10.6084/m9.figshare.10494299.v1 Xia Wang Xia Wang Ho Kwan Tang Ho Kwan Tang Julia A. Clarke Julia A. Clarke Supporting information for dataset, figures and images. from Flight, symmetry and barb angle evolution in the feathers of birds and other dinosaurs The Royal Society 2019 barb angle evolution feathers bird dinosaurs 2019-11-20 08:59:02 Journal contribution https://rs.figshare.com/articles/journal_contribution/Supporting_information_for_dataset_figures_and_images_from_Flight_symmetry_and_barb_angle_evolution_in_the_feathers_of_birds_and_other_dinosaurs/10494299 There has been much discussion over whether basal birds (e.g. <i>Archaeopteryx</i> and <i>Confuciusornis)</i> exhibited active flight. A recent study of barb angles has suggested they likely could not but instead may have exhibited a gliding phase. Pennaceous primary flight feathers were proposed to show significant shifts in barb angle values of relevance to the inference of flight in these extinct taxa. However, evolutionary trends in the evolution of these barb angle traits in extant volant taxa were not analysed in a phylogenetic frame. Neither the ancestral crown avian condition nor the condition in outgroup dinosaurs with symmetrical feather were assessed. Here, we expand the fossil sample and reanalyse these data in a phylogenetic frame. We show that extant taxa, including strong flyers (e.g. some songbirds), show convergence on trailing barb angles and barb angle asymmetry observed in these Mesozoic taxa that were proposed to be non-fliers. Trailing barb angles in these Mesozoic taxa are similar to symmetrical feathers in outgroup dinosaurs indicating selective regimes acted to modify primarily the leading-edge barb angles. These trends inform dynamics in feather shape evolution and challenge the notion that these ratios in extant birds directly inform the reconstruction of function in extinct stem taxa.