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Integrated River Basin Management: Practice Guideline for the IO Table Compilation and CGE Modeling [Minkštas viršelis]

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  • Formatas: Paperback / softback, 99 pages, aukštis x plotis: 235x155 mm, weight: 1825 g, 9 Illustrations, black and white; XII, 99 p. 9 illus., 1 Paperback / softback
  • Serija: SpringerBriefs in Environmental Science
  • Išleidimo metai: 02-Jun-2014
  • Leidėjas: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • ISBN-10: 3662434652
  • ISBN-13: 9783662434659
Kitos knygos pagal šią temą:
Integrated River Basin Management: Practice Guideline for the IO Table Compilation and CGE ModelingDidesnis paveikslėlis
  • Formatas: Paperback / softback, 99 pages, aukštis x plotis: 235x155 mm, weight: 1825 g, 9 Illustrations, black and white; XII, 99 p. 9 illus., 1 Paperback / softback
  • Serija: SpringerBriefs in Environmental Science
  • Išleidimo metai: 02-Jun-2014
  • Leidėjas: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • ISBN-10: 3662434652
  • ISBN-13: 9783662434659
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9783662434659.html
Raktažodžiai:
Establishing multi-scale optimal water allocation modes which takes the enhancement of utilization efficiency as core is a research hotspot for the international water resources management of river basins. This book aims to introduce how to compile the first set of county-level IO tables involving resources and environment accounts with integrated datasets which contains the spatio-temporal data of water and land resources, ecology and social economy in the river basin and to construct an integrated Computable General Equilibrium (CGE) model with resources and environment accounts embedded, which can be used to quantitatively depict the key process parameters of the water-ecology-social economy coupling system. Thus, this book can provide decision support for integrated river basin management, and scientific support for the sustainable development of social economy, eco-environment and water resources.
1 Introduction and Overview
1(18)
1.1 Background of Integrated Water Management
1(1)
1.2 Overview of Input--Output Table
2(6)
1.2.1 Theoretical Exploitation and Empirical Studies
4(2)
1.2.2 The Differences Between National and Regional Input--Output Study
6(1)
1.2.3 The User Needs of Compiling Regional Input--Output Tables
7(1)
1.3 Overview of Computable General Equilibrium (CGE) Model
8(11)
1.3.1 Application of CGE Model in Water Management
8(2)
1.3.2 An Integrated CGE Model with Resource and Environment Account
10(3)
1.3.3 Challenges Facing the Integrated CGE Models
13(1)
References
14(5)
2 Approach of Input--Output Table at Regional Level
19(16)
2.1 Methods of Commodity Flows Estimation
19(4)
2.1.1 Location Quotients
20(1)
2.1.2 Gravity Model
21(1)
2.1.3 Regression Equation
22(1)
2.2 Methods of Input--Output Table Compilation
23(7)
2.2.1 Survey-Based Regional Input--Output Methods
24(3)
2.2.2 Non-Survey-Based Regional Input--Output Methods
27(3)
2.3 The Water and Land Resources Integrated Input--Output Table
30(5)
2.3.1 The Water Resource Integrated Input--Output Table
31(1)
2.3.2 The Land Resource Integrated Input--Output Table
32(2)
References
34(1)
3 Compilation of Regional Input--Output Table
35(22)
3.1 Preparatory Work
35(3)
3.2 Questionnaire Structure and Fill Method
38(1)
3.3 Steps of Input--Output Table Compilation
38(7)
3.4 Data Collection Methods
45(7)
3.4.1 Historical Records
47(1)
3.4.2 Statistical Survey
47(5)
3.5 Identification of the Leading Industries
52(5)
3.5.1 Concept of Leading Industry
52(1)
3.5.2 Identification Methods
53(4)
4 The Integrated CGE Model Construction
57(22)
4.1 Model Framework and Function
57(1)
4.2 Equations Included in the Integrated CGE Model
58(16)
4.2.1 Price Equations
58(3)
4.2.2 Production-Related Equations Defined at the National Level
61(2)
4.2.3 Production-Related Equations Defined at the Subnational Level
63(4)
4.2.4 Water Demand and Supply
67(1)
4.2.5 Imports and Exports
68(2)
4.2.6 Incomes and Demands
70(3)
4.2.7 Factor Markets
73(1)
4.3 Model Notations
74(5)
References
78(1)
5 Implementation
79
5.1 Interactive Model Building Environment
81(2)
5.2 Database of the Model
83(3)
5.3 The Percentage-Change Approach to Model Solution
86(3)
5.4 Levels and Linearized Systems Compared
89(2)
5.5 The Initial Solution
91(1)
5.6 The Key Function of Water and Land Accounts
92(4)
5.7 The TABLO Language
96
References
99
Professor Xiangzheng Deng is a senior research fellow from the Institute of Geographical Sciences and Natural Resources Research, Chinese Academy of Sciences. His research areas include Land-Use/Land Cover Change, Hydrology, Ecosystem Service, Urbanization and Global Environmental Change and Regional Sustainable Development. He has published more than one hundred pieces of papers. As a leading scientist, he is presiding over quite a lot of projects including the grants from Natural Science Foundation of United States, Natural Sciences Foundation of China, Ministry of Science and Technology of China, etc. He develops a couple of models, e.g., Dynamics of Land System (DLS) model, Computable General Equilibrium of Land Use Change (CGELUC) model and Dynamic Agricultural Production (DynaAP) model, which are capable of simulating the dynamics and consequences of land system changes and which are widely used in land planning and environment planning.