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Literature DB >> 29241941

Finding Evolutionary Processes Hidden in Cryptic Species.

Torsten H Struck¹, Jeffrey L Feder², Mika Bendiksby³, Siri Birkeland⁴, José Cerca⁴, Vladimir I Gusarov⁴, Sonja Kistenich⁴, Karl-Henrik Larsson⁴, Lee Hsiang Liow⁵, Michael D Nowak⁴, Brita Stedje⁴, Lutz Bachmann⁴, Dimitar Dimitrov⁶.

Abstract

Cryptic species could represent a substantial fraction of biodiversity. However, inconsistent definitions and taxonomic treatment of cryptic species prevent informed estimates of their contribution to biodiversity and impede our understanding of their evolutionary and ecological significance. We propose a conceptual framework that recognizes cryptic species based on their low levels of phenotypic (morphological) disparity relative to their degree of genetic differentiation and divergence times as compared with non-cryptic species. We discuss how application of a more rigorous definition of cryptic species in taxonomic practice will lead to more accurate estimates of their prevalence in nature, better understanding of their distribution patterns on the tree of life, and increased abilities to resolve the processes underlying their evolution.

Entities: Gene

Keywords: biodiversity; convergence; genetic divergence; parallelism; phenotypic stasis; taxonomy

Mesh：

Year: 2017 PMID： 29241941 DOI： 10.1016/j.tree.2017.11.007

Source DB: PubMed Journal: Trends Ecol Evol ISSN： 0169-5347 Impact factor: 17.712

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Cited

39 in total

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8. Resolving cryptic species complexes in marine protists: phylogenetic haplotype networks meet global DNA metabarcoding datasets.

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10. Delimiting cryptic species within the brown-banded bamboo shark, Chiloscyllium punctatum in the Indo-Australian region with mitochondrial DNA and genome-wide SNP approaches.

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