Evaluation of six regions for their potential as DNA barcodes in epiphyllous liverworts from Thailand.

Premise Of The Study: Studies on the diversity of epiphyllous bryophytes have been limited because of minute and incomplete specimens and a lack of taxonomic expertise. The recent development of the DNA barcoding approach has allowed taxon identification and species discovery of many obscure groups of organisms.

Methods: With DNA extractions from 99 samples of 16 species, we compared the efficiencies of six DNA markers (, , , , ITS1, and ITS2) in their ability to amplify, using a standard set of primers, as well as their discriminatory power, using distance-based and tree-based approaches with nucleotide data.

Results: The amplification success was relatively high (70-90%) with all of the markers, except for , which yielded no success. The barcoding gap, as calculated from the difference between inter- and intraspecific genetic distances, was the highest in ITS2, whereas the highest numbers of monophyletic groups were found with ITS2 and .

Discussion: should be used as a main barcoding marker with the addition of ITS2 for epiphyllous species. The development of DNA barcoding as a tool for quantifying species diversity will provide a rapid and reliable identification tool for epiphyllous bryophytes.