The First Artropod Trackways in the Lower Triassic of Eastern Europe from the New Locality Mansurovo, Orenburg Region

A. V. Uliakhin; Ульяхин А. В.; A. G. Sennikov; Сенников А. Г.; I. V. Novikov; Новиков И. В.

doi:10.31857/S0031031X23050100

The First Artropod Trackways in the Lower Triassic of Eastern Europe from the New Locality Mansurovo, Orenburg Region

作者: Uliakhin A.¹, Sennikov A.¹, Novikov I.¹
隶属关系:
1. Borissiak Paleontological Institute, Russian Academy of Sciences
期: 编号 5 (2023)
页面: 41-53
栏目: Articles
URL: https://journals.rcsi.science/0031-031X/article/view/137127
DOI: https://doi.org/10.31857/S0031031X23050100
EDN: https://elibrary.ru/IFQLRC
ID: 137127

如何引用文章

全文:

开放存取

##reader.subscriptionAccessGranted##
受限制的访问

订阅存取

详细
作者简介
参考
补充文件
统计

详细

A description is given of trace fossils from the Lower Triassic Gostevskaya Formation of the Mansurovo locality, Orenburg Region, represented by counterimpressions on the lower contact of sandstone with wave ripples. The ichnological characteristics of the trackways and their individual imprints are similar to the ichnospecies Diplichnites triassicus (Linck, 1943), which is widespread in fluvial and lake sediments of the Carboniferous-Triassic of Europe and North America. For D. triassicus most likely the trace maker from the group of branchiopod arthropods Notostraca, which moved in the aquatic environment. Most likely, the microbial mat developed on the surface of the sand substrate acted as a trace carrier, and the subsequent preservation and burial of arthropod trackways took place with the direct participation of the microbial mat.

关键词

arthropods, Notostraca, Lower Triassic, Obshchy Syrt, ichnofossils, trackways, microbial mat

参考

Бирштейн Я.А., Заренков Н.А. Подотряд Щитни (Notostraca) // Жизнь животных. Т. 2: Моллюски. Иглокожие. Погонофоры. Щетинкочелюстные. Полухордовые. Хордовые. Членистоногие. Ракообразные / Ред. Пастернак Р.К. М.: Просвещение, 1988. С. 300–303.
Новиков И.В. Раннетриасовые амфибии Восточной Европы: эволюция доминантных групп и особенности смены сообществ. М.: РАН, 2018. 358 с. (Тр. Палеонтол. ин-та РАН. Т. 296).
Baas J.H., Davies A.G., Malarkey J. Bedform development in mixed sand-mud: The contrasting role of cohesive forces in flow and bed // Geomorphology. 2013. V. 182. P. 19–32.
Briggs D.E.G., Miller M.F., Isbell J.L., Sidor C.A. Permo-Triassic arthropod trace fossils from the Beardmore Glacier area, central Transantarctic Mountains, Antarctica // Antarctic Sci. 2010. V. 22. P. 185–192.
Briggs D.E.G., Rolfe W.D.I., Brannan J. A gigant myriapod trail from the Namurian of Arran, Scotland // Palaeontology. 1979. V. 22. P. 273–291.
Buatois L.A., Mángano M.G., Maples C.G., Lanier W.P. Ichnology of an Upper Carboniferous fluvio-estuarine paleovalley – The Tonganoxie Sandstone, Buildex Quarry, eastern Kansas // J. Paleontol. 1998. V. 72. P. 152–180.
Cohen A., Lockley M., Halfpenny J., Michel A.E. Modern vertebrate track taphonomy at Lake Manyara, Tanzania // Palaios. 1991. V. 6. № 4. P. 371–389.
Collette J., Gass K., Hagadorn J. Protichnites eremita unshelled? Experimental model-based neoichnology and new evidence for a euthycarcinoid affinity for this ichnospecies // J. Paleontol. 2012. V. 86. № 3. P. 442–454.
Cuadrado D.G. Geobiological model of ripple genesis and preservation in a heterolithic sedimentary sequence for a supratidal area // Sedimentology. 2020. V. 67. № 5. P. 2747–2763.
Davies N.S., Sansom I.J., Turner P. Trace fossils and paleoenvironments of a Late Silurian marginal-marine/alluvial system: the Ringerike Group (Lower Old Red Sandstone), Oslo Region, Norway // Palaios. 2006. V. 21. № 1. P. 46–62.
Fillion D., Pickerill R.K. Systematic ichnology of the Middle Ordovician Trenton Group, St Lawrence Lowland, eastern Canada // Atlantic Geol. 1984. V. 20. № 1. P. 1–41.
Fillion D., Pickerill R.K. Ichnology of the Upper Cambrian? to Lower Ordovician Bell Island and Wabana groups of Eastern Newfoundland, Canada // Palaeontogr. Canad. 1990. V. 7. P. 1–83.
Gand G., Garrie J., Schneider J. et al. Notostraca trackways in Permian playa environments of the Lòdeve basin (France) // J. Iberian Geol. 2008. V. 34. P. 73–108.
Gouramanis C., McLoughlin S. Siluro-Devonian trace fossils from the Mereenie Sandstone, Kings Canyon, Watarrka National Park, Amadeus Basin, Northern Territory, Australia // Alcheringa. Australas. J. Palaeontol. 2016. V. 40. № 1. P. 118–128.
Häntzschel W. Trace fossils and problematica // Treatise on Invertebrate Paleontology. Pt. W, Miscellanea. Suppl. 1. Lawrence: Geol. Soc. Amer.; Univ. Kansas Press, 1975. P. W3–W269.
Keighley D.G., Pickerill R.K. Systematic ichnology of the Mabou and Cumberland groups (Carboniferous) of western Cape Breton Island, eastern Canada, 2: surface markings // Atlantic Geol. 1998. V. 34. № 2. P. 83–112.
Knaust D., Hauschke N. Living conditions in a Lower Triassic playa system of Central Germany: evidence from ichnofauna and body fossils // Hallesches Jb. Geowiss., Reihe B. 2005. Bd 19. P. 95–108.
Kumar S., Ahmad S. Microbially induced sedimentary structures (MISS) from the Ediacaran Jodhpur Sandstone, Marwar Supergroup, Western Rajasthan // J. Asian Earth Sci. 2014. V. 91. P. 352–361.
Laporte L.F., Behrensmeyer A.K. Tracks and substrate reworking by terrestrial vertebrates in Quaternary sediments of Kenya // J. Sediment Petrol. 1980. V. 50. P. 1337–1346.
Linck O. Die Buntsandstein-Kleinfährten von Nagold. (Limuludichnulus nagoldensis n.g. n.sp. Merostomichnites triassicus n.sp.) // N. Jb. Miner. Geol. Paläontol. Monats. Abt. B. 1943. S. 9–27.
Lucas S.G., Lerner A.J., Spielmann J.A., Hunt A.P. Invertebrate ichnofossils from the Upper Triassic Bull Canyon Formation, east-central New Mexico // The Triassic–Jurassic Terrestrial Transition / Eds. Harris J.D., Lucas S.G., Spielmann J.A. et al. Albuquerque, 2006. P. 118–121 (Bull. New Mexico Mus. Nature and Sci. V. 37).
Lucas S.G., Minter N.J., Spielmann J.A. et al. Early Permian ichnofossils from the northern Caballo Mountains, Sierra County, New Mexico // The Permian of Central New Mexico / Eds. Lucas S.G., Zeigler K.E., Spielmann J.A. Albuquerque, 2005. P. 151–162 (Bull. New Mexico Mus. Nature and Sci. V. 31).
Machalski M., Machalska K. Arthropod trackways, “Diplichnites” triassicus (Linck, 1943), from the Lower Triassic (Buntsandstein) fluvial deposits of the Holy Cross Mts, Central Poland // Acta Geol. Pol. 1994. V. 44. P. 267–275.
Marty D., Strasser A., Meyer C.A. Formation and taphonomy of human footprints in microbial mats of present-day tidal-flat environments: implications for the study of fossil footprints // Ichnos. 2009. V. 16. P. 127–142.
McMahon S., Matthews J.J., Brasier A., Still J. Late Ediacaran life onland: desiccated microbial mats and large biofilm streamers // Proc. R. Soc. B. 2021. V. 288. P. 1–10.
Pickerill R.K. Carboniferous nonmarine invertebrate ichnocoenoses from southern New Brunswick, eastern Canada // Ichnos. 1992. V. 2. P. 21–35.
Phillips E.R., Merritt J.W., Auton C.A., Golledge N.R. Microstructures developed in subglacially and proglacially deformed sediments: faults, folds and fabrics, and the influence of water on the style of deformation // Quatern. Sci. Rev. 2007. V. 26. P. 1499–1528.
Pollard J.E. Isopodichnus, related arthropod trace fossils and notostracans from Triassic fluvial sediments // Trans. Roy. Soc. Edinburgh. 1985. V. 76. P. 273–285.
Pollard J., Selden P., Watts S. Trace fossils of the arthropod Camptophyllia from the Westphalian (Carboniferous) of Lancashire, UK and their palaeoenvironmental context // Palaeogeogr., Palaeoclimatol., Palaeoecol. 2008. V. 270. № 3–4. P. 399–406.
Reineck H.E., Singh I.B. Depositional Sedimentary Environments. Berlin, Heidelberg, N.Y.: Springer-Verlag, 1975. 439 p.
Sarkar S., Banerjee S., Chakraborty P.P. Microbial mat structures and role of microbes in Precambrian siliciclastic sedimentation: Evidence from Indian Proterozoic basins // Episodes. 2020. V. 43. № 1. P. 164–174.
Sarkar S., Choudhuri A., Mandal S., Eriksson P.G. Microbial mat-related structures shared by both siliciclastic and carbonate formations // J. Palaeogeogr. 2016. V. 5. № 3. P. 278–291.
Seilacher A. Biomats, biofilms, and bioglue as preservational agents for arthropod trackways // Palaeogeogr., Palaeoclimatol., Palaeoecol. 2008. V. 270. № 3–4. P. 252–257.
Shishkin M.A., Ochev V.G., Lozovskii V.R., Novikov I.V. Tetrapod biostratigraphy of the Triassic of Eastern Europe // The Age of Dinosaurs in Russia and Mongolia / Eds. Benton M.J., Shishkin M.A., Unwin D.M., Kurochkin E.N. Cambridge: Cambridge Univ. Press, 2000. P. 120–139.
Smith A., Braddy S.J., Marriott S.B., Briggs D.E.G. Arthropod trackways from the Early Devonian of South Wales: a functional analysis of producers and their behaviour // Geol. Mag. 2003. V. 140. № 1. P. 63–72.
Toom U., Vinn O., Hints O. Ordovician and Silurian ichnofossils from carbonate facies in Estonia: A collection-based review // Palaeoworld. 2019. V. 28. P. 123–144.
Verde M., Castillo C., Martín-González E. et al. A new Miocene–Pliocene ichnotaxon for vermetid anchoring bioerosion structures // Front. Earth Sci. 2022. 10:906493. P. 1–12.
Vodrážková S., Vodrážka R., Munnecke A. et al. Microbially induced wrinkle structures in Middle Devonian siliciclastics from the Prague Basin, Czech Republic // Lethaia. 2018. V. 52. P. 149–164.
Walter H., Gaitzsch B. Beiträge zur Ichnologie limnisch-terrestrischer Sedimentationsräume, Teil II: Diplichnites minimus n. ichnosp. aus dem Permosiles des Flechtinger Höhenzuges // Freiberger Forsch. Reihe C. 1988. Bd 427. S. 73–84.
Zachos L.G., Platt B.F. Actuopaleoichnology of a modern Bay of Fundy macro-tidal flat: analogy with a Mississippian tidal flat deposit (Hartselle Sandstone) from Alabama // PeerJ. 2019. V. 7:e6975. P. 1–32.