Contents
Preface
Chapter 1 Introduction to Human-Water Relationship Discipline
  1.1  Background and significance
    1.1.1  Background of the proposal
    1.1.2  Development history
    1.1.3  Research significance
  1.2  Related concepts of human-water relationship discipline
    1.2.1  Concept of human-water system
    1.2.2  Concept of human-water relationship
    1.2.3  Concept of human-water relationship discipline
    1.2.4  Concept of human-water relationship science
  1.3  Discipline system and characteristics of human-water relationship discipline
    1.3.1  Research object and scope of human-water relationship discipline
    1.3.2  Subject system of human-water relationship discipline
    1.3.3  Characteristics of human-water relationship discipline
  1.4  Connection of human-water relationship discipline and water science
    1.4.1  Introduction to water science
    1.4.2  Research on human-water relationship is the core and nexus of water science
    1.4.3  Water science is the important foundation of human-water relationship discipline
  1.5  Advantages of human-water relationship discipline
Chapter 2 Theoretical System of Human-Water Relationship Discipline
  2.1  Basic principles of human-water relationship discipline
    2.1.1  Basic principles framework
    2.1.2  Human-water relationship interaction principle
    2.1.3  Human-water system adaptive principle
    2.1.4  Human-water system balance transfer principle
    2.1.5  Human-water relationship harmonious evolution principle
  2.2  Introduction and application analysis of main theories
    2.2.1  Human-water system theory
    2.2.2  Human-water cybernetics
    2.2.3  Human-water harmony theory
    2.2.4  Human-water game theory
    2.2.5  Human-water synergy theory
    2.2.6  Water crisis and conflict theory
    2.2.7  Human-water relationship dialectic theory
    2.2.8  Human-water system sustainable development theory
  2.3  Theoretical essentials of human-water relationship discipline
    2.3.1  Main arguments of human-water relationship discipline
    2.3.2  Time and space view of human-water relationship discipline
    2.3.3  System view of human-water relationship discipline
    2.3.4  Harmony view of human-water relationship discipline
    2.3.5  Ecological view of human-water relationship discipline
    2.3.6  Discriminant criteria of human-water relationship discipline
Chapter 3 Research Methods of Human-Water Relationship Discipline
  3.1  Overview of research methods of human-water relationship discipline
  3.2  Calculation methods of human-water relationship research
    3.2.1  Identification method
    3.2.2  Evaluation method
    3.2.3  Simulation method
    3.2.4  Regulation method
    3.2.5  Optimization method
  3.3  Technical methods of human-water relationship research
    3.3.1  Water disaster prevention technology
    3.3.2  Water resources saving technology
    3.3.3  Water pollution treatment technology
    3.3.4  Water ecological restoration technology
    3.3.5  Water information technology
Chapter 4 Research Contents of Human-Water Relationship Discipline
  4.1  Overview
    4.1.1  Main research contents and classification
    4.1.2  Correlation between different research contents
  4.2  Research on the mechanism of human-water relationship
    4.2.1  Review on the mechanism of human-water relationship
    4.2.2  Research on the relationship between farmland irrigation, crop yield and groundwater change
    4.2.3  Change in hydrological process caused by urbanization
    4.2.4  Effect of gate dam on water quality and quantity of polluted river
    4.2.5  Effect of water environment on human health
    4.2.6  Effect of climate change on grain yield
  4.3  Research on the change process of human-water relationship
    4.3.1  Review on the change process of human-water relationship
    4.3.2  River evolution and human activities
    4.3.3  Change process of runoff caused by reservoir construction
    4.3.4  Change process of downstream water quality/water ecology caused by reservoir construction
    4.3.5  Relationship between oasis area and water resources and its changing process
    4.3.6  Change in hydrological process caused by basin cover change
  4.4  Research on the simulation model of human-water relationship
    4.4.1  Review on the simulation model of human-water relationship
    4.4.2  Simulation of water yield effect of returning farmland to forest and grassland project
    4.4.3  Simulation of rainwater runoff reduction effect of sponge renovation in old urban areas
    4.4.4  Simulation of water environment improvement effect of river and lake system connectivity project
    4.4.5  Simulation of the effect of the silt dam on water and sediment
    4.4.6  Simulation of the effect of land use pattern on basin storm flood
    4.4.7  Distributed simulation of hydrological effect of soil and water conservation measure
    4.4.8  Basin distributed hydrological simulation under the surface-underground dual human activity interference
    4.4.9  Economic society-water-ecology distributed model
    4.4.10  Embedded system dynamics model for human-water relationship simulation
  4.5  Research on the scientific regulation of human-water relationship
    4.5.1  Review on the scientific regulation of human-water relationship
    4.5.2  Dynamic simulation and regulation of groundwater
    4.5.3  Emergency regulation of sudden water pollution accident
    4.5.4  Bilateral regulation model of water resources supply and demand
    4.5.5  Anti-pollution regulation of gate dam group based on simulation-optimization
    4.5.6  Multi-objective reservoir optimization dispatching
    4.5.7  Multi-objective optimal allocation of water resources
    4.5.8  Water-food-energy-ecology coordinated regulation
    4.5.9  Regional crop water consumption optimization
  4.6  Research on the policy system of human-water relationship
    4.6.1  Review on the policy system of human-water relationship
    4.6.2  Examples of the classification of involved policy system
    4.6.3  The strictest water resources management system
    4.6.4  Ecological compensation system
    4.6.5  Water resources argumentation system
    4.6.6  Water intake permit management system
    4.6.7  Summary and analysis of policies related to human-water relationship
Chapter 5 Human-Water Relationship Discipline and Water Control Idea
  5.1  China's water control idea and its reflection on the change of human-water relationship
    5.1.1  The idea of water resources sustainable utilization
    5.1.2  The idea of human-water harmony
    5.1.3  Water saving society construction
    5.1.4  The strictest water resources management
    5.1.5  Water ecological civilization construction
    5.1.6  River governor system
    5.1.7  National water network construction
    5.1.8  The water control idea of "water saving priority, spatial balance, systematic governance, two-handed force"
  5.2  Water control idea from the perspective of human-water relationship discipline
    5.2.1  Thoughts on water control idea from the perspective of human-water relationship discipline
    5.2.2  Solutions to the problem of flood and drought disaster prevention and control
    5.2.3  Solutions to the problem of water distribution in transboundary rivers
    5.2.4  Water resource behaviors regulation towards the carbon peak and carbon neutrality goals
    5.2.5  National water network construction based on regional water balance
Chapter 6 Human-Water Relationship Discipline and Water Engineering Construction
  6.1  Influence and research difficulties of water engineering construction
    6.1.1  Overview of water engineering
    6.1.2  Influence of water engineering construction on human-water system
    6.1.3  Problems and research difficulties of human-water relationship reflected by water engineering construction
  6.2  Water engineering construction from the perspective of human-water relationship
    6.2.1  Thoughts on water engineering construction from the perspective of human-water relationship discipline
    6.2.2  Solutions to the problem of trans-basin water transfer project demonstration
    6.2.3  Solutions to the problem of water conservancy hub construction in large rivers
    6.2.4  Key problems and solutions of national water network construction
Chapter 7 Analysis and Regulation of Human-Water Relationship in the Yellow River Basin, China
  7.1  Scope and overview of the study area of the Yellow River Basin
    7.1.1  Scope of different scale study areas in the Yellow River Basin
    7.1.2  Scope and overview of the Yellow River Basin
    7.1.3  Scope and overview of the administrative regions that the Yellow River mainstream flows through
    7.1.4  Scope and overview of the prefectural regions involved in the Yellow River Basin
    7.1.5  Scope and overview of the entire provincial regions that the Yellow River flows through
  7.2  History and representative views of Yellow River water control
    7.2.1  History of Yellow River water control
    7.2.2  Representative views of Yellow River water control
  7.3  Analysis of human-water relationship in the Yellow River Basin
    7.3.1  Complexity of human-water relationship in the Yellow River Basin
    7.3.2  Evolution process of human-water relationship in the Yellow River Basin
    7.3.3  Problems of human-water relationship in the Yellow River Basin
    7.3.4  Solutions to the difficult problems of human-water relationship based on the perspective of human-water relationship
discipline
  7.4  Relationship between water resources utilization level and economic and social development in the Yellow River Basin
    7.4.1  Research method
    7.4.2  Indicator selection and data source
    7.4.3  Calculation results and analysis
  7.5  Coupling coordination analysis of urbanization and water resources utilization in the Yellow River Basin
    7.5.1  Research method and data
    7.5.2  Spatiotemporal analysis of coupling coordination relationship
  7.6  Correlation evaluation of urbanization and ecological security in the Yellow River Basin
    7.6.1  Research method and data
    7.6.2  Calculation results and analysis
  7.7  Resource-ecology-economy harmonious development level and coupling coordination analysis of the Henan section of the
Yellow River
    7.7.1  Research method and data
    7.7.2  Calculation results and analysis
  7.8  Yellow River water distribution problem and harmonious water distribution scheme
    7.8.1  Ideas of water distribution in transboundary rivers
    7.8.2  Rules of water distribution in transboundary rivers
    7.8.3  Calculation methods of water distribution in transboundary rivers
    7.8.4  Calculation results of the new Yellow River water distribution scheme
Chapter 8 Analysis and Regulation of Human-Water Relationship in Henan Province, China
  8.1  Overview of Henan Province and water resources problems
    8.1.1  Overview of Henan Province
    8.1.2  Location and development advantages of Henan Province
    8.1.3  Water resources characteristics and problems in Henan Province
  8.2  Analysis of human-water relationship in Henan Province
    8.2.1  History of water control and evolution process of human-water relationship in Henan Province
    8.2.2  Analysis of human-water relationship problems in Henan Province
  8.3  Harmony assessment and regulation of human-water relationship in Henan Province
    8.3.1  Research method and data
    8.3.2  Spatiotemporal variation analysis of human-water harmony degree
    8.3.3  Identification of key factors affecting human-water harmony degree
    8.3.4  Regulation of human-water harmony degree
  8.4  Evaluation and optimization of water-energy-food synergy security in Henan Province
    8.4.1  Water-energy-food nexus
    8.4.2  Evaluation of water-energy-food synergy security
    8.4.3  Optimization of water-energy-food synergy security
  8.5  Water resource behaviors and carbon dioxide emission analysis in Henan Province
    8.5.1  The effect of water resource behaviors on carbon peak and carbon neutrality goals
    8.5.2  Carbon dioxide emission equivalent analysis of water resource behaviors
    8.5.3  Calculation results of carbon dioxide emission equivalent of water resource behaviors in Henan Province
Chapter 9 Development Prospects of Human-Water Relationship Discipline
  9.1  Prospects of human-water relationship discipline system
    9.1.1  Other disciplines involved in human-water relationship discipline
    9.1.2  Development prospects of human-water relationship discipline according to large subject group
  9.2  Prospects for research direction of human-water relationship discipline
    9.2.1  Prospects for the mechanism of human-water relationship
    9.2.2  Prospects for the change process of human-water relationship
    9.2.3  Prospects for the simulation model of human-water relationship
    9.2.4  Prospects for the scientific regulation of human-water relationship
    9.2.5  Prospects for the policy system of human-water relationship
  9.3  Prospects for development layout of human-water relationship discipline
    9.3.1  Scientific research plan
    9.3.2  Discipline construction planning
Reference
Appendix English and Chinese comparison of the main concepts of this book