Key Features
• Describes a hypothesis that life itself generates higher biodiversity
• Suggests a highly modified version of the established paradigm in population biology and evolution
• Asserts that all species are ecosystem engineers with a net positive effect on biodiversity and their ecosystems
• Suggests that mutualism and commensalism are the rule
• Presents a novel view likely to elicit deeper discussions of biodiversity
Related Titles
Dewdney, A. K. Stochastic Communities: A Mathematical Theory of Biodiversity (ISBN
978-1-138-19702-2)
Curry, G. B. and C. J. Humphries, eds. Biodiversity Databases: Techniques, Politics, and
Applications (ISBN 978-0-367-38916-1)
Pullaiah, T, ed. Global Biodiversity. 4 Volume Set (ISBN 978-1-77188-751-9)
Key Features
• Describes a hypothesis that life itself generates higher biodiversity
• Suggests a highly modified version of the established paradigm in population biology and evolution
• Asserts that all species are ecosystem engineers with a net positive effect on biodiversity and their ecosystems
• Suggests that mutualism and commensalism are the rule
• Presents a novel view likely to elicit deeper discussions of biodiversity
Related Titles
Dewdney, A. K. Stochastic Communities: A Mathematical Theory of Biodiversity (ISBN
978-1-138-19702-2)
Curry, G. B. and C. J. Humphries, eds. Biodiversity Databases: Techniques, Politics, and
Applications (ISBN 978-0-367-38916-1)
Pullaiah, T, ed. Global Biodiversity. 4 Volume Set (ISBN 978-1-77188-751-9)