. Upstream analyses create problems with DNA-based Bayesian species delimitation

OLAVE, M.; SOLA, E.; KNOWLES, L.

SYSTEMATIC BIOLOGY

OXFORD UNIV PRESS

Lugar: Oxford; Año: 2014

1063-5157

Genetic-based delimitation of species typically involves a multistep process in which DNA data is analyzed with a series of different programs. Although the performance of the programs associated with each step have been evaluated separately, no analysis has considered how errors in the upstream assignment of individuals to putative species impacts the accuracy of species delimited in downstream analyses, such as those associated with the coalescent-based Bayesian program bpp. Here we show that because the minimal data requirements for accurate performance in each of the separate steps involved in the delimitation process differ, the reliability of inferences about species delimited from genetic data can be compromised. Our results provide important insights into the practice of species delimitation. Specifically, even if users exercise the practices advocated for DNA-based delimitation, there may very well be errors in individual-species association, and consequently uncertainty in the guide tree (both derived from upstream analyses that are pre-requisites for analyses with bpp), which can lead to under or overestimation of biodiversity, even though the Bayesian program bpp itself may perform very well. These results highlight the usefulness of complementary data (i.e., data in addition to genetic data), especially for the assignment of individuals to putative species, to improve the accuracy of species delimitation.