ABSTRACT
Premise of the study Evolutionary relationships among plants have been inferred primarily using chloroplast data. To date, no study has comprehensively examined the plastome for gene tree conflict.
Methods Using a broad sampling of angiosperm plastomes, we characterized gene tree conflict among plastid genes at various time scales and explore correlates to conflict (e.g., evolutionary rate, gene length, molecule type).
Key results We uncover notable gene tree conflict against a backdrop of largely uninformative genes. We find gene length is the strongest correlate to concordance, and that nucleotides outperform amino acids. Of the most commonly used markers, matK greatly outperforms rbcL; however, the rarely used gene rpoC2 is the top-performing gene in every analysis. We find that rpoC2 reconstructs angiosperm phylogeny as well as the entire concatenated set of protein-coding chloroplast genes.
Conclusions Our results suggest that longer genes are superior for phylogeny reconstruction. The alleviation of some conflict through the use of nucleotides suggests that systematic error is likely the root of most of the observed conflict, but further research on biological conflict within plastome is warranted given the documented cases of heteroplasmic recombination. We suggest rpoC2 as a useful marker for reconstructing angiosperm phylogeny, reducing the effort and expense of assembling and analyzing entire plastomes.