Litcius/Paper detail

iTaxoTools 0.1: Kickstarting a specimen-based software toolkit for taxonomists

Miguel Vences, Aurélien Miralles, Sophie Brouillet, Jacques Ducasse, Alexander Fedosov, Vladimir Kharchev, Ivaylo Kostadinov, Sangeeta Kumari, Stefanos Patmanidis, Mark D. Scherz, Nicolas Puillandre, Susanne S. Renner

2021Megataxa184 citationsDOIOpen Access PDF

Abstract

While powerful and user-friendly software suites exist for phylogenetics, and an impressive cybertaxomic infrastructure of online species databases has been set up in the past two decades, software targeted explicitly at facilitating alpha-taxonomic work, i.e., delimiting and diagnosing species, is still in its infancy. Here we present a project to develop a bioinformatic toolkit for taxonomy, based on open-source Python code, including tools focusing on species delimitation and diagnosis and centered around specimen identifiers. At the core of iTaxoTools is user-friendliness, with numerous autocorrect options for data files and with intuitive graphical user interfaces. Assembled standalone executables for all tools or a suite of tools with a launcher window will be distributed for Windows, Linux, and Mac OS systems, and in the future also implemented on a web server. The initial version (iTaxoTools 0.1) distributed with this paper (https://github.com/iTaxoTools/iTaxoTools-Executables) contains graphical user interface (GUI) versions of six species delimitation programs (ABGD, ASAP, DELINEATE, GMYC, PTP, tr2) and a simple threshold-clustering delimitation tool. There are also new Python implementations of existing algorithms, including tools to compute pairwise DNA distances, ultrametric time trees based on non-parametric rate smoothing, species-diagnostic nucleotide positions, and standard morphometric analyses. Other utilities convert among different formats of molecular sequences, geographical coordinates, and units; merge, split and prune sequence files, tables and species partition files; and perform simple statistical tests. As a future perspective, we envisage iTaxoTools to become part of a bioinformatic pipeline for next-generation taxonomy that accelerates the inventory of life while maintaining high-quality species hypotheses. The open source code and binaries of all tools are available from Github (https://github.com/iTaxoTools) and further information from the website (http://itaxotools.org).

Topics & Concepts

ExecutableComputer sciencePython (programming language)Graphical user interfaceSoftwareOS XUnixProgramming languageData miningSpecies Distribution and Climate ChangeGenetic diversity and population structureGenomics and Phylogenetic Studies