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Changes in terrestrial biota before the Permian-Triassic ecological crisis

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Abstract

The period around the Permian-Triassic boundary was marked by one of the most important and interesting events in the evolution of life. The diversity of both marine and continental biotas decreased. The changes were global and led to the establishment of the new Mesozoic World. Transformations of the organic world constituted a single process with changes in the inorganic components of the biosphere. The preceding glacial period had ended and the “cool,” zonal, and markedly seasonal climate was replaced by a “warm,” “equable,” virtually non-seasonal and azonal climate. The new climatic organization remained on Earth for more than two hundred million years. The biotic crisis was global: it involved the sea, the land, and inland waters. The changes on land began earlier and more superficial. The principal events were in the Kazanian and Vyatkian, before the end of the Permian. The crisis was caused to a greater extent by biospheric processes than by momentary external influences, the latter at most triggering the crisis.

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References

  1. A. S. Alekseev, V. Yu. Dmitriev, and A. G. Ponomarenko, “Evolution of Taxonomic Diversity,” in Ecosystem Rearrangements and Evolution of the Biosphere. Issue 5 (GEOS, Moscow, 2001) [in Russian].

    Google Scholar 

  2. N. M. Aristov, “The Fauna of Grylloblattid Insects (Insecta, Grilloblattida) of the Kungurian Locality Chekarda (Central Urals) and Its Position among Other Permian Grylloblattid Faunas,” Extended Abstract of Candidate’s Dissertation in Biology (Paleontol. Inst., Moscow, 2005).

    Google Scholar 

  3. N. M. Chumakov and M. A. Zharkov, “Climate during Permian-Triassic Biosphere Reorganizations, Article 1: Climate of the Early Permian,” Stratigr. Geol. Korrelyatsiya 10(6), 62–81 (2002) [Stratigr. Geol. Correlation 10 (6), 586–602 (2002)].

    Google Scholar 

  4. N. M. Chumakov and M. A. Zharkov, “Climate during the Permian-Triassic Biosphere Reorganizations. Article 2. Climate of the Late Permian and Early Triassic: General Inferences,” Stratigr. Geol. Korrelyatsiya 11(4), 55–70 (2003) [Stratigr. Geol. Correlation 11 (4), 361–375 (2003)].

    Google Scholar 

  5. V. Yu. Dmitriev, A. G. Ponomarenko, and A. P. Rasnitsyn, “The Dynamics of the Taxonomic Diversity of Freshwater Organisms,” Paleontol. Zh., No. 4, 3–9 (1995).

  6. M. V. Durante, “On the Late Permian Flora of Mongolia and on the Southern Boundary of the Angara Region at This Time,” Paleontol. Zh., No. 4, 101–112 (1971).

  7. M. V. Durante, The Carboniferous and Permian Stratigraphy of Mongolia Based on Paleobotanical Data (Nauka, Moscow, 1976).

    Google Scholar 

  8. A. V. Gomankov, “Floral Changes across the Permian-Triassic Boundary,” Stratigr. Geol. Korrelyatsiya 13(2), 74–83 (2005) [Stratigr. Geol. Correlation 13 (2), 186–194 (2005)].

    Google Scholar 

  9. J. E. Kutzbach and A. M. Ziegler, “Simulation of Late Permian Climate and Biomes with an Atmosphere-Ocean Model: Comparisons with Observations,” Phil. Trans. R. Soc. London, B 341, 327–340 (1993).

    Google Scholar 

  10. J. J. Sepkoski, Jr., “A Kinetic Model of Phanerozoic Taxonomic Diversity. I. Analysis of Marine Orders,” Paleobiology 4(3), 223–251 (1978).

    Google Scholar 

  11. J. J. Sepkoski, Jr., “A Kinetic Model of Phanerozoic Taxonomic Diversity. II. Early Phanerozoic Families and Multiple Equilibria,” Paleobiology 5(3), 222–251 (1979).

    Google Scholar 

  12. J. J. Sepkoski, Jr., “A Kinetic Model of Phanerozoic Taxonomic Diversity. III. Post-Paleozoic Families and Mass Extinction,” Paleobiology 10(2), 246–267 (1984).

    Google Scholar 

  13. L. Uranvileg, “Phytostratigraphy and Flora of the Upper Permian Coal-Bearing Deposits of Southern Mongolia,” in Proc. Symp. in Honor of Sergei Viktorovich Meyen (1935–1987), Moscow, December 25–26, 2000 (Geos, Moscow, 2000), pp. 195–199.

    Google Scholar 

  14. H. Visscher, H. Brinkhuis, D. L. Dilcher, et al., “The Terminal Palaeozoic Fungal Event: Evidence of Terrestrial Ecosystem Destabilisation and Collapse”, Proc. Nat. Ac. Sci. USA 93, 2155–2158 (1996).

    Article  Google Scholar 

  15. M. A. Zharkov and N. M. Chumakov, “Paleogeography and Sedimentation Settings during Permian-Triassic Reorganizations in Biosphere,” Stratigr. Geol. Korrelyatsiya 9(4), 29–54 (2001) [Stratigr. Geol. Correlation 9 (4), 340–363 (2001)].

    Google Scholar 

  16. A. M. Ziegler, “Phytogeographic Patterns and Continental Configurations during the Permian Period: Palaeozoic Palaeogeography and Biogeography,” Geol. Soc. Mem., No. 12, 363–379 (1990).

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  1. Paleontological Institute, Russian Academy of Sciences, Profsoyuznaya ul. 123, Moscow, 117997, Russia

    A. G. Ponomarenko

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  1. A. G. Ponomarenko
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Ponomarenko, A.G. Changes in terrestrial biota before the Permian-Triassic ecological crisis. Paleontol. J. 40, S468–S474 (2006). https://doi.org/10.1134/S0031030106100066

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  • DOI: https://doi.org/10.1134/S0031030106100066

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