Comparison between p‐distance and single‐locus species delimitation models for delineating reproductively tested strains of pennate diatoms (Bacillariophyceae) using cox1, rbcL and ITS

Comparison between p‐distance and single‐locus species delimitation models for delineating reproductively tested strains of pennate diatoms (Bacillariophyceae) using cox1, rbcL and ITS

Several automated molecular methods have emerged for distinguishing eukaryote species based on DNA sequence data. However, there are knowledge gaps around which of these single‐locus methods is more accurate for the identification of microalgal species, such as the highly diverse and ecologically re...

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Bibliographic Details
Published in:The Journal of eukaryotic microbiology Vol. 70; no. 5; pp. e12986 - n/a
Main Authors: Franco, Andréa de O. da R., Ashworth, Matt P., Odebrecht, Clarisse
Format: Journal Article
Language:English
Published: United States Wiley Subscription Services, Inc 01-09-2023
Subjects:
ABGD
ASAP
Bacillariophyceae
Deoxyribonucleic acid
Diatoms
DNA
DNA sequences
GMYC
Marine microorganisms
microalgae species
molecular taxonomy
Nucleotide sequence
Phylogeny
Plankton
PTP
Reproductive isolation
Species
SPNA
systematics
taxonomy
ABGD
GMYC
SPNA
microalgae species
molecular taxonomy
taxonomy
systematics
PTP
ASAP
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Summary:Several automated molecular methods have emerged for distinguishing eukaryote species based on DNA sequence data. However, there are knowledge gaps around which of these single‐locus methods is more accurate for the identification of microalgal species, such as the highly diverse and ecologically relevant diatoms. We applied genetic divergence, Automatic Barcode Gap Discovery for primary species delimitation (ABGD), Assemble Species by Automatic Partitioning (ASAP), Statistical Parsimony Network Analysis (SPNA), Generalized Mixed Yule Coalescent (GMYC) and Poisson Tree Processes (PTP) using partial cox1, rbcL, 5.8S + ITS2, ITS1 + 5.8S + ITS2 markers to delineate species and compare to published polyphasic identification data (morphological features, phylogeny and sexual reproductive isolation) to test the resolution of these methods. ASAP, ABGD, SPNA and PTP models resolved species of Eunotia, Seminavis, Nitzschia, Sellaphora and Pseudo‐nitzschia corresponding to previous polyphasic identification, including reproductive isolation studies. In most cases, these models identified diatom species in similar ways, regardless of sequence fragment length. GMYC model presented smallest number of results that agreed with previous published identification. Following the recommendations for proper use of each model presented in the present study, these models can be useful tools to identify cryptic or closely related species of diatoms, even when the datasets have relatively few sequences.
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content type line 23
ISSN:1066-5234
1550-7408
DOI:10.1111/jeu.12986