order

Psocodea Novak, 1890

Nomenclature (143)

  • Psocina Burmeister, 1829: 772.
  • Psocina Burmeister, 1829 (synonym of Psocodea Novak, 1890)
  • ... Show all ... (139)
  • Psocodea Novak, 1890 in Kiesmueller, Haug, Müller & Hoernig, 2022 Behavior
  • Psocodea Novak, 1890 in Kawata, Ogawa & Yoshizawa, 2024 Phylogeny

Nomenclature references (137)

  • Anonby, J.E. (2019) Psocoptera of Canada. 819, 295–299.
  • Arnett, R.H., Jr. (2000) In American insects: a handbook of the insects of America north of Mexico. Second edition. XVII+1003 pp.
  • ... Show all ... (133)
  • Azar, D. (2000) In Les ambres mésozoïques du Liban. 164 pp. + 144 pp annexes.
  • Bess, E., Smith, V., Lienhard, C. & Johnson, K.P. (2006) Psocodea. Booklice, Barklice, and Parasitic Lice. Version 08, October 2006 (under construction). http://tolweb.org/Psocodea/8235/2006.10.08 in The Tree of Life Web Project, http://tolweb.org/.
  • Best, M.L. & Welsh, H.H., Jr. (2014) The trophic role of a forest salamander: impacts on invertebrates, leaf litter retention, and the humification process. 5(2), 1–19. Available at http://https://esajournals.onlinelibrary.wiley.com/doi/full/10.1890/ES13-00302.1
  • Beutel, R.G. & Gorb, S.N. (2006) A revised interpretation of the evolution of attachment structures in Hexapoda with special emphasis on Mantophasmatodea. 64(1), 3–25.
  • Beutel, R.G. (2004) Recent trends in insect systematics (Hexapoda, Arthropoda). 16, 21–50.
  • Bogusch, P., Macek, J., Jansta, P., Kubik, S., Rezac, M., Holy, K., Malenovský, I., Banar, P., Mikat, M., Astapenkova, A. & Heneberg, P. (2016) Industrial and post-industrial habitats serve as critical refugia for pioneer species of newly identified arthropod assemblages associated with reed galls. BIODIVERSITY AND CONSERVATION, 25(5), 827–863. Available at http://https://search.proquest.com/docview/1783659772?pq-origsite=gscholar
  • Burmeister, H.C.C. (1829) In De insectorum systemate naturali. Grunert, Halle.
  • Burmeister, H.C.C. (1839) Handbuch der Entomologie. 2. Band. In Handbuch der Entomologie, 2. Berlin. XII+1050 pp. Available at http://www.biodiversitylibrary.org/page/25583591#page/22/mode/1up
  • Cameron, S.L. (2014) Insect Mitochondrial Genomics: Implications for Evolution and Phylogeny. Annual Review of Entomology, 59, 95–117. Available at http://https://eprints.qut.edu.au/69754/3/69754_Authors_Final_Version.pdf
  • Cao, Y., Song, Y. & Sun, G. (2003) A survey of psocid species infesting stored grain in China and resistance to phosphine in field populations of Liposcelis entomophila (Enderlein) (Psocoptera: Liposcelididae). Proceedings of the 8th International Working Conference on Stored Product Protection. (IWCSPP).
  • Castro, A. & Espinosa, E.I. (2016) Seasonal dynamics of invertebrates along an altitudinal gradient in a tropical dry scrub. 25(2), 35–45.
  • Chapman, R.B., Marris, J.W.M. & Drummond, J.B. (2016) Survey of insect pests of stored grain in New Zealand. 69, 285–289. Available at http://https://www.researchgate.net/profile/John_Marris/publication/306160338_Survey_of_insect_pests_of_stored_grain_in_New_Zealand/links/592cb246aca27295a8159b5e/Survey-of-insect-pests-of-stored-grain-in-New-Zealand.pdf
  • Chen, Y., Zhou, S.-Y. & Huang, J.-H. (2015) A checklist of Psocoptera of Guangxi, China. 37(2), 263–273.
  • Cheng, Z. & Yoshizawa, K. (2022) Exploration of the homology among the muscles associated with the female genitalia of the three suborders of Psocodea (Insecta). Arthropod Structure & Development, 66, 101141: 14 pages.
  • Collins, C.T. & Hespenheide, H.A. (2016) Diet of the Pygmy Palm-Swift (Tachornis furcata). 27, 63–66. Available at http://https://www.researchgate.net/profile/Henry_Hespenheide/publication/304676563_Diet_of_the_Pygmy_Palm-Swift_Tachornis_furcata/links/57883ae208aecf56ebcb5b3f/Diet-of-the-Pygmy-Palm-Swift-Tachornis-furcata.pdf
  • Collins, C.T. (2015) Food habits and resource partitioning in a guild of neotropical swifts. 127(2), 239–248. Available at http://https://search.proquest.com/docview/1699252371?pq-origsite=gscholar
  • Dallai, R. & Afzelius, B.A. (1991) Sperm flagellum of insects belonging to orders Psocoptera, Mallophaga and Anoplura--ultrastructural and phylogenetic aspects. Bollettino di Zoologia, 58(3), 211–216.
  • Dallai, R., Gottardo, M. & Beutel, R.G. (2016) Structure and Evolution of Insect Sperm: New Interpretations in the Age of Phylogenomics. Annual Review of Entomology, 61, 1–23. Available at http://https://www.researchgate.net/profile/Rolf_Beutel/publication/282703647_Structure_and_Evolution_of_Insect_Sperm_New_Interpretations_in_the_Age_of_Phylogenomics/links/56eaa41908aee3ae24a25d71.pdf
  • Delclos, X. (2007) Fossiliferous amber deposits from Cretaceous (Albian) of Spain. Comptes Rendus Palevol, 6.
  • Di Iorio, O. & Turienzo, P. (2009) Insects found in birds' nests from the Neotropical Region (except Argentina) and immigrant species of Neotropical origin in the Nearctic Region. Zootaxa, 2187.
  • Emeljanov, A.F. (2002) Evolutionary scenario of the forming of rostrum in the Rhynchota. Entomologicheskoe Obozrenie, 81(4).
  • Endang, K. & New, T.R. (2004) Local diversity and ecological distribution of arboreal Psocoptera (Insecta) in Sumatra, Indonesia, and implications for conservation. Journal of Insect Conservation, 8.
  • Enderlein, G. (1903) Über die Morphologie, Gruppierung und systematische Stellung der Corrodentien. Zoologischer Anzeiger, 26.
  • Engel, M.S. & Perkovsky, E.E. (2006) Psocoptera (Insecta) in Eocene Rovno amber (Ukraine). Vestnik Zoologii, 40(2), 175–179.
  • Fraval, A. (2008) Les Psocoptères. INSECTES, 149.
  • Friedemann, K., Spangenberg, R., Yoshizawa, K. & Beutel, R.G. (2014) Evolution of attachment structures in the highly diverse Acercaria (Hexapoda). 30(2), 170–201. Available at http://lab.agr.hokudai.ac.jp/systent/psoco-web/pdf/2013clad.pdf
  • García-Aldrete, A.N. (1984) The Trogiomorpha (Psocoptera), of Chamela, Jalisco, Mexico. Folia Entomologica Mexicana, 59.
  • García-Aldrete, A.N. (1984) Trogiomorpha (Psocoptera), de Nuevo Leon, Mexico. Anales del Instituto de Biología, Universidad Nacional Autónoma de México. Serie Zoologia, 55(1).
  • García-Aldrete, A.N. (2014) Biodiversity of Psocoptera (Insecta: Psocodea) in Mexico. Revista Mexicana de Biodiversidad, 85(Supplement), S252–S256.
  • García-Aldrete, A.N., Carrejo, N.S., Mendivil, J.A., Rocio Calderon, N., Saenz Manchola, O.F., Panche, J., Roman-Palacios, C. & González-Obando, R. (2018) Checklist of 'Psocoptera' (Psocodea) of Colombia and identification key to the families. Dugesiana, 25(2), 77–103.
  • Golub, N.V. (2003) The reproductive system of the Psocoptera. Entomologicheskoe Obozrenie, 82(1).
  • Gottardo, M., Dallai, R., Mercati, D., Hoernschemeyer, T. & Beutel, R.G. (2016) The evolution of insect sperm - an unusual character system in a megadiverse group. Journal of Zoological Systematics and Evolutionary Research, 54(4), 237–256.
  • Grandi, G. (1951) Introduzione allo studio dell'entomologia. Edizioni Agricole, Bologna, vol. 1, XXIII + 950 pp.
  • Grimaldi, D.A. & Engel, M.S. (2005) Evolution of the Insects. Cambridge University Press, New York, XV+755 pp.
  • Hanna, C., Naughton, I., Boser, C. & Holway, D. (2015) Testing the effects of ant invasions on non-ant arthropods with high-resolution taxonomic data. 25(7), 1841–1850. Available at http://www.jstor.org/stable/pdf/24700333.pdf?casa_token=DyvjGIJ31LMAAAAA:865Y8MewYnZZ4IGM-9mnuG0fu5qnEEpvvpaDjdciE_SKbH9gGdvEt3u9rWnPjCQsl_nqcUKA0qeiJybpzEx4jtZ8FxCDFc1YfQ5hHo7wOO0SyoNwaA
  • Haub, F. (1972) Das Cibarialsklerit der Mallophaga-Amblycera und der Mallophaga-Ischnocera (Kellogg) (Insecta). Zeitschrift für Morphologie und Ökologie der Tiere, 73, 249–261.
  • He, R.-lian, Chen, Y.-mei, Deng, C.-chun, Yan, W.-qin, Zhang, J. & Liu, Y. (2015) Litter decomposition and soil faunal diversity of two understory plant debris in the alpine timberline ecotone of western Sichuan in a snow cover season. 26(3), 723–731.
  • Hodson, C.N., Hamilton, P.T., Dilworth, D., Nelson, C.J., Curtis, C.I. & Perlman, S.J. (2017) Paternal Genome Elimination in Liposcelis Booklice (Insecta: Psocodea). 206(2), 1091–1100.
  • Hua, L.-zhong (2000) List of Chinese insects., Vol. I, 448 pp.
  • Huenefeld, F. (2007) The genital morphology of Zorotypus hubbardi Caudel 1918 (Insecta: Zoraptera: Zorotypidae). Zoomorphology, 126(3).
  • Janzen, J.-W. (2002) Arthropods in Baltic Amber. Ampyx-Verlag Dr. Andreas Stark, Halle (Saale), 167 pp.
  • Jell, P.A. (2004) The fossil insects of Australia. Memoirs of the Queensland Museum, 50(1).
  • Johnson, K.P. & Clayton, D.H. (2003) The biology, ecology, and evolution of chewing lice. In Illinois Natural History Survey Special Publication. Vol. 24, pp. (pp. 449–476, 4 figs).
  • Johnson, K.P. & Mockford, E.L. (2003) Molecular systematics of Psocomorpha (Psocoptera). Systematic Entomology, 28(3), 409–416.
  • Johnson, K.P., Dietrich, C.H., Friedrich, F., Beutel, R.G., Wipfler, B., Peters, R.S., Allen, J.M., Petersen, M., Donath, A., Walden, K.K.O., Kozlov, A.M., Podsiadlowski, L., Mayer, C., Meusemann, K., Vasilikopoulos, A., Waterhouse, R.M., Cameron, S.L., Weirauch, C., Swanson, D.R., … Yoshizawa, K. (2018) Phylogenomics and the evolution of hemipteroid insects. 115(50), 12775–12780. https://doi.org/10.1073/pnas.1815820115
  • Johnson, K.P., Yoshizawa, K. & Smith, V.S. (2004) Multiple origins of parasitism in lice. Proceedings of the Royal Society of London, Series B, 271. Available at http://https://www-ncbi-nlm-nih-gov.proxy2.library.illinois.edu/pmc/articles/PMC1691793/pdf/15315891.pdf
  • Jones, A.G., Chown, S.L., Webb, T.J. & Gaston, K.J. (2003) The free-living pterygote insects of Gough Island, South Atlantic Ocean. Systematics and Biodiversity, 1(2).
  • Kanervo, J. & Kozlov, M.V. (2014) Diversity and abundance of arboreal psocids (Psocoptera) along latitudinal gradients in northern Europe. European Journal of Entomology, 111(1), 51–58. Available at http://https://search.proquest.com/docview/1492216357?pq-origsite=gscholar
  • Kawata, A., Ogawa, N. & Yoshizawa, K. (2022) Morphology and phylogenetic significance of the thoracic muscles in Psocodea (Insecta: Paraneoptera). Journal of Morphology (Philadelphia), 283(8), 1106–1119.
  • Kawata, A., Ogawa, N. & Yoshizawa, K. (2024) Morphology of the pterothoracic musculature in Paraneoptera and its phylogenetic implication (Insecta: Neoptera). Journal of Morphology, 285(6), e21712: 19 pages. https://doi.org/10.1002/jmor.21712
  • Kenis, M., Rabitsch, W., Auger-Rozenberg, M.-A. & Roques, A. (2007) How can alien species inventories and interception data help us prevent insect invasions? Bulletin of Entomological Research, 97.
  • Kiesmueller, C., Haug, J.T., Müller, P. & Hoernig, M.K. (2022) Debris-carrying behaviour of bark lice immatures preserved in 100 million years old amber. 96, 231–258.
  • Klausnitzer, B. (2003) Gesamtübersicht zur Insektenfauna Deutschlands. Entomologische Nachrichten und Berichte, 47(2).
  • Koivisto, R.K.K. & Braig, H.R. (2003) Microorganisms and parthenogenesis. Biological Journal of the Linnean Society, 79(1).
  • Krawczyk, A.J., Augustinicova, G., Gwiazdowicz, D.J., Konwerski, S., Kucharczyk, H., Olejniczak, I., Rutkowski, T., Skubala, P., Solarz, K., Zdrojewska, Z. & Tryjanowski, P. (2015) Nests of the harvest mouse (Micromys minutus) as habitat for invertebrates. Biológia (Bratislava), 70(12), 1637–1647. Available at http://https://www.researchgate.net/profile/Piotr_Tryjanowski/publication/291952195_Nests_of_the_harvest_mouse_Micromys_minutus_as_habitat_for_invertebrates/links/56af619708aec781b280c962.pdf
  • Kristensen, N.P. (1995) Forty years' insect phylogenetic systematics. Hennig's "Kritische Bemerkungen..." and subsequent developments. Zoologische Beiträge, 36(1), 83–124.
  • Li, F. (2002) Psocoptera of China. National Natural Science Foundation of China, xlvi + 1976 pp. (2 vols), 1547 figs, 10 pl. at the end of the 2nd vol.
  • Li, F.-sheng, Li, Z.-hong, Cai, W.-Z. & Yang, D. (2008) Taxonomy of Psocoptera from China. Journal of China Agricultural University, 13(3).
  • Li, H., Shao, R., Song, N., Song, F., Jiang, P., Li, Z. & Cai, W.-Z. (2015) Higher-level phylogeny of paraneopteran insects inferred from mitochondrial genome sequences. 5, Article No. 8527. Available at http://https://www.nature.com/articles/srep08527
  • Li, Y.-Y., Fields, P.G., Pang, B.-P., Coghlin, P.C. & Floate, K.D. (2015) Prevalence and diversity of Wolbachia bacteria infecting insect pests of stored products. Journal of Stored Products Research, 62, 93–100. Available at http://https://www.researchgate.net/profile/B_Pang/publication/276414124_Prevalence_and_diversity_of_Wolbachia_bacteria_infecting_insect_pests_of_stored_products/links/5709b6d308ae2eb9421e3246.pdf
  • Li, Z., Stejskal, V., Opit, G.P., Cao, Y. & Throne, J.E. (2018) From stored-product psocids to the other pests: the developments, problems and prospects on research and application of molecular identification. 463(1), 221–224.
  • Liebhold, A.M., Yamanaka, T., Roques, A., Augustin, S., Chown, S.L., Brockerhoff, E.G. & Pysek, P. (2016) Global compositional variation among native and non-native regional insect assemblages emphasizes the importance of pathways. 18(4), 893–905. Available at http://https://search.proquest.com/docview/1776597915?pq-origsite=gscholar
  • Lienhard, C. & Smithers, C. (2002) Psocoptera (Insecta) World Catalogue and Bibliography. Museum of Natural History, Geneva, Switzerland, xli+745 pp.
  • Lienhard, C. (1998) Psocoptères euro-méditerranéens. Faune de France, 83, XX+517 pp., 148 figs, 11 plates.
  • Lienhard, C. (2003) Nomenclatural amendments concerning Chinese Psocoptera (Insecta), with remarks on species richness. Revue Suisse de Zoologie, 110(4), 695–721.
  • Lienhard, C. (2004) Classification of Psocoptera (with checklist of genera). Online at: http://www.ville-ge.ch/musinfo/mhng/page-e/ps-clas.htm.
  • Lienhard, C. (2004) Subject bibliography for Psocoptera. Online at: http://www.ville-ge.ch/musinfo/mhng/page-e/ps-bibli.htm.
  • Lienhard, C. (2004) Worldwide country checklists of Psocoptera species. Online at: http://www.ville-ge.ch/musinfo/mhng/page-e/ps-coun.htm.
  • Lienhard, C. (2007) Additions and Corrections (Part 6) to Lienhard & Smithers, 2002: "Psocoptera (Insecta) - World Catalogue and Bibliography". In Psocid News. The Psocidologists' Newsletter. Vol. 9, Issue (February 28, 2007), pp. (pp. 1–17).
  • Lienhard, C. (2008) Additions and Corrections (Part 7) to Lienhard & Smithers, 2002: "Psocoptera (Insecta) - World Catalogue and Bibliography". In Psocid News. The Psocidologists' Newsletter. Vol. 10, pp. (pp. 1–18).
  • Liu, S., Chen, J., Gan, W., Schaefer, D., Gan, J. & Yang, X. (2015) Spider foraging strategy affects trophic cascades under natural and drought conditions. 5, 12396. Available at http://https://www.nature.com/articles/srep12396
  • Liznarova, E. & Pekar, S. (2015) Trophic niche of Oecobius maculatus (Araneae: Oecobiidae): evidence based on natural diet, prey capture success, and prey handling. 43(2), 188–193. Available at http://www.jstor.org/stable/pdf/24717333.pdf?casa_token=usB32g0prI8AAAAA:cezjTDniYNGbj1p9fOat_cBdQrWs5gYk-idxITavkzZ7l8qYHwcxOII0htz8fjCw3u4SZia1mvX0BjSvGcQdZrFizn9COQXKcHpFDLIJ1elr7_XsQQ
  • Maia, V.C. & Carvalho-Fernandes, S.P. (2016) Insect galls of a protected remnant of the Atlantic Forest tableland from Rio de Janeiro State (Brazil). Revista Brasileira de Entomologia, 60(1), 40–56. Available at http://www.scielo.br/scielo.php?pid=S0085-56262016000100040&script=sci_arttext
  • Mazac, D. (2016) The first contribution to the fauna of psocids (Insecta: Psocoptera) in forests in the Drahanska vrchovina Hills (Czech Republic). Journal of Forest Science, 62(5), 211–222. Available at http://https://www.agriculturejournals.cz/publicFiles/185249.pdf
  • Mondal, H. (2017) Arthropods associated with Dipterocarp saplings at Eco-park conservation area, Los Banos, Laguna, Philippines. 5(6M), 929–934. Available at http://https://www.researchgate.net/profile/Mark_Jun_Rojo/publication/321050164_Arthropods_associated_with_Dipterocarp_saplings_at_Eco-park_conservation_area_Los_Banos_Laguna_Philippines/links/5a0a94bbaca272d40f413f73/Arthropods-associated-with-Dipterocarp-saplings-at-Eco-park-conservation-area-Los-Banos-Laguna-Philippines.pdf
  • Moulds, T. (2005) Diversity and biogeography of subterranean guano arthropod communities of the Flinders Ranges, South Australia. Proceedings of the Linnean Society of New South Wales, 126.
  • Murrell, A. & Barker, S.C. (2005) Multiple origins of parasitism in lice: phylogenetic analysis of SSU rDNA indicates that the Phthiraptera and Psocoptera are not monophyletic. Parasitology Research, 97(4), 274–280. Available at http://https://www.researchgate.net/profile/Anna_Murrell/publication/7738013_Multiple_origins_of_parasitism_in_lice_Phylogenetic_analysis_of_SSU_rDNA_indicates_that_the_Phthiraptera_and_Psocoptera_are_not_monophyletic/links/02e7e5322da9e22d32000000.pdf
  • Naughton, I., Caterino, M.S., Hanna, C. & Holway, D. (2015) Contributions to an arthropod inventory of Santa, Cruz Island, California. 7(1), 297–305. Available at http://www.bioone.org/doi/full/10.3398/042.007.0122
  • New, T.R. & Lienhard, C. (2007) The Psocoptera of tropical South-east Asia. Fauna Malesiana Handbooks, 6, IX + 290 pp., 518 figs.
  • New, T.R., Smithers, C.N. & Marshall, A.T. (2005) Ian Walter Boothroyd Thornton 1926-2002. Historical Records of Australian Science, 16.
  • Nicoli Aldini, R. (2004) Filippo Bonnanni et ses observations microscopiques sur les psoques (Insecta: Psocoptera) dans la deuxieme moitie du XVIIe siecle. 20, 49–65. Available at http://https://www.researchgate.net/profile/Rinaldo_Aldini/publication/277714839_Filippo_Bonanni_et_ses_observations_microscopiques_sur_les_psoques_Insecta_Psocoptera_dans_la_deuxieme_moitie_du_XVIIe_siecle/links/55716c3d08aedcd33b293a17.pdf
  • Nonveiller, G. (1989) Pioniri proucavanja insekata Dalmacije. Jugosl. entomol. Drustvo, Edit. sep. 2, Zagreb, 390 pp., 56 figs.
  • Novak, G.B. (1890) Secondo cenno sulla fauna dell’isola di Lesina in Dalmazia. Orthoptera II. Glasnik Hrvatskog Prirodoslovnog Drustva, Zagreb, 5.
  • O'Neill, K.M. & O'Neill, J.F. (2009) Prey, nest associates, and sex ratios of Isodontia mexicana (Saussure) (Hymenoptera: Sphecidae) from two sites in New York State. Entomologica Americana, 115(1).
  • Ogawa, N. & Yoshizawa, K. (2018) Origin and transformation of the in-flight wing-coupling structure in Psocodea (Insecta: Paraneoptera). Journal of Morphology (Philadelphia), 279(4), 517–530. Available at http://lab.agr.hokudai.ac.jp/systent/psoco-web/pdf/2018JMOR.pdf
  • Ogawa, N. & Yoshizawa, K. (2018) Structure and evolution of the stigmapophysis-A unique repose wing-coupling structure in Psocodea. Arthropod Structure & Development, 47(4), 416–422.
  • Orfinger, A.B., Cogen, T.B., Irons, G.R., Kabilan, K.V., Molligoda, B., Moody, A.L., Wisdo, J.F., Phillips, D.M. & Phillips, K.F. (2017) Preliminary Study of Pan Trapping in Longleaf Pine Flatwoods in Central Florida, USA. 10(1), 24–27.
  • Paccagnini, E., Mencarelli, C., Mercati, D., Afzelius, B.A. & Dallai, R. (2007) Ultrastructural analysis of the aberrant axoneme morphogenesis in thrips (Thysanoptera, Insecta). Cell Motility and the Cytoskeleton, 64(9).
  • Panche-Chocue, J., González-Obando, R. & García-Aldrete, A.N. (2020) Diversity and vertical distribution of psocids (Psocodea: Psocoptera) in two forests of the Colombian Amazon. Revista de Biología Tropical, 68(3), 898–908.
  • Perrichot, V. (2004) Early Cretaceous amber from south-western France: insight into the Mesozoic litter fauna. Geologica Acta, 2(1).
  • Perrichot, V., Néraudeau, D., Nel, A. & de Ploëg, G. (2007) A reassessment of the Cretaceous amber deposits from France and their palaeontological significance. African Invertebrates, 48(1).
  • Poinar, G.O., Jr & Milki, R. (2001) In Lebanese Amber. The oldest ecosystem in fossilized resin. 96 pp.
  • Price, R.D., Hellenthal, R.A., Palma, R.L., Johnson, K.P. & Clayton, D.H. (2003) The chewing lice: world checklist and biological overview. Illinois Natural History Survey Special Publication, 24, X+501 pp.
  • Reinoso-Florez, G., Villa-Navarro, F.A. & Losada-Prado, S. (2016) Artropofauna epigea del paramo Estambul (Tolima), Colombia. 17(Suppl. 2), 39–51. Available at http://www.redalyc.org/html/491/49148414004/
  • Retana-Salazar, A.P. (2015) Paraneoptera. A cladistic approach from morphology. 10(2), 15–29.
  • Rozsa, L. & Vas, Z. (2015) Host correlates of diversification in avian lice. In Parasite Diversity and Diversity and Diversification: Evolutionary Ecology Meets Phylogenetics. pp. 215–229.
  • Rydell, J., Bogdanowicz, W., Boonman, A., Pettersson, S., Suchecka, E. & Pomorski, J.J. (2016) Bats may eat diurnal flies that rest on wind turbines. 81(3), 331–339. Available at http://https://www.researchgate.net/profile/Jan_Pomorski/publication/293330163_Bats_may_eat_diurnal_flies_that_rest_on_wind_turbines/links/56f3deab08ae95e8b6cf3cf3/Bats-may-eat-diurnal-flies-that-rest-on-wind-turbines.pdf
  • Sarria Sarria, F.A., García-Aldrete, A.N. & González-Obando, R. (2014) Diversity of Psocoptera (Insecta: Psocodea) at the National Natural Park Gorgona (Pacific Ocean, Colombia). Revista de Biología Tropical, 62(Supplement 1), 257–264.
  • Sarria Sarria, F.A., González-Obando, R. & García-Aldrete, A.N. (2014) Psocoptera (Insecta: Psocodea) from the National Natural Park Gorgona, Cauca, Colombia. Revista de Biología Tropical, 62(Supplement 1), 243–256. Available at http://www.scielo.sa.cr/scielo.php?script=sci_arttext&pid=S0034-77442014000500017
  • Schmidt, E.R. & New, T.R. (2004) A systematic and phylogenetic revision of the family Elipsocidae (Insecta: Psocoptera), with the erection of two new families: Lesneiidae and Sabulopsocidae. Invertebrate Systematics, 18(2), 157–213.
  • Schmidt, E.R. & New, T.R. (2008) The Psocoptera (Insecta) of Tasmania, Australia. Memoirs of Museum Victoria, 65, 71–152.
  • Schmidt, E.R. (1994) In A study of the Tasmanian Psocoptera, with special reference to the family Elipsocidae.
  • Sellenschlo, U. (1999) Holz-, Staub-, und Bücherläuse. Ein kühles und trockenes Raumklima beugt einem Befall vor. Der praktische Schädlingsbekämpfer, 51(2).
  • Shipley, A.E. (1904) The orders of insects. Zoologischer Anzeiger, 27, 259–262.
  • Silva, C.P., Silva, J.R., Vasconcelos, F.F., Petretski, M.D.A., DaMatta, R.A., Ribeiro, A.F. & Terra, W.R. (2004) Occurrence of midgut perimicrovillar membranes in paraneopteran insect orders with comments on their function and evolutionary significance. Arthropod Structure & Development, 33.
  • Smith, V.S. (2015) Psocodea (bark/dust/book lice and their parasitic relatives). Lice: the parasitic Psocodea. 44, 89–98.
  • Smithers, C. (1969) The Psocoptera of New Zealand. Records of the Canterbury Museum, 8(4), 259–344.
  • Soffan, A., Subandiyah, S., Makino, H., Watanabe, T. & Horiike, T. (2018) Evolutionary Analysis of the Highly Conserved Insect Odorant Coreceptor (Orco) Revealed a Positive Selection Mode, Implying Functional Flexibility. 18(6), 18. Available at http://https://academic.oup.com/jinsectscience/article/18/6/18/5236977
  • Spahr, U. (1992) Ergänzungen und Berichtigungen zu R. Keilbachs Bibliographie und Liste der Bernsteinfossilien - Klasse Insecta (ausgenommen: "Apterygota", Hemipteroidea, Coleoptera, Hymenoptera, Mecopteroidea). Stuttgarter Beiträge zur Naturkunde, Serie B (Geologie und Paläontologie), 182, 1–102.
  • Stigenberg, J., Boring, C.A. & Ronquist, F. (2015) Phylogeny of the parasitic wasp subfamily Euphorinae (Braconidae) and evolution of its host preferences. Systematic Entomology, 40(3), 570–591. Available at http://https://onlinelibrary.wiley.com/doi/full/10.1111/syen.12122
  • Svensson, B. & Solbreck, C. (2015) Psocids in suction traps on a TV-tower in a mixed coniferous forest in south central Sweden. Insecta: Psocodea: 'Psocoptera'. Entomologisk Tidskrift, 129(1), 29–39. Available at http://www.sef.nu/download/entomologisk_tidskrift/et_2008/ET2008%20sid29_39.pdf
  • Svensson, B. (2015) Psocodea (bark/dust/book lice and their parasitic relatives). Generalities and non-parasitic taxa. 44, 86–88.
  • Sziraki, G. (2016) Data on knowledge of Psocoptera and Neuroptera in Salaj County. 26(1), 125–127.
  • Thomas, S.R. (1986) In A survey of the Psocoptera fauna at Cape Otway National Park, Victoria.
  • Urso-Guimaraes, M.V., Scareli-Santos, C. & Bonifacio-Silva, A.C. (2003) Occurrence and characterization of entomogen galls in plants from natural vegetation areas in Delfinopolis, MG, Brazil. Brazilian Journal of Biology, 63(4).
  • Wei, D.-D., Shao, R.F., Chen, S.-C. & Wang, J.-J. (2014) Progress in mitochondrial genome diversity and phylogeny of Psocodea. Acta Entomologica Sinica, 57(4), 483–494.
  • Wijesekara, A. & Wijesinghe, D.P. (2003) History of insect collection and a review of insect diversity in Sri Lanka. Ceylon Journal of Science (Biological Sciences), 31.
  • Xu, S.-Y., Yi, T.-C. & Jin, D.-C. (2017) A new species of larval Marantelophus (Acari: Prostigmata: Erythraeidae) parasitic on insects from China. 22(7), 1012–1021.
  • Yan, J., Zhang, G., Zhang, R., Song, Z., Zhao, X., Liu, Y. & Fu, W. (2016) The effect of Flaveria bidentis litter decomposition on the structure of arthropod communities. 24(11), 1288–1295.
  • Yeates, D.K., Cameron, S.L. & Trautwein, M. (2012) A view from the edge of the forest: recent progress in understanding the relationships of the insect orders. Australian Journal of Entomology, 51(2), 79–87.
  • Yoshizawa, K. & Johnson, K.P. (2003) Phylogenetic position of Phthiraptera (Insecta: Paraneoptera) and elevated rate of evolution in mitochondrial 12S and 16S rDNA. Molecular Phylogenetics and Evolution, 29(1). Available at http://lab.agr.hokudai.ac.jp/systent/psoco-web/pdf/2003mpe.pdf
  • Yoshizawa, K. & Johnson, K.P. (2006) Morphology of male genitalia in lice and their relatives and phylogenetic implications. Systematic Entomology, 31(2), 350–361.
  • Yoshizawa, K. & Johnson, K.P. (2010) How stable is the "polyphyly of lice" hypothesis (Insecta: Psocodea)?: A comparison of phylogenetic signal in multiple genes. Molecular Phylogenetics and Evolution, 55(3), 939–951.
  • Yoshizawa, K. & Johnson, K.P. (2013) Changes in base composition bias of nuclear and mitochondrial genes in lice (Insecta: Psocodea). 141(10-12), 491–499. Available at http://https://eprints.lib.hokudai.ac.jp/dspace/bitstream/2115/57601/1/2013Gene.pdf
  • Yoshizawa, K. & Saigusa, T. (2001) Phylogenetic analysis of paraneopteran orders (Insecta: Neoptera) based on forewing base structure, with comments on monophyly of Auchenorrhyncha (Hemiptera). Systematic Entomology, 26(1), 1–13. Available at http://lab.agr.hokudai.ac.jp/systent/psoco-web/pdf/2001sysent.pdf
  • Yoshizawa, K. & Saigusa, T. (2003) Reinterpretations of clypeus and maxilla in Psocoptera, and their significance in phylogeny of Paraneoptera (Insecta: Neoptera). Acta Zoologica (Stockholm), 84.
  • Yoshizawa, K. (2005) Morphology of Psocomorpha (Psocodea: 'Psocoptera'). Insecta Matsumurana, New Series, 62, 1–44. Available at http://https://eprints.lib.hokudai.ac.jp/dspace/bitstream/2115/10524/1/Yoshizawa-62.pdf
  • Yoshizawa, K. (2007) Psocid News. The Psocidologists' Newsletter., 9(February 28, 2007), 17 pp.
  • Yoshizawa, K. (2007) The Zoraptera problem: evidence for Zoraptera + Embiodea from the wing base. Systematic Entomology, 32(2).
  • Yoshizawa, K. (2016) Phylogenetic placement and higher systematics of Psocodea. Japanese Journal of Entomology, 19(3), 112–120.
  • Yoshizawa, K., Johnson, K.P., Sweet, A.D., Yao, I., Lopes Ferreira, R. & Cameron, S.L. (2018) Mitochondrial phylogenomics and genome rearrangements in the barklice (Insecta: Psocodea). Molecular Phylogenetics and Evolution, 119, 118–127.
  • Yoshizawa, K., Lienhard, C. & Johnson, K.P. (2006) Molecular systematics of the suborder Trogiomorpha (Insecta: Psocodea: 'Psocoptera'). Zoological Journal of the Linnean Society, 146(2), 287–299. Available at http://eprints.lib.hokudai.ac.jp/dspace/bitstream/2115/43134/1/2006zjls-1.pdf
  • Yusuf, M. & Turner, B.D. (2004) Characterisation of Wolbachia -like bacteria isolated from the parthenogenetic stored-product pest psocid Liposcelis bostrychophila (Badonnel) (Psocoptera). Journal of Stored Products Research, 40.
  • da Silva-Neto, A.M., García-Aldrete, A.N. & Rafael, J.A. (2016) A Storage Method for 'Psocoptera' (Insecta: Psocodea) in 'CD Box'. 9(3), 220–223.
  • de Moya, R.S., Yoshizawa, K., Walden, K.K.O., Sweet, A.D., Dietrich, C.H. & Johnson, K.P. (2021) Phylogenomics of Parasitic and Nonparasitic Lice (Insecta: Psocodea): Combining Sequence Data and Exploring Compositional Bias Solutions in Next Generation Data Sets. Systematic Biology, 70(4), 719–738.

Descendants and synonyms

Stats

Names
Rank Total Valid Invalid
order514
suborder440
infraorder15150
parvorder440
superfamily770
family96906
subfamily69645
tribe32293
subtribe1091
infratribe909
genus1373970403
subgenus234118116
superspecies18817216
subsuperspecies29821
species19167120407127
subspecies462161301