Biodiversity Maintenance, Function, Origin, and Self-Organisation into Life-Support Systems

Species are not functionally independent. From a long-term perspective, only ecosystem with a fully integrated nutrient cycle is alive. The lack of trophic autonomy should be considered one of the key factors that ensure and maintain biodiversity. The variability of abiotic conditions, both in space and in time, also creates a huge diversity of niches and subniches for genotypes and species. In addition, life maintains its essential variables (biomass and productivity) as stable as possible due to the diversity of structures (genes, macromolecules, metabolic pathways, genotypes, species, etc.): the structures that reach optima are multiplied and thus activated, while the functioning of those which lost their optima is suppressed.

The facts and concepts presented in this monograph thus support the conclusions that 

(a) genotype and species diversity is supported by trophic specialisation

(c) in evolution, the emergence of biodiversity is determined by heritable variation and the advantage of specialised (more effective) structures over non-specialised ones

Part I IN SEARCH FOR A FUNCTIONAL EXPLANATION

1 Introduction: contemporary biology struggles to explain the great diversity of genotypes and species

2 Methodological excursion: an apology for theoretical synthesis, simplicity, deductive method and conceptual modelling

3 Species do not just ‘struggle

4 Species diversity as trophic specialisation

5 Producer diversity as reflection of variation in the abiotic environment

6 Do consumers maintain diversity of their food sources

7 Species diversity ensures higher total biomass and helps to stabilise it

8 Conspecifics do not just ‘struggle’ either

9 Genotype diversity as even more delicate specialisation

10 Environmental fluctuations and the daily role of selection

11 Summing-up: Biodiversity and plasticity of life (General Adaptation Theory)

12 So, is nature a battlefield or a cooperative arena?

Part II IN SEARCH FOR A SYNTHETIC EXPLANATION

13 Why an evolutionary biologist should start with ecological succession

14 Primary succession and self-organisation of biodiversity

15 Colonisation of the Hawaiian Islands, or how evolution complements succession

16 Self-assembly of ecosystems in the Paleozoic: Overview of the latest sources

17 Self-assembly of ecosystems in the Paleozoic: Interpretation and summary

18 The origin of life, and self-assembly of modern nutrient cycles

19 Appearance of modern ecological pyramids. Summing-up

20 Supercompetitors. Homo sapiens as a consumer of biodiversity

21 Has Darwin’s theory really become obsole

AFTERWORD

INDEX