Kazacharthran References

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

Kazacharthran References (65)

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

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

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

4. 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.

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

6. Chernova, O. S. (2002). Paleogeograficheskiye usloviya formirovaniya nizhneyurskikh otlozheniy yugo-vostoka Zapadno-Sibirskoy plity [Paleogeographic conditions of formation of Lower Jurassic deposits in the southeast of the West Siberian Plate]. Izvestiia Tomoskogo Politehnicheskogo Universiteta. Inzhiniring Georesursov 305, 96–117.

7. 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.

8. Dobruskina, I. A. (1987). Report of the working group for the investigation of the Madygen Formation. Paleontological Institute Russian Academy of Science, Moscow, Unpublished Report 1–4.

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

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

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

12.  Gubin, Y. M. & Sinitza, S. M. (1993). Triassic terrestrial tetrapods of Mongolia and the geological structure of the Sain-Sar-Bulak locality. In: Lucas, S. G. & Morales, M. (eds.) The Nonmarine Triassic. 169–179.

13.  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.

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

15.  Hong, Y.-C. (1980). [New Middle Triassic Notostraca (Crustacea) from Toksun County, North Xinjiang]. Kexue Tongbao 25, 645–647.

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

17.  Hong, Y.-C. (2009). First discovery of Midtriassic order Miomoptera (Insecta) in China. Geological Bulletin of China 28, 11–15.

18.  Huang, B. (2008). [Triassic palynological assemblages of the Santanghu Basin, Xinjiang]. Palaeontologia Sinica New Series B 194, 1–226.

19.  Kiparisova, L. D., Radchenko, T. P. & Gorsky, V. P. (1973). Triasovaya Sistema [Triassic System]. Moscow: Izdatel’stvo «NEDRA».

20.  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.

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

22.  Liu, Z.-s. (1999). Triassic pollen assemblage in the northern margin of the Tarim Basin. Acta Palaeontologica Sinica 38, 474–504.

23.  Liu, Z.-s. (2001). Pollen assemblage of the Huangshanjie Formation in the northern margin of the Tuha Basin, Xinjiang. Acta Micropalaeontogica Sinica 18, 163–172.

24.  Liu, Z.-S. (2002). [Triassic and Jurassic palynological assemblages of the Kuche Sag, Tarim Basin]. Palaeontologia Sinica, New Series A. 190, 1–229.

25.  Martins-Neto, R. G., Gallego, O. F. & Melchor, R. N. (2001). The first record of kazacharthids (Branchiopoda) in the Triassic of South America. Ameghiniana 38, 36R–37R.

26.  McKenzie, K. G. (1989). Crustaceans. Terra Nova 1, 512–523.

27.  McKenzie, K. G., Chen, P.-J. & Majoran, S. (1991). Almatium gusevi (Chernyshev, 1940): redescription, shield-shapes; and speculations on the reproductive mode (Branchiopoda, Kazacharthra). Paläontologische Zeitschrift 65, 305–317.

28.  McKenzie, K. G. & Chen, P.-J. (1996). Kazakharthra and Tethys. International Geological Congress, Abstracts--Congres Geologique Internationale, Resumes 30, 128.

29.  McKenzie, K. G. & Chen, P.-J. (1999). Kazacharthra. In: Savazzi, E. (ed.) Functional Morphology of the Invertebrate Skeleton. Chichester: John Wiley & Sons, 443–458.

30.  Novojilov, N. I. (1957). Un nouvel ordre d’Arthropodes particuliers: Kazacharthra, du Lias des monts Ketmen (Kazakhstan SE, U.R.S.S.). Bulletin de la Société Géologique de France Series 6, Vol. 7, 171–185.

31.  Novojilov, N. I. (1959). Position systématique des Kazacharthra (Arthropodes) d’apres de nouveaux matériaux des monts Ketmen et Sajkan (Kazakhstan SE et NE). Bulletin de la Société Géologique de France series 7, volume 1, 265–269.

32.  Novojilov, N. I. (1960). Podklass Gnathostraca. In: Chernysheva, N. E. (ed.) Osnovy Paleontologii. Chlenistonogie: Trilobitoobraznye, i Rakoobraznye. Moskva: Gosudarstvennoe Naučno-Tehničeskoe Izdatel’stvo Literatury po Geologii i Ohrane Nedr, 216–253.

33.  Olesen, J. (2009). Phylogeny of Branchiopoda (Crustacea)—Character evolution and contribution of uniquely preserved fossils. Arthropod Systematics & Phylogeny 67, 3–39.

34.  Oleynikov, A. N. (1968). Novyye rannemelovyye i yurakiye fillopody Vostochnogo Zabaykal’ya i Sibiri [New phyllopods from Early Cretaceous and Jurassic periods of Eastern Transbaikal and Siberia]. Novyye Vidy Drevnikh Rasteniy I Bespozvonochnykh SSSR [New Species of Ancient Plants and Invertebrates of the USSR] 2, 218–225.

35.  Oleynikov, A. N. (1975). Stratigrafiya i fillopody yury i mela vostochnogo Zabaikalya [Stratigraphy and phyllopods of the Jurassic and Cretaceous of the Eastern Transbaikal region]. Trudy Vsesoyuznogo Nauchnogo-Issledovatel’skogo Geologicheskogo Instituta (VSEGEI), N.S. 138, 1–172.

36.  Ponomarenko, A. G. & Prokin, A. A. (2014). 9.3. Nasekomyye v Drevnikh Ozerakh Mongolii [9.3. Insects in the Ancient Lakes of Mongolia]. In: Dgebuadze, Y. Y. (ed.) Limnologiya i Paleolimnologiya Mongolii [Limnology and Paleolimnology of Mongolia]. Moscow: 285–309.

37.  Ponomarenko, A. G. & Popov, Y. A. (2016). Paleoentomology of Mongolia. Paleontological Journal 50, 1390–1400.

38.  Roccatagliata, D., Aquirre-Urreta, B. & Gallego, O. F. (2008). Crustacea. In: Camacho, H. H. & Longobucco, M. I. (eds.) Los Invertebrados Fósiles. Tomo II. Buenos Aires: Fundación de Historia Natural, 563–597.

39.  Rogers, D. C. (2024). Current status of the systematics of large branchiopod crustaceans (Branchiopoda: Anostraca, Notostraca, Laevicaudata, Spinicaudata, Cyclestherida). Journal of Crustacean Biology 44, ruae046.

40.  Schultz, S. S. (1933). K stratigrafii i tektonike ketmenskogo hrebta [To the stratigraphy and tectonics of the Ketmen Range (Tiah Shan)]. Trudy Vsesoûznogo Geologo-Razvedočnogo Ob”edineniâ SSSR [Transactions of the United Geological and Prospecting Service of USSR] 322, 4–35.

41.  Shcherbakov, D. E. (2008). Madygen, Triassic lagerstätte number one, before and after Sharov. Alavesia 2, 113–124.

42.  Shen, Y.-B. & Huang, D.-Y. (2008). Extant clam shrimp egg morphology: taxonomy and comparison with other fossil branchiopod eggs. Journal of Crustacean Biology 28, 352–360.

43.  Sun, G., Miao, Y.-Y., Mosbrugger, V. & Ashraf, A. R. (2010). The Upper Triassic to Middle Jurassic strata and floras of the Junggar Basin, Xinjiang, Northwest China. Palaeobiodiversity and Palaeoenvironments 90, 203–214.

44.  Tasch, P. (1969). Branchiopoda. In: Moore, R. C. (ed.) Treatise on Invertebrate Paleontology (Part R, Arthropoda 4(1)). Boulder, CO and Lawrence, KS: The Geological Society of America and The University of Kansas, R128–R191.

45.  Tchernyshev, B. I. (1940). Mezozoyskiye Branchiopoda iz Turkestana i Zabaykal’ya [Mesozoic Branchiopoda from Turkestan and the Transbaikal]. Heolopchnyy Zhurnal, Akademiya Nauk Ukrayinsʹka RSR, Instytut Heolohichnykh Nauk [Journal of Geology, Academy of Sciences of the Ukrainian SSR, Institute of Geological Sciences] 7, 5–46.

46.  Trusova, E. K. (1987). Glava 1, Kriterii raspoznavaniya i osnovnyye osobennosti drevnikh ozernykh otlozheniy; 2, Paleontologicheskiye ostatki kak kriterii raspoznavaniya ozernykh otlozheniy; brankhiopody [Chapter 1, Recognition criteria and principal characteristics of ancient lake sediments; 2, Paleontological remnants as criteria for the recognition of lake sediments; brachiopods]. In: Martinson, G. G. & Neustrueva, I. Y. (eds.) Istoriya ozer pozdnego paleozoya i rannego mezozoya [A history of lakes in the late Paleozoic and early Mesozoic]. Leningrad: Izd. Nauka, 38–43.

47.  Vasilenko, V. K. (1956). Iliyskaya vpadina [Ili Depression]. Trudy Vsesoyuznogo Neftyanogo Nauchnoissledovatel’skogo Geologorazvedochnogo Instituta (VNIGRI) 1, 169–177.

48.  Voigt, S., Haubold, H., Meng, S., Krause, D., Buchantschenko, J., Ruckwied, K. & Götz, A. E. (2006). Die fossil-lagerstätte Madygen: Ein beitrag zur geologie und paläontologie der Madygen-Formation (Mittel- bis Ober-Trias, SW-Kirgisistan, Zentralasien) [The fossil lagerstätte Madygen: a contribution to the geology and palaeontology of the Madygen Formation (Middle to Late Triassic, SW Kyrgyzstan, Central Asia). Hallesches Jahrbuch für Geowissenschaften 22, 85–119.

49.  Voigt, S., Spindler, F., Fischer, J., Kogan, I. & Buchwitz, M. (2007). An extraordinary lake basin—the Madygen fossil lagerstaette (Middle to Upper Triassic, Kyrgyzstan, Central Asia). Wissenschaftliche Mitteilungen des Institutes für Geologie der TU Bergakademie Freiberg 36, 162–163.

50.  Voigt, S. & Buchwitz, M. (2014). Kazacharthra (Branchiopoda: Calmanostraca) aus den Seeablagerungen der triaszeitlichen Fossillagerstätte Madygen (Kirgisistan, Zentralasien) [Kazacharthra (Branchiopoda: Calmanostraca) from the lake deposits of the Triassic Madygen fossil site (Kyrgyzstan, Central Asia)]. Abhandlungen und Berichte für Naturkunde 34, 67–71.

51.  Voigt, S., Buchwitz, M., Fischer, J., Kogan, I., Moisan, P., Schneider, J. W., Spindler, F., Brosig, A., Preusse, M., Scholze, F. & Linemann, U. (2017). Triassic life in and inland lake basin of the warm-temperate biome — The Madygen Lagerstätte (southwest Kyrgyzstan, central Asia). In: Fraser, N. C. & Sues, H.-D. (eds.) Terrestrial Conservation Lagerstätten: Windows into the Evolution of Life on Land. Edinburgh: Dunedin Academic Press, Ltd, 65–104.

52.  Wagner, P., Haug, J. T., Sell, J. & Haug, C. (2018). A fossil crustacean from the Upper Triassic of southern Germany with kazacharthran affinities. Paleontological Research 22, 57–63.

53.  Wagner, P., Haug, J. T. & Haug, C. (2019). A new calmanostracan crustacean species from the Cretaceous Yixian Formation and a simple approach for differentiating fossil tadpole shrimps and their relatives. Zoological Letters 5, 20.

54.  Wei, J.-M. (1984). [Range extension of the notostracan Jeanrogerium in Xinjiang and its stratigraphic significance]. Xinjiang Petroleum Geology 2, 11–14.

55.  Wei, J.-M. (1984). Arthropoda. Paleontological atlas of the northwest China region: the Xinjiang Uygur autonomous region—Mesozoic and Cenozoic 3, 100–112.

56.  Werneburg, R. & Schneider, J. (2022). New branchiopod crustaceans from the late Carboniferous and early Permian of the Thuringian Forest basin, Germany, with a review of Permian notostracans from the Lodève basin, France. Semana 37, 57–103.

57.  Werneburg, R. & Schneider, J. W. (2024). Triopsiden [Triopsidae]. In: Werneburg, R. & Schneider, J. W. (eds.) Die Rotliegend-Fauna des Thüringer Waldes Synthese. NaturHistorisches Museum Schloss Bertholdsburg Schleusingen, 56–59.

58.  Wu, S.-Q. & Chen, P.-J. (1992). Non-marine Triassic of Tarim. In: Zhou, Z.-Y. & Chen, P.-J. (eds.) Biostratigraphy and Geological Evolution of Tarim. Beijing: Science Press, 278–292.

59.  Xie, G.-W., Ye, M.-F., Feng, S.-B., Yuan, X.-Q. & He, J. (2015). Late Triassic Triops from Chang 7 Member, Yanchang Formation of Yijun County, Shaanxi Province and its scientific significance. Acta Palaeontologica Sinica 54, 381–386.

60.  Xing, X.-j., Liu, H.-f., Liu, Y.-q. & Yin, F.-j. (2007). Division and distribution of the Middle and Upper Triassic in the Santanghu Basin. Journal of Northwest University (Natural Science Edition) 37, 460–464.

61.  Yang, X.-K., Su, C.-Q., Chen, H., Zhang, H.-J., Yan, H.-Q., Li, X.-F. & Liu, J.-Q. (2006). Discovery of the Permian volcanic rocks in the Bingdaban–Houxia, Tianshan Mountains, and its geological significance. Geological Bulletin of China 25, 969–976.

62.  Yang, Z.-Y. & Hong, Y.-C. (1986). Fossil fresh-water triopsids, a new family—Xinjiangiopsidae fam. nov. Bulletin of the Chinese Academy of Geological Sciences 12, 85–94.

63.  Yong, T.-S., Wei, J.-M., Yang, R.-G. & Li, X.-N. (1994). Discovery and geologic significance of Karamay Apus fossil fauna. Xinjiang Petroleum Geology 15, 37–43.

64.  Yong, T.-S. (1995). Freshwater Apus fossil group in Jurassic and Triassic in Xinjiang. Xinjiang Petroleum Geology 16, 312–318.

65.  Zhao, X., Zheng, D., Xie, G., Jenkyns, H. C., Guan, C., Fang, Y., He, J., Yuan, X., Xue, N., Wang, H., Li, S., Jarzembowski, E. A., Zhang, H. & Wang, B. (2020). Recovery of lacustrine ecosystems after the end-Permian mass extinction. Geology 48, 609–613.