4 found
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  1. Making the most of clade selection.W. Ford Doolittle - 2017 - Philosophy of Science 84 (2):275-295.
    Clade selection is unpopular with philosophers who otherwise accept multilevel selection theory. Clades cannot reproduce, and reproduction is widely thought necessary for evolution by natural selection, especially of complex adaptations. Using microbial evolutionary processes as heuristics, I argue contrariwise, that (1) clade growth (proliferation of contained species) substitutes for clade reproduction in the evolution of complex adaptation, (2) clade-level properties favoring persistence – species richness, dispersal, divergence, and possibly intraclade cooperation – are not collapsible into species-level traits, (3) such properties (...)
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  2. Modern Synthesis is the Light of Microbial Genomics.Austin Booth, Carlos Mariscal & W. Ford Doolittle - 2016 - Annual Reviews of Microbiology 70 (1):279-297.
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  3. Community-level evolutionary processes: Linking community genetics with replicator-interactor theory.Christopher Lean, W. Ford Doolittle & Joseph Bielawski - 2022 - Proceedings of the National Academy of Sciences 119 (46):e2202538119.
    Understanding community-level selection using Lewontin’s criteria requires both community-level inheritance and community-level heritability, and in the discipline of community and ecosystem genetics, these are often conflated. While there are existing studies that show the possibility of both, these studies impose community-level inheritance as a product of the experimental design. For this reason, these experiments provide only weak support for the existence of community-level selection in nature. By contrast, treating communities as interactors (in line with Hull’s replicator-interactor framework or Dawkins’s idea (...)
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  4. Eukaryotes first: how could that be? [REVIEW]Carlos Mariscal & W. Ford Doolittle - 2015 - Philosophical Transactions of the Royal Society B: Biological Sciences 370:1-10.
    In the half century since the formulation of the prokaryote : eukaryote dichotomy, many authors have proposed that the former evolved from something resembling the latter, in defiance of common (and possibly common sense) views. In such ‘eukaryotes first’ (EF) scenarios, the last universal common ancestor is imagined to have possessed significantly many of the complex characteristics of contemporary eukaryotes, as relics of an earlier ‘progenotic’ period or RNAworld. Bacteria and Archaea thus must have lost these complex features secondarily, through (...)
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