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Full-Text Articles in Biology
Microbial Diversity In The Eukaryotic Sar Clade: Illuminating The Darkness Between Morphology And Molecular Data, Jean David Grattepanche, Laura M. Walker, Brittany M. Ott, Daniela L. Paim Pinto, Charles F. Delwiche, Christopher E. Lane, Laura A. Katz
Microbial Diversity In The Eukaryotic Sar Clade: Illuminating The Darkness Between Morphology And Molecular Data, Jean David Grattepanche, Laura M. Walker, Brittany M. Ott, Daniela L. Paim Pinto, Charles F. Delwiche, Christopher E. Lane, Laura A. Katz
Biological Sciences: Faculty Publications
Despite their diversity and ecological importance, many areas of the SAR—Stramenopila, Alveolata, and Rhizaria—clade are poorly understood as the majority (90%) of SAR species lack molecular data and only 5% of species are from well-sampled families. Here, we review and summarize the state of knowledge about the three major clades of SAR, describing the diversity within each clade and identifying synapomorphies when possible. We also assess the “dark area” of SAR: the morphologically described species that are missing molecular data. The majority of molecular data for SAR lineages are characterized from marine samples and vertebrate hosts, highlighting the need for …
How Discordant Morphological And Molecular Evolution Among Microorganisms Can Revise Our Notions Of Biodiversity On Earth, Daniel J.G. Lahr, Haywood Dail Laughinghouse, Angela M. Oliverio, Feng Gao, Laura A. Katz
How Discordant Morphological And Molecular Evolution Among Microorganisms Can Revise Our Notions Of Biodiversity On Earth, Daniel J.G. Lahr, Haywood Dail Laughinghouse, Angela M. Oliverio, Feng Gao, Laura A. Katz
Biological Sciences: Faculty Publications
Microscopy has revealed tremendous diversity of bacterial and eukaryotic forms. Recent molecular analyses show discordance in estimates of biodiversity between morphological and molecular analyses. Moreover, phylogenetic analyses of the diversity of microbial forms reveal evidence of convergence at scales as deep as interdomain: morphologies shared between bacteria and eukaryotes. Here, we highlight examples of such discordance, focusing on exemplary lineages such as testate amoebae, ciliates, and cyanobacteria. These have long histories of morphological study, enabling deeper analyses on both the molecular and morphological sides. We discuss examples in two main categories: (i) morphologically identical (or highly similar) individuals that are …