acronyms -- Pamirian Spaces: Mapping Process Geographies in the Mountainous Periphery -- Introduction -- Protection of Indigenous Rights? -- Alai and Pamirs: Environmental Niche and Hub of Ecological Resources -- Border Processes -- Scope of the Volume -- References -- Pamir or Pamirs: Perceptions and Interpretations -- Introduction -- Colonial Exploration of the Pamirian Void -- Classification of Exclusion and Inclusion -- The Pamir Highway: An Internal Artery Motivating Cross-­Border Road Construction -- Regionalisation of the Pamirs: Introduction of the Various Pamirian Regions -- Importance of the Pamirian Knot -- References -- Archival Records -- Who Is Mapping the Pamirs? A Review on Plant and Vegetation Sciences -- Introduction -- Data Collection -- Discussion of the Dataset -- Results -- Paper Statistics -- Journal Statistics -- Author Statistics -- Coauthor Networks -- Discussion -- References -- Geomorphic Features of the Eastern Pamirs, with a Focus on the Occurrence of Intermontane Basins -- Introduction -- Regional Setting -- Tectonic Features -- Present and Past Climatic Features -- Intermontane Basins in the Eastern Pamirs -- Tectonic Basins -- Basins Related to Downstream Damming -- Glaciated Basins -- Alichur Pamir -- Great Pamir -- Little Pamir -- Concluding Remarks -- References -- Water of the Pamir - Potential and Constraints -- Introduction -- Observed Glacier Changes -- Observed Runoff Changes -- Future Trends -- Conclusions -- References -- Khans, Kings, Communists, Warlords and Presidents: Afghan Kirghiz Socioeconomic Strategies for Extorting and Extracting from the State -- Introduction -- State-Society Relations: The Kirghiz Experience -- Political Capital -- Non-state Sources of Patronage -- A Direct Line to Kabul. , The Politics of State Patronage -- A Last Migration for the Afghan Kirghiz? -- References -- Changes in the Relationship Between Borders and Pastoral Mobility in Mountain Regions of Central Asia -- National Independence: An Obstacle for Transboundary Pastoral Mobility in Central Asia? -- Spatial Boundaries and Pastoral Mobility: A Tricky Relationship -- 'Containment of Chaotic Land Use' under Russia's Colonial Rule -- 'Nationalisation of the Means of Production' and Planned Economy in Soviet Times -- Contemporary Suppressed Transboundary Mobility -- Conclusion: Effects and Risks of Resource-Related 'Othering' Strategies -- Interview Partners -- References -- Seasonal Pasture Use and Vegetation Cover Changes in the Alai Valley, Kyrgyzstan -- Introduction -- Study Area -- Data Set and Methods -- Interviews -- Satellite-Based Vegetation Index Data -- Grazing Intensity -- GIS -- Results -- Seasonal Pasture Use -- Changes in Vegetated Cover -- Analysis of Grazing Intensity -- Discussion -- Conclusions -- References -- Diversity of Seasonal Migration of Livestock in the Eastern Alai Valley, Southern Kyrgyzstan -- Introduction -- Study Area and Method -- Movement Patterns of Livestock Grazing in the Eastern Alai Valley -- Sary-Tash -- Taldy-Suu -- Seasonal Pastoral Practise and Natural Environments in the Eastern and Western Alai Valley -- Discussion -- Comparison Between the Eastern and Western Valleys -- Inequality of Pastureland Use and Future Sustainability -- Conclusions -- References -- Kezüü and Novad: A Form of Pastoralism in the Eastern Alai Valley, Southern Kyrgyzstan -- Introduction -- Development of the Cooperative Daily Grazing System of Kezüü/Novad in the Alai Valley -- Study Area and Method -- The Cooperative Daily Grazing System of Kezüü in Sary-Tash and Taldy-Suu -- Kezüü in Sary-Tash AA -- Kezüü in Taldy-Suu AA. , Types of Kezüü and Novad Throughout the Entire Alai Valley -- Types of Kezüü and Novad Throughout the Entire Alai Valley -- References -- External Support and Local Agency: Uncertain Transformations of Livelihoods in the Pamirian Borderland of Tajikistan -- Introduction -- Borderlands as Social Space -- Historic Legacy: The Pamirs as a Soviet Borderland -- Persistence and Change in Tajikistan's Borderland During the Transition Period -- Russian Border Forces: Persisting Role after the Soviet Dissolution -- Post-Soviet Economic Realities: Humanitarian Relief and Dissolution of Exchange Relations -- Livelihood Trajectories in the Border District -- Less Urgency for Economic Success -- 'Hidden' Emergency Assistance -- Exclusive Buffer Zone Access -- Conclusions -- Interview Partners -- References -- The Current Status of Lifestyle and Occupations in the Wakhan Area of Tajikistan -- Introduction -- General Description of the Wakhan Area and Its Inhabitants -- Status of Agriculture and Local Society -- Agriculture and Other Employment -- Infrastructure and Education -- Introducing Sustainable Tourism -- Conclusions -- References -- Political Ecology of Human-Environment Change in Gojal, Gilgit-Baltistan, Pakistan -- Introduction -- Legal and Constitutional Liminality -- Global Conservation -- Transnational Ismailism -- Road Infrastructure -- The Attabad Landslide -- Conclusion -- References -- The Changes in Regional Structure and Land Use Related to External Factors in Hussaini Village, Northern Pakistan -- Introduction -- Changes in the Regional Structure and Farmland Use in Hussaini Village -- The Period of Isolation before the Opening of the Karakoram Highway -- The Period of Opening Up: The 1980s Until the Late 2000s -- The Period between 2010 and the Present after the Emergence of the Dammed Lake -- Conclusions -- References. , Humanitarianism Across Mountain Valleys: "Shia Aid" and Development Encounters in Northern Pakistan and Eastern Tajikistan -- Introduction -- Entering Contact Zones -- Developing Hunza -- Education for Nagar -- Saving and Substituting in the State in Gorno-Badakhshan -- Worldly Duties and Sectarian Aims -- Conclusion -- References -- History of the Development of the Pamir Region of Tajikistan (Gorno-Badakhshan) -- Introduction -- Early Development History -- Nineteenth-Century Russian Exploration -- Permanent Russian Presence and Early Development Activities -- Population Growth -- Soviet Period -- Socialist Revolution in a Muslim Country -- Food Production -- The Post-Soviet Period and the Aga Khan Foundation -- A New Paradigm -- Sustainable Solutions -- Health -- Emergency Needs -- Pharmaceuticals -- Essential Hospital Services -- Health Management Information System (HMIS) -- Education -- Agricultural Reform -- Food Diversification -- Village-Level Autonomy -- Gender and Social Equality -- Energy -- Challenges and Future Prospects -- References -- Conclusions: Why Do We Need to Make Efforts to Map the Transition? -- Introduction -- Transitions: Driven by External Pressures or Internal Efforts? -- The Next Step -- References.

Note: Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Editor -- Contributors -- Chapter 1 The Soil-Human Health-Environment Trinity -- 1.1 Introduction -- 1.2 Soil Organic Matter in Relation to the Health of Soil and the Environment -- 1.3 Historic Depletion of the Terrestrial C Stock -- 1.4 Soil Organic Matter Depletion and Soil/Environment Degradation -- 1.5 The Soil-Human Health Nexus -- 1.6 Interconnected Vicious Cycles Prevalent in Degraded Soils of Agroecosystems -- 1.7 Choice of Entry Points for Breaking the Vicious Circles -- 1.8 Enhancing Human Nutrition by Soil Management -- 1.9 Research and Development Priorities -- 1.10 Conclusions -- References -- Chapter 2 Health of Soil, Plants, Animals, and People -- 2.1 Overview -- 2.2 One Health -- 2.3 Soil Health -- 2.3.1 Soil and Life -- 2.3.2 Soil Health -- 2.3.3 Soil Health and Human Health -- 2.3.4 Soil Management and Human Health -- 2.4 Plant Health -- 2.4.1 Soil Health and Its Indicators in Agriculture System -- 2.4.2 Plant Pathogens and Their Caused Destructive Diseases on Plants -- 2.4.3 Agricultural Practices Affect Plant and Soil Health -- 2.4.4 Plant- and Soil-Associated Microbiomes for Plant Growth and Health -- 2.5 Animal Health -- 2.5.1 Livestock Production-Soil and Plant Health -- 2.5.2 Effects of Soil on Animal Health -- 2.5.3 Effects of Plants on Animal Health -- 2.5.4 Effect of Animals on Soil and Plant Health -- 2.6 Human Health -- 2.6.1 Human Activity Impacts Soil Health -- 2.6.2 Soil Impact Physically -- 2.6.3 Soil Impact on Human Nutrition -- 2.6.4 Toxic Compounds in Soil Impact Human Health -- 2.6.5 Soil Pathogens -- 2.6.6 Soil as Source of Modern Antibiotics and Other Benefits -- 2.7 Conclusions -- References -- Chapter 3 Transport of Mineral Elements from Soil and Human Health -- 3.1 Introduction. , 3.2 Transport of Essential Mineral Elements in Rice -- 3.2.1 Transport of Fe in Rice -- 3.2.2 Transport of Zn in Rice -- 3.3 Transport of Toxic Elements -- 3.3.1 Transport of As in Rice -- 3.3.2 Transport of Cd in Rice -- 3.4 Future Perspective -- Acknowledgements -- References -- Chapter 4 Soils and Human Health: Communication between Soil Scientists and Health Care Providers -- 4.1 Introduction -- 4.1.1 Brief Overview of Soils and Human Health Connections -- 4.1.1.1 Writings by Soil Scientists and Geologists -- 4.1.1.2 Writings by Human Health Professionals -- 4.1.2 Soil Health (As Defined) Represents a Key Life Sustaining "Factor" Just as Clean Air and Clean and Abundant Water -- 4.2 Soils Knowledge Useful to the Practitioner -- 4.2.1 Basic Soil Physical and Chemical Properties -- 4.2.2 Basic Soil Biological Properties -- 4.2.3 Soil Health -- 4.2.4 Soil and Climate Connections -- 4.3 Ways to Facilitate Communication -- 4.3.1 Publications in Jointly Read Journals -- 4.3.2 Facilitating Joint Conferences -- 4.3.3 University Education That Crosses Disciplines -- 4.4 Concluding Statements -- Acknowledgements -- References -- Chapter 5 Soil and Cancer -- 5.1 Introduction -- 5.2 Carcinogenesis -- 5.3 Carcinogens -- 5.4 Soil Health -- 5.4.1 Soil Composition -- 5.4.1.1 Selenium -- 5.4.1.2 Lead -- 5.4.1.3 Arsenic -- 5.4.1.4 Trichloroethylene -- 5.4.1.5 Perfluorooctanoic Acid -- 5.4.1.6 1,2-Dichloropropane -- 5.4.1.7 Dichloromethane -- 5.4.1.8 1,3-Propane Sultone -- 5.4.1.9 Fibrous Glaucophane -- 5.4.1.10 Radon -- 5.4.2 Pollution -- 5.4.3 Pesticides -- 5.4.3.1 Non-Hodgkin's Lymphoma -- 5.4.3.2 Leukemia -- 5.4.3.3 Brain Cancer -- 5.4.3.4 Breast Cancer -- 5.4.3.5 Kidney Cancer -- 5.4.3.6 Pancreatic Cancer -- 5.4.3.7 Prostate Cancer -- 5.4.3.8 Lung Cancer -- 5.4.3.9 Stomach Cancer -- 5.5 Nutrition -- 5.6 Possible Interventions -- 5.6.1 Selenium -- 5.6.2 Phenols. , 5.6.3 Outside-the-Box Therapies -- Appendix -- References -- Chapter 6 Addressing Urban Mal- and Undernourishment through Sustainable Home Gardens -- 6.1 Introduction -- 6.2 Malnutrition -- 6.3 Micronutrient Deficiency in Diet and Human Health -- 6.4 Health Benefits of Fruits and Vegetables -- 6.5 Heavy Metal and Contaminants in Urban Soil and Human Health -- 6.6 Home Gardens for Fruits and Vegetables -- 6.7 Yields of Fruits and Vegetables in the Home Gardens -- 6.8 Concluding Remarks -- References -- Chapter 7 Improving Human Health by Remediating Polluted Soils -- 7.1 Introduction -- 7.2 Soil Pollutant Problems -- 7.2.1 Prevention -- 7.2.1.1 Combustibles (Organics) -- 7.2.1.2 Inorganic Toxins (Metals) -- 7.2.1.3 Biotoxins -- 7.3 Already Polluted Soil Remediation -- 7.3.1 Phytoremediation -- 7.3.2 "Treatment" with Powdered Basalt -- 7.3.3 Desalinated Water Soil Washing -- 7.4 Discussion -- 7.5 Conclusion -- References -- Chapter 8 Managing Soil for Global Peace by Eliminating Famines and Pandemics -- 8.1 Introduction -- 8.1.1 State-of-the-World Soils -- 8.1.2 Soil and Human Health -- 8.2 Population -- 8.2.1 Global Trends -- 8.2.2 Urbanization -- 8.3 Famines -- 8.3.1 Global History -- 8.3.2 Causes of Famines -- 8.4 Pandemics and Hunger -- 8.4.1 Global History -- 8.4.2 Population and Pandemics -- 8.5 Achieving Zero Hunger and Malnutrition by 2030 -- 8.6 The Soil-Peace-Famine-Pandemic Nexus -- 8.7 Lessons Learned from Historic Pandemics and Famines -- 8.7.1 Knowledge Gaps -- 8.8 Conclusions -- References -- Chapter 9 Illustrating a Disjoint in the Soil-Plant-Human Health Nexus with Potassium -- 9.1 Introduction -- 9.2 Definitions -- 9.3 Potassium as an Indicator for Health Outcomes -- 9.4 Review -- 9.4.1 Search Process -- 9.4.2 Soil Health and Potassium -- 9.4.2.1 Potassium Status in Global Croplands -- 9.4.3 Plant Health and Potassium. , 9.4.3.1 Potassium for Yield Building -- 9.4.3.2 Potassium for Quality Improvement -- 9.4.3.3 Potassium for Biotic and Abiotic Stress Management -- 9.4.4 Human Health and Potassium -- 9.4.4.1 Dietary Potassium Requirement in Humans -- 9.4.4.2 Food Sources for Dietary Potassium -- 9.4.4.3 Dietary Potassium Intake in Different Countries/Regions -- 9.4.4.4 Potassium and Disease Incidence -- 9.4.4.5 Potassium in Immune System Disorders -- 9.4.4.6 Potassium in Cancer and Autoimmune Diseases -- 9.4.4.7 Potassium and Infectious Diseases -- 9.5 Interactions among Health Components -- 9.5.1 Case Study -- 9.5.1.1 Potato as a Source of Nutrients and Energy -- 9.5.1.2 Linking Soil and Potato Plant Health to Human Health -- 9.5.1.3 Postharvest Fate of Tuber Nutrients -- 9.6 Conclusions -- References -- Chapter 10 Soil Aquaphotomics for Understanding Soil-Health Relation through Water-Light Interaction -- 10.1 Introduction -- 10.2 Foundations of Aquaphotomics -- 10.3 Soil Health and Aquaphotomics -- 10.4 Aquaphotomics in Water Quality Assessment and Monitoring -- 10.5 Aquaphotomics in Microbiology -- 10.6 Aquaphotomics and Plant-Soil System Health -- 10.7 Implications to Human Health and Future Perspectives -- List of Abbreviations -- References -- Chapter 11 Healthy Soils-Healthy People: Soil and Human Health-The Reality of the Balkan Region -- 11.1 Introduction -- 11.2 Natural Characteristics of the Region -- 11.2.1 Geomorphological Characteristics -- 11.2.2 Climate Characteristics -- 11.2.3 Forests -- 11.2.4 Water Resources -- 11.2.5 Biodiversity Conservation and Management -- 11.3 Soils of the Region -- 11.4 State of the Soil and the Main Degradation Drivers -- 11.4.1 Climate Change -- 11.4.2 Soil Erosion and Torrential Floods -- 11.4.3 Agriculture and Land Degradation -- 11.4.3.1 Loss of SOC -- 11.4.3.2 Acidification and Salinization -- 11.4.4 Forestry. , 11.4.5 Urbanization -- 11.4.6 Mass Movements on Slopes -- 11.4.7 Waste Management -- 11.4.8 Energetics, Mining, and Industry -- 11.5 Soil Pollution and Human Health -- 11.6 Land Use Changes and Land Degradation Neutrality -- 11.7 Concluding Remarks -- References -- Chapter 12 Heavy Metals Bioavailability in Soils and Impact on Human Health -- 12.1 Introduction -- 12.2 Sources of Heavy Metals -- 12.2.1 Parent Material -- 12.2.1.1 Black Shales -- 12.2.1.2 Limestones -- 12.2.1.3 Phosphorites -- 12.2.1.4 Sedimentary Ironstones -- 12.2.2 Anthropogenic Sources of Heavy Metals -- 12.2.2.1 Fertilizers -- 12.2.2.2 Sewage Effluents and City Wastes -- 12.2.2.3 Industrial Wastes -- 12.2.2.4 Vehicle Transport -- 12.3 Soil Factors Affecting Heavy Metal Mobility and Bioavailability in Soils -- 12.3.1 Soil pH -- 12.3.2 Soil Texture -- 12.3.3 Soil Organic Matter Content and Its Form -- 12.3.4 Oxidation-Reduction Potential -- 12.3.5 Ionic Strength -- 12.3.6 Chemical Speciation and Nature of Contamination -- 12.3.7 Iron and Manganese Oxides -- 12.4 Pathways of Metal Transfer to Humans -- 12.4.1 Media Serving as Carriers of Heavy Metals -- 12.4.2 Avenues of Transfer of the Heavy Metals from the Carriers to Humans -- 12.4.3 Transfer of Heavy Metals from Soil to Plants to Humans -- 12.4.4 Impact of Heavy Metals on Human Health -- 12.5 Measures to Reduce Bioavailability of Heavy Metals -- 12.5.1 Regulation of pH of the Holding Medium Such as Soil -- 12.5.2 Agricultural Measures to Reduce Metal Transfer to the Food Chain -- 12.5.3 Extraction of the Metals from the Soil -- 12.5.4 Use of Chemical Stabilizers to Prohibit Bioavailability -- 12.6 Summary and Conclusions -- References -- Chapter 13 Managing Soil Biology for Multiple Human Benefits -- 13.1 Introduction: The Many Benefits That Humans Obtain from Soil Biodiversity. , 13.2 Promoting Specific Ecosystem Functions with Targeted Introductions of Soil Biota.