Fossil Anostracan References

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

Fossil anostracan references (95)

1. 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.

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

3. Belk, D. & Schram, F. R. (2001). A new species of anostracan from the Miocene of California. Journal of Crustacean Biology 21, 49–55.

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

5. Boxshall, G. A. & Jaume, D. (2009). Exopodites, epipodites and gills in crustaceans. Arthropod Systematics & Phylogeny 67, 229–254.

6. Butler, A. D. (2009). Experiemntal taphonomy of Artemia: Analysing microbial controls on the preservation of soft tissue. 1 pp.

7. Butler, A. D., Cunningham, J. A., Budd, G. E. & Donoghue, P. C. (2015). Experimental taphonomy of Artemia reveals the role of endogenous microbes in mediating decay and fossilization. Proceedings of the Royal Society B 282, 20150476.

8. 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.

9. Cohen, P. A., Knoll, A. H. & Kodner, R. B. (2009). Large spinose microfossils in Ediacaran rocks as resting stages of early animals. Proceedings of the National Academy of Sciences 106, 6519–6534.

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

11.  Deecke, W. (1915). Paläontologische Betrachtungen. VII. Über crustaceen [Paleontological considerations. VII. About crustaceans]. Neues Jahrbuch für Mineralogie, Geologie, und Paläontologie 1, 112–126.

12.  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.

13.  Eagan, J. L., Andrews, M. E., Pearson, R. L., Turner, F. R., Raff, E. C. & Raff, R. A. (2017). Identification and modes of action of endogenous bacteria in taphonomy of embryos and larvae. Palaios 32, 206–217.

14.  Eriksson, M. E. & Waloszek, D. (2016). Half-a-billion-year-old microscopic treasures—the Cambrian ‘Orsten’ fossils of Sweden. Geology Today 32, 115–120.

15.  Eyun, S.-I. (2017). Phylogenomic analysis of Copepoda (Arthropoda, Crustacea) reveals unexpected similarities with earlier proposed morphological phylogenies. BMC Evolutionary Biology 17, 23.

16.  Fryer, G. (1996). Diapause, a potent force in the evolution of freshwater crustaceans. Hydrobiologia 320, 1–14.

17.  Gallego, O. F., Shen, Y.-B., Jarzembowski, E., Slipper, I. J., Self, A. & Monferran, M. D. (2019). The Crustacea of the Insect Bed (latest Eocene) of the Isle of Wight, England, including the first spinicaudatan (clam shrimp) from the British Cenozoic. Earth and Environmental Science Transactions of the Royal Society of Edinburgh 110, 289–299.

18.  Gaunt, M. W. & Miles, M. A. (2002). An insect molecular clock dates the origin of the insects and accords with palaeontological and biogeographical landmarks. Molecular Biology and Evolution 19, 748–761.

19.  Geinitz, H. B. (1862). Ueber Thierfährten und Crustaceen-Reste in der unteren Dyas, oder dem unteren Rothliegenden, der Gegend von Hohenelbe [On animal tracks and crustacean remains in the lower Dyas, or the lower Rothliegend, in the Hohenelbe region]. Sitzungs-Berichte der naturwissenschaftlichen Gesellschaft Isis zu Dresden 1862, 136–139.

20.  Goldenberg, F. (1873). Die fossilen Thiere aus der Steinkohlenformation von Saarbrücken. Fauna Saræpontana Fossilis 1, 1–26.

21.  Gostling, N. J., Dong, X.-P. & Donoghue, P. C. J. (2009). Ontogeny and taphonomy: an experimental taphonomy study of the development of the brine shrimp Artemia salina. Palaeontology 52, 169–186.

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

23.  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.

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

25.  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.

26.  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.

27.  Gueriau, P., Parry, L. A. & Rabet, N. (2023). Gilsonicaris from the Lower Devonian Hunsrück slate is a eunicidan annelid and not the oldest crown anostracan crustacean. Biology Letters 19, 20230312.

28.  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.

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

30.  Haug, C., Haug, J. T., Fayers, S. R., Trewin, N. H., Castellani, C., Waloszek, D. & Maas, A. (2012). Exceptionally preserved nauplius larvae from the Devonian Windyfield chert, Rhynie, Aberdeenshire, Scotland. Palaeontologia Electronica 15, 42p.

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

32.  Hessler, R. R., Marcotte, B. M., Newman, W. A. & Maddocks, R. F. (1982). Evolution within the Crustacea. In: Abele, L. G. (ed.) Systematics, the Fossil Record, and the Biogeography. New York: Academic Press, 149–239.

33.  Huang, D., Nel, A., Shen, Y., Selden, P. A. & Lin, Q. (2006). Discussions on the age of the Daohugou fauna—evidence from invertebrates. Progress in Natural Science 16, 308–312.

34.  Huang, D. (2006). Invertebrates from the Middle Jurassic Daohugou Lagerstätte. Ancient Life and Modern Approaches: Abstracts of the Second International Palaeontological Congress 169–170.

35.  Huang, D., Cai, C., Fu, Y. & Su, Y. (2018). The Middle-Late Jurassic Yanliao entomofauna. Palaeoentomology 1, 3.

36.  Huang, D.-Y., Cai, C.-Y., Jiang, J.-Q., Su, Y.-T. & Liao, H.-Y. (2015). Daohugou bed and fossil record of its basal conglomerate section. Acta Palaeontologica Sinica 54, 351–357.

37.  Huang, D.-Y. (2015). Yanliao Biota and Yanshan movement. Acta Palaeontologica Sinica 54, 501–546.

38.  Jell, P. A. & Duncan, P. M. (1986). Invertebrates, mainly insects, from the freshwater, Lower Cretaceous, Koonwarra Fossil Bed (Korumburra Group), South Gippsland, Victoria. Memoirs of the Association of Australasian Palaeontologists 3, 111–205.

39.  Jenkins, J. E. (1986). Miocene invertebrates from the Calico Mountains. San Bernadino County Museum Association Quarterly 33, 1–42.

40.  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.

41.  Lindholm, M. (2014). Morphologically conservative but physiologically diverse: The mode of stasis in Anostraca (Crustacea: Branchiopoda). Evolutionary Biology 41, 503–507.

42.  Luo, C., Jarzembowski, E. A., Fang, Y., Wang, B. & Xiao, C. (2020). First Anostraca (Crustacea: Branchiopoda) from the Middle Jurassic of Daohugou, China. Proceedings of the Geologists’ Association 131, 67–72.

43.  Maruzzo, D., Minelli, A. & Fusco, G. (2009). Segmental mismatch in crustacean appendages: The naupliar antennal exopod of Artemia (Crustacea, Branchiopoda, Anostraca). Arthropod Structure & Development 38, 163–172.

44.  Møller, O. S., Olesen, J. & Høeg, J. T. (2004). On the larval development of Eubranchipus grubii (Crustacea, Branchiopoda, Anostraca), with notes on the basal phylogeny of the Branchiopoda. Zoomorphology 123, 107–123.

45.  Naganawa, H., Zagas, B. & Enkhtsetseg, S. (2001). Current prospect of the recent large branchiopodan fauna of east Asia: 4. “Living fossils” of Mongolia. Aquabiology 23, 599–606.

46.  Naganawa, H. & Brtek, J. (2006). Current prospect of the recent large branchiopodan fauna of east Asia: 9. “Living fossil” fairy shrimps, from the viewpoint of hemoglobin evolution. Aquabiology 28, 527–533.

47.  Naganawa, H., Naumova, E. Y., Denikina, N. N., Kondratov, I. G., Dzyuba, E. V. & Iwasawa, A. (2020). Does the dispersal of fairy shrimps (Branchiopoda, Anostraca) reflect the shifting geographical distribution of freshwaters since the late Mesozoic. Limnology 21, 25–34.

48.  Naimark, E., Kalinina, M., Shokurov, A., Markov, A., Zaytseva, L. & Boeva, N. (2018). Mineral composition of host sediments influences the fossilization of soft tissues. Canadian Journal of Earth Sciences 55, 1271–1283.

49.  Naimark, E., Kirpotin, D., Boeva, N., Gmoshinskiy, V., Kalinina, M., Lyupina, Y., Markov, A., Nikitin, M., Shokurov, A. & Volkov, D. (2021). Taphonomic experiments imply a possible link between the evolution of multicellularity and the fossilization potential of soft-bodied organisms. Ecology and Evolution 11, 1037–1056.

50.  Naimark, E. B., Kalinina, M. A., Shokurov, A. V., Markov, A. V. & Boeva, N. M. (2016). Decaying of Artemia salina in clay colloids: 14-month experimental formation of subfossils. Journal of Paleontology 90, 472–484.

51.  Naimark, E. B., Boeva, N. M., Kalinina, M. A. & Zaytseva, L. V. (2018). Complementary Transformations of Buried Organic Residues and the Ambient Sediment: Results of Long-Term Taphonomic Experiments. Paleontological Journal 52, 109–122.

52.  Neretina, A. N., Gololobova, M. A., Neplyukhina, A. A., Zharov, A. A., Rogers, C. D., Horne, D. J., Protopopov, A. V. & Kotov, A. A. (2020). Crustacean remains from the Yuka mammoth raise questions about non-analogue freshwater communities in the Beringian region during the Pleistocene. Scientific Reports 10, 859.

53.  Nicolini, F., Martelossi, J., Forni, G., Savojardo, C., Mantovani, B. & Luchetti, A. (2023). Comparative genomics of Hox and ParaHox genes among major lineages of Branchiopoda with emphasis on tadpole shrimps. Frontiers in Ecology and Evolution 11, 1–10.

54.  Olesen, J. (2007). Monophyly and phylogeny of the Branchiopoda, with focus on morphology and homologies of the branchiopod phyllopodous limbs. Journal of Crustacean Biology 27, 165–183.

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

56.  Palmer, A. R. & Bassett, A. M. (1954). Nonmarine Miocene arthropods from California. Science 120, 228–229.

57.  Palmer, A. R., Carvalho, J. C. M., Cook, D. R., O’Neill, K., Petrunkevitch, A. & Sailer, R. I. (1957). Miocene arthropods from the Mojave Desert, California. United States Geological Survey Professional Paper 294-G, 237–280.

58.  Park, L. E. (1995). Geochemical and paleoenvironmental analysis of lacustrine arthropod-bearing concretions of the Barstow Formation, southern California. Palaios 10, 44–57.

59.  Park, L. E. & Downing, K. F. (2001). Paleoecology of an exceptionally preserved arthropod fauna from lake deposits of the Miocene Barstow Formation, southern California, U.S.A. Palaios 16, 175–184.

60.  Pierce, W. D. (1959). Fossil arthropods of California. No. 22. A progress report on the nodule studies. Bulletin of the Southern California Academy of Sciences 58,

61.  Pierce, W. D. (1962). The significance of the petroliferous nodules of our desert mountains. Bulletin of the Southern California Academy of Sciences 61, 7–14.

62.  Poropat, S. F., Martin, S. K., Tosolini, A.-M. P., Wagstaff, B. E., Bean, L. B., Kear, B. P., Vickers-Rich, P. & Rich, T. H. (2018). Early Cretaceous polar biotas of Victoria, southeastern Australia—an overview of research to date. Alcheringa: An Australasian Journal of Palaeontology 42, 157–229.

63.  Poschmann, M. J., Hegna, T. A., Emrich, O., Fischer, J., Hoffmann, R., Schindler, T. & Voigt, S. (IN PRESS). Putative branchiopod and vertebrate eggs from the Remigiusberg Lagerstätte (Pennsylvanian-Permian boundary) of the Saar-Nahe Basin, SW Germany. Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen

64.  Raff, E. C., Andrews, M. E., Turner, F. R., Toh, E., Nelson, D. E. & Raff, R. A. (2013). Contingent interactions among biofilm-forming bacteria determine preservation or decay in the first steps toward fossilization of marine embryos. Evolution & Development 15, 243–256.

65.  Richter, G. & Baszio, S. (2001). Traces of a limnic food web in the Eocene Lake Messel—a preliminary report based on fish coprolite analyses. Palaeogeography Palaeoclimatology Palaeoecology 166, 345–368.

66.  Riek, E. F. (1970). Lower Cretaceous fleas. Nature 227, 746–747.

67.  Riek, E. F. (1973). A Carboniferous Insect. Nature 244, 455–456.

68.  Rogers, D. C. & Coronel, J. S. (2011). A redescription of Branchinecta pollicifera Harding, 1940, and its placement in a new genus (Branchiopoda: Anostraca: Branchinectidae). Journal of Crustacean Biology 31, 717–724.

69.  Rogers, D. C., Zharov, A. A., Neretina, A. N., Kuzmina, S. A. & Kotov, A. A. (2021). A review of recently discovered remains of the Pleistocene branchiopods (Anostraca, Notostraca) from NE Siberia and Arctic Canada. Water 13, 280.

70.  Rolfe, W. D. I. (1967). Rochdalia, a carboniferous insect nymph. Palaeontology 10, 307–313.

71.  Scourfield, D. J. (1926). A microscopic fossil crustacean from the Rhynie Chert, Aberdeenshire. The Journal of the Quekett Microscopical Club, series 2 15, 223–230.

72.  Scourfield, D. J. (1926). On a new type of crustacean from the Old Red Sandstone (Rhynie Chert Bed, Aberdeenshire)—Lepidocaris rhyniensis, gen et sp. nov. Philosophical Transactions of the Royal Society of London B, Containing Papers of a Biological Character 214, 153–187.

73.  Scourfield, D. J. (1940). Two new and nearly complete specimens of young stages of the Devonian fossil crustacean Lepidocaris rhyniensis. Proceedings of the Linnean Society of London 152, 290–298.

74.  Seiple, E. (1983). Miocene insects and arthropods in California, San Bernardino County. California Geology 36, 246–248.

75.  Seiple, E. (1986). Where the insects are in stone, San Bernardino County, California. Rocks and Minerals 61, 19–24.

76.  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.

77.  Sinitsa, S. M. (2011). Perekhodnyye gorizonty v stratigrafii verkhnego mezozoya Zabaykal’ya [Transitional levels in stratigrpahy of upper Mesozoic, Transbaikalia]. Vestnik Zabaykal’skogo Gosudarstvennogo Universiteta 3, 98–103.

78.  Sinitsa, S. M. (2012). Paleontologicheskiye Svidetel’stva Krizisov v Geologicheskoy Istorii Zabaykal’ya [Paleontologic illustrations of crises in geological history of Zabaikalie]. Vestnik Zabaykal’skogo Gosudarstvennogo Universiteta 11, 19–27.

79.  Sinitsa, S. M. & Vilmova, E. S. (2013). Tafonomiya i paleoekologiya pozdnemezozoyskoy kontinental’noy bioty Zabaykal’ya [Taphonomy and paleoecology of the late Mesozoic continental biota of Transbaikalia]. Vestnik Zabaykal’skogo Gosudarstvennogo Universiteta 27–36.

80.  Sinitsa, S. M., Vilmova, E. S., Yurgenson, G. A., Reshetova, S. A. & Filenko, R. A. (2014). Geologicheskiye Pamyatniki Zabaykal’ya: Kadastr stratigraficheskikh i paleontologicheskikh geologicheskikh pamyatnikov prirody [Geological Monuments of Transbaikal: Register of stratigraphic and paleontological geological monuments of nature]. Novosibirsk: Nauka.

81.  Sun, X., Yang, Q. & Shen, Y. (2006). Jurassic radiation of large Branchiopoda (Arthropoda: Crustacea) using secondary structure-based phylogeny and relaxed molecular clocks. Progress in Natural Science 16, 292–302.

82.  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.

83.  Tasch, P. (1969). Observations on the spoor of the anostracan Branchinecta. Crustaceana 18, 225–227.

84.  Thompson, J. V. (1834). Development of Artemis salinus, or brine shrimp; demonstrative of its relationship to Branchipus and other crustaceous Phyllopoda, and to those enigmatic fossils, the apparently eyeless trilobites. with a new species of Artemis and of Apus. Zoological Researches and Illustrations 1828-1834 1, 103–112.

85.  Timms, B. V. (2005). Two new species of Branchinella (Anostraca: Thamnocephalidae) and a reappraisal of the B. nichollsi group. Memoirs of the Queensland Museum 50, 441–452.

86.  Trusova, E. K. (1971). First find of Mesozoic members of the order Anostraca (Crustacea). Paleontological Journal 1971, 481485.

87.  Trusova, E. K. (1974). Sledy Zhiznedeyatel’nosti listonogikh rakoobraznykh (Phyllopoda) [The traces of life of Phyllopod Crustaceans]. Paleontologicheskiy Sbornik 10, 83–87.

88.  Trusova, E. K. (1975). O sistematicheskom polozhenii besshchitkovykh listonogikh rakoobraznykh (Anostraca, Crustacea) iz melovykh otlozheniy vostochnogo zabaykal’ya [On the taxonomic status of Anostraca Crustacea from the Lower Cretaceous of the eastern Transbaical]. Paleontologicheskiy Sbornik 12, 60–66.

89.  Van Houte, E., Hegna, T. A. & Butler, A. D. (2022). A new genus and species of ?parthenogenic anostracan (Pancrustacea, Branchiopoda, ?Thamnocephalidae) from the Lower Cretaceous Koonwarra Fossil Bed in Australia. Alcheringa 46, 180–187.

90.  Van Straelen, V. (1943). Gilsonicaris rhenanus nov. gen., nov. sp., branchiopode anostracé de l’Eodevonien du Hunsruck. Bulletin du Musée Royal d’Histoire Naturelle de Belgique 19, 1–10.

91.  Walossek, D. (1993). The Upper Cambrian Rehbachiella and the phylogeny of Branchiopoda and Crustacea. Fossils and Strata 32, 1–202.

92.  Wei, D.-Y. (1992). The discovery and its geological significance of fossil faecal pellets of brine shrimps in mirabilite deposit. Chinese Science Bulletin 37, 1017–1021.

93.  Wilkinson, I. P., Wilby, P. R., Williams, M., Siveter, D. J., Page, A. A., Leggitt, L. & Riley, D. A. (2010). Exceptionally preserved ostracodes from a Middle Miocene palaeolake, California, USA. Journal of the Geological Society 167, 817–825.

94.  Woodward, H. (1879). On the occurrence of Branchipus (or Chirocephalus) in a fossil state associated with Eosphaeroma and with numerous insect-remains, in the Eocene Freshwater (Bembridge) Limestone of Gurnet Bay, Isle of Wight. Quarterly Journal of the Geological Society of London 35, 342–350.

95.  Zharov, A. A., Neretina, A. N., Rogers, D. C., Reshetova, S. A., Sinitsa, S. M. & Kotov, A. A. (2020). Pleistocene Branchiopods (Cladocera, Anostraca) from Transbaikalian Siberia Demonstrate Morphological and Ecological Stasis. Water 12, 3063.