Buch, Englisch, 256 Seiten, Format (B × H): 152 mm x 229 mm
Buch, Englisch, 256 Seiten, Format (B × H): 152 mm x 229 mm
ISBN: 978-0-12-820789-5
Verlag: Elsevier Science
Cooperation in Biological and Social Systems analyzes cooperation within both biological networks and human societies. The book's approach is cross-disciplinary, focusing on key ideas and methods from genetics, biology, ecology, economics, and political science, while guiding students to make conceptual and mathematical connections between fields. The core objective of the book is to help students perceive the deep, common structure of networked interaction in nature, and to gain the tools necessary to formally analyze cooperation.
The book begins by offering a conceptual and mathematical toolkit centered on game theory and network science. Readers then apply these tools to the study of biological phenomena, including genetic networks, endosymbiosis, intraspecies cooperation, and mutualisms, in the following chapters. The final portion of the book presents case studies of the most pressing problems of collective action facing global society today, including climate change, cyberterrorism, and infectious disease, applying the lessons of biological and social evolution to the search for cooperative solutions.
Cooperation in Biological and Social Systems is a valuable resource for readers looking to gain further insight into biological networks and animal and human biology. This book is also helpful for students across academic disciplines aside from biology, including ecology, genetics, and political science.
Zielgruppe
Biological researchers (animal behavior, human behavior, anthropology, or evolutionary biology)
Advanced undergraduate and graduate students in biology, genetics, ecology, or studying animal and human behavior specifically
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
I. The Mathematical and Physical Basis of Cooperation1. What is cooperation? Physical, biological, and social formulations2. The mathematics of cooperation: an introduction to game theory3. The physics of cooperation: an introduction to complexity theory
II. Biological Cooperation4. Genomic cooperation: the creation of chromosomes5. Cellular cooperation: the rise of complex life6. Organismal cooperation: Hamilton's rule as the basis of kin selection, coordination, and reciprocal altruism7. Interspecies cooperation: mutualisms
III. Human Cooperation8. Social cooperation: gene-culture co-evolution in human societies9. Political cooperation: the social contract and democratic republics10. Economic cooperation: the evolution of markets11. International cooperation: a survey of major collective action problems
