Fossil Notostracan References

NOTE: For many of these references, I have pdfs. This list includes all known papers on the fossil record of notostracans (i.e tadpole shrimp) and the extinct kazacharthrans. If you think I am missing something, please let me know!

Fossil Notostracan References (195)

1. Akita, M. (1973). [On the living fossil: tadpole shrimps]. Seibutsu Kagaku 24, 169–177.

2. Alifanov, V. R. (2014). The discovery of late Jurassic dinosaurs in Russia. Doklady Earth Sciences 455, 365–367.

3. Anonymous (1981). [Fossils of horseshoe crabs found in Karamay, Xinjiang]. Acta Petrolei Sinica 2, 36.

4. Babcock, L. E., Stigall, A. L., Leslie, S. A., Ford, L. A., Elliot, D. H. & Briggs, D. E. G. (2006). The “Preservation Paradox”: Microbes as a key to exceptional fossil preservation in the Kirkpatrick Basalt (Jurassic), Antarctica. The Sedimentary Record 4, 4–8.

5. Badamgarav, D. (1985). Crustacean records - Kazacharthrids from the Triassic of Mongolia. Paleontological Journal 134–136.

6. Baek, S. Y., Kim, S. K., Ryu, S. H., Suk, H. Y., Choi, E. H., Jang, K. H., Kwak, M., Jun, J., Kim, S.-o. & Hwang, U. W. (2013). Population genetic structure and phylogenetic origin of Triops longicaudatus (Branchiopoda: Notostraca) on the Korean Peninsula. Journal of Crustacean Biology 33, 382–391.

7. Ball, H. W., Borns, H. W., Jr., Hall, B. A., Brooks, H. K., Carpenter, F. M. & Delevoryas, T. (1977). Biota, age, and significance of lake deposits, Carapace Nunatak, Victoria Land, Antarctica. Fourth International Gondwana Symposium: Papers 1, 166–175.

8. Bao, C.-F. (2021). [Study of the sexual dimorphism of fossil triopsids of early Cretaceous from Weichang area, Hebei Province, China]. 地质学刊 [Journal of Geology] 45, 143–149.

9. Bao, C.-F. (2021). Restudy of the early Cretaceous fossil Triops from Weichang Area, Hebei Province, China. Ph.D. thesis, Hebei GEO University, 1 pp.

10. Barnard, K. H. (1931). Contributions to the crustacean fauna of South Africa. No. 10; a revision of the South African Branchiopoda (Phyllopoda). Annals of the South African Museum 29, 181–202.

11. Belk, D. (1996). Was sind ‘‘Urzeitkrebse’’? Stapfia 42, 15–19.

12. Bennike, O. (1995). Palaeoecology of two lake basins from Disko, West Greenland. Journal of Quaternary Science 10, 149–155.

13. Bernard, H. M. (1897). Fossil Apodidae. Natural Science 11, 397–403.

14. Blazhevskaya, I. (2017). Paleontologicheskiy muzey v Zabaykal’ye: nevosstanavlivayemyye chudesa prirody (interv’yu s S. M. Sinitsey) [Paleontological Museum in Transbaikalia: Nonrenewable Miracles of Nature (аn Interview with S. M. Sinits)]. Uchenyye Zapiski ZabGU 12, 60–67.

15. Bludszuweit, G., Haft, J. & Riehl, I. (1996). “Heimische Urzeitkrebse”: Zur Konzeption eines Dokumentarfilmes. Stapfia 42, 159–165.

16. Briggs, D. E. G., Liu, H. P., McKay, R. M. & Witzke, B. J. (2015). Bivalved arthropods from the Middle Ordovician Winneshiek Lagerstätte, Iowa, USA. Journal of Paleontology 89, 991–1006.

17. Bromley, R. & Asgaard, U. (1972). Notes on Greenland trace fossils. I. Freshwater Cruziana from the Upper Triassic of Jameson Land, East Greenland. Grønlands Geologiske Undersøgelse Rapport 49, 1–13.

18. Bromley, R. & Asgaard, U. (1979). Triassic freshwater ichnocoenoses from Carlsberg Fjord, east Greenland. Palaeogeography, Palaeoclimatology, Palaeoecology 28, 39–80.

19. Burkov, Y. K. & Trusova, E. K. (1976). Korrelyatsionnyy analiz svyazey mezhdu priznakami listonogikh rakoobraznykh [Correlation analysis of relationships between traits of phyllopods]. In: Vanchurov, I. A. (ed.) Matematika v Paleontologii [Mathematics in Paleontology]. Moscow: Izdatel’stvo “Nauka”, 12–13.

20. Cesari, M., Mularoni, L., Scanabissi, F. & Mantovani, B. (2004). Characterization of dinucleotide microsatellite loci in the living fossil tadpole shrimp Triops cancriformis (Crustacea Branchiopoda Notostrace). Molecular Ecology Notes 4, 733–735.

21. Chen, P.-J. & Zhou, H. (1985). A preliminary study on fossil Kazacharthra from Turpan Basin. Kexue Tongbao 30, 950–954.

22. Chen, P.-J. (1985). Jurassic Triops from south China—with a discussion on the distribution of Notostraca. Acta Palaeontologica Sinica 24, 285–292.

23. Chen, P.-J., McKenzie, K. G. & Zhou, H.-Z. (1996). A further research into Late Triassic Kazacharthra fauna from Xinjiang Uygur Autonomous Region, NW China. Acta Palaeontologica Sinica 35, 273–302.

24. Chen, P.-J. (2008). Gǔ shì ālā mù tú chóng (Almatium gusevi). 生物进化 [Evolution of Life] 2, 19.

25. Clément, G., Rabet, N., Béthoux, O., Charbonnier, S., Vecoli, M., Olive, S. & Lagebro, L. (2010). Arthropod fauna of the upper Devonian tetrapod-bearing locality of Strud, Belgium. Third International Palaeontological Congress, London S24.

26. Copeland, M. J. (1957). The arthropod fauna of the Upper Carboniferous rocks of the Maritime Provinces. Geological Survey of Canada Memoir 286, 1–110.

27. Courtney-Mustaphi, C. J., Steiner, E., von Fumetti, S. & Heiri, O. (2024). Aquatic invertebrate mandibles and sclerotized remains in Quaternary lake sediments. Journal of Paleolimnology 71, 45–83.

28. Covacevich, C. V., Pino, J. H. & Fuenzalida, C. G. (1988). Presencia del genero Triops Shrank, 1803 (Arthropoda: Branchiopoda) en la Formacion Pular (Paleozoico Superior), region de Antofagasta, Chile [Presence of the genus Triops Shrank, 1803, (Arthropoda: Branchiopoda) in the Pular Formation (upper Paleozoic), Antofagasta region, Chile]. Serie Comunicaciones - Departamento de Geologia, Facultad de Ciencias Fisicas y Matematicas, Universidad de Chile 39, 87.

29. Dechaseaux, C. (1953). Sous-classe des Branchiopodes (Branchiopoda Latreille 1817). Traité de Paléontologie 3, 257–268.

30. Denayer, J., Prestianni, C., Gueriau, P., Olive, S. & Clément, G. (2016). Stratigraphy and depositional environments of the Late Famennian (Late Devonian) of Southern Belgium and characterization of the Strud locality. Geological Magazine 153, 112–127.

31. Devyatov, V. P., Kazakov, A. M., Kurushin, N. I., Sapyanik, V. V., Serebrennikova, O. V. & Smirnov, L. V. (2001). Ranne-sredneyurskiye landshafty i raspredeleniye organicheskogo veshchestva v zapadno-sibirskom osadochnom basseyne [Early-Middle Jurassic Landscapes and Distribution of Organic Matter in the West Siberian Sedimentary Basin]. Materialy II Mezhdunarodnogo simpoziuma “Evolyutsiya zhizni na Zemle” [Proceedings of the II international symposium “Evolution of Life on the Earth”] 268–270.

32. Dobruskina, I. A. (1995). Keuper (Triassic) flora from Middle Asia (Madygen, Southern Fergana). New Mexico Museum of Natural History & Science 5, 1–49.

33. Doweld, A. B. (2015). Rukavisсhnikovia, a new replacement name for preoccupied Iliella Rukavishnikova, 1980 (Brachiopoda) non Tschernyshev, 1940 (Crustacea). Zootaxa 4052, 478.

34. Dzik, J. (1996). Notostracan trackways and parataxonomy. Acta Palaeontologica Polonica 41, 58.

35. Ellenberger, P. (1970). Les niveaux paleontologiques de premiere apparition des mammiferes primordiaux en Afrique du Sud et leur ichnologie. Establissement de zones stratigraphiques detaillees dans le Stormberg du Lesotho (Afrique du Sud) (Trias Superieur a Jurassique) [Paleontological levels of earliest appearance of primordial mammals in South Africa and their ichnology. Establishment of detailed stratigraphic zones in the Stormberg of Lesotho (South Africa) (Upper Triassic to Jurassic)]. Proceedings and Papers of the Second Gondwana Symposium, South Africa 343–370.

36. Emrich, O. (2013). Triopsiden aus dem Rotliegend des Saar-Nahe-Beckens? Pollichia-Kurier 29, 25–27.

37. Erben, H. K. (1952). Ein Methusalem unter den krebsen. Kosmos 48, 571–573.

38. Fayers, S. R. & Trewin, N. H. (2002). A new crustacean from the Early Devonian Rhynie chert, Aberdeenshire, Scotland. Transactions of the Royal Society of Edinburgh: Earth Sciences 93, 355–382.

39. Feng, R.-L. (1978). Carboniferous to Quaternary. Arthropoda. Crustacea. Index Fossils of Southwestern China 2, 445–452.

40. Firtion, F. (1936). Note sur quelques gisements fossilifères du grès à Voltzia d’Alsace. Bulletin du Service de la Carte Géologique d’Alsace et de Lorraine 3, 13–20.

41. Fu, Y. & Huang, D. (2020). The enigmatic arthropod Duraznovis gallegoi from the Late Triassic of Argentina is a cicadomorphan head (Insecta: Hemiptera: Auchenorrhyncha). Palaeoentomology 3, 245–247.

42. Gall, J.-C. (1971). Faunes et paysages du Grès à Voltzia du nord des vosges. Essai paléoécologique sur le Buntsandstein supérieur. Mémoire du Service de la Carte Géologique d’Alsace et de Lorraine 34, 1–318.

43. Gall, J.-C., Grauvogel-Stamm, L. & Papier, F. (1995). Der Buntsandstein der nordvogesen. Jahresbericht und Mitteilungen des Oberrheinischen Geologischen Vereins 77, 155–165.

44. Gall, J.-C. & Grauvogel-Stamm, L. (1999). Paläoökologie des Oberen Buntsandsteins am Westrand des Germanischen Beckens: Der Voltziensandstein im nordöstlichen Frankreich als deltaische bildung [Paleoecology of the Upper Buntsandstein on the western edge of the Germanic Basin: the Voltzian Sandstone in north-eastern France as a deltaic formation]. In: Hauschke, N. & Wilde, V. (eds.) Trias—Eine ganz andere Welt. Trias—Eine ganz andere Welt. Mitteleuropa im frühen Erdmittelalter [The Triassic—a totally different world. Central Europe in the Early Mesozoic]. Munich: Verlag Dr. Friedrich Pfeil, 283–298.

45. Gall, J.-C. & Grauvogel-Stamm, L. (2005). The early Middle Triassic ‘Grès à Voltzia’ Formation of eastern France: a model of environmental refugium. Comptes Rendus Palevol 4, 637–652.

46. Gand, G. (1994). Ichnocoenoses à Isopodichnus furcosus nov. ichnosp. dans le Permien de Lodève (Massif Central, France) [Isopodichnus furcosus nov. ichnosp. Ichnocoenoses from the Permian Lodève basin (Massif Central, France)]. Geobios 27, 73–86.

47. Gand, G., Garric, J. & LaPeyrie, J. (1997). Biocénoses à triopsidés (Crustacea, Branchiopoda) du Permien du bassin de Lodève (France). [Triopsids’ biocoenoses from Permian of the Lodève basin (France)]. Geobios 30, 673–700.

48. Gand, G., Kerp, H., Parsons, C. & Martinez-Garcia, E. (1997). Palaeoenvironmental and stratigraphic aspects of animal traces and plant remains in Spanish Permian red beds (Pena Sagra, Cantabrian Mountains, Spain). Geobios 30, 295–318.

49. Gand, G., Garric, J., Schneider, J., Walter, H., Lapeyrie, J., Martin, C. & Thiery, A. (2008). Notostraca trackways in Permian playa environments of the Lodève basin (France). Journal of Iberian Geology 34, 73–108.

50. Garrouste, R., Nel, A. & Gand, G. (2009). New fossil arthropods (Notostraca and Insecta: Syntonopterida) in the continental middle Permian of Provence (Bas-Argens Basin, France). Comptes Rendus Palevol 8, 49–57.

51. Geyer, G., Hegna, T. A. & Kelber, K.-P. (2024). The end of the ‘living fossil’ tale? A new look at Triassic specimens assigned to the tadpole shrimp Triops cancriformis (Notostraca) and associated phyllopods from the Vosges region (eastern France). Papers in Palaeontology 10, e1589.

52. Goldenberg, F. (1870). Zwei neue ostracoden und eine Blattina aus der Steinkohlenformation von Saarbrücken. Neues Jahrbuch für Mineralogie, Geologie und Palaeontologie 1870, 286–289.

53. Goldenberg, F. (1877). Die fossilen Thiere aus der Steinkohlenformation von Saarbrücken. Fauna Saræpontana Fossilis 2, 1–54.

54. Golzari, A., Khodabandeh, S. & Seyfabadi, J. (2009). Some biological characteristics of tadpole shrimp, Triops cancriformis, from seasonal pools of West Azarbaijan (Iran). Journal of Agricultural Science and Technology 11, 81–90.

55. Gómez, A. & Zierold, T. (2008). Extreme survivor: Triops—the 300-million-year-old living fossil. Planet Earth winter, 10–11.

56. Gore, P. J. W. (1984). Triassic and Jurassic lacustrine sequences in the Culpeper Basin, northern Virginia. Abstracts with Programs Geological Society of America 16, 141.

57. Gore, P. J. W. (1985). Lacustrine sequences of Triassic-Jurassic age in the Culpeper Basin, Virginia and the Deep River Basin, North Carolina. Abstracts with Programs Geological Society of America 17, 21.

58. Gore, P. J. W. (1986). Triassic notostracans in the Newark supergroup, Culpeper Basin, northern Virginia. Journal of Paleontology 60, 1086–1096.

59. Gore, P. J. W. (1988). Paleoecology and sedimentology of a Late Triassic lake, Culpeper Basin, Virginia, U.S.A. Palaeogeography, Palaeoclimatology, Palaeoecology 62, 593–608.

60. Gore, P. J. W. (1994). Triassic-Jurassic lacustrine deposits in the Culpeper Basin, Virginia, USA. In: Gierlowski-Kordesch, E. & Kelts, K. (eds.) Global Geological Record of Lake Basins, Volume 1. Cambridge: Cambridge University Press, 155–163.

61. Greaves, P. M. (2012). An introduction to the branchiopod crustaceans. Quekett Journal of Microscopy 41, 679–694.

62. Gueriau, P., Charbonnier, S. & Clément, G. (2014). Angustidontid crustaceans from the Late Devonian of Strud (Namur Province, Belgium): insights into the origin of Decapoda. Neues Jahrbuch für Geologie und Paläontologie. Abhandlungen 273, 327–337.

63. Gueriau, P., Charbonnier, S. & Clément, G. (2014). First decapod crustaceans in a Late Devonian continental ecosystem. Palaeontology 57, 1203–1213.

64. Gueriau, P., Rabet, N., Clément, G., Lagebro, L., Vannier, J., Briggs, D. E. G., Charbonnier, S., Olive, S. & Béthoux, O. (2016). A 365-Million-Year-Old Freshwater Community Reveals Morphological and Ecological Stasis in Branchiopod Crustaceans. Current Biology 26, 383–390.

65. Gueriau, P., Rabet, N. & Du Tien Hat, E. (2018). The Strud crustacean fauna (Late Devonian, Belgium): updated review and palaeoecology of an early continental ecosystem. Earth and Environmental Science Transactions of the Royal Society of Edinburgh 107, 79–90.

66. Guériau, P. (2014). La Faune continentale d’arthropodes aquatiques du Famennien (Dévonien supérieur) de Strud, Belgique: taxonimie, paléoécologie et tapohnomie par imagerie 2D synchrotron [The continental fauna of aquatic arthropods from the Famennian (Upper Devonian) of Strud, Belgium: taxonomy, paleoecology and tapohnomy by 2D synchrotron imaging]. Ph.D. thesis, Muséum national d’histoire naturelle, Paris, 1 pp.

67. Guthörl, P. (1934). Die Arthropoden aus dem Carbon und Perm des Saar-Nahe-Pfalz-Gebietes [Carboniferous and Permian age arthropods from the Saar-Nahe region]. Abhandlungen der Königlich Preußischen Geologischen Landesanstalt Berlin 164, 1–219.

68. Guthörl, P. (1941). Das leben im Steinkohlenwald. Rheinische Heimatpflege 13, 81–92.

69. Guthörl, P. (1947). Das leben im Steinkohlenwald. Saarbrücker Bergmannskalender 82–93.

70. Hartung, J., Augustin, F. J., Kampouridis, P. & Chure, D. J. (2021). A unique notostracan trace fossil assemblage from the Upper Triassic Chinle Formation (northeastern Utah, USA) and its paleoecological and paleoenvironmental implications. Palaeogeography, Palaeoclimatology, Palaeoecology 583, 110667.

71. Haug, C. (2011). Head shield evolution and development in the Arthropoda. Ph.D. thesis, Universität Ulm, Ulm, 230 pp.

72. Haughton, S. H. (1924). The fauna and stratigraphy of the Stormberg Series. Annals of the South African Museum 12, 323–495.

73. Hauschke, N. (2014). Conchostraken als zeitmarken und faziesanzeiger in kontinentalen ablagerungen der Trias: Fallbeispiele aus sachsen-anhalt und dem östlichen niedersachsen [Conchostracen as time stamps and facies indicators in the continental deposits of the Triassic: Case examples from Saxony-Anhalt and the eastern part of Lower Saxony]. Abhandlungen und Berichte für Naturkunde 34, 19–55.

74. Hauschke, N., Kozur, H. W., Rust, J., Schulz, M., Schweigert, G., Seegis, D., Wappler, T. & Wilde, V. (2021). Arthropoden der Germanischen Trias [Arthropods of the Germanic Triassic]. In: Hauschke, N., Franz, M. & Bachmann, G. H. (eds.) Trias—Aufbruch in das Erdmittelalter. Vol. 1. Munich: Verlag Dr. Friedrich Pfeil, 283–296.

75. Hauschke, N., Knaust, D., Scholze, F., Schneider, J. & Kretschmer, S. (2021). Arthropoden, fische und spurenfossilien in der Bernburg-Formation (Unterer Buntsandstein) von Beesenlaublingen (Sachsen-Anhalt) [Arthropods, fish and trace fossils in the Bernburg Formation (Lower Buntsandstein) of Beesenlaublingen (Saxony-Anhalt)]. In: Hauschke, N., Franz, M. & Bachmann, G. H. (eds.) Trias—Aufbruch in das Erdmittelalter. Vol. 2. München: Verlag Dr. Friedrich Pfeil, 364–369.

76. Hegna, T. A. & Ren, D. (2010). Two new “notostracans”, Chenops gen. nov. and Jeholops gen. nov. (Crustacea: Branchiopoda: ?Notostraca) from the Yixian Formation, northeastern China. Acta Geologica Sinica (English Edition) 84, 886–894.

77. Hegna, T. A. (2012). Phylogeny and Fossil Record of Branchiopod Crustaceans: An Integrative Approach. Ph.D. thesis, Yale University, New Haven, CT, 262 pp.

78. Hegna, T. A., Czaja, A. D. & Rogers, D. C. (2020). Raman spectroscopic analysis of the composition of the clam-shrimp carapace (Branchiopoda: Laevicaudata, Spinicaudata, Cyclestherida): a dual calcium phosphate-calcium carbonate composition. Journal of Crustacean Biology 40, 756–760.

79. Hessen, D. O., Rueness, E. K. & Stabell, M. (2004). Circumpolar analysis of morphological and genetic diversity in the notostracan Lepidurus arcticus. Hydrobiologia 519, 73–84.

80. Hong, Y.-C. (1980). [New Middle Triassic Notostraca (Crustacea) from Toksun County, North Xinjiang]. Kexue Tongbao 1980, 645–647.

81. Hong, Y.-C. (1980). New Middle Triassic Notostraca (Crustacea) from Toksun County, North Xinjiang. Kexue Tongbao (English Language Edition) 25, 763–766.

82. Hong, Y.-C. (1985). New discovery of triopsids (Notostraca), Early Triassic, Shanxi Province. Journal of Changchun College of Geology [Changchun Dizhi Xueyuan Xuebao] 3, 9–12.

83. Horn, R. L. & Cowley, D. E. (2014). Evolutionary relationships within Triops (Branchiopoda: Notostraca) using complete mitochondrial genomes. Journal of Crustacean Biology 34, 795–800.

84. Hotovy, R. (1938). Die Abhändigkeit des Sauerstoffbrauches von der temperatur und körpergröße bei Triops cancriformis B. Zoologischer Anzeiger 122, 198–208.

85. Howell, B. F. & Kobayashi, T. (1936). A new notostracan genus from the Ordovician of Siberia. Annals of Carnegie Museum 25, 59–61.

86. Järvinen, A., Lakka, H.-K. & Sujala, M. (2014). Arktinen kilpikidusjalkainen, tunturivesien elävä fossiili, löydetty jälleen Suomesta [Arctic tadpole shrimp, the living fossil of highland waters, was found again in Finland]. Luonnon Tutkija 1, 19–24.

87. Jones, T. R. & Woodward, H. (1899). Contributions to fossil Crustacea. Geological Magazine 6, 388–395.

88. Jörg, E. (1969). Eine Fischefauna aus dem oberen Buntsandstein (Unter-Trias) von Karlsruhe-Durlach (Nordbaden) [A fish fauna from the Upper Buntsandstein (Lower Triassic) of Karlsruhe-Durlach (North Baden)]. Beiträge zur naturkundlichen Forschung in Südwestdeutschland 28, 87–102.

89. Jörg, E. (1970). Fischfunde im Oberen Buntsandstein (Untertrias) von Karlsruhe-Durlach [Fish finds in the Upper Buntsandstein (Lower Triassic) of Karlsruhe-Durlach]. Zeitschrift der Deutschen Geologischen Gesellschaft 121, 105–110.

90. Kelber, K.-P. (1998). New triopsids (Crustacea, Notostraca) from the Upper Triassic of Frankonia, Germany. Hallesches Jahrbuch für Geowissenschaften. Reihe B: Geologie, Palaeontologie, Mineralogie 5, 85–86.

91. Kelber, K.-P. (1999). Triops cancriformis (Crustacea, Notostraca): Ein bemerkenswertes Fossil aus der Trias Mitteleuropas [Triops cancriformis (Crustacea, Notostraca): a remarkable fossil from the Triassic of Central Europe]. In: Hauschke, N. & Wilde, V. (eds.) Trias—Eine ganz andere Welt. Mitteleuropa im frühen Erdmittelalter [The Triassic—a totally different world. Central Europe in the Early Mesozoic]. Munich: Verlag Dr. Friedrich Pfeil, 383–384.

92. Kelber, K.-P. (2021). Triopsiden (Crustacea, Notostraca) im Mittleren Keuper (Hassberge-Formation) Frankens [Triopsids (Crustacea, Notostraca) in the Middle Keuper (Hassberge Formation) of Franconia]. In: Hauschke, N., Franz, M. & Bachmann, G. H. (eds.) Trias—Aufbruch in das Erdmitelalter. Vol. 2. Munich: Verlag Dr. Friedrich Pfeil, 449–455.

93. King, J. L. & Hanner, R. (1998). Cryptic species in a “Living Fossil” lineage: Taxonomic and phylogenetic relationships within the genus Lepidurus (Crustacea: Notostraca) in North America. Molecular Phylogenetics and Evolution 10, 23–36.

94. Knaust, D. & Hauschke, N. (2005). Living conditions in a lower Triassic playa system of central Germany: evidence from ichnofauna and body fossils. Hallesches Jahrbuch für Geowissenschaften, Reihe B, Geologie Palaeontologie Mineralogie Beiheft 19, 95–108.

95. Knecht, R. J., Benner, J. S., Rogers, D. C. & Ridge, J. C. (2009). Surculichnus bifurcauda n. igen., n. isp., a trace fossil from the late Pleistocene glaciolacustrine varves of the Connecticut River valley, USA, attributed to notostracan crustaceans based on neoichnological experimentation. Palaeogeography Palaeoclimatology Palaeoecology 272, 232–239.

96. Kobayashi, T. (1933). Faunal study of the Wanwanian (basal Ordovician) series with special notes on the Ribeiridae and the Ellesmereoceroids. Journal of the Faculty of Science, Imperial University of Tokyo. Section II, Geology, Mineralogy, Geography, Seismology 3, 249–328.

97. Korn, M., Rabet, N., Ghate, H. V., Marrone, F. & Hundsdoerfer, A. K. (2013). Molecular phylogeny of the Notostraca. Molecular Phylogenetics & Evolution 69, 1159–1171.

98. Krasinetz, S. S. (1968). Listonogie rakoobraznye (Crustacea, Phyllopoda) Mezozojskih ozer zabajkal’â [Crustaceans (Crustacea, Phyllopoda) of Mesozoic Trans-Baikal lakes]. Mezozojskie i Kajnozojskie Ozera Sibiri [Mesozoic and Cenozoic Lakes of Siberia]. Moscow: Publisihing Office NAUKA, 203–211.

99. LaGarry, H. E., Wells, W. B. & Terry, D. O., Jr. (1996). A giant notostracan(?) from the Brule Formation (Oligocene) at Toadstool Park, Sioux County, Nebraska. Abstracts with Programs Geological Society of America 28, 14.

100. Lagebro, L., Gueriau, P., Hegna, T. A., Rabet, N., Butler, A. D. & Budd, G. E. (2015). The oldest notostracan (Upper Devonian Strud locality, Belgium). Palaeontology 58, 497–509.

101. Lakka, H.-K. & Järvinen, A. (2014). Kilpikidusjalkainen - tunturivesien elävä fossiili. [Living fossil in highland waters – Notostraca]. In: Järvinen, A., Heikkilä, T. & Lahti, S. (eds.) Tieteen ja taiteen tunturit [Science and Art of the Highlands]. Gaudeamus, 235–238.

102. Lamsdell, J. C., Lagebro, L., Edgecombe, G. D., Budd, G. E. & Gueriau, P. (2019). Stylonurine eurypterids from the Strud locality (Upper Devonian, Belgium): new insights into the ecology of freshwater sea scorpions. Geological Magazine 156, 1708–1714.

103. Lara, M. B., Cariglino, B., Zavattieri, A. M. & Zacarías, I. (2020). An enigmatic Arthropoda from the Upper Triassic (Carnian) southwestern Gondwana (Argentina). Journal of Paleontology 94, 279–290.

104. Lian, X., Cai, C. & Huang, D. (2021). New species of Mesopsyche Tillyard, 1917 (Mecoptera: Mesopsychidae) from the Triassic of northwestern China. Zootaxa 4995, 565–572.

105. Liao, H.-Y., Cai, C.-Y., Shen, Y.-B., Sun, X.-Y. & Huang, D.-Y. (2020). An Early Cretaceous branchiopod community in northeastern China: discovery of daphniid (Cladocera: Anmopoda) ephippia in the early assemblage of the Jehol Biota. Cretaceous Research 113, 104491.

106. Liu, H.-F. (1996). New materials of late Triassic Kazacharthra from Xinjiang. Acta Palaeontologica Sinica 35, 490–494.

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