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      Things fall apart: biological species form unconnected parsimony networks.

      Biology letters
      Animals, Butterflies, classification, genetics, DNA, Mitochondrial, chemistry, Haplotypes, Phylogeny, Sequence Alignment, Snails

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          Abstract

          The generality of operational species definitions is limited by problematic definitions of between-species divergence. A recent phylogenetic species concept based on a simple objective measure of statistically significant genetic differentiation uses between-species application of statistical parsimony networks that are typically used for population genetic analysis within species. Here we review recent phylogeographic studies and reanalyse several mtDNA barcoding studies using this method. We found that (i) alignments of DNA sequences typically fall apart into a separate subnetwork for each Linnean species (but with a higher rate of true positives for mtDNA data) and (ii) DNA sequences from single species typically stick together in a single haplotype network. Departures from these patterns are usually consistent with hybridization or cryptic species diversity.

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          Author and article information

          Journal
          17650475
          2391196
          10.1098/rsbl.2007.0307

          Chemistry
          Animals,Butterflies,classification,genetics,DNA, Mitochondrial,chemistry,Haplotypes,Phylogeny,Sequence Alignment,Snails

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