Euthycarcinoid References

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


 Euthycarcinoid references (45)

 

1. Almond, J. E. (1986). Studies on Palaeozoic Arthropoda. University of Cambridge, Cambridge, UK.

 

2. Anderson, L. I., Dunlop, J. A., Horrocks, C. A., Winkelmann, H. M., & Eagar, R. M. C. (1997). Exceptionally preserved fossils from Bickershaw, Lancashire UK (Upper Carboniferous, Westphalian A (Langsettian)). Geological Journal, 32, 197-210.

 

3. Anderson, L. I., Dunlop, J. A., Eager, R. M. C., Horrocks, C. A., & Wilson, H. M. (1999). Soft-bodied fossils from the roof shales of the Wigan Four Foot coal seam, Westhoughton, Lancashire, UK. Geological Magazine, 135(3), 321-329.

 

4. Anderson, L. I., & Trewin, N. H. (2003). An Early Devonian arthropod fauna from the Windyfield cherts, Aberdeenshire, Scotland. Palaeontology, 46(3), 467-510.

 

5. Aria, C., Zhao, F., & Zhu, M. (2021). Fuxianhuiids are mandibulates and share affinities with total-group Myriapoda. Journal of the Geological Society, 178(5), 1-20.

 

6. Babcock, L. E., Isbell, J. L., Miller, M. F., & Hasiotis, S. T. (2002). New late Paleozoic conchostracan (Crustacea: Branchiopoda) from the Shackleton Glacier area, Antarctica: age and paleoenvironmental implications. Journal of Paleontology, 76(1), 70-75.

 

7. Braddy, S. J., Gass, K. C., & Gass, T. C. (2022). Fossils of Blackberry Hill, Wisconsin, USA: the first animals on land, 500 million years ago. Geology Today, 38(1), 25-31.

 

8. Collette, J. H., Hagadorn, J. W., & Lacelle, M. A. (2010). Dead in their tracks—Cambrian arthropods and their traces from intertidal sandstones of Quebec and Wisconsin. Palaios, 25, 475-486.

 

9. Collette, J. H., & Hagadorn, J. W. (2010). Three-dimensionally preserved arthropods from Cambrian Lagerstätten of Quebec and Wisconsin. Journal of Paleontology, 84(4), 646-667.

 

10.  Collette, J. H., Gass, K. C., & Hagadorn, J. W. (2012). Protichnites eremita unshelled? Experimental model-based neoichnology and new evidence for a euthycarcinoid affinity for this ichnospecies. Journal of Paleontology, 86(3), 442-454.

 

11.  Collette, J. H., Isbell, J. L., & Miller, M. F. (2017). A unique winged euthycarcinoid from the Permian of Antarctica. Journal of Paleontology, 91(05), 987-993.

 

12.  Coupe, E. (2017). Tomographic reconstruction of a euthycarcinoid arthropod from the Carboniferous Montceau-les-Mines Lagerstätte, France.

 

13.  Edgecombe, G. D., & Morgan, H. (1999). Synaustrus and the euthycarcinoid puzzle. Alcheringa, 23, 193-213.

 

14.  Edgecombe, G. D., Strullu-Derrien, C., Góral, T., Hetherington, A. J., Thompson, C., & Koch, M. (2020). Aquatic stem group myriapods close a gap between molecular divergence dates and the terrestrial fossil record. Proceedings of the National Academy of Science of the United States of America, 117(16), 8966-8972.

 

15.  Fayers, S. R., & Trewin, N. H. (2003). A review of the palaeoenvironments and biota of the Windyfield chert. Transactions of the Royal Society of Edinburgh: Earth Sciences, 94(4), 325-339.

 

16.  Gall, J.-C., & Grauvogel, L. (1964). Un arthropode peu connu le genre Euthycarcinus Handlirsch. Annales de Paléontologie, 50(1), 1-18.

 

17.  Gall, J.-C., Grauvogel-Stamm, L., & Papier, F. (2021). Flora und fauna im Voltziensandstein (Oberer Buntsandstein) von Elsass und Lothringen (Nordost-Frankreich) [Flora and fauna in the Voltzian Sandstone (Upper Buntsandstein) of Alsace and Lorraine (Northeast France)]. In N. Hauschke, M. Franz, & G. H. Bachmann (Eds.), Trias—Aufbruch in das Erdmittelalter. Vol. 2 (pp. 394-403). München: Verlag Dr. Friedrich Pfeil.

 

18.  Gueriau, P., Lamsdell, J. C., Wogelius, R. A., Manning, P. L., Egerton, V. M., Bergmann, U. et al. (2020). A new Devonian euthycarcinoid reveals the use of different respiratory strategies during the marine-to-terrestrial transition in the myriapod lineage. Royal Society Open Science, 7(10), 201037.

 

19.  Guthörl, P. (1930). Euthycarcinus kessleri Handlirsch, eine neue Crustaceenform aus dem oberen Buntsandstein des Saargebietes [Euthycarcinus kessleri Handlirsch, a new crustacean form from the upper Buntsandstein of the Saar region]. Unsere Saar, 5, 55-57.

 

20.  Handlirsch, A. (1914). Eine interessante crustaceenform aus der trias der Vogesen. Verhandlungen der kaiserlich-koniglichen zoologisch-botanischen Gesellschaft in Wien, 64, 1-8.

 

21.  MacNaughton, R. B., Cole, J. M., Dalrymple, R. W., Braddy, S. J., Briggs, D. E. G., & Lukie, T. D. (2002). First steps on land; arthropod trackways in Cambrian-Ordovician eolian sandstone, southeastern Ontario, Canada. Geology, 30(5), 391-394.

 

22.  McNamara, K. J., & Trewin, N. H. (1993). A euthycarcinoid arthropod from the Silurian of Western Australia. Palaeontology, 36(2), 319-335.

 

23.  Minter, N. J., Krainer, K., Lucas, S. G., Braddy, S. J., & Hunt, A. P. (2007). Palaeoecology of an Early Permian playa lake trace fossil assemblage from Castle Peak, Texas, USA. Palaeogeography Palaeoclimatology Palaeoecology, 246, 390-423.

 

24.  Naimark, E. B., Sizov, A. V., & Khubanov, V. B. (2023). Kimiltei Is a New Late Cambrian Lagerstätte with the Faunistic Complex of Arthropods (Euthycarcinoidae, Synziphosurina, and Chasmataspidida) in the Irkutsk Region. Doklady Earth Sciences, 512(1), 859-870.

 

25.  Ortega-Hernández, J., Legg, D. A., Tremewan, J., & Braddy, S. J. (2010). Fossils explained 59: Euthycarcinoids. Geology Today, 26(5), 195-198.

 

26.  Pesta, O. (1915). Euthycarcinus kessleri Handlirsch und die recenten Copepoden. Zoologischer Anzeiger, 45, 44-47.

 

27.  Ponomarenko, A. G. (2009). The role of arthropods in the development of continental biota. Palaeontological Journal, 43(8), 852-857.

 

28.  Poplin, C., & Heyler, D. (Eds.). (1994). Quand le Massif central était sous l’équateur: Un écosystème carbonifère à Montceau-les-Mines. (Vol. 12). Paris: CTHS.

 

29.  Racheboeuf, P. R., Vannier, J., Schram, F. R., Chabard, D., & Sotty, D. (2008). The euthycarcinoid arthropods from Montceau-les-Mines, France: functional morphology and affinities. Earth and Environmental Science, Transactions of the Royal Society of Edinburgh, 99, 11-25.

 

30.  Retallack, G. J. (2009). Cambrian-Ordovician non-marine fossils from South Australia. Alcheringa, 33, 355-391.

 

31.  Rolfe, W. D. I. (1985). Les Euthycarcinoides de Montceau et Mazon Creek. Bulletin Trimestriel de la Société d’Histoire Naturelle et des Amis du Museum d’Autun, 115(2), 71-73.

 

32.  Ross, A. J., & Briggs, D. E. G. (1993). Arthropoda (Euthycarcinoidea and Myriapoda). In M. J. Benton (Ed.), The Fossil Record 2 (pp. 357-361). London: Chapman & Hall.

 

33.  Schneider, J. (1983). Euthycarcinus martensi n. sp.—ein neuer Arthropode aus dem mitteleuropaischen Rotliegenden (Perm) mit Bemerkungen zu limnischen Arthropoden-Assoziationen. Freiberger Forschungsheft C, 384, 49-57.

 

34.  Schneider, J. W., & Werneburg, R. (2024). Eurypteriden und Euthycarcinoiden [Eurypterida and Euthycarcinoidea]. In R. Werneburg & J. W. Schneider (Eds.), Die Rotliegend-Fauna des Thüringer Waldes Synthese (pp. 45-49). NaturHistorisches Museum Schloss Bertholdsburg Schleusingen.

 

35.  Schram, F. R. (1971). A strange arthropod from the Mazon Creek of Illinois and the Trans Permo-Triassic Merostomoidea (Trilobitoidea). Fieldiana, Geology, 20(6), 85-102.

 

36.  Schram, F. R., & Rolfe, W. D. I. (1982). New euthycarcinoid arthropods from the Upper Pennsylvanian of France and Illinois. Journal of Paleontology, 56(6), 1434-1450.

 

37.  Schram, F. R., & Rolfe, W. D. I. (1994). The Stephanian (late Carboniferous) Euthycarcinoidea from the Montceau-les-Mines basin (Massif central, France). In C. Poplin & D. Heyler (Eds.), Quand Le Massif Central Etait Sous L’Equateur: Un ecosysteme carbonifere a Montceau-les-Mines (pp. 139-144). Paris: CTHS.

 

38.  Schram, F. R., & Rolfe, W. D. I. (1997). Euthycarcinoids and Thylacocephalans. In C. W. Shabica & A. A. Hay (Eds.), Richardson’s Guide to the Fossil Fauna of Mazon Creek (pp. 211-214). Chicago: Northeastern Illinois University.

 

39.  Schultka, S. (1991). Erster nachweis der gattung Euthycarcinus (Arthropoda) aus dem Oberkarbon von Ibbenburen (Nordrhein-Westfalen, Deutschland). Paläontologische Zeitschrift, 65(3/4), 319-332.

 

40.  Shear, W. A. (1997). The fossil record and evolution of the Myriapoda. In R. A. Fortey & R. H. Thomas (Eds.), Arthropod Relationships(55) (pp. 211-219). London: Chapman & Hall.

 

41.  Starobogatov, Y. I. (1988). O sisteme evtikartsinid (Arthropoda Trilobitoidees) [On the System of Euthycarcinids (Arthropoda, Trilobitoides)]. Byulleten’ Moskovskogo Obshchestva Ispytateley Prirody, Otdel Geologicheskiy, 63(3), 65-74.

 

42.  Trewin, N. H., Fayers, S. R., & Kelman, R. (2003). Subaqueous silicification of the contents of small ponds in an Early Devonian hot-spring complex, Rhynie, Scotland. Canadian Journal of Earth Science, 40, 1697-1712.

 

43.  Vaccari, N. E., Edgecombe, G. D., & Escudero, C. (2004). Cambrian origins and affinities of an enigmatic fossil group of arthropods. Nature, 430, 554-557.

 

44.  Wilson, H. M., & Almond, J. E. (2001). New euthycarcinoids and an enigmatic arthropod from the British coal measures. Palaeontology, 44(1), 143-156.

 

45.  Yang, J. (2003). [Unraveling the mystery of the origin of insects—Discovery and research on Fuxian Lake insects]. Fossil (化石), 2003(1), 16-18.