Palaeontinidae: Difference between revisions

Palaeontinidae; Temporal range: Late Triassic-Early Cretaceous Norian–Aptian PreꞒ Ꞓ O S D C P T J K Pg N
	Gallery of various palaeontinids
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Order:	Hemiptera
Suborder:	Auchenorrhyncha
Infraorder:	Cicadomorpha
Superfamily:	†Palaeontinoidea
Family:	†Palaeontinidae; Handlirsch, 1906
Type genus
	†Palaeontina; Butler, 1873
Genera
	See text
Synonyms
	†CicadomorphidaeEvans, 1956

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Palaeontinidae, commonly known as giant cicadas, is an extinct family of cicadomorphs. They existed from the Late Triassic to the Early Cretaceous. The family contains around 30 to 40 genera and around a hundred species.^[1] They are thought to have had a similar ecology to modern cicadas as feeders on plant xylem fluids. Despite being described as "giant cicadas"(with the wingspan of some species exceeding 15 centimetres (5.9 in)^[2]),^[3] they are not particularly closely related to true cicadas.^[4]

Discovery

The first palaeontinid discovered was Palaeontina oolitica. It consisted of a single forewing^[5] collected from the Taynton Limestone Formation (Stonesfield Slate) of Oxfordshire, England by the English natural historian Edward Charlesworth. It was first described in 1873 by the English entomologist Arthur Gardiner Butler in his book Lepidoptera Exotica; or, Descriptions and Illustrations of Exotic Lepidoptera. Butler claimed that it was the oldest butterfly ever recovered, having mistakenly identified it as a butterfly of the family Nymphalidae.^[6]

Description and paleobiology

Palaeontinids had large bodies covered with bristles (setae). They had small heads and broad wings. They superficially resemble moths.^[7]^[8] Large palaeontinids like Colossocossus had forewings that reached the length of 57 to 71 mm (2.2 to 2.8 in).^[9] They possessed an inflated frons and a long rostrum (piercing and sucking mouthpart), indicating that they fed on xylem fluids like some other modern hemipterans,^[10] including living cicadas to which they have often been compared.^[11]

Some authors have proposed that the host plants of palaeontinids to be ginkgophytes based on the geographic distribution of both groups, however other authors have argued that this association is likely to be spurious, given that paleontinids also occur in areas with no ginkgophytes. Some authors have suggested that the decline of gymnosperms and the rise of angiosperms (flowering plants) during the Cretaceous could have been a factor in their extinction.^[9] Numerous newly evolved insectivorous animals (feathered theropods, primitive mammals, and early birds) may have also contributed significantly to their extinction.^[12]

Most species of palaeontinids exhibit cryptic coloration.^[13] The patterns on their wings protected them as they perched on branches and fed on sap. They may also have served as secondary sexual characteristics. The color patterns can vary slightly within the same species.^[10]

Palaeontinids, like modern cicadas, possess four membranous wings supported by veins. The length and width ratio of the wings can vary within the same species, sometimes as a result of fossil preservation.^[10] Early Jurassic palaeontinids, like Suljuktocossus, exhibit the most primitive wing forms in the family.^[14] The forewing was elliptical with the "nodal line" (the area where the wing bends during flight, also known as the "transverse flexion line") more or less dissecting through the center of the wing. The hindwing was short and broad. The bases of the forewings overlapped that of the hindwings like in modern butterflies. Taken together with their large bodies, these characteristics indicate that they were fast but moderately versatile fliers.^[15]

In contrast, later palaeontinids like the Upper Jurassic Eocicada and Early Cretaceous Ilerdocossus had triangular forewings with the flexion line closer to the base. They had smaller and narrower hindwings that did not overlap with the forewing. These indicate that they were highly versatile fliers, able to fly with a wide range of speeds and agility like modern wasps and sphinx moths.^[15] They also possessed changes to the leading edge of their forewings, suggesting an overall gain in lift.^[14] The different wing shape of later palaeontinids may have evolved to more effectively escape from flying predators like early birds.^[11]

The trend of forewing elongation is most evident in members of the family Mesogereonidae, an early offshoot and close relatives of palaeontinids.^[16]

Classification

Early Jurassic palaeontinids^[5]

Palaeontina oolitica
(forewing)

Palaeocossus jurassicus
(forewing)

Prolystra lithographica

Late Jurassic palaeontinids^[5]

Eocicada lameerei

Limacodites mesozoicus

Beloptesis oppenheimi

The family was first erected by the Austrian entomologist Anton Handlirsch in 1908. Like Butler, Handlirsch insisted that palaeontinids were members of lepidopteran Heteroneura (butterflies and moths). Palaeontinids were then only known mostly from poorly preserved specimens like Palaeontina and Eocicada. He claimed they were related to the extant family Limacodidae (slug moths).^[17] The English entomologist Edward Meyrick supported the lepidopteran conclusion, though he believed they belonged to the family Hepialidae (ghost moths) instead. He said "There is little doubt that it [i.e. Palaeontina oolitica] belongs to the Hepialidae."^[5]

The Belgian entomologist Auguste Lameere challenged this conclusion, claiming palaeontinids were more closely related to the extant family Cicadidae (cicadas). The English-Australian entomologist and geologist Robert John Tillyard supported Lameere's conclusion, noting that the wings of palaeontinid fossils lacked the characteristic scales of lepidopterans but instead had tubercules, pits, and cross-ridges like those found in modern cicadas.^[17] He also cited characteristics of wing venation that distinctly differs from that of lepidopterans.^[5]

Palaeontinidae are currently classified under the extinct superfamily Palaeontinoidea along with the families Dunstaniidae and Mesogereonidae.^[14] They are classified under infraorder Cicadomorpha of the hemipterans (true bugs).^[18] Despite being described as "giant cicadas", other living cicadomorphs (leafhoppers, treehoppers, and spittlebugs) are more closely related to modern cicadas than palaeontinids are.^[19]

The name Cicadomorphidae was once proposed as a replacement for the name Palaeontinidae in 1956 by the Australian entomologist J.W. Evans. This was because of Handlirsch's earlier insistence that the type species Palaeontina oolitica may not have been Hemipteran. However, Evans later conceded that retaining the name Palaeontinidae was preferable as the drawings Handlirsch based his conclusions on were from badly preserved specimens.^[20]

Evolution

Riek (1976) originally considered Palaeontinoidea to be the descendants of the family Cicadoprosbolidae (currently known as the family Tettigarctidae), insects believed to be transitional between the ancestral cicada-like family Prosbolidae and the modern family Cicadidae.^[14]

Wang et al (2009), however, notes that palaeontinoids more closely resemble prosbolids in agreement with earlier studies by Wootton (1971), Shcherbakov (1984), and Shcherbakov and Popov (2002). They conclude that palaeontinoids descended directly from the family Prosbolidae rather than from tettigarctids.^[14] Modern cicadas therefore, did not descend directly from Palaeontinidae.

Within Palaeontinoidea, the family Dunstaniidae (Upper Permian to Lower Jurassic of Australia, South Africa, and China) is ancestral to palaeontinids. Both are distinct from the only other member of the superfamily, the more primitive and specialized family Mesogereonidae (Upper Triassic of Australia and South Africa).^[14]

Distribution and geologic time range

The oldest known member of the group is Hallakkungis from South Korea dating to the Norian stage of the Late Triassic (ca. 227 – ca. 208.5 Mya)^[21] and the youngest members are from the late Aptian age of the Lower Cretaceous (~115-113 Mya).^[12]^[18] They achieved their greatest diversity during the Jurassic period.^[22]

Palaeontinid fossils are abundant in Eurasia and South America.^[14] Fossils have been recorded in Brazil, China, Russia, Germany, the Transbaikal region, Tajikistan, Turkmenistan, Kyrgyzstan, Kazakhstan, Spain, and the United Kingdom. Important localities for palaeontinid fossils include the Crato Formation Lagerstätte of Brazil and the Yixian Formation, Haifanggou (or Jiulongshan) Formation, and the Daohugou Beds of China.^[9]^[10]^[23]

Genera

The following is the list of genera classified under Palaeontinidae:^[24]

†Abrocossus Wang & Zhang, 2007 in Wang et al. 2007a - Daohugou Beds, Middle Jurassic, East Asia
†Archipsyche Handlirsch, 1906–1908 - Solnhofen Formation Late Jurassic, Central Europe
†Asiocossus Becker-Migdisova, 1962 - Dzhil Formation, Early Jurassic, Central Asia
†Baeocossus Menon et al. 2005 - Crato Formation Early Cretaceous, Eastern South America
†Cicadomorpha Martynov, 1926 - Karabastau Formation, Late Jurassic, Central Asia; Glushkovo Formation, Ukurei Formation, Late Jurassic North Asia
†Colossocossus Menon et al. 2005 - Crato Formation, Early Cretaceous, Eastern South America
†Cratocossus Martins-Neto, 1998 - Crato Formation, Early Cretaceous, Eastern South America
†Daohugoucossus Wang et al. 2006b - Daohugou, Middle Jurassic, East Asia
†Eocicada Oppenheim, 1888 - Solnhofen Formation, Late Jurassic, Central Europe
†Eoiocossus Wang et al. 2006c in Wang et al. 2006c - (includes Papilioncossus Wang et al. 2007c) Daohugou Middle Jurassic, East Asia
†Gansucossus Wang et al. 2006b - Dashankou Formation, Jiulongshan Formation, Daohugou Middle Jurassic, East Asia
†Hallakkungis Nam, Wang, & Szwedo, 2017 - Amisan Formation Upper Triassic, South Korea^[21]
†Hamicossus Wang & Ren 2007ab - Daohugou Middle Jurassic, East Asia
†Ilerdocossus Gomez-Pallerola, 1984 - (includes Wonnacottella Whalley & Jarzembowski, 1985 and Liaocossus Ren et al., 1998) La Pedrera de Rúbies Formation, Weald Clay, Yixian Formation Early Cretaceous, Western Europe & East Asia
†Limacodites Handlirsch, 1906–1908 - Solnhofen Formation, Late Jurassic, Central Europe
†Martynovocossus Wang & Zhang 2008 in Wang et al. 2008 - (= Pseudocossus Martynov, 1931) Badaowan Formation, Daohugou, Kushmurun Formation, Cheremkhovskaya Formation, Early to Middle Jurassic, North Asia; Late Jurassic, Central Asia
†Miracossus Ren et al. 1998 - Yixian Formation, Early Cretaceous, East Asia
†Montsecocossus Gomez-Pallerola, 1984 - La Pedrera de Rúbies Formation Early Cretaceous, Western Europe
†Neimenggucossus Wang & Zhang, 2007 in Wang et al. 2007a - Daohugou, Middle Jurassic, East Asia
†Ningchengia Wang, Zhang & Szwedo, 2009 - (= Fletcheriana Evans, 1956 in partim) Daohugou Middle Jurassic, East Asia
†Pachypsyche Handlirsch 1906 - La Pedrera de Rúbies Formation Early Cretaceous, Western Europe
†Palaeocossus Oppenheim, 1885 - Sagul Formation, Cheremkhovskaya Formation Early Jurassic, Central and North Asia
†Palaeontina Butler, 1873 - Taynton Limestone Formation Middle Jurassic, Western Europe
†Palaeontinodes Martynov, 1937 - (= Ijacossus Becker-Migdisova, 1950; Shcherbakov 1985) Sulyukta Formation, Sagul Formation, Haifanggou Formation, Cheremkhovskaya Formation, Early to Middle Jurassic, Central and North Asia; Middle Jurassic, Central Asia
†Parawonnacottella Ueda, 1997 - Crato Formation, Early Cretaceous, Eastern South America
†Phragmatoecicossus Becker-Migdisova, 1949 - Sagul Formation, Early to Middle Jurassic, Central Asia
†Phragmatoecites Oppenheim, 1885 - Cheremkhovskaya Formation, Early to Middle Jurassic, North Asia
†Plachutella Becker-Migdisova, 1949 - Badaowan Formation, Jiulongshan Formation, Daohugou, Karabastau Formation, Sagul Formation, Cheremkhovskaya Formation, Early to Late Jurassic, Central and Eastern Asia
†Prolystra Oppenheim, 1888 syn Beloptesis - Solnhofen Formation, Late Jurassic, Central Europe
†Protopsyche Handlirsch, 1906–1908 - Solnhofen Formation, Late Jurassic, Central Europe
†Shurabocossus Becker-Migdisova, 1949 - Sagul Formation, Early to Middle Jurassic, Central Asia
†Sinopalaeocossus Hong, 1983- (= Quadraticossus Wang & Ren, 2007a) Daohugou, Haifanggou Formation, Middle Jurassic, East Asia
†Suljuktaja Becker-Migdisova, 1949 - Sulyukta Formation, Early to Middle Jurassic, Central Asia
†Suljuktocossus Becker-Migdisova, 1949 - (= Fletcheriana Evans, 1956 in partim) Sulyukta Formation, Early Jurassic, Central Asia; Daohugou Middle Jurassic, North Asia
†Synapocossus Wang et al. 2013 Daohugou Middle Jurassic, East Asia
†Talbragarocossus Chen et al. 2019 Talbragar Fossil Fish Bed, Australia, Late Jurassic
†Turgaiella Becker-Migdisova & Wootton, 1965 - Kushmurun Formation, Jurassic, Central Asia
†Valdicossus Wang, Zhang & Jarzembowski 2008 - Weald Clay, Early Cretaceous, Western Europe
†Yanocossus Ren, 1995 - Yixian Formation, Early Cretaceous, East Asia
†Cyllonium Westwood, 1854 - Early Cretaceous, Western Europe (too poorly preserved)^[7]^[25]
†Palaeontinopsis Martynov, 1937 - Early Jurassic, Central Asia (nomen dubium)
†Palaeontinopsis sinensis - Hong, 1986; Zhang, 1997 Middle Jurassic, East Asia
†Fletcheriana jurassica - Zhang, 1997
†Fletcheriana magna - Riek, 1976

References

^ "Family Palaeontinidae". The EDNA Fossil Insect Database. Retrieved July 16, 2011.
^ "Ancient Giant Cicadas Reveal an Aerial Evolutionary Arms Race----Chinese Academy of Sciences". english.cas.cn. Retrieved 2024-11-13.
^ Xu, Chunpeng; Chen, Jun; Muijres, Florian T.; Yu, Yilun; Jarzembowski, Edmund A.; Zhang, Haichun; Wang, Bo (2024-10-25). "Enhanced flight performance and adaptive evolution of Mesozoic giant cicadas". Science Advances. 10 (43). doi:10.1126/sciadv.adr2201. ISSN 2375-2548. PMC 11506159. PMID 39454006.
^ Szwedo, Jacek (June 2016). "The unity, diversity and conformity of bugs (Hemiptera) through time". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 107 (2–3): 109–128. doi:10.1017/S175569101700038X. ISSN 1755-6910.
^ ^a ^b ^c ^d ^e R.J. Tillyard (1919). "The Panorpoid Complex 3" (PDF). Proceedings of the Linnean Society of New South Wales (44): 533–718.
^ Arthur Gardiner Butler (1869–1874). Lepidoptera Exotica; or, Descriptions and Illustrations of Exotic Lepidoptera. E. W. Jansen. pp. 126–127.
^ ^a ^b Bo Wang; Haichun Zhang & Edmund A. Jarzembowski (2008). "A new genus and species of Palaeontinidae (Insecta: Hemiptera: Cicadomorpha) from the Lower Cretaceous of southern England" (PDF). Zootaxa (1751). Magnolia Press: 65–68. ISSN 1175-5326. Retrieved July 13, 2011.
^ Wang Ying & Ren Dong (2007). "Two new genera of fossil palaeontinids from the Middle Jurassic in Daohugou, Inner Mongolia, China (Hemiptera, Palaeontinidae)" (PDF). Zootaxa. 1390 (1390). Magnolia Press: 41–49. doi:10.11646/zootaxa.1390.1.5. ISSN 1175-5334. Retrieved July 15, 2011.
^ ^a ^b ^c ^d Federica Menon & Sam W. Heads (2005). "New species of Palaeontinidae (Insecta: Cicadomorpha) from the Lower Cretaceous Crato Formation of Brazil" (PDF). Stuttgarter Beiträge zur Naturkunde, Serie B (Geologie und Paläontologie) (357). Staatliches Museum für Naturkunde: 1–10. ISSN 0341-0153. Retrieved July 15, 2011.
^ ^a ^b ^c ^d Bo Wang; Haichun Zhang; Yan Fang; Dejin Wang & Yutao Zhang (2007). "A revision of Palaeontinidae (Insecta: Hemiptera: Cicadomorpha) from the Jurassic of China with descriptions of new taxa and new combinations" (PDF). Geological Journal. 43. Wiley InterScience: 1–18. doi:10.1002/gj.1092. Retrieved July 15, 2011.
^ ^a ^b Xu, Chunpeng; Chen, Jun; Muijres, Florian T.; Yu, Yilun; Jarzembowski, Edmund A.; Zhang, Haichun; Wang, Bo (2024-10-25). "Enhanced flight performance and adaptive evolution of Mesozoic giant cicadas". Science Advances. 10 (43). doi:10.1126/sciadv.adr2201. ISSN 2375-2548. PMC 11506159. PMID 39454006.
^ ^a ^b Bo Wang; Haichun Zhang; Yan Fang; Dejin Wang; Shengzhu Ji (2008). "New data on Cretaceous Palaeontinidae (Insecta: Hemiptera) from China" (PDF). Cretaceous Research. 29 (4). Elsevier: 551–560. doi:10.1016/j.cretres.2008.01.007. ISSN 0195-6671. Retrieved July 15, 2011.
^ D. E. Shcherbakov (2000). "Permian Faunas of Homoptera (Hemiptera) in Relation to Phytogeography and the Permo-Triassic Crisis" (PDF). Paleontological Journal. 34 (Suppl. 3): S251 – S267. Retrieved July 15, 2011.
^ ^a ^b ^c ^d ^e ^f ^g Bo Wang; Haichun Zhang & Jacek Szwedo (2009). "Jurassic Palaeontinidae from China and the Higher Systematics of Palaeontinoidea (Insecta: Hemiptera: Cicadomorpha)". Palaeontology. 52 (Part 1). The Palaeontological Association: 53–64. doi:10.1111/j.1475-4983.2008.00826.x.
^ ^a ^b Robin J. Wootton (2002). "Reconstructing insect flight performance from fossil evidence" (PDF). Acta Zoologica Cracoviensia. 46 (suppl. – Fossil Insects). Institute of Systematics and Evolution of Animals, Polish Academy of Sciences: 89–99. ISSN 1734-915X. Retrieved July 15, 2011.
^ R. Wootton (1971). "The Evolution of Cicadoidea (Homoptera)" (PDF). Proceedings: XIII International Congress of Entomology, Moscow (1): 318–319. Retrieved July 15, 2011.
^ ^a ^b R.J. Tillyard (1935). "The Evolution of the Scorpion-flies and their Derivatives (Order Mecoptera)" (PDF). Annals of the Entomological Society of America. 28 (1). Entomological Society of America: 1–45. doi:10.1093/aesa/28.1.1. Retrieved July 15, 2011.
^ ^a ^b "Palaeontinidae". Paleobiology Database. Retrieved July 15, 2011.
^ Szwedo, Jacek (June 2016). "The unity, diversity and conformity of bugs (Hemiptera) through time". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 107 (2–3): 109–128. doi:10.1017/S175569101700038X. ISSN 1755-6910.
^ J.W. Evans (1963). "The Phylogeny of the Homoptera" (PDF). Annual Review of Entomology. 8. Annual Reviews: 77–94. doi:10.1146/annurev.en.08.010163.000453. ISSN 0066-4170. Retrieved July 21, 2011.
^ ^a ^b Kye Soo Nam; Ying Wang; Dong Ren; Jong Heon Kim & Jacek Szwedo (2017). "An extraordinary palaeontinid from the Triassic of Korea and its significance". Scientific Reports. 7: 40691. Bibcode:2017NatSR...740691N. doi:10.1038/srep40691. PMC 5241632. PMID 28098190.
^ Kyoichiro Ueda (1996). "A New Palaeontinid Species from the Lower Cretaceous of Brazil (Homoptera: Palaeontinidae)" (PDF). Bulletin of the Kitakyushu Museum of Natural History. 16. Kitakyushu Museum and Institute of Natural History: 99–104. Retrieved July 21, 2011.
^ Xavier Martínez-Delclòs (1990). "Insectos del Cretácico inferior de Santa Maria de Meià (Lleida): Colección Lluís Maria Vidal i Carreras" (PDF). Treballs del Museu de Geología de Barcelona (in Spanish). 1. Museo de Geología de Barcelona: 91–116. Retrieved July 21, 2011.
^ Mikko Haaramo (May 5, 2009). "†Palaeontinidae: After Grimaldi & Engel, 2005, Wang, Zhang & Fang, 2006, and Wang, Zhang & Szwedo, 2009". Mikko's Phylogeny Archive. Retrieved July 15, 2011.
^ J.O. Westwood (1854). "Contributions to Fossil Entomology: XI Fossil Insects from the Lower Purbecks, Durdlestone Bay, Dorset". The Quarterly Journal of the Geological Society of London. 10 (1–2). Geological Society of London: 395–396. doi:10.1144/gsl.jgs.1854.010.01-02.43. S2CID 129712238. Retrieved July 13, 2011.

External links

Data related to Palaeontinidae at Wikispecies
Media related to Palaeontinidae at Wikimedia Commons

[edna-1] "Family Palaeontinidae". The EDNA Fossil Insect Database. Retrieved July 16, 2011.

[2] "Ancient Giant Cicadas Reveal an Aerial Evolutionary Arms Race----Chinese Academy of Sciences". english.cas.cn. Retrieved 2024-11-13.

[:02-3] Xu, Chunpeng; Chen, Jun; Muijres, Florian T.; Yu, Yilun; Jarzembowski, Edmund A.; Zhang, Haichun; Wang, Bo (2024-10-25). "Enhanced flight performance and adaptive evolution of Mesozoic giant cicadas". Science Advances. 10 (43). doi:10.1126/sciadv.adr2201. ISSN 2375-2548. PMC 11506159. PMID 39454006.

[:12-4] Szwedo, Jacek (June 2016). "The unity, diversity and conformity of bugs (Hemiptera) through time". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 107 (2–3): 109–128. doi:10.1017/S175569101700038X. ISSN 1755-6910.

[tillyard-5] R.J. Tillyard (1919). "The Panorpoid Complex 3" (PDF). Proceedings of the Linnean Society of New South Wales (44): 533–718.

[butler-6] Arthur Gardiner Butler (1869–1874). Lepidoptera Exotica; or, Descriptions and Illustrations of Exotic Lepidoptera. E. W. Jansen. pp. 126–127.

[wang-england-7] Bo Wang; Haichun Zhang & Edmund A. Jarzembowski (2008). "A new genus and species of Palaeontinidae (Insecta: Hemiptera: Cicadomorpha) from the Lower Cretaceous of southern England" (PDF). Zootaxa (1751). Magnolia Press: 65–68. ISSN 1175-5326. Retrieved July 13, 2011.

[ying-8] Wang Ying & Ren Dong (2007). "Two new genera of fossil palaeontinids from the Middle Jurassic in Daohugou, Inner Mongolia, China (Hemiptera, Palaeontinidae)" (PDF). Zootaxa. 1390 (1390). Magnolia Press: 41–49. doi:10.11646/zootaxa.1390.1.5. ISSN 1175-5334. Retrieved July 15, 2011.

[menon-9] Federica Menon & Sam W. Heads (2005). "New species of Palaeontinidae (Insecta: Cicadomorpha) from the Lower Cretaceous Crato Formation of Brazil" (PDF). Stuttgarter Beiträge zur Naturkunde, Serie B (Geologie und Paläontologie) (357). Staatliches Museum für Naturkunde: 1–10. ISSN 0341-0153. Retrieved July 15, 2011.

[wang2007-10] Bo Wang; Haichun Zhang; Yan Fang; Dejin Wang & Yutao Zhang (2007). "A revision of Palaeontinidae (Insecta: Hemiptera: Cicadomorpha) from the Jurassic of China with descriptions of new taxa and new combinations" (PDF). Geological Journal. 43. Wiley InterScience: 1–18. doi:10.1002/gj.1092. Retrieved July 15, 2011.

[:0-11] Xu, Chunpeng; Chen, Jun; Muijres, Florian T.; Yu, Yilun; Jarzembowski, Edmund A.; Zhang, Haichun; Wang, Bo (2024-10-25). "Enhanced flight performance and adaptive evolution of Mesozoic giant cicadas". Science Advances. 10 (43). doi:10.1126/sciadv.adr2201. ISSN 2375-2548. PMC 11506159. PMID 39454006.

[wang2008-12] Bo Wang; Haichun Zhang; Yan Fang; Dejin Wang; Shengzhu Ji (2008). "New data on Cretaceous Palaeontinidae (Insecta: Hemiptera) from China" (PDF). Cretaceous Research. 29 (4). Elsevier: 551–560. doi:10.1016/j.cretres.2008.01.007. ISSN 0195-6671. Retrieved July 15, 2011.

[shcherbakov-13] D. E. Shcherbakov (2000). "Permian Faunas of Homoptera (Hemiptera) in Relation to Phytogeography and the Permo-Triassic Crisis" (PDF). Paleontological Journal. 34 (Suppl. 3): S251 – S267. Retrieved July 15, 2011.

[wang2009-14] ^ ^a ^b ^c ^d ^e ^f ^g Bo Wang; Haichun Zhang & Jacek Szwedo (2009). "Jurassic Palaeontinidae from China and the Higher Systematics of Palaeontinoidea (Insecta: Hemiptera: Cicadomorpha)". Palaeontology. 52 (Part 1). The Palaeontological Association: 53–64. doi:10.1111/j.1475-4983.2008.00826.x.

[wootton-15] Robin J. Wootton (2002). "Reconstructing insect flight performance from fossil evidence" (PDF). Acta Zoologica Cracoviensia. 46 (suppl. – Fossil Insects). Institute of Systematics and Evolution of Animals, Polish Academy of Sciences: 89–99. ISSN 1734-915X. Retrieved July 15, 2011.

[wootton1971-16] R. Wootton (1971). "The Evolution of Cicadoidea (Homoptera)" (PDF). Proceedings: XIII International Congress of Entomology, Moscow (1): 318–319. Retrieved July 15, 2011.

[tillyard1935-17] R.J. Tillyard (1935). "The Evolution of the Scorpion-flies and their Derivatives (Order Mecoptera)" (PDF). Annals of the Entomological Society of America. 28 (1). Entomological Society of America: 1–45. doi:10.1093/aesa/28.1.1. Retrieved July 15, 2011.

[paleodb-18] "Palaeontinidae". Paleobiology Database. Retrieved July 15, 2011.

[:1-19] Szwedo, Jacek (June 2016). "The unity, diversity and conformity of bugs (Hemiptera) through time". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 107 (2–3): 109–128. doi:10.1017/S175569101700038X. ISSN 1755-6910.

[evans-20] J.W. Evans (1963). "The Phylogeny of the Homoptera" (PDF). Annual Review of Entomology. 8. Annual Reviews: 77–94. doi:10.1146/annurev.en.08.010163.000453. ISSN 0066-4170. Retrieved July 21, 2011.

[nam2017-21] Kye Soo Nam; Ying Wang; Dong Ren; Jong Heon Kim & Jacek Szwedo (2017). "An extraordinary palaeontinid from the Triassic of Korea and its significance". Scientific Reports. 7: 40691. Bibcode:2017NatSR...740691N. doi:10.1038/srep40691. PMC 5241632. PMID 28098190.

[ueda-22] Kyoichiro Ueda (1996). "A New Palaeontinid Species from the Lower Cretaceous of Brazil (Homoptera: Palaeontinidae)" (PDF). Bulletin of the Kitakyushu Museum of Natural History. 16. Kitakyushu Museum and Institute of Natural History: 99–104. Retrieved July 21, 2011.

[martinez-delclos-23] Xavier Martínez-Delclòs (1990). "Insectos del Cretácico inferior de Santa Maria de Meià (Lleida): Colección Lluís Maria Vidal i Carreras" (PDF). Treballs del Museu de Geología de Barcelona (in Spanish). 1. Museo de Geología de Barcelona: 91–116. Retrieved July 21, 2011.

[mikko-24] Mikko Haaramo (May 5, 2009). "†Palaeontinidae: After Grimaldi & Engel, 2005, Wang, Zhang & Fang, 2006, and Wang, Zhang & Szwedo, 2009". Mikko's Phylogeny Archive. Retrieved July 15, 2011.

[westwood-25] J.O. Westwood (1854). "Contributions to Fossil Entomology: XI Fossil Insects from the Lower Purbecks, Durdlestone Bay, Dorset". The Quarterly Journal of the Geological Society of London. 10 (1–2). Geological Society of London: 395–396. doi:10.1144/gsl.jgs.1854.010.01-02.43. S2CID 129712238. Retrieved July 13, 2011.

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 {{Automatic taxobox
 | fossil_range = Late Triassic-Early Cretaceous {{fossilrange|Norian|Aptian}}
+| image = Palaeontinidae gallert.jpg
-| image = Venational asymmetry in Synapocossus sciacchitanoae Fig 4 H.png
+| image_upright = 1.5
-| image_caption = ''[[Synapocossus sciacchitanoae]]''
+| image_caption = Gallery of various palaeontinids
+| image2_upright =
 | display_parents = 3
 | taxon = Palaeontinidae
@@ Line 17: / Line 19: @@
 }}
-'''Palaeontinidae''', commonly known as '''giant cicadas''', is an [[extinct]] [[Family (biology)|family]] of [[Cicadomorpha|cicadomorphs]]. They existed during the [[Mesozoic era]] of [[Europe]], [[Asia]], and [[South America]].<ref name="martill">{{cite book|author1=David M. Martill |author2=Günter Bechly |author3=Robert F. Loveridge  |name-list-style=amp |title =The Crato fossil beds of Brazil: window into an ancient world|publisher =Cambridge University Press|year =2007|pages=284&ndash;287|isbn =978-0-521-85867-0|url =https://books.google.com/books?id=5ZBh_-QvX2MC&pg=PA284}}</ref> The family contains around 30 to 40 [[genus|genera]] and around a hundred [[species]].<ref name="edna">{{cite web|url=http://edna.palass-hosting.org/search.php?f0=3&h0=0&t0=Palaeontinidae&ao1=1&f1=-1&h1=-1&t1=&ao2=1&f2=-1&h2=-1&t2=&c0=1&c1=1&c3=1&c4=1&c6=1&c10=1&c11=1&c12=1&c13=1&c14=1&c15=1&c20=1&c26=1&c30=1&c34=1&fields=3&plusfields=|title=Family Palaeontinidae|publisher=The EDNA Fossil Insect Database |access-date=July 16, 2011}}</ref>
+'''Palaeontinidae''', commonly known as '''giant cicadas''', is an [[extinct]] [[Family (biology)|family]] of [[Cicadomorpha|cicadomorphs]]. They existed from the [[Late Triassic]] to the [[Early Cretaceous]]. The family contains around 30 to 40 [[genus|genera]] and around a hundred [[species]].<ref name="edna">{{cite web|url=http://edna.palass-hosting.org/search.php?f0=3&h0=0&t0=Palaeontinidae&ao1=1&f1=-1&h1=-1&t1=&ao2=1&f2=-1&h2=-1&t2=&c0=1&c1=1&c3=1&c4=1&c6=1&c10=1&c11=1&c12=1&c13=1&c14=1&c15=1&c20=1&c26=1&c30=1&c34=1&fields=3&plusfields=|title=Family Palaeontinidae|publisher=The EDNA Fossil Insect Database |access-date=July 16, 2011}}</ref> They are thought to have had a similar ecology to modern cicadas as feeders on plant [[xylem]] fluids. Despite being described as "giant cicadas"(with the wingspan of some species exceeding {{Convert|15|cm|in}}<ref>{{Cite web |title=Ancient Giant Cicadas Reveal an Aerial Evolutionary Arms Race----Chinese Academy of Sciences |url=https://english.cas.cn/newsroom/research_news/earth/202410/t20241025_692790.shtml |access-date=2024-11-13 |website=english.cas.cn}}</ref>),<ref name=":02">{{Cite journal |last=Xu |first=Chunpeng |last2=Chen |first2=Jun |last3=Muijres |first3=Florian T. |last4=Yu |first4=Yilun |last5=Jarzembowski |first5=Edmund A. |last6=Zhang |first6=Haichun |last7=Wang |first7=Bo |date=2024-10-25 |title=Enhanced flight performance and adaptive evolution of Mesozoic giant cicadas |url=https://www.science.org/doi/10.1126/sciadv.adr2201 |journal=Science Advances |language=en |volume=10 |issue=43 |doi=10.1126/sciadv.adr2201 |issn=2375-2548 |pmc=11506159 |pmid=39454006}}</ref> they are not particularly closely related to true [[Cicada|cicadas]].<ref name=":12">{{Cite journal |last=Szwedo |first=Jacek |date=June 2016 |title=The unity, diversity and conformity of bugs (Hemiptera) through time |url=https://www.cambridge.org/core/product/identifier/S175569101700038X/type/journal_article |journal=Earth and Environmental Science Transactions of the Royal Society of Edinburgh |language=en |volume=107 |issue=2-3 |pages=109–128 |doi=10.1017/S175569101700038X |issn=1755-6910}}</ref>
 ==Discovery==
@@ Line 24: / Line 26: @@
 ==Description and paleobiology==
 Palaeontinids had large bodies covered with bristles ([[setae]]). They had small heads and broad wings. They superficially resemble moths.<ref name="wang-england"/><ref name="ying">{{cite journal|author1=Wang Ying  |author2=Ren Dong |name-list-style=amp |year=2007|title=Two new genera of fossil palaeontinids from the Middle Jurassic in Daohugou, Inner Mongolia, China (Hemiptera, Palaeontinidae)|journal=Zootaxa|volume=1390 |issue=1390|pages=41&ndash;49|publisher=Magnolia Press|issn=1175-5334|url=http://202.204.209.200/upload/20070115110126.pdf|access-date=July 15, 2011 |doi=10.11646/zootaxa.1390.1.5 }}</ref> Large palaeontinids like ''[[Colossocossus]]'' had forewings that reached the length of {{convert|57|to|71|mm|in|abbr=on}}.<ref name="menon"/>
-They possessed an inflated [[frons]] and a long [[Rostrum (anatomy)|rostrum]] (piercing and sucking mouthpart),  indicating that they fed on [[xylem]] fluids like some other modern [[hemiptera]]ns.<ref name="wang2007"/>
+They possessed an inflated [[frons]] and a long [[Rostrum (anatomy)|rostrum]] (piercing and sucking mouthpart),  indicating that they fed on [[xylem]] fluids like some other modern [[hemiptera]]ns,<ref name="wang2007"/> including living [[Cicada|cicadas]] to which they have often been compared.<ref name=":0">{{Cite journal |last=Xu |first=Chunpeng |last2=Chen |first2=Jun |last3=Muijres |first3=Florian T. |last4=Yu |first4=Yilun |last5=Jarzembowski |first5=Edmund A. |last6=Zhang |first6=Haichun |last7=Wang |first7=Bo |date=2024-10-25 |title=Enhanced flight performance and adaptive evolution of Mesozoic giant cicadas |url=https://www.science.org/doi/10.1126/sciadv.adr2201 |journal=Science Advances |language=en |volume=10 |issue=43 |doi=10.1126/sciadv.adr2201 |issn=2375-2548 |pmc=11506159 |pmid=39454006}}</ref>
-Some authors have proposed that the [[host plant]]s of palaeontinids to be [[Ginkgophyta|ginkgophyte]]s based on the geographic distribution of both groups, however other authors have argued that this association is likely to be spurious, given that that paleontinids also occur in areas with no ginkgophytes. Some authors have suggested that the decline of [[Gymnosperm|gymnosperms]] and the rise of [[angiosperm]]s (flowering plants) during the Cretaceous could have been a factor in their extinction.<ref name="menon" /> Numerous newly evolved [[insectivorous]] animals (feathered [[theropod]]s, primitive [[mammal]]s, and early [[bird]]s) may have also contributed significantly to their extinction.<ref name="wang2008"/>
+Some authors have proposed that the [[host plant]]s of palaeontinids to be [[Ginkgophyta|ginkgophyte]]s based on the geographic distribution of both groups, however other authors have argued that this association is likely to be spurious, given that paleontinids also occur in areas with no ginkgophytes. Some authors have suggested that the decline of [[Gymnosperm|gymnosperms]] and the rise of [[angiosperm]]s (flowering plants) during the Cretaceous could have been a factor in their extinction.<ref name="menon" /> Numerous newly evolved [[insectivorous]] animals (feathered [[theropod]]s, primitive [[mammal]]s, and early [[bird]]s) may have also contributed significantly to their extinction.<ref name="wang2008"/>
 Most species of palaeontinids exhibit [[Crypsis|cryptic coloration]].<ref name="shcherbakov">{{cite journal |author=D. E. Shcherbakov |year=2000 |title=Permian Faunas of Homoptera (Hemiptera) in Relation to Phytogeography and the Permo-Triassic Crisis |url=http://palaeoentomolog.ru/Publ/PALS251.pdf |journal=Paleontological Journal |volume=34 |issue=Suppl. 3 |pages=S251–S267 |access-date=July 15, 2011}}</ref> The patterns on their wings protected them as they perched on branches and fed on sap. They may also have served as [[secondary sexual characteristics]]. The color patterns can vary slightly within the same species.<ref name="wang2007"/>
+[[File:Palaeontinid chased by bird.jpg|thumb|270x270px|Illustration of a palaeontinid being persued by a primitive bird during the Early Cretaceous]]
 Palaeontinids, like modern cicadas, possess four membranous wings supported by veins. The length and width ratio of the wings can vary within the same species, sometimes as a result of fossil preservation.<ref name="wang2007"/> Early Jurassic palaeontinids, like ''[[Suljuktocossus]]'', exhibit the most primitive wing forms in the family.<ref name="wang2009"/> The forewing was elliptical with the "nodal line" (the area where the wing bends during flight, also known as the "transverse flexion line") more or less dissecting through the center of the wing. The hindwing was short and broad. The bases of the forewings overlapped that of the hindwings like in modern butterflies. Taken together with their large bodies, these characteristics indicate that they were fast but moderately versatile fliers.<ref name="wootton">{{cite journal|author=Robin J. Wootton|year=2002|title=Reconstructing insect flight performance from fossil evidence|journal=Acta Zoologica Cracoviensia|volume=46|issue=suppl. &ndash; Fossil Insects|pages=89&ndash;99|publisher=Institute of Systematics and Evolution of Animals, Polish Academy of Sciences|issn=1734-915X |url=http://www.isez.pan.krakow.pl/journals/azc_i/pdf/46(suppl)/11.pdf|access-date= July 15, 2011}}</ref>
-In contrast, later palaeontinids like the Upper Jurassic ''[[Eocicada]]'' and Early Cretaceous ''[[Ilerdocossus]]'' had triangular forewings with the flexion line closer to the base. They had smaller and narrower hindwings that did not overlap with the forewing. These indicate that they were highly versatile fliers, able to fly with a wide range of speeds and agility like modern [[wasp]]s and [[sphinx moth]]s.<ref name="wootton"/> They also possessed changes to the leading edge of their forewings, suggesting an overall gain in [[Lift (force)|lift]].<ref name="wang2009"/>
+In contrast, later palaeontinids like the Upper Jurassic ''[[Eocicada]]'' and Early Cretaceous ''[[Ilerdocossus]]'' had triangular forewings with the flexion line closer to the base. They had smaller and narrower hindwings that did not overlap with the forewing. These indicate that they were highly versatile fliers, able to fly with a wide range of speeds and agility like modern [[wasp]]s and [[sphinx moth]]s.<ref name="wootton"/> They also possessed changes to the leading edge of their forewings, suggesting an overall gain in [[Lift (force)|lift]].<ref name="wang2009"/> The different wing shape of later palaeontinids may have evolved to more effectively escape from flying predators like early birds.<ref name=":0" />
 The trend of forewing elongation is most evident in members of the family [[Mesogereonidae]], an early offshoot and close relatives of palaeontinids.<ref name="wootton1971">{{cite journal|author=R. Wootton|year=1971|title=The Evolution of Cicadoidea (Homoptera)|journal=Proceedings: XIII International Congress of Entomology, Moscow|issue=1|pages=318–319|url=http://entnemdept.ufl.edu/walker/buzz/c700lw71.pdf|access-date=July 15, 2011 }}</ref>
@@ Line 75: / Line 77: @@
 The [[belgium|Belgian]] entomologist [[Auguste Lameere]] challenged this conclusion, claiming palaeontinids were more closely related to the extant family [[Cicadidae]] (cicadas). The English-[[Australian people|Australian]] entomologist and [[geologist]] [[Robert John Tillyard]] supported Lameere's conclusion, noting that the wings of palaeontinid fossils lacked the characteristic scales of lepidopterans but instead had tubercules, pits, and cross-ridges like those found in modern cicadas.<ref name="tillyard1935"/> He also cited characteristics of wing venation that distinctly differs from that of lepidopterans.<ref name="tillyard"/>
-Palaeontinidae are currently classified under the extinct superfamily [[Palaeontinoidea]] along with the families [[Dunstaniidae]] and [[Mesogereonidae]].<ref name="wang2009">{{cite journal|author1=Bo Wang |author2=Haichun Zhang |author3=Jacek Szwedo |name-list-style=amp |year=2009|title=Jurassic Palaeontinidae from China and the Higher Systematics of Palaeontinoidea (Insecta: Hemiptera: Cicadomorpha)|journal=Palaeontology|volume=52|issue=Part 1|pages=53&ndash;64|publisher=The Palaeontological Association|doi=10.1111/j.1475-4983.2008.00826.x|doi-access=free}}</ref> They are classified under [[infraorder]] [[Cicadomorpha]] of the [[hemiptera]]ns (true bugs).<ref name="paleodb"/>
+Palaeontinidae are currently classified under the extinct superfamily [[Palaeontinoidea]] along with the families [[Dunstaniidae]] and [[Mesogereonidae]].<ref name="wang2009">{{cite journal|author1=Bo Wang |author2=Haichun Zhang |author3=Jacek Szwedo |name-list-style=amp |year=2009|title=Jurassic Palaeontinidae from China and the Higher Systematics of Palaeontinoidea (Insecta: Hemiptera: Cicadomorpha)|journal=Palaeontology|volume=52|issue=Part 1|pages=53&ndash;64|publisher=The Palaeontological Association|doi=10.1111/j.1475-4983.2008.00826.x|doi-access=free}}</ref> They are classified under [[infraorder]] [[Cicadomorpha]] of the [[hemiptera]]ns (true bugs).<ref name="paleodb"/> Despite being described as "giant cicadas", other living cicadomorphs ([[Leafhopper|leafhoppers]], [[Treehopper|treehoppers]], and [[spittlebugs]]) are more closely related to modern cicadas than palaeontinids are.<ref name=":1">{{Cite journal |last=Szwedo |first=Jacek |date=June 2016 |title=The unity, diversity and conformity of bugs (Hemiptera) through time |url=https://www.cambridge.org/core/product/identifier/S175569101700038X/type/journal_article |journal=Earth and Environmental Science Transactions of the Royal Society of Edinburgh |language=en |volume=107 |issue=2-3 |pages=109–128 |doi=10.1017/S175569101700038X |issn=1755-6910}}</ref>
 The name Cicadomorphidae was once proposed as a replacement for the name Palaeontinidae in 1956 by the Australian entomologist J.W. Evans. This was because of Handlirsch's earlier insistence that the [[type species]] ''Palaeontina oolitica'' may not have been [[Hemiptera]]n. However, Evans later conceded that retaining the name Palaeontinidae was preferable as the drawings Handlirsch based his conclusions on were from badly preserved specimens.<ref name="evans">{{cite journal|author=J.W. Evans|year=1963|title=The Phylogeny of the Homoptera|journal=Annual Review of Entomology|volume=8|pages=77&ndash;94|publisher=Annual Reviews|issn=0066-4170|url=http://ag.udel.edu/delpha/1456.pdf|access-date=July 21, 2011 |doi=10.1146/annurev.en.08.010163.000453}}</ref>
@@ Line 88: / Line 90: @@
 ==Distribution and geologic time range==
 [[File:Palaeontinidae Distribution (Late Jurassic).jpg|thumb|right|312px|[[Paleogeography|Paleogeographic]] representation of the [[Earth]] during the [[Early Cretaceous]] showing the approximate locations of some palaeontinid fossil sites. '''1''' - [[Crato Formation]], [[Brazil]]; '''2''' - [[Serra del Montsec]], [[Spain]]; '''3''' - [[Baissa]], [[Transbaikalia]]; and '''4''' - [[Yixian Formation]], [[China]].<ref name="menon"/>]]
-The oldest known member of the group is ''[[Hallakkungis]] ''from South Korea dating to the [[Norian]] stage of the [[Late Triassic]] (''ca''. 227 – ''ca''. 208.5 Mya)<ref name="nam2017" /> and the youngest members are from the late [[Aptian]] age of the [[Lower Cretaceous]] (~115-113 Mya).<ref name="wang2008">{{cite journal|author1=Bo Wang |author2=Haichun Zhang |author3=Yan Fang |author4=Dejin Wang |author5=Shengzhu Ji |year=2008|title=New data on Cretaceous Palaeontinidae (Insecta: Hemiptera) from China|journal=Cretaceous Research|volume=29 |issue=4|doi=10.1016/j.cretres.2008.01.007|pages=551&ndash;560|publisher=Elsevier|issn=0195-6671|url=http://202.204.209.200/upload/20070115110126.pdf|access-date=July 15, 2011 }}</ref><ref name="paleodb">{{cite web|url=http://paleodb.org/cgi-bin/bridge.pl?a=checkTaxonInfo&taxon_no=175586&is_real_user=1|title=Palaeontinidae|publisher=Paleobiology Database|access-date=July 15, 2011}}</ref> They achieved their greatest diversity during the [[Jurassic]] period.<ref name="ueda">{{cite journal|author=Kyoichiro Ueda|year=1996|title=A New Palaeontinid Species from the Lower Cretaceous of Brazil (Homoptera: Palaeontinidae)|journal=Bulletin of the Kitakyushu Museum of Natural History|volume=16|pages=99&ndash;104|publisher=Kitakyushu Museum and Institute of Natural History|url=http://www.kmnh.jp/publication/ronbun_pdf/16-99-E-Ueda.pdf|access-date= July 21, 2011}}</ref>
+The oldest known member of the group is ''[[Hallakkungis]] ''from South Korea dating to the [[Norian]] stage of the [[Late Triassic]] (''ca''. 227 – ''ca''. 208.5 Mya)<ref name="nam2017" /> and the youngest members are from the late [[Aptian]] age of the [[Lower Cretaceous]] (~115-113 Mya).<ref name="wang2008">{{cite journal|author1=Bo Wang |author2=Haichun Zhang |author3=Yan Fang |author4=Dejin Wang |author5=Shengzhu Ji |year=2008|title=New data on Cretaceous Palaeontinidae (Insecta: Hemiptera) from China|journal=Cretaceous Research|volume=29 |issue=4|doi=10.1016/j.cretres.2008.01.007|pages=551&ndash;560|publisher=Elsevier|issn=0195-6671|url=http://202.204.209.200/upload/20070115110126.pdf|access-date=July 15, 2011 }}</ref><ref name="paleodb">{{cite web|url=https://paleobiodb.org/classic/checkTaxonInfo?taxon_no=175586|title=Palaeontinidae|publisher=Paleobiology Database|access-date=July 15, 2011}}</ref> They achieved their greatest diversity during the [[Jurassic]] period.<ref name="ueda">{{cite journal|author=Kyoichiro Ueda|year=1996|title=A New Palaeontinid Species from the Lower Cretaceous of Brazil (Homoptera: Palaeontinidae)|journal=Bulletin of the Kitakyushu Museum of Natural History|volume=16|pages=99&ndash;104|publisher=Kitakyushu Museum and Institute of Natural History|url=http://www.kmnh.jp/publication/ronbun_pdf/16-99-E-Ueda.pdf|access-date= July 21, 2011}}</ref>
 Palaeontinid fossils are abundant in [[Eurasia]] and [[South America]].<ref name="wang2009"/> Fossils have been recorded in [[Brazil]], [[China]], [[Russia]], [[Germany]], the [[Transbaikal]] region, [[Tajikistan]], [[Turkmenistan]], [[Kyrgyzstan]], [[Kazakhstan]], [[Spain]], and the [[United Kingdom]]. Important [[Type locality (geology)|localities]] for palaeontinid fossils include the [[Crato Formation]] [[Lagerstätte]] of [[Brazil]] and the [[Yixian Formation]], [[Haifanggou Formation|Haifanggou (or Jiulongshan) Formation]], and the [[Daohugou Beds]] of [[China]].<ref name="menon">{{cite journal|author1=Federica Menon  |author2=Sam W. Heads |name-list-style=amp |year=2005|title=New species of Palaeontinidae (Insecta: Cicadomorpha) from the Lower Cretaceous Crato Formation of Brazil|journal=Stuttgarter Beiträge zur Naturkunde, Serie B (Geologie und Paläontologie)|issue=357|pages=1&ndash;10|publisher=Staatliches Museum für Naturkunde|issn=0341-0153|url=http://www-alt.naturkundemuseum-bw.de/stuttgart/pdf/b_pdf/B357.pdf|access-date=July 15, 2011 }}</ref><ref name="wang2007">{{cite journal|author1=Bo Wang |author2=Haichun Zhang |author3=Yan Fang |author4=Dejin Wang |author5=Yutao Zhang  |name-list-style=amp |year=2007|title=A revision of Palaeontinidae (Insecta: Hemiptera: Cicadomorpha) from the Jurassic of China with descriptions of new taxa and new combinations|journal=Geological Journal|volume=43|doi=10.1002/gj.1092|pages=1&ndash;18|publisher=Wiley InterScience|url=http://159.226.74.248:8000/pagelinks/147862.pdf|access-date=July 15, 2011 }}</ref><ref name="martinez-delclos">{{cite journal|author=Xavier Martínez-Delclòs|year=1990|title=Insectos del Cretácico inferior de Santa Maria de Meià (Lleida): Colección Lluís Maria Vidal i Carreras|journal= Treballs del Museu de Geología de Barcelona|volume=1|language=es|pages=91&ndash;116|publisher=Museo de Geología de Barcelona |url=http://w3.bcn.es/fitxers/icub/museuciencies/article005.330.pdf|access-date= July 21, 2011}}</ref>
@@ Line 162: / Line 164: @@
 [[Category:Prehistoric insect families]]
 [[Category:Rhaetian first appearances]]
-[[Category:Tithonian taxonomic families]]
-[[Category:Berriasian taxonomic families]]
-[[Category:Valanginian taxonomic families]]
-[[Category:Hauterivian taxonomic families]]
-[[Category:Barremian taxonomic families]]
-[[Category:Aptian taxonomic families]]
 [[Category:Aptian extinctions]]
 [[Category:Taxa named by Anton Handlirsch]]