Phylogenetic trees based on ASTRAL analysis with posterior probabilities from BPP species delimitation analyses for study "Standardized nuclear markers advance metazoan taxonomy", L. Dietz et al., Nature, submitted For questions, contact Dirk Ahrens (d.ahrens@leibniz-zfmk.de) or Lars Dietz (l.dietz@leibniz-zfmk.de) All trees are in NEWICK format. Names of individual trees consist of, in this order: - number of replicate analysis - name of genus - beta prior for theta (population size) - beta prior for tau (divergence time) usco_A1.tre: Trees for full datasets based on approach 1 of all nine study cases from five replicate BPP runs for each of the nine prior combinations. usco_A1_nogaps.tre: Trees for datasets with all gaps removed based on approach 1 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the full dataset. usco_A1_nogaps.tre: Trees for datasets with all gaps removed based on approach 1 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the no-gaps dataset. usco_A1_noambigs.tre: Trees for datasets with all gaps and ambiguities removed based on approach 1 of all nine study cases from five replicate BPP runs for each of the nine prior combinations., based on ASTRAL tree of the full dataset. usco_A1_noambigs.tre: Trees for datasets with all gaps and ambiguities removed based on approach 1 of all nine study cases from five replicate BPP runs for each of the nine prior combinations., based on ASTRAL tree of the no-gaps dataset. usco_A2.tre: Trees for full datasets based on approach 2 of all nine study cases from five replicate BPP runs for each of the nine prior combinations. usco_A2_nogaps.tre: Trees for datasets with all gaps removed based on approach 2 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the full dataset. usco_A2_nogaps.tre: Trees for datasets with all gaps removed based on approach 2 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the no-gaps dataset. usco_A2_noambigs.tre: Trees for datasets with all gaps and ambiguities removed based on approach 2 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the full dataset. usco_A2_noambigs.tre: Trees for datasets with all gaps and ambiguities removed based on approach 2 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the no-gaps dataset. usco_A3.tre: Trees for full datasets based on approach 3 of all nine study cases from five replicate BPP runs for each of the nine prior combinations. usco_A3_nogaps.tre: Trees for datasets with all gaps removed based on approach 3 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the full dataset. usco_A3_nogaps.tre: Trees for datasets with all gaps removed based on approach 3 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the no-gaps dataset. usco_A4.tre: Trees for full datasets based on approach 4 of all nine study cases from five replicate BPP runs for each of the nine prior combinations. usco_A4_nogaps.tre: Trees for datasets with all gaps removed based on approach 4 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the full dataset. usco_A4_nogaps.tre: Trees for datasets with all gaps removed based on approach 4 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the no-gaps dataset. usco_A5.tre: Trees for full datasets based on approach 5 of all nine study cases from five replicate BPP runs for each of the nine prior combinations. usco_A5_nogaps.tre: Trees for datasets with all gaps removed based on approach 5 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the full dataset. usco_A5_nogaps.tre: Trees for datasets with all gaps removed based on approach 5 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the no-gaps dataset. usco_A6.tre: Trees for full datasets based on approach 6 of all nine study cases from five replicate BPP runs for each of the nine prior combinations. usco_A6_nogaps.tre: Trees for datasets with all gaps removed based on approach 6 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the full dataset. usco_A6_nogaps.tre: Trees for datasets with all gaps removed based on approach 6 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the no-gaps dataset. usco_A7.tre: Trees for full datasets based on approach 7 of all nine study cases from five replicate BPP runs for each of the nine prior combinations. usco_A7_nogaps.tre: Trees for datasets with all gaps removed based on approach 7 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the full dataset. usco_A7_nogaps.tre: Trees for datasets with all gaps removed based on approach 7 of all nine study cases from five replicate BPP runs for each of the nine prior combinations, based on ASTRAL tree of the no-gaps dataset.