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Complexity and Complex Ecological Systems

  • 1st Edition - March 22, 2023
  • Latest edition
  • Author: Stanislaw Sieniutycz
  • Language: English

Complexity and Complex Ecological Systems is an extension of Elsevier’s 2021 book Complexity and Complex Chemo-Electric Systems directed toward the analysis and synthesis of divers… Read more

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Description

Complexity and Complex Ecological Systems is an extension of Elsevier’s 2021 book Complexity and Complex Chemo-Electric Systems directed toward the analysis and synthesis of diverse ecological processes running in heterogeneous macrosystems. Contemporary advanced techniques such as averaged analysis, food webs approaches, and classical optimization results along with some numerical algorithms are commonly used in ecosystems. This book treats ecological systems as specific functional integrities. In Complexity and Complex Ecological Systems, one can observe how various types of ecological heterogeneities can contribute to flows of living and inanimate parts of the moving pseudo-continuum.

This book is a valuable reference for scientists, engineers, and graduate students of environmental, chemical, and biological engineering, helping them better understand complex macroscopic systems and enhance their technical skills in theoretical and practical research.

Key features

  • Covers the basic aspects of modeling, analysis, synthesis, and optimization of ecological systems
  • Contains theory of selected ecosystems and explanations of how it can be used in applications
  • Includes original drawings and drafts that illustrate the properties of diverse ecosystems
  • Written by an expert in advanced methods of biophysics and macroscopic physics

Readership

University students and researchers in theoretical and applied ecology specialized in energy sources. Researchers in industry involved in operations linked with unit processes, e.g. chemical transformation or purification of out-coming streams. Researchers in industry involved in the environment, linked with chemical or other processes, e.g. chemical transformation or purification of outgoing streams

Table of contents

Chapter 1: Early Works in Ecology and Ecological Optimization

1.1 Introduction

1.2 Classical thermodynamics and the second law

1.3 Extended laws of thermodynamics

1.4 Dissipative structures, degraders, and related problems

1.5 Destructive entropy production

1.6 The origin of life: A brief introduction

1.7 Thermodynamics of ecosystems as energy degraders

1.8 Order from disorder and order from order
References
Further Reading

Chapter 2: Further Development of Thermodynamic Views in Ecology

2.1 Introduction

2.2 Thermodynamics and Ecology

2.3 Thermodynamics and Living world

2.4 The Origin of Quantification: A Brief Introduction
References
Further Reading

Chapter 3: Ascendent Perspective of Ulanowicz

3.1 Introduction

3.2 A cause driving development

3.3 Quantification of growth and development

3.4 System ascendancy
References
Further reading

Chapter 4: Genetic diversity and the spread of populations

4.1Introduction

4.2 Methods

4.3 Results

4.4 Discussion
References
Appendix

Chapter 5: Robust statistic inference for complex computer models

5.1 Introduction

5.2 Why does the model error affect statistics differently?

5.3 A toolbox for statistical inference in complex computer situations

5.4. Discussion
References

Chapter 6: Trophic Relations of Coastal and Estuarine Ecosystems

6.1 Introduction

6.2 Trophic Relationships of Coastal and Estuarine Ecosystems

6.3 Benthic–Pelagic Coupling and Sediment Transport

6.4 Plecoptera (Stoneflies)

6.5 Mangrove Trophic Interactions and Estuarine Ecosystems

6.6 Spatial aspects of food webs

6.7 Summary
References

Chapter 7: Dynamic Food Webs

7.1 Introduction

7.2 Food web science on the path from abstraction to prediction

7.3 Food Webs as Units

7.4 Components of Food Webs

7.5 Food Web Links

7.6 Drivers of Temporal and Spatial Variation

7.7 Theories, Tests, and Applications

7.8 Discussion and Conclusions
References

Chapter 8: Outline of Mathematical Ecology

8.1 Population dynamics

8.2 Spatial patterns in one-species populations

8.3 Spatial relations for multiple species

8.4 Feldman’s review
References

Chapter 9: Optimizing in Ecological Systems

9.1 Introducing Standard Form of Continuous Optimization

9.2 Dynamic Programming Search of Optimal Quality Function

9.3 Continuous Maximum Principle

9.4. Solving Methods for Maximum Principle Equations

9.5. Discrete Versions of Maximum Principle

9.6. Classification and Comparison of Various Computational Methods for Optimization of Functionals
References

Product details

  • Edition: 1
  • Latest edition
  • Published: March 22, 2023
  • Language: English

About the author

SS

Stanislaw Sieniutycz

Stanislaw Sieniutycz is a former member of the Committee of Engineering at the Polish Academy of Sciences and also a professor of chemical engineering at the Warsaw University of Technology, Poland. His research focuses on problems of chemical, environmental, ecological, and biomechanical engineering with emphasis on analysis, control, and optimization of these systems. He is a former member of the Editorial Board of Open System and Information Dynamics and an honorary editor of the Journal of Non-Equilibrium Thermodynamics. He has served as an associate editor of Advances in Thermodynamics Series and Energy & Conversion Management. He has published 12 books, 250 articles, and 152 conference papers. He has been a visiting professor at the University of Budapest, University of Bern, University of San Diego, University of Delaware, and University of Chicago.
Affiliations and expertise
Professor of Chemical Engineering, Warsaw University of Technology, Faculty of Chemical and Process Engineering, Poland

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