Eco Targets, Goal Functions, and Orientors

This book introduces a new concept in ecosystem theory and discusses it in an interdisciplinary framework, originating in succession theory, network theory and thermodynamics. The central hypothesis claims that there are certain system attributes which are regularly optimized in the course of ecosys...

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Bibliographic Details
Other Authors: Müller, Felix (Editor), Leupelt, Maren (Editor)
Format: eBook
Language:English
Published: Berlin, Heidelberg Springer Berlin Heidelberg 1998, 1998
Edition:1st ed. 1998
Subjects:
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • 1 Introduction: Targets, Goals and Orientors
  • 1 Targets, Goals and Orientors
  • 2 The Theoretical Approach: Tendencies of Ecosystem Development
  • 2.1 The Physical Basis of Ecological Goal Functions - Fundamentals, Problems and Questions
  • 2.2 Ecological Orientors: Emergence of Basic Orientors in Evolutionary Self-Organization
  • 2.3 Ecological Orientors: Pattern and Process of Succession in Relation to Ecological Orientors
  • 2.4 Thermodynamic Orientors: Exergy as a Goal Function in Ecological Modeling and as an Ecological Indicator for the Description Ecosystem Development
  • 2.5 Thermodynamic Orientors: Exergy as a Holistic Ecosystem Indica-tor: A Case Study
  • 2.6 Thermodynamic Orientors: How to Use Thermodynamic Concepts in Ecology
  • 2.7 Thermodynamic Orientors: A Review of Goal Functions and Ecosys-tern Indicators
  • 2.8 Network Orientors: Steps Towards a Cosmography of Ecosystems: Orientors for Directional Development, Self-Organization, and Autoevolution
  • 3.2 The Relativity of Orientors: Interdependence of Potential Goal Functions and Political and Social Developments
  • 3.3 Constructions of Environmental Issues in Scientific and Public Discourse
  • 3.4 Ethics and Environment: How to Found Political and SocioEconomic Targets
  • 3.5 Teleology and Goal Functions: What are the Concepts of Optimality and Efficiency in Evolutionary Biology
  • 3.6 Conclusions: A Generalizing Framework for Biological Orientation
  • 4 The Diversity of Targets: Problems of Combining Natural and Human Orientors
  • 4.1 Introduction: Human Targets in Relation to Land Use
  • 4.2 Ecosystem and Society: Orientation for Sustainable Development
  • 4.3 Human Orientors: A System Approach for Transdisciplinary Com-munication of Sustainable Development by Using Goal Functions
  • 4.4 Human Orientors: Ecological Targets and Environmental Law
  • 4.5 Applying Thermodynamic Orientors: Coupled Economic and Envi-ronmental Growth and Development
  • 5.6 Applying Thermodynamic Orientors: Tools of Orientor Optimiza-tion as a Basis for Decision Making Process
  • 5.7 Deriving Eco Targets from Ecological Orientors: Marine Ecological Quality Objectives: Science and Management Aspects
  • 5.8 Deriving Eco Targets from Ecological Orientors: Goals and Orien-tors of an Integrated Regional Planning for a Sustainable Land-Use
  • 5.9 Deriving Eco Targets from Ecological Orientors: Ecological Orien-tors for Landscape Planning
  • 5.10 Integrating Diverging Orientors: Sustainable Agriculture: Ecological Targets and Future Land-Use Changes
  • 5.11 Conclusion: Potentials and Limitations of a Practical Application of the Eco Target and Orientor Concept
  • 6 Coclusion: Targets, Goals and Orientors
  • 6 Targets, Goals and Orientors: Concluding and Re-Initializing the Discussion
  • 2.9 Network Orientors: A Utility Goal Function Based on Network Synergism
  • 2.10 Network Orientors: Theoretical and Philosophical Considerations why Ecosystems may Exhibit a Propensity to Increase in Ascendency
  • 2.11 Applying Thermodynamic Orientors: Goal Functions in the Holling Figure-Eight Model
  • 2.12 Quantifying Ecosystem Maturity - a Case Study
  • 2.13 Case Studies: Orientors and Ecosystem Properties in Coastal Zones
  • 2.14 Case Studies: Modeling Approaches for the Practical Application of Ecological Goal Functions
  • 2.15 Case Studies: Soil as the Interface of the Ecosystem Goal Function and the Earth System Goal Function
  • 2.16 The Physical Basis of Ecological Goal Functions - Fundamentals, Problems and Questions
  • 3 The Philosophical Basis: Aspects from Evolution Theory and Philosophy of Science
  • 3.1 Introduction: Philosophical Aspects of Goal Functions
  • 4.6 Ecological- Economic Budgets: Society’s Maneuver Towards Sus-tainable Development: Information and the Setting of Target Values
  • 4.7 Targets of Nature Conservation: Consequences for Ecological and Economic Goal Functions
  • 4.8 Conclusion: Sustainability as a Level of Integration for Diverging Targets?
  • 5 The Practical Consequences: Eco Targets as Goal Functions in Environmental Management
  • 5.1 Introduction: Orientors and Goal Functions for Environmental Planning - Questions and Outlines
  • 5.2 Integrating Diverging Orientors: Quantifying the Interaction of Human and the Ecosphere: The Sustainable Process Index
  • 5.3 Applying Thermodynamic Orientors: The Use of Exergy as an Indi-cator in Environmental Management
  • 5.4 Integrating Diverging Orientors: Time Scale Effects withRespect to Sustainability
  • 5.5 Deriving Eco Targets from Ecological Orientors: Goals of Nature Conservation and their Realization on the Landscape Scale