Omics backbone: 70 terminals Backbone extension: analyzed 38 published source trees. Made 17 seperate subtree grafts, totalling 336 terminals. Species-level: terminals with matching COI barcode for 632 named species, single outgroup (Carabus_granulatus). Additional 757 sequences from 3 genes (16S, 18S, CAD). Known problems: Chrysopinae, partly due to limited taxonomic mapping caused by lack of subgenus information for Neuroptera in the NCBI taxonomic database. PDF printout below (recommended viewers: Chromium, Edge) Subtrees grafted from the following: Aspöck U, Aspöck H, Liu X (2017) The Nevrorthidae, mistaken at all times: Phylogeny and review of present knowledge (Holometabola, Neuropterida, Neuroptera). Deutsche Entomologische Zeitschrift (neue Folge), 64, 77-110. Assmar AC, Machado RJP, Calor AR, (2022) Taxonomic revision and first phylogeny of Climacia McLachlan, 1869 (Neuroptera: Sisyridae), with new species and identification key. Zoologischer Anzeiger, 299, 128-175. Breitkreuz LCV, Garzón-Orduña IJ, Winterton SL, Engel MS, (2022) Phylogeny of Chrysopidae (Neuroptera), with emphasis on morphological trait evolution, Zoological Journal of the Linnean Society, 194, 1374–1395. Garzón-Orduña IJ, Menchaca-Armenta I, Contreras-Ramos A, et al. (2016) The phylogeny of brown lacewings (Neuroptera: Hemerobiidae) reveals multiple reductions in wing venation. BMC Evol Biol 16, 192. Haring E, Aspock H, Bartel D, Aspock U (2011) Molecular phylogeny of the Raphidiidae (Raphidioptera). Systematic Entomology, 36, 16-30. Jones JR. (2019) Total-evidence phylogeny of the owlflies (Neuroptera, Ascalaphidae) supports a new higher-level classification. Zool Scr., 48, 761–782. Liu X, Hayashi F, Yang D. (2015) Phylogeny of the family Sialidae (Insecta: Megaloptera) inferred from morphological data, with implications for generic classification and historical biogeography. Cladistics, 31, 18-49. Liu X, Aspock H, Winterton SL, Zhang W, Aspock U (2017) Phylogeny of pleasing lacewings (Neuroptera: Dilaridae) with a revised generic classification and description of a new subfamily. Syst Entomol, 42, 448-471. Liu X and Yang D (2006) Phylogeny of the subfamily Chauliodinae (Megaloptera: Corydalidae), with description of a new genus from the Oriental Realm. Systematic Entomology, 31, 652-670. Pseudimares_aphrodite:Palparinae:14 Michel B, Clamens A-L, Béthoux O, Kergoat GJ, Condamine FL (2017) A first higher-level time-calibrated phylogeny of antlions (Neuroptera: Myrmeleontidae). Molecular Phylogenetics and Evolution, 107, 103-116. Shen R, Aspöck H, Aspöck U, Plant J, Dai Y, Liu X. (2022) Unraveling the evolutionary history of the snakefly family Inocelliidae (Insecta: Raphidioptera) through integrative phylogenetics. Cladistics, 38, 515-537. Shi C, Winterton SL, Ren D (2015) Phylogeny of split-footed lacewings (Neuroptera, Nymphidae), with descriptions of new Cretaceous fossil species from China. Cladistics, 31, 455-490. Vasilikopoulos, A., Misof, B., Meusemann, K. et al. (2020) An integrative phylogenomic approach to elucidate the evolutionary history and divergence times of Neuropterida (Insecta: Holometabola). BMC Evol Biol 20, 64. Winterton SL, Zhao J, Garzon-Orduna IJ, Wang Y, Liu Z (2017) The phylogeny of lance lacewings (Neuroptera: Osmylidae). Syst Entomol, 42, 555-574. Winterton SL, Lemmon AR, Gillung JP, Garzon IJ, Badano D, Bakkes DK et al. (2018) Evolution of lacewings and allied orders using anchored phylogenomics (Neuroptera, Megaloptera, Raphidioptera). Syst Entomol, 43, 330-354. Winterton SL, Hardy NB, Wiegmann BM (2010) On wings of lace: phylogeny and Bayesian divergence time estimates of Neuropterida (Insecta) based on morphological and molecular data. Systematic Entomology, 35, 349-378. * If used in a publication, please cite Chesters, Ferrari, Lin, Orr, Staab, Zhu (2023) Launching insectphylo.org; a new hub facilitating construction and use of synthesis molecular phylogenies of insects. Molecular Ecology Resources 00, 1–18. ** If used in a publication, please cite Ratnasingham and Hebert (2007) BOLD: The Barcode of Life Data System (www.barcodinglife.org). Molecular Ecology Notes 7, 355-364.