Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-22T16:17:36.723Z Has data issue: false hasContentIssue false

The Paris Biota decapod (Arthropoda) fauna and the diversity of Triassic decapods

Published online by Cambridge University Press:  06 June 2022

Christopher P. A. Smith*
Affiliation:
Biogéosciences, UMR CNRS 6282, Université Bourgogne Franche-Comté, 21000 Dijon, France , ,
Sylvain Charbonnier
Affiliation:
Muséum national d'Histoire naturelle, CR2P, UMR 7207, CNRS, Sorbonne Université, 75005 Paris, France
James F. Jenks
Affiliation:
West Jordan, UT 84084, USA
Kevin G. Bylund
Affiliation:
Spanish Fork, UT 84660, USA
Gilles Escarguel
Affiliation:
Univ Lyon, Université Claude Bernard Lyon 1, CNRS, ENTPE, UMR 5023 LEHNA, F-69622, Villeurbanne, France
Nicolas Olivier
Affiliation:
LMV, Université Clermont Auvergne, CNRS, IRD, 63000 Clermont-Ferrand, France
Emmanuel Fara
Affiliation:
Biogéosciences, UMR CNRS 6282, Université Bourgogne Franche-Comté, 21000 Dijon, France , ,
Arnaud Brayard
Affiliation:
Biogéosciences, UMR CNRS 6282, Université Bourgogne Franche-Comté, 21000 Dijon, France , ,
*
*Corresponding author.

Abstract

We describe here the early Spathian (Early Triassic) Paris Biota decapod fauna from the western USA basin. This fauna contains two taxa of Aegeridae (Dendobranchiata), namely Anisaeger longirostrus n. sp. and Aeger sp. that are the oldest known representatives of their family, thus extending its temporal range by 5 Myr back into the Early Triassic. This fauna also includes two representatives of Glypheida (Pleocyemata) with Litogaster turnbullensis and Pemphix krumenackeri n. sp., confirming for the former and extending for the latter the temporal ranges of their respective superfamilies back to the Early Triassic. Overall, the Paris Biota decapods are some of the oldest known representatives of Decapoda, filling in an important gap in the evolutionary history of this group, especially during the Triassic that marks the early diversification of this clade. Additionally, we compile and provide overviews for all known Triassic decapods, which leads to the revision of four species of Middle and Late Triassic Aegeridae, and to a revised family assignment of a Middle Triassic Glypheida. Based on this refined dataset, we also investigate decapod diversity throughout the Triassic. We show that the apparent increase in decapod taxonomic richness is probably driven by the heterogeneity of the fossil record and/or sampling effort, and that the decapod alpha diversity is actually relatively high as soon as the Early Triassic and remains rather stable throughout the Triassic.

UUID: http://zoobank.org/0f435f27-1767-473d-955c-57fe869faa0f

Type
Articles
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of The Paleontological Society

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Amati, L., Feldmann, R.M., and Zonneveld, J.-P., 2004, A new family of Triassic lobsters (Decapoda: Astacidea) from British Columbia and its phylogenetic context: Journal of Paleontology, v. 78, p. 150168.2.0.CO;2>CrossRefGoogle Scholar
Assmann, P., 1927, Die Decapodenkrebse des deutschen Muschelkalks: Jahrbuch der Königlich Preussischen Geologische Landesanstalt, v. 48, p. 332356.Google Scholar
Audo, D., Barriel, V., and Charbonnier, S., 2021, Phylogeny and evolutionary history of polychelidan lobsters: Journal of Systematic Palaeontology, v. 19, p. 417439.CrossRefGoogle Scholar
Bate, C.S., 1888, Report on the Crustacea Macrura collected by HMS Challenger during the years 1873–76: Report on the Scientific Results of the Voyage of HMS Challenger During the Years 1873–76 Under the Command of Captain George S. Nares and the Late Captain Franklin Tourle Thomson, v. 24, 942 p.Google Scholar
Benton, M.J., Zhang, Q., Hu, S., Chen, Z.-Q., Wen, W., Liu, J., Huang, J., Zhou, C., Xie, T., Tong, J., and Choo, B., 2013, Exceptional vertebrate biotas from the Triassic of China, and the expansion of marine ecosystems after the Permo-Triassic mass extinction: Earth-Science Reviews, v. 125, p. 199243.CrossRefGoogle Scholar
Besairie, H., 1932, Sur le Permo-Trias marin du nord de Madagascar et l’âge du Karroo: Comptes Rendus Sommaires des Séances de la Société Géologique de France, v. 10, p. 3034.Google Scholar
Beurlen, K., 1928, Die Decapoden des Schwäbischen Jura, mit Ausnahme der aus den oberjurassischen Plattenkalken stammenden. Beiträge zur Systematik und Stammesgeschichte der Decapoden: Palaeontographica, v. 70, p. 115278.Google Scholar
Bill, Ph.C., 1914, Ueber crustaceen aus dem Voltziensandstein des Elsasses: Mitteilungen der Geologischen Landesanstalt von Eslaß-Lothringen, v. 8, p. 289338.Google Scholar
Birshtein, Y.A., 1958, Ein vertreter der ältesten ordo der Crustacea Decapoda Protoclitiopsis antiqua gen. nov. sp. nov. aus dem Permo West-Sibiriens: Doklady Akademii Nauk, SSSR, v. 122, p. 477480.Google Scholar
Blake, J.F., 1876, Palaeontology in Tate, R., and Blake, J.F., eds., The Yorkshire Lias: London, Van Voorst, p. 243475.Google Scholar
Bott, R., 1950, Die flusskrebse Europas (Decapoda, Astacidae): Abhandlungen der Senckenbergischen Naturforschenden Gesellschaft, v. 483, p. 136.Google Scholar
Botting, J.P., Brayard, A., and the Paris Biota team, 2019, A late-surviving Triassic protomonaxonid sponge from the Paris Biota (Bear Lake County, Idaho, USA): Geobios, v. 54, p. 511.CrossRefGoogle Scholar
Bravi, S., Garassino, A., Bartiromo, A., Audo, D., Charbonnier, S., Schweigert, G., Thévenard, F., and Longobardi, C., 2014, Middle Jurassic Monte Fallano Plattenkalk (Campania, southern Italy): first report on terrestrial plants, decapod crustaceans and fishes: Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, v. 272, p. 79107.CrossRefGoogle Scholar
Brayard, A., Bucher, H., Escarguel, G., Fluteau, F., Bourquin, S., and Galfetti, T., 2006, The Early Triassic ammonoid recovery: paleoclimatic significance of diversity gradients: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 239, p. 374395.CrossRefGoogle Scholar
Brayard, A., Krumenacker, L.J., Botting, J.P., Jenks, J.F., Bylund, K.G., Fara, E., Vennin, E., Olivier, N., Goudemand, N., Saucède, T., Charbonnier, S., Romano, C., Doguzhaeva, L., Thuy, B., Hautmann, M., Stephen, D.A., Thomazo, C., and Escarguel, G., 2017, Unexpected Early Triassic marine ecosystem and the rise of the Modern evolutionary fauna: Science Advances, v. 3, e1602159. https://doi.org/10.1126/sciadv.1602159.CrossRefGoogle ScholarPubMed
Brayard, A., Jenks, J.F., Bylund, K.G., and the Paris Biota team, 2019, Ammonoids and nautiloids from the earliest Spathian Paris Biota and other early Spathian localities in southeastern Idaho, USA: Geobios, v. 54, p. 1336.CrossRefGoogle Scholar
Broderip, W.J., 1835, Description of some fossil Crustacea and Radiata: Proceedings of the Geological Society of London, v. 2, p. 201202.Google Scholar
Bronn, H.G., 1858, Beiträge zur triasischen Fauna und Flora der bituminösen Schiefer von Raibl: nebst Anhang über die Kurr'sche Sippe Chiropteris aus dem Lettenkohlen-Sandsteine: Stuttgart, E. Schweizerbart, 38 p.Google Scholar
Brünnich, M.T., 1772, Zoologiae Fundamenta Praelectionibus Academicis Accommodata: Grunde i Dyrelaeren: Copenhagen and Leipzig, Fridericus Christianus Pelt, 254 p.CrossRefGoogle Scholar
Burkenroad, M.D., 1963, The evolution of the Eucarida, (Crustacea, Eumalacostraca) in relation to the fossil record: Tulane Studies in Geology and Paleontology, v. 2, p. 316.Google Scholar
Burkenroad, M.D., 1983, A natural classification of the Dendrobranchiata, with a key to recent genera, in Schram, F.R., ed., Crustacean Phylogeny: Crustacean Issues, v. 1, p. 279290.Google Scholar
Calman, W.T., 1904, On the classification of the Crustacea Malacostraca: Journal of Natural History, v. 7, p. 144158.CrossRefGoogle Scholar
Caravaca, G., Brayard, A., Vennin, E., Guiraud, M., Le Pourhiet, L., Grosjean, A.-S., Thomazo, C., Olivier, N., Fara, E., Escarguel, G., Bylund, K.G., Jenks, J.F., and Stephen, D.A., 2018, Controlling factors for differential subsidence in the Sonoma Foreland Basin (Early Triassic, western USA): Geological Magazine, v. 155, p. 13051329.CrossRefGoogle Scholar
Cervantes-Hernández, P., Gómez, A.F., Serrano, S.J., Cruz, S.R., and Berumen, M.I.G., 2010, Historical exploitation and evaluation of the brown shrimp fishery Farfantepenaeus californiensis (Decapoda, Dendrobranchiata) in the Gulf of Tehuantepec, Oaxaca, Mexico: Pan-American Journal of Aquatic Sciences, v. 5, p. 486494.Google Scholar
Chablais, J., Feldmann, R.M., and Schweitzer, C.E., 2010, A new Triassic decapod, Platykotta akaina, from the Arabian shelf of the northern United Arab Emirates: earliest occurrence of the Anomura: Paläontologische Zeitschrift, v. 85, p. 93102.CrossRefGoogle Scholar
Charbonnier, S., Garassino, A., Schweigert, G., and Simpson, M., 2013, A worldwide review of fossil and extant glypheid and litogastrid lobsters (Crustacea, Decapoda, Glypheoidea): Memoirs, French National Museum of Natural History, v. 205, p. 1304.Google Scholar
Charbonnier, S., Audo, D., Garassino, A., and Schweigert, G., 2015, Phylogeny of fossil and extant glypheid and litogastrid lobsters (Crustacea, Decapoda) as revealed by morphological characters: Cladistics, v. 31, p. 231249.CrossRefGoogle ScholarPubMed
Charbonnier, S., Audo, D., Garassino, A., and Hyžný, M., 2017, Fossil Crustacea of Lebanon: Paris, Muséum National d'Histoire Naturelle, 252 p.Google Scholar
Charbonnier, S., Brayard, A., and the Paris Biota team, 2019, New thylacocephalans from the Early Triassic Paris Biota (Bear Lake County, Idaho, USA): Geobios, v. 54, p. 3743.CrossRefGoogle Scholar
Chen, Z.-Q., and Benton, M.J., 2012, The timing and pattern of biotic recovery following the end-Permian mass extinction: Nature Geoscience, v. 5, p. 375383.CrossRefGoogle Scholar
Dagys, A.S., 1988, Major features of the geographic differentiation of Triassic ammonoids, in Wiedmann, J., and Kullmann, J., eds., Cephalopods—Present and Past: Stuttgart, Schweizerbart'sche Verlagsbuchhandlung, p. 341349.Google Scholar
Dalla Vecchia, F.M., 1990, Sedimentologia e Paleontologia della Dolomia di Forni (Triassico superiore) nella Valle del Rio Seazza (Preone, Carnia): ricostruzione paleoecologica e paleoambientale [Ph.D. dissertation]: Bologna, Università degli Studi di Bologna.Google Scholar
Dalla Vecchia, F.M., 1991, Note sulla stratigrafia, sedimentologia e paleontologia della dolomia di Forni (Triassico superiore) della valle del Rio Seazza (Preone, Carnia, Friuli-Venezia Giulia): Gortania, v. 12, p. 730.Google Scholar
De Zanche, V., Gianolla, P., and Roghi, G., 2000, Carnian stratigraphy in the Raibl/Cave del Predil area (Julian Alps, Italy): Eclogae Geologicae Helvetiae, v. 93, p. 331347.Google Scholar
Desmarest, A.-G., 1817, Crustacés fossiles, in Nouveau dictionnaire d'histoire naturelle, appliquée aux arts, à l'agriculture, à l’économie rurale et domestique, à la médecine, etc: Paris, Detreville, Société de Naturalistes et d'Agriculteurs, v. 7, p. 495519.Google Scholar
Devillez, J., and Charbonnier, S., 2017, The genus Eryma Meyer, 1840 (Crustacea: Decapoda: Erymidae): new synonyms, systematic and stratigraphic implications: Bulletin de la Société Géologique de France, v. 188, 15. https://doi.org/10.1051/bsgf/2017178.CrossRefGoogle Scholar
Devillez, J., Charbonnier, S., and Barreil, V., 2019, An attempt to clarify phylogenetic affinities of erymid lobsters (Decapoda) using morphological characters: Arthropod Systematics and Phylogeny, v. 77, p. 365395.Google Scholar
Doguzhaeva, L., Brayard, A., Goudemand, N., Krumenacker, L., Jenk, J., Bylund, K., Fara, E., Olivier, N., Escarguel, G., and Vennin, E., 2018, An Early Triassic gladius associated with soft tissue remains from Idaho, USA—a squid-like coleoid cephalopod at the onset of Mesozoic Era: Acta Palaeontologica Polonica, v. 63, p. 341355.CrossRefGoogle Scholar
Erwin, D.H., 1998, The end and the beginning: recoveries from mass extinctions: Trends in Ecology & Evolution, v. 13, p. 344349.CrossRefGoogle ScholarPubMed
Étallon, A., 1859, Description des crustacés fossiles de la Haute-Saône et du Haut-Jura: Bulletin de la Société Géologique de France, v. 16, p. 169205.Google Scholar
Etter, W., 1994, A new penaeid shrimp (Antrimpos mirigiolensis n. sp., Crustacea, Decapoda) from the Middle Triassic of the Monte San Giorgio (Ticino, Switzerland): Neues Jahrbuch für Geologie und Paläontologie-Monatshefte, p. 223230.CrossRefGoogle Scholar
Etter, W., 2004, Decapod crustaceans from the Middle Jurassic Opalinus Clay of northern Switzerland, with comments on crustacean taphonomy: Eclogae Geologicae Helvetiae, v. 97, p. 381392.CrossRefGoogle Scholar
Farfante, I.P., 1988, Illustrated key to penaeoid shrimps of commerce in the Americas: NOAA Technical Report, National Marine Fisheries Service, v. 64, 38 p.Google Scholar
Feldmann, R.M., and Schweitzer, C.E., 2010, The oldest shrimp (Devonian: Famennian) and remarkable preservation of soft tissue: Journal of Crustacean Biology, v. 30, p. 629635.Google Scholar
Feldmann, R.M., Vega, F.J., Martinez-Lopez, L., González-Rodríguez, K.A., González-León, O., and Fernández-Barajas, M.D.R., 2007, Crustacean from the Muhi quarry (Albian–Cenomanian), and a review of Aptian Mecochiridae (Astracidea) from Mexico: Annals of Carnegie Museum, v. 76, p. 145156.CrossRefGoogle Scholar
Feldmann, R.M., Schweitzer, C.E., Hu, S., Zhang, Q., Zhou, C., Xie, T., Huang, J., and Wen, W., 2012, Macrurous Decapoda from the Luoping Biota (Middle Triassic) of China: Journal of Paleontology, v. 86, p. 425441.CrossRefGoogle Scholar
Feldmann, R.M., Schweitzer, C.E., and Karasawa, H., 2015, Part R, Revised, Volume 1, Chapter 8I: Systematic descriptions: Infraorder Glypheidea: Treatise Online, v. 68. https://doi.org/10.17161/to.v0i0.5028.Google Scholar
Fenglin, L., 1975, On Triassic Crayfish—Sinopemphix gen. nov: Acta Geologica Sinica, v. 2, p. 136141.Google Scholar
Fernández de Alaiza García Madrigal, R., Silva, U. de A.T., Tavares, C.P. dos S., and Ballester, E.L.C., 2018, Use of native and non-native shrimp (Penaeidae, Dendrobranchiata) in world shrimp farming: Reviews in Aquaculture, v. 10, p. 899912.CrossRefGoogle Scholar
Förster, R., 1967a, Die reptanten Dekapoden der Trias: Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, v. 128, p. 136194.Google Scholar
Förster, R., 1967b, Zur Kenntnis natanter Jura-Dekapoden: Mitteilungen der Bayerischen Staatssammlung für Paläontologie und Historische Geologie, v. 7, p. 157174.Google Scholar
Förster, R., 1971, Die Mecochiridae, eine spezialisierte Familie der mesozoischen Glypheoidea (Crustacea, Decapoda): Neues Jahrbuch für Geologie Und Paläontologie, Abhandlungen, v. 137, p. 396421.Google Scholar
Förster, R., 1980, Krebs-Funde aus dem obersten Lias und dem untersten Dogger von Mistelgau bei Bayreuth, Oberfranken: Geologische Blätter für Nordost-Bayern und angrenzende Gebiete, v. 30, p. 7390.Google Scholar
Förster, R., and Crane, M.D., 1984, A new species of the penaeid shrimp Aeger Münster (Crustacea, Decapoda) from the Upper Triassic of Somerset, England: Neues Jahrbuch für Geologie und Paläontologie, Monatshefte, Abhandlungen v. 8, p. 455462.CrossRefGoogle Scholar
Gall, J.-C., 1971, Faunes et paysages du Grès à Voltzia du Nord des Vosges. Essai paléoécologique sur le Buntsandstein Supérieur: Mémoire, Service de la carte Géologique d'Alsace et de Lorraine, v. 34, 318 p.Google Scholar
Garassino, A., 2000, Glyphea rigoi n. sp.(Crustacea, Decapoda) della Dolomia di Forni (Norico, Triassico superiore) della Carnia (Udine, NE Italia): Gortania-Atti Del Museo Friulano Di Storia Naturale, v. 22, p. 5964.Google Scholar
Garassino, A., and Gironi, B., 2006, Coleia boboi n. sp. (Crustacea, Decapoda, Eryonoidea) from the Late Triassic (Rhaetian) of Monte Verzegnis (Udine, NE Italy): Atti Della Società Italiana Di Scienze Naturali e Del Museo Civico Di Storia Naturale Di Milano, v. 147, p. 93102.Google Scholar
Garassino, A., and Pasini, G., 2002, Studies on Permo-Trias of Madagascar. 5. Ambilobeia karojoi n. gen., n. sp.(Crustacea, Decapoda) from the Lower Triassic (Olenekian) of Ambilobe region (NW Madagascar): Atti della Società Italiana di Scienze Naturali e del Museo Civico di Storia Naturale in Milano, v. 143, p. 95104.Google Scholar
Garassino, A., and Rigo, R., 2008, Pseudoglyphea friulana n. sp. (Decapoda, Astacidea, Mecochiridae) from the Upper Triassic (Camian) of Dogna (Udine, Friuli-Venezia Giulia, NE Italy): Atti Della Società Italiana Di Scienze Naturali e Del Museo Civico Di Storia Naturale Di Milano, v. 149, p. 6976.Google Scholar
Garassino, A., and Teruzzi, G., 1990, The genus Aeger Münster, 1839 in the Sinemurian of Osteno in Lombardy (Crustacea, Decapoda): Atti della Società Italiana di Scienze Naturali e del Museo Civico di Storia Naturale in Milano, v. 131, p. 105136.Google Scholar
Garassino, A., and Teruzzi, G., 1993, A new decapod crustacean assemblage from the Upper Triassic of Lombardy (N. Italy): Paleontologia Lombarda, v. 1, 27 p.Google Scholar
Garassino, A., and Teruzzi, G., 1995, Studies on Permo-Trias of Madagascar. 3. The decapod crustaceans of the Ambilobè region (NW Madagascar): Atti della Società Italiana di Scienze Naturali e del Museo Civico di Storia Naturale in Milano, v. 134, p. 85113.Google Scholar
Garassino, A., Teruzzi, G., and Dalla Vecchia, F.M., 1996, The macruran decapod crustaceans of the Dolomia di Forni (Norian, Upper Triassic) of Carnia (Udine, NE Italy): Atti della Società Italiana di Scienze Naturali e del Museo Civico di Storia Naturale in Milano, v. 136, p. 1560.Google Scholar
Garassino, A., Schweigert, G., and Muscio, G., 2013, Acanthochirana triassica n. sp. and Antrimpos colettoi n. sp. (Decapoda: Aegeridae, Penaeidae) from the Upper Triassic (Norian) of Norther Carnic pre-Alps (Udine, Northeastern Italy): Gortania, v. 35, p. 1118.Google Scholar
Gašparič, R., Audo, D., Hitij, T., Jurkovšek, B., and Kolar-Jurkovšek, T., 2020, One of the oldest polychelidan lobsters from Upper Triassic (Carnian) beds at Kozja dnina in the Julian Alps, Slovenia: Neues Jahrbuch für Geologie Und Paläontologie, Abhandlungen, v. 2020, p. 107117.CrossRefGoogle Scholar
Gherardi, F., Souty-Grosset, C., Vogt, G., Diéguez-Uribeondo, J., and Crandall, K.A., 2010, Infraorder Astacidea Latreille, 1802, in Schram, F.R., and von Vaupel Klein, J.C., eds., Treatise on Zoology—Anatomy, Taxonomy, Biology, Part A, The Crustacea, Volume 9: Leiden, Brill, p. 269423.Google Scholar
Glaessner, M.F., 1929, Crustacea Decapoda, in Pompeckj, F.J., ed., Fossilium Catalogus, I: Animalia: Berlin, W. Junk, v. 41, 464 p.Google Scholar
Glaessner, M.F., 1930, Dekapodenstudien: Neues Jahrbuch für Mineralogie, Geologie und Paläontologie, Abhandlungen v. 63, p. 137176.Google Scholar
Glaessner, M.F., 1931, Eine Crustaceenfauna aus den Lunzer Schichten Niederösterreichs: Jahrbuch Der Geologischen Bundesanstalt, v. 81, p. 467486.Google Scholar
Glaessner, M.F., 1945, Cretaceous Crustacea from Mount Lebanon, Syria: Annals and Magazine of Natural History, v. 12, p. 694707.CrossRefGoogle Scholar
Glaessner, M.F., 1965, Vorkommen fossiler Dekapoden (Crustacea) in Fisch Schiefern: Senckenbergiana Lethaea, v. 46a, p. 111122.Google Scholar
Glaessner, M.F., 1969, Decapoda, in Moore, R.C., ed., Treatise on Invertebrate Paleontology, part R, Arthropoda: Boulder, Colorado and Lawrence, Kansas, the Geological Society of America and The University of Kansas Press, v. 4, p. 399533.Google Scholar
Goudemand, N., Romano, C., Leu, M., Bucher, H., Trotter, J.A., and Williams, I.S., 2019, Dynamic interplay between climate and marine biodiversity upheavals during the Early Triassic Smithian-Spathian biotic crisis: Earth-Science Reviews, v. 195, p. 169178.CrossRefGoogle Scholar
Gould, C., 1857, Description of a new fossil crustacean (Tropifer lævis, C. Gould) from the Lias Bone-Bed: Quarterly Journal of the Geological Society, v. 13, p. 360363.CrossRefGoogle Scholar
Grobben, K., 1892, Zur Kenntnis des Stammbaumes und des Systems der Crustaceen: Sitzungsberichte der Kaiserlichen Akademie der Wissenschaften in Wien, v. 101, p. 237276.Google Scholar
Guex, J., Hungerbühler, A., O'Dogherty, L., Atudorei, V., Taylor, D.G., Bucher, H., and Bartolini, A., 2010, Spathian (Lower Triassic) ammonoids from western USA (Idaho, California, Utah and Nevada): Mémoires de Géologie (Lausanne), v. 49, 82 p.Google Scholar
Hallam, A., 1996, Major bio-events in the Triassic and Jurassic, in Walliser, O.H., ed., Global Events and Event Stratigraphy in the Phanerozoic: Berlin, Springer, p. 265283.CrossRefGoogle Scholar
Hu, S., Zhang, Q., Chen, Z.-Q., Zhou, C., , T., Xie, T., Wen, W., Huang, J., and Benton, M.J., 2011, The Luoping biota: exceptional preservation, and new evidence on the Triassic recovery from end-Permian mass extinction: Proceedings of the Royal Society B: Biological Sciences, v. 278, p. 22742282.CrossRefGoogle ScholarPubMed
Huang, J., Feldmann, R.M., Schweitzer, C.E., Hu, S., Zhou, C., Benton, M.J., Zhang, Q., Wen, W., and Xie, T., 2013, A new shrimp (Decapoda, Dendobranchiata, Penaeoidea) from the middle Triassic of Yunnan, Southwest China: Journal of Paleontology, v. 87, p. 603611.CrossRefGoogle Scholar
Hyžný, M., and Garassino, A., 2022, Aeger crassipes Bronn, 1858 (Crustacea, Decapoda, Penaeidae) from the Carnian of Austria and Italy revisited: implications for taxonomy of fossil penaeoid shrimps: Annalen des Naturhistorischen Museums in Wien, Serie A, v. 122, p. 6985.Google Scholar
Hyžný, M., and Zorn, I., 2016, A Catalogue of the Type and Figured Fossil Decapod Crustaceans in the Collections of the Geological Survey of Austria in Vienna: Jahrbuch der Geologischen Bundesanstalt, v. 156, p. 127177.Google ScholarPubMed
Iniesto, M., Thomazo, C., Fara, E. and the Paris Biota team., 2019, Deciphering the exceptional preservation of the Early Triassic Paris Biota (Bear Lake County, Idaho, USA): Geobios, v. 54, p. 8193.CrossRefGoogle Scholar
Jattiot, R., Bucher, H., Brayard, A., Monnet, C., Jenks, J.F., and Hautmann, M., 2016, Revision of the genus Anasibirites Mojsisovics (Ammonoidea): an iconic and cosmopolitan taxon of the late Smithian (Early Triassic) extinction: Papers in Palaeontology, v. 2, p. 155188.CrossRefGoogle Scholar
Jenks, J., Guex, J., Hungerbühler, A., Taylor, D.G., Bucher, H., Tanner, L.H., Spielmann, J.A., and Lucas, S.G., 2013, Ammonoid biostratigraphy of the early Spathian Columbites parisianus zone (Early Triassic) at Bear Lake Hot Springs, Idaho: New Mexico Museum of Natural History and Science, v. 61, p. 268283.Google Scholar
Karasawa, H., Takahashi, F., Doi, E., and Ishida, H., 2003, First notice of the family Coleiidae Van Straelen (Crustacea: Decapoda: Eryonoidea) from the Upper Triassic of Japan: Paleontological Research, v. 7, p. 357362.CrossRefGoogle Scholar
Karasawa, H., Schweitzer, C.E., and Feldmann, R.M., 2013, Phylogeny and systematics of extant and extinct lobsters: Journal of Crustacean Biology, v. 33, p. 78123.CrossRefGoogle Scholar
Klompmaker, A.A., and Fraaije, R.H., 2011, The oldest (Middle Triassic, Anisian) lobsters from the Netherlands: taxonomy, taphonomy, paleoenvironment, and paleoecology: Palaeontologia Electronica, v. 14, 1.1A. http://palaeo-electronica.org/2011_1/220/index.html.Google Scholar
König, H., 1920, Zur kenntnis des Untern Trochitenkalkes im nördlichen Kraichgau: Sitzungsberichte der Heidelberger Akademie der Wissenschaften, Heidelberg, v. 13, p. 948.Google Scholar
Kuhn, O., 1939, Beiträge zur Keuperfauna von Halberstadt: Paläontologische Zeitschrift, v. 21, p. 258286.CrossRefGoogle Scholar
Langenhan, A., 1910, Die Versteinerungen Der Deutschen Trias: (des Buntsandsteins, Muschelkalks und Keupers): aufgrund viersigjähriger Sammeltätigkeit zusammengestellt und nach den Naturobjekten augraphiert: Liegnitz, Scholz, 1903, and Friedrichsroda, Selbstverlag, 1910.Google Scholar
Latreille, P.A., 1802, Histoire Naturelle, Générale et Particulière Des Crustacés et Des Insectes, v. 3: Paris, Dufart, F., 467 p.CrossRefGoogle Scholar
Latreille, P.A., 1829, Les crustacés, les arachnides et les insectes, distribués en familles naturelles, in Cuvier, G., ed., Le règne animal distribué d'après son organisation pour servir de base à l'histoire naturelle des animaux et d'introduction à l'anatomie comparée, v. 4: Paris, Déterville, 584 p.Google Scholar
Lavalli, K.L., and Spanier, E., 2010, Infraorder Palinura Latreille, 1802, in Schram, F.R., and von Vaupel Klein, J.C., eds., Treatise on Zoology—Anatomy, Taxonomy, Biology, Part A, The Crustacea, Volume 9: Leiden, Brill, p. 425532.Google Scholar
Laville, T., Smith, C.P.A., Forel, M.-B., Brayard, A., and Charbonnier, S., 2021, Review of Early Triassic Thylacocephala: Rivista Italiana di Paleontologia e Stratigrafia, v. 127, p. 73101.Google Scholar
Lerner, A.J., Lucas, S.G., and Lockley, M., 2017, First fossil horseshoe crab (Xiphosurida) from the Triassic of North America: Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, v. 286, p. 289302.CrossRefGoogle Scholar
Leu, M., Bucher, H., and Goudemand, N., 2019, Clade-dependent size response of conodonts to environmental changes during the late Smithian extinction: Earth-Science Reviews, v. 195, p. 5267.CrossRefGoogle Scholar
Lucas, S.G., Krainer, K., and Milner, A.R.C., 2007, The type section and age of the Timpoweap Member and stratigraphic nomenclature of the Triassic Moenkopi Group in Southwestern Utah in Lucas, S.G., and Spielmann, J.A., eds., Triassic of the American West: New Mexico Museum of Natural History and Science Bulletin, v. 40, p. 109117.Google Scholar
M'Coy, F., 1849, XLI.—On the classification of some British fossil Crustacea, with notices of new forms in the University Collection at Cambridge: Annals and Magazine of Natural History, v. 4, p. 392414.CrossRefGoogle Scholar
Maisey, J.G., and de Carvalho, M. da G.P., 1995, First records of fossil sergestid decapods and fossil brachyuran crab larvae (Arthropoda, Crustacea), with remarks on some supposed palaemonid fossils, from the Santana Formation (Aptian–Albian, NE Brazil): American Museum Novitates, no. 3132, 20 p.Google Scholar
Marramà, G., Lombardo, C., Tintori, A., and Carnevale, G., 2017, Redescription of “Perleidus” Osteichthyes, Actinopterygii) from the Early Triassic of Northwestern Madagascar: Rivista Italiana di Paleontologia e Stratigrafia, v. 123, p. 219242.Google Scholar
Meyer, H. von, 1834, Krebse im bunten Sandstein: Museum Senckenbergianum, v. 1, p. 293295.Google Scholar
Meyer, H. von, 1835, Briefliche Mitteilungen: Neues Jahrbuch für Mineralogie, Geologie, Geognosie, und Petrefaktenkunde, Abhandlungen v. 1834, 329 p.Google Scholar
Meyer, H. von, 1840, Neue Gattungen fossiler Krebse aus Gebilden vom bunten Sandsteine bis in die Kreide: Stuttgart, Schweizerbart, p. 123.Google Scholar
Meyer, H. von, 1844, Briefiche Mittheilungen: Neues Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde, Abhandlungen, v. 1844, p. 564567.Google Scholar
Meyer, H. von, 1847, Halicyne und Litogaster, zwei Crustaceengattungen aus dem Muschelkalke Württembergs: Palaeontographica: Palaeontographica, v. 1, p. 134140.Google Scholar
Meyer, H. von, 1851, Fische, Crustaceen, Echinodermen und anderen Versteinerungen aus dem Muschelkalk Oberschlesiens: Palaeontographica, v. 1, p. 216279.Google Scholar
Miller, G.L., and Ash, S.R., 1988, The oldest freshwater decapod crustacean, from the Triassic of Arizona: Palaeontology, v. 31, p. 273279.Google Scholar
Münster, G.G. zu, 1839, Decapoda Macroura. Abbildung und Beschreibung der fossilen langschwänzigen Krebse in den Kalkschiefern von Bayern: Beiträge zur Petrefaktenkunde, v. 2, p. 188.Google Scholar
Muscente, A.D., Schiffbauer, J.D., Broce, J., Laflamme, M., O'Donnell, K., Boag, T.H., Meyer, M., Hawkins, A.D., Huntley, J.W., McNamara, M., MacKenzie, L.A., Stanley, G.D., Hinman, N.W., Hofmann, M.H., and Xiao, S., 2017, Exceptionally preserved fossil assemblages through geologic time and space: Gondwana Research, v. 48, p. 164188.CrossRefGoogle Scholar
Oppel, A., 1861, Die arten der gattungen Eryma, Pseudastacus, Magila und Etallonia: Jahreshefte Des Vereins Fur Vaterlandische Naturkunde in Wurttemberg, v. 17, p. 355364.Google Scholar
Oppel, A., 1862, Über jurassische Crustaceen: Palantologische Mittheilungen aus dem Museum des Koeniglichen Bayerischen Staates, v. 1, p. 1120.Google Scholar
Oravecz, J., 1962, Der erste Macrurenfund Paraclytiopsis hungaricus nov. gen. nov. sp. aus dem ungarischen Karn: Foldtani Kozlony, v. 92, p. 324329.Google Scholar
Payne, J.L., Lehrmann, D.J., Wei, J., Orchard, M.J., Schrag, D.P., and Knoll, A.H., 2004, Large perturbations of the carbon cycle during recovery from the end-Permian extinction: Science, v. 305, p. 506509.CrossRefGoogle ScholarPubMed
Pinna, G., 1974, I crostacei della fauna triassica di Cene in Val Seriana (Bergamo): Memoria della Societa Italiana di Scienze Naturale e Museo Milano, v. 21, p. 534.Google Scholar
Pinna, G., 1976, I crostacei Triassici dell'alta Valvestino (Brescia): Natura Bresciana, v. 13, p. 3342.Google Scholar
Rafinesque, C.S., 1815, Analyse de la nature, ou tableau de l'univers et des corps organisés: Palermo, Rafinesque, C.S., 223 p.Google Scholar
Reuss, A.E., 1858, Ueber fossile Krebse aus den Raibler Schichten in Kaernthen: Beitrage Zur Palaontographie Oesterreichs, v. 1, p. 16.Google Scholar
Rinehart, L.F., Lucas, S.G., and Heckert, A.B., 2003, An early eubrachyuran (Malacostraca: Decapoda) from the Upper Triassic Snyder Quarry, Petrified Forest Formation, north-central New Mexico: Paleontology and Geology of the Upper Triassic (Revueltian) Snyder Quarry, New Mexico: New Mexico Museum of Natural History & Science Bulletin, v. 24, p. 6770.Google Scholar
Robalino, J., Wilkins, B., Bracken-Grissom, H.D., Chan, T.-Y., and O'Leary, M.A., 2016, The origin of large-bodied shrimp that dominate modern global aquaculture: PLoS One, v. 11, e0158840. https://doi.org/10.1371/journal.pone.0158840.CrossRefGoogle ScholarPubMed
Roger, J., 1946, Les invertébrés des couches à poissons du Crétacé supérieur du Liban: étude paléobiologique des gisements: Mémoires de la Société Géologique de France, v. 51, 91 p.Google Scholar
Romano, C., Kogan, I., Jenks, J., Jerjen, I., and Brinkmann, W., 2012, Saurichthys and other fossil fishes from the late Smithian (Early Triassic) of Bear Lake County (Idaho, USA), with a discussion of saurichthyid palaeogeography and evolution: Bulletin of Geosciences, v. 87, p. 543570.CrossRefGoogle Scholar
Romano, C., Goudemand, N., Vennemann, T.W., Ware, D., Schneebeli-Hermann, E., Hochuli, P.A., Brühwiler, T., Brinkmann, W., and Bucher, H., 2013, Climatic and biotic upheavals following the end-Permian mass extinction: Nature Geoscience, v. 6, p. 5760.CrossRefGoogle Scholar
Romano, C., Argyriou, T., Krumenacker, L.J., and the Paris Biota team, 2019, Chondrichthyan teeth from the Early Triassic Paris Biota (Bear Lake County, Idaho, USA): Geobios, v. 54, p. 6370.CrossRefGoogle Scholar
Sahney, S., and Benton, M.J., 2008, Recovery from the most profound mass extinction of all time: Proceedings of the Royal Society B: Biological Sciences, v. 275, p. 759765.CrossRefGoogle ScholarPubMed
Saucède, T., Vennin, E., Fara, E., Olivier, N., and the Paris Biota team 2019, A new holocrinid (Articulata) from the Paris Biota (Bear Lake County, Idaho, USA) highlights the high diversity of Early Triassic crinoids: Geobios, v. 54, p. 4553.CrossRefGoogle Scholar
Schlotheim, E. von, 1822, Beyträge zur näheren Bestimmung der versteinerten und fossilen Krebsarten: Nachträge zur Petrefaktenkunde, v. 2, p. 1737.Google Scholar
Schram, F.R., 1971, Litogaster turnbullensis (sp. nov.): A Lower Triassic glypheid decapod crustacean from Idaho: Journal of Paleontology, v. 45, p. 534537.Google Scholar
Schram, F.R., 1977, Paleozoogeography of late Paleozoic and Triassic Malacostraca: Systematic Biology, v. 26, p. 367379.CrossRefGoogle Scholar
Schram, F.R., 1980, Miscellaneous late Paleozoic Malacostraca of the Soviet Union: Journal of Paleontology, v. 54, p. 542547.Google Scholar
Schram, F.R., Feldmann, R.M., and Copeland, M.J., 1978, The Late Devonian Palaeopalaemonidae and the earliest decapod crustaceans: Journal of Paleontology, v. 52, p. 13751387.Google Scholar
Schweigert, G., 2001, The Late Jurassic decapod species Aeger tipularius (Schlotheim, 1822): (Crustacea: Decapoda: Aegeridae) : Stuttgarter Beiträge Zur Naturkunde, v. 323, p. 111.Google Scholar
Schweitzer, C.E., and Feldmann, R.M., 2014, Lobster (Decapoda) diversity and evolutionary patterns through time: Journal of Crustacean Biology, v. 34, p. 820847.CrossRefGoogle Scholar
Schweitzer, C.E., Feldmann, R.M., Garassino, A., Karasawa, H., and Schweigert, G., 2010, Systematic List of Fossil Decapod Crustacean Species: Leiden, Brill, 222 p.CrossRefGoogle Scholar
Schweitzer, C.E., Feldmann, R.M., Hu, S., Huang, J., Zhou, C., Zhang, Q., Wen, W., and Xie, T., 2014, Penaeoid Decapoda (Dendrobranchiata) from the Luoping Biota (Middle Triassic) of China: systematics and taphonomic framework: Journal of Paleontology, v. 88, p. 457474.CrossRefGoogle Scholar
Sepkoski, J.J., 1981, A factor analytic description of the Phanerozoic marine fossil record: Paleobiology, v. 7, p. 3653.CrossRefGoogle Scholar
Smith, C.P.A., Laville, T., Fara, E., Escarguel, G., Olivier, N., Vennin, E., Goudemand, N., Bylund, K.G., Jenks, J.F., Stephen, D.A., Hautmann, M., Charbonnier, S., Krumenacker, L. J., and Brayard, A., 2021, Exceptional fossil assemblages confirm the existence of complex Early Triassic ecosystems during the early Spathian: Scientific Reports, v. 11, 19657. https://doi.org/10.1038/s41598-021-99056-8.CrossRefGoogle ScholarPubMed
Song, H., Wignall, P.B., Chen, Z.-Q., Tong, J., Bond, D.P.G., Lai, X., Zhao, X., Jiang, H., Yan, C., Niu, Z., Chen, J., Yang, H., and Wang, Y., 2011, Recovery tempo and pattern of marine ecosystems after the end-Permian mass extinction: Geology, v. 39, p. 739742.CrossRefGoogle Scholar
Song, H., Wignall, P.B., and Dunhill, A.M., 2018, Decoupled taxonomic and ecological recoveries from the Permo-Triassic extinction: Science Advances, v. 4, eaat5091. https://doi.org/10.1126/sciadv.aat5091.CrossRefGoogle ScholarPubMed
Stockar, R., and Garassino, A., 2013, Meridecaris ladinica n. gen. n. sp. (Crustacea, Decapoda, Clytiopsidae) from the Middle Triassic (Ladinian) of Monte San Giorgio (Canton Ticino, Switzerland): Neues Jahrbuch für Geologie Und Paläontologie, Abhandlungen, v. 270, p. 347356.CrossRefGoogle Scholar
Strand, E., 1928, Miscellanea nomenclatorica zoologica et palaeontologica: I-II, in Wiegmann, A.F.A., Archiv für Naturgeschichte: Berlin, Nicolai'schen Buchhandlung, v. 1, p. 3075.Google Scholar
Tavares, C., and Martin, J.W., 2010, Suborder Dendrobranchiata Bate, 1888, in Schram, F.R., and von Vaupel Klein, J.C., eds., Treatise on Zoology—Anatomy, Taxonomy, Biology, Part A, The Crustacea: Brill, Leiden, v. 9, p. 99164.CrossRefGoogle Scholar
Thuy, B., Escarguel, G., and the Paris Biota team, 2019, A new brittle star (Ophiuroidea: Ophiodermatina) from the Early Triassic Paris Biota (Bear Lake County, Idaho, USA) : Geobios, v. 54, p. 5561.CrossRefGoogle Scholar
Tintori, A., Hitij, T., Jiang, D., Lombardo, C., and Sun, Z., 2014, Triassic actinopterygian fishes: the recovery after the end-Permian crisis : Integrative Zoology, v. 9, p. 394411.CrossRefGoogle ScholarPubMed
Tozer, E.T., 1982, Marine Triassic faunas of North America: their significance for assessing plate and terrane movements: Geologische Rundschau, v. 71, p. 10771104.CrossRefGoogle Scholar
Twitchett, R.J., 2001, Incompleteness of the Permian–Triassic fossil record: a consequence of productivity decline?: Geological Journal, v. 36, p. 341353.CrossRefGoogle Scholar
Van Straelen, V., 1923, Description de crustacés décapodes Macroures nouveaux des terrains secondaires: Annales de la Société Royale Zoologique de Belgique, v. 53, p. 8493.Google Scholar
Van Straelen, V., 1925, Contribution à l’étude des crustacés décapodes de la période Jurassique: Mémoires de la Classe des Sciences de l'Académie Royale de Belgique, v. 7, 462 p.Google Scholar
Van Straelen, V., 1928, Sur les crustacés décapodes triasiques et sur l'origine d'un phylum de Brachyoures: Bulletin du Musée Royal d'Histoire Naturelle de Belgique, Bruxelles, v. 14, p. 496516.Google Scholar
Van Straelen, V., 1933, Antrimpos madagascariensis, crustacé décapode du Permotrias de Madagascar: Bulletin du Musée Royal d'Histoire Naturelle de Belgique, Bruxelles, v. 9, p. 13.Google Scholar
Van Straelen, V., 1936, Sur des crustacés décapodes Triasiques du Nevada: Bulletin Du Musée Royal d'Histoire Naturelle de Belgique, v. 12, p. 17.Google Scholar
Van Straelen, V., 1940, Pénéides nouveaux Méso- et Cénozoïques: Bulletin du Musée Royal d'Histoire Naturelle de Belgique, v. 16, p. 15.Google Scholar
Vìa, L., 1971, Crustáceos decápodos del Jurásico superior del Montsec (Lérida): Cuadernos Geologıa Ibérica, v. 2, p. 607612.Google Scholar
Whitfield, R.P., 1880, Notice of new forms of fossil crustaceans from the Upper Devonian rocks of Ohio, with descriptions of new genera and species: American Journal of Science, v. 19, p. 3342.CrossRefGoogle Scholar
Whittaker, R.H., 1960, Vegetation of the Siskiyou Mountains, Oregon and California: Ecological Monographs, v. 30, p. 279338.CrossRefGoogle Scholar
Widmann, P., Bucher, H., Leu, M., Vennemann, T., Bagherpour, B., Schneebeli-Hermann, E., Goudemand, N., and Schaltegger, U., 2020, Dynamics of the largest carbon isotope excursion during the Early Triassic biotic recovery: Frontiers in Earth Science, v. 8, 196. https://doi.org/10.3389/feart.2020.00196.CrossRefGoogle Scholar
Winkler, T.C., 1882, Étude carcinologique sur les genres Pemphix, Glyphea et Araeosternus: Archives du Musée Teyler, v. 1, p. 73124.Google Scholar
Wolfe, J.M., Breinholt, J.W., Crandall, K.A., Lemmon, A.R., Lemmon, E.M., Timm, L.E., Siddall, M.E., and Bracken-Grissom, H.D., 2019, A phylogenomic framework, evolutionary timeline and genomic resources for comparative studies of decapod crustaceans: Proceedings of the Royal Society B: Biological Sciences, v. 286, 20190079. https://doi.org/10.1098/rspb.2019.0079.Google ScholarPubMed
Woods, H., 1925, A monograph of the fossil macrurous Crustacea of England. Part II: Monographs of the Palaeontographical Society, London, v. 77, p. 1740.CrossRefGoogle Scholar
Wood-Mason, J., 1874, On blind crustaceans: Proceedings of the Asiatic Society of Bengal, v. 1874, p. 180181.Google Scholar
Woodward, H., 1866, On a new Crustacean (Aeger marderi) from the Lias of Lyme Regis, Dorsetshire: Geological Magazine, v. 3, p. 1013.CrossRefGoogle Scholar
Woodward, H., 1888, On a new species of Aeger from the Lower Lias, of Wilmcote, Warwickshire: Geological Magazine, v. 5, p. 385387.CrossRefGoogle Scholar
Wüst, E., 1903, Untersuchungen Über Die Decapodenkrebse Der Germanischen Trias: Jena, Fischer.Google Scholar