Wednesday Seminar

14803 1542788067

Paul Rainey: Ecological scaffolding and the evolution of individuality

  • Date: Dec 12, 2018
  • Time: 11:30 - 12:30
  • Speaker: Paul Rainey
  • Department of Microbial Population Biology, Max Planck Institute for Evolutionary Biology, Plön, Germany & Laboratoire de Génétique de l’Evolution, Ecole Supérieure de Physique et de Chimie Industrielles de la Ville de Paris, Paris, France.
  • Location: MPIPZ
  • Room: Lecture hall
  • Host: Paul Schulze-Lefert
Life is hierarchically structured, with replicating entities nested within higher order self-replicating structures. Take, for example, multicellular life: the multicellular entity replicates, as do the cells that comprise the organism. Inside cells are mitochondria that also have capacity for autonomous replication; the same is true of chromosomes within the nucleus, and of genes that comprise chromosomes. Such hierarchical structure reflects a series of major evolutionary transitions in which lower order self-replicating entities have been subsumed within higher order structures. Typically this involves the lower level entity “giving up its right to autonomous replication” and with this “sacrifice” comes enslavement to the “needs” of the higher order “corporate body”. Posed in these terms it is difficult to see how evolutionary transitions unfold; how selection might shift levels and why life is hierarchically structured. Necessary for progress is clarity concerning what needs to be explained. I will argue that this is the evolution of Darwinian Individuality — the evolution of properties of entities (variation, reproduction and heredity) that ensure participation in the process of evolution by natural selection. There has been a tendency to assume these properties as pre-existing, but they are not: they are derived and require evolutionary explanation. Pressing to the heart of the problem, the challenge is to explain how Darwinian properties emerge from non-Darwinian entities by non-Darwinian means. This challenge permeates each evolutionary transition including the emergence of life from non-life. I will argue that solutions to this seemingly unsolvable problem arise once we consider ecology. Following theoretical presentation of core ideas I will describe experiments that show how scaffolding can be applied. I will pay particular attention to the evolution of reproduction during fraternal transitions and discuss the how millifluidic technologies can be used to study the evolution of heredity during egalitarian transitions.
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