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21 - The role of symbiosis in eukaryotic evolution
- from Part V - Mechanisms for life evolution
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- By Amparo Latorre, Institut Cavanilles de Biodiversitat i Biologia Evolution, València, Spain, Ana Durbán, Institut Cavanilles de Biodiversitat i Biologia Evolution, València, Spain, Andrés Moya, Institut Cavanilles de Biodiversitat i Biologia Evolution, València, Spain, Juli Peretó, Institut de Biologie Evolutive, València, Spain
- Edited by Muriel Gargaud, Université de Bordeaux, Purificación López-Garcìa, Hervé Martin, Université de Clermont-Ferrand II (Université Blaise Pascal), France
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- Book:
- Origins and Evolution of Life
- Published online:
- 04 February 2011
- Print publication:
- 06 January 2011, pp 326-344
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- Chapter
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Summary
Conceptual and historical framework
Botanists of the late nineteenth century were already familiar with microbial symbioses. In fact, the term ‘symbiosis’, meaning literally ‘living together’ was introduced by Anton de Bary and Albert Bernard Frank discussing lichens and mycorrhizae, respectively, at the end of the 1870s. However, until recent times, the idea that microbial associations are central in evolution remained almost marginal. The historian Jan Sapp (1994) proposed several reasons for that situation, including the traditional accent on microorganisms as causative agents of diseases and the prominent concepts of conflict and competition as major evolutionary driving forces. Darwin's metaphoric use of the term ‘struggle for existence’ included the ‘dependence of one being on another’, and he actually recognized the existence of species taking advantage of another species, but also emphasized the difficulty for his natural-selection theory to explain the emergence of structures in one species to benefit another (Darwin, 1859, p. 200). Lynn Margulis' contributions since the late 1960s on a symbiotic theory for cell evolution bridged the previous intellectual gap, and proposals made by forgotten biologists that had been dismissed were reopened – especially those of the Russian botany school (Khakhina, 1992; Margulis, 1993). Today there is a wide consensus on the essential role played by symbiosis during the origin and evolution of eukaryotic cells, although very passionate and fundamental debates still persist (de Duve, 2007).