“Living fossils” and the mosaic evolution of characters

Rieppel, Olivier

doi:10.3389/fevo.2023.1119418

Front. Ecol. Evol.

2023

DOI: 10.3389/fevo.2023.1119418

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“Living fossils” and the mosaic evolution of characters

Olivier Rieppel

Abstract: The modern discussion of living fossils turns mostly on the persistence of archaic, or ancestral, traits in extant organisms. Prime examples mentioned by Darwin already—who also coined the term “living fossil”—include the platypus and the extant lungfishes. However, the identification of archaic traits in extant organisms requires a basis of comparison, i.e., it requires an estimate of the phylogenetic interrelationships of the living fossil in question. Phylogenetic relationships are determined not on the bas… Show more

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Pollination syndromes and the origins of floral traits

Assis

2023

Annals of Botany

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Background A general view in the study of pollination syndromes is that floral traits usually represent convergent floral adaptations to specific functional pollinator groups. However, the definition of convergence is elusive and contradictory in the literature. Is convergence the independent evolution of either the same trait or similar traits with the same function? A review of the concept of convergence in developmental biology and phylogenetic systematics may shed new light in studies of pollination syndromes. Scope The aims of this article are (1) to explore the notion of convergence and other concepts (analogy, homoplasy and parallelism) within the theory and practice of developmental evolution and phylogenetic systematics; (2) to modify the definitions of syndromes in order to embrace the concepts of analogy and convergence; (3) to revisit the bat pollination syndrome in the context of angiosperm phylogeny, with focus on the showy ‘petaloid’ organs associated with the syndrome; (4) to revisit the genetic-developmental basis of flower colour; (5) to raise evolutionary hypotheses of floral evolution associated with the bat pollination syndrome; and (6) to highlight some of the current frontiers of research on the origin and evolution of flowers and its impact on pollination syndrome studies in the 21st century. Conclusions The inclusion of the concepts of analogy and convergence within the concept of syndromes will constitute a new agenda of inquiry that integrates floral biology, phylogenetic systematics and developmental biology. Phyllostomid and pteropodid bat pollination syndrome traits in eudicots and monocots represent cases of analogous and convergent evolution. Pollination syndromes are a multivariate concept intrinsically related to the understanding of flower organogenesis and evolution. The formulation of hypotheses of pollination syndromes must consider the phylogenetic levels of universality for both plant and animal taxa, flower development, genetics, homology and evolution, and a clear definition of evolutionary concepts, including analogy, convergence, homoplasy and parallelism.

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Pollination syndromes and the origins of floral traits

Assis

2023

Annals of Botany

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Darwin’s Green Living Fossil: The Microalga Cyanophora paradoxa and Evolutionary Stasis

Kutschera,

Khanna

2024

Microorganisms

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“Living fossils” and the mosaic evolution of characters

Cited by 2 publications

References 25 publications

Pollination syndromes and the origins of floral traits

Pollination syndromes and the origins of floral traits

Darwin’s Green Living Fossil: The Microalga Cyanophora paradoxa and Evolutionary Stasis

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