عنوان
پدید آورنده
موضوع
رده
QH 541.15 .S5 J67 2001
QH
541
.
15
.
S5
J67
2001
کتابخانه
محل استقرار
OTHER STANDARD IDENTIFIER
Standard Number
electronic
TITLE AND STATEMENT OF RESPONSIBILITY
First Statement of Responsibility
J?rgensen, Sven Erik
Title Proper by Another Author
4391-
Title Proper
Fundamentals of ecological modelling
.PUBLICATION, DISTRIBUTION, ETC
Place of Publication, Distribution, etc.
Amsterdam ; New York
Name of Publisher, Distributor, etc.
Elsevier
Date of Publication, Distribution, etc.
2001
PHYSICAL DESCRIPTION
Specific Material Designation and Extent of Item
xii, 530 p. : ill., maps ; 25 cm.
SERIES
Series Title
Developments in environmental modelling ;12
GENERAL NOTES
Text of Note
Includes bibliographical references )p. 501-522(
NOTES PERTAINING TO TITLE AND STATEMENT OF RESPONSIBILITY
Text of Note
by S.E. J?rgensen and G. Endoricchio
NOTES PERTAINING TO EDITION AND BIBLIOGRAPHIC HISTORY
Text of Note
3rd ed
CONTENTS NOTE
Text of Note
Machine generated contents note: Preface, Third Edition -- Acknowledgements -- 1. Introduction -- 1.1 Physical and Mathematical Models -- 1.2 Models as a Management Tool -- 1.3 Models as a Scientific Tool -- 1.4 Models and Holism -- 1.5 The Ecosystem as an Object for Research -- 1.6 Outline of the Book -- 1.7 The Development of Ecological and Environmental Models -- 1.8 State of the Art in the Application of Models -- 2. Concepts of Modelling -- 2.1 Introduction -- 2.2 Modelling Elements -- 2.3 The Modelling Procedure -- 2.4 Types of Model -- 2.5 Selection of Model Type -- 2.6 Selection of Model Complexity and Structure -- 2.7 Verification -- 2.8 Sensitivity Analysis -- 2.9 Parameter Estimation -- 2.01 Validation -- 2.11 Ecological Modelling and Quantum Theory -- 2.21 Modelling Constraints -- Problems -- 3. Ecological Processes -- 3A.1 Space and Time Resolution -- 3A.2 Mass Transport -- 3A.3 Mass Balance -- 3A.4 Energetic Factors -- 3A.5 Settling and Resuspension -- 3B.1 Chemical Reactions -- 3B.2 Chemical Equilibrium. -- 3B.3 Hydrolysis -- 3B.4 Redox -- 3B.5 Acid-Base -- 3B.6 Adsorption and Ion Exchange -- 3B.7 Volatilization -- 3C.1 Biogeochemical Cycles in Aquatic Environments -- 3C.2 Photosynthesis -- 3C.3 Algal Growth -- 3C.4 Zooplankton Growth -- 3C.5 Fish Growth -- 3C.6 Single Population Growth -- 3C.7 Ecotoxicological Processes -- Problems -- 4. Conceptual Models -- 4.1 Introduction -- 4.2 Application of Conceptual Diagrams -- 4.3 Types of Conceptual Diagrams -- 4.4. The Conceptual Diagram as Modelling Tool -- Problems -- 5. Static Models -- 5.1 Introduction -- 5.2 Network Models -- 5.3 Network Analysis -- 5.4 ECOPATH Software -- 5.5 Response Models -- 6. Modelling Population Dynamics -- 6.1 Introduction -- 6.2 Basic Concepts -- 6.3 Growth Models in Population Dynamics -- 6.4 Interaction between Populations -- 6.4 Matrix Models -- Problems -- 7. Dynamic Biogeochemical Models -- 7.1 Introduction -- 7.2 Application of Dynamic Models -- 7.3 Eutrophication Models I: Overview and Two Simple Eutrophication -- Models -- 7.4 Eutrophication Models II: A Complex Eutrophication Model -- 7.5 A Wetland Model -- Problems -- 8. Ecotoxicological Models -- 8.1 Classification and Application of Ecotoxicological Models -- 8.2 Environmental Risk Assessment -- 8.3 Characteristics and Structure of Ecotoxicological Models -- 8.4 An Overview: The Application of Models in Ecotoxicology -- 8.5 Estimation of Ecotoxicological Parameters -- 8.6 Ecotoxicological Case Study I: Modelling the Distribution of Chromii -- in a Danish Fjord -- 8.7 Ecotoxicological Case Study II: Contamination of Agricultural Produi -- by Cadmium and Lead -- 8.8 Ecotoxicological Case Study III: A Mercury Model for Mex Bay, -- Alexandria -- 8.9 Fugacity Fate Models -- Problems -- 9. Recent Developments in Ecological and Environmental Modelling -- 9.1 Introduction -- 9.2 Ecosystem Characteristics -- 9.3 Structurally Dynamic Models -- 9.4 Four Illustrative Structurally Dynamic Case Studies -- 9.5 Application of Chaos Theory in Modelling -- 9.6 Application of Catastrophe Theory in Ecological Modelling -- 9.7 New Approaches in Modelling Techniques -- Problems -- Appendix 1. Mathematical Tools -- A.1 Vectors -- A.2 Matrices -- A.3 Square Matrices. Eigenvalues and Eigenvectors -- A.4 Differential Equations -- A.5 Systems of Differential Equations -- A.6 Numerical Methods -- Appendix 2. Definition of Expressions, Concepts and Indices -- Appendix 3. Parameters for Fugacity Models -- References -- Subject Index
TOPICAL NAME USED AS SUBJECT
Entry Element
Simulation methods ، Ecology
LIBRARY OF CONGRESS CLASSIFICATION
Class number
QH
541
.
15
.
S5
J67
2001
PERSONAL NAME - PRIMARY RESPONSIBILITY
Relator Code
AU
AU Bendoricchio, G
TI
SE
