660
Journal of Paleontology 91(4):643–661
Osgood, R.G., 1970, Trace fossils of the Cincinnati area: Palaeontographica Americana, v. 6, p. 281–444.
Plaziat, J.C., and Mahmoudi, M., 1988, Trace fossils attributed to burrowing echinoids: a revision including new ichnogenus and ichnospecies: Geobios, v. 21, p. 209–233.
Peres, J.M., and Picard, J., 1964, Nouveau manuel de bionomie benthique de la mer Méditerranée. Edition revue et augmentée: Extratit du Recueil del Travaux de la Station Marine d’Endoume, v. 31, 137 p.
Peters, S.E., and Bork, K.B., 1998, Secondary tiering on crinoids from the Waldron Shale (Silurian: Wenlockian) of Indiana: Journal of Paleontology, v. 72, p. 887–894.
Pickerill, R.K., and Donovan, S.K., 1998, Ichnology of the Pliocene Bowden shell bed, southeast Jamaica: Contributions to Tertiary and Quaternary Geology, v. 35, p. 161–175.
Quenstedt, F.A., 1876, Petrefaktenkunde Deutschlands. 4. Die Asteriden und Encriniden nebstCysti undBlastoideen: Fues’s, Leipzig, v. 742, p., pls. 90–114.
Quinn, B.G., 1965, Predation in sea urchins: Bulletin of Marine Science, v. 15, p. 259–264.
Radwańska, U., 1999, Lower Kimmeridgian echinoids of Poland: Acta Geologica Polonica, v. 49, p. 287–364.
Radwańska, U., and Poirot, E., 2010, Copepod-infested Bathonian (Middle Jurassic) echinoids from northern France: Acta Geologica Polonica, v. 60, p. 549–555.
Radwańska, U., and Radwański, A., 2005, Myzostomid and copepod infestation of Jurassic echinoderms: a general approach, some new occurrences, and/or re-interpretation of previous reports: Acta Geologica Polonica, v. 55, p. 109–130.
Rahman, I.A., Jefferies, R.P.S., Südkamp, W.H., and Smith, D.A., 2009, Ichno- logical insights intoMitrate Palaeobiology: Palaeontology, v. 52, p. 127–138.
Rahman, I.A., Belaústegui, Z., Zamora, S., Nebelsick, J.H., Domènech, R., and Martinell, J., 2015, Miocene Clypeaster from Valencia (E Spain): Insights into the Taphonomy and ichnology of bioeroded echinoids using X-ray micro-tomography: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 438, p. 168–179.
Ramalho, R., Helffrich, G., Schmidt, D.N., and Vance, D., 2010, Tracers of uplift and subsidence in the Cape Verde Archipelago: Journal of the Geo- logical Society, London, v. 167, p. 519–538.
Richard, J., 1907, L’océanographie: Vuibert & Nony Éditeurs, Paris, 398 p. Rindsberg, A.K., 1994, Ichnology of the Upper Mississippian Hartselle Sandstone of Alabama, with notes on other Carboniferous formations: Geological Survey Alabama Bulletin, v. 158, p. 1–107.
Ruppert, E.E., Fox, R.S., and Barnes, R.D., 2004, Invertebrate Zoology. A functional evolutionary approach, 7th ed. Brooks/Cole-Thomson Learn, Belmont, California, 1056 p.
Sacco, F., 1888, Note di Paleoicnologia Italiana: Atti della Societa Italiana di Scienze Naturali, v. 31, p. 151–192.
Saint-Seine, R. de, 1950, Lésions et regeneration chez le Micraster: Bulletin de la Société Géologique de France, Série 5, v. 20, p. 309–315.
Saint-Seine, R. de, 1959, Sur un cas de commensalisme d’une annélide et d’un Clypeaster Miocène: Bulletin de la Société Géologique de France, Série 6, v. 8, p. 581–584.
Santos, A., Mayoral, E., Muñiz, F., Bajo, I., and Adriaensens, O., 2003, Bioerosión en erizos irregulares (Clypeasteroidea) del Mioceno Superior en el sector suroccidental de la cuenca del Guadalquivir (Provincia de Sevilla): Revista Española de Paleontología, v. 18, p. 131–141.
Santos, A., Mayoral, E., Baarli, G., Cachão, M., Marques da Silva, C., and Johnson, M., 2014, Estructuras de domicilio-equilibrio producidas por Gastrochaenidae (Bivalvia) en el Mioceno medio del sector de Lagos- Albufeira (Algarve, Portugal), in Royo-Torres, R., Verdú, F.J., and Alcalá, L. coords., XXX Jornadas de Paleontología de la Sociedad Española de Paleontología, ¡Fundamental!, 24, 219–222.
Santos, A., Mayoral, E., Dumont, C.P., da Silva, C.M., Ávila, S.P., Gudveig Baarli, B., Cachão, M., Johnson, M.E., and Ramalho, R.S., 2015, Role of environmental change in rock-boring echinoid trace fossils: Palaeogeo- graphy, Palaeoclimatology, Palaeoecology, v. 432, p. 1–14.
Savi, P., and Meneghini, G.G., 1850, Osservazioni stratigrafische e paleonto- logische concernati la geologia della Toscana e dei paesi limitrofi. Appen- dix, in Murchison, R. I., ed., Memoria sulla struttura geologica delle Alpi, degli Apennini e dei Carpazi: Florence, p. 246–528.
Schäfer, W., 1972, Ecology and palaeoecology of marine environments: Oliver and Boyd, Edinburgh, 568 p.
Schlirf, M., 2012, Heliophycus seilacheri n. isp. and Biformites insolitus Linck, 1949 (trace fossils) from the Late Triassic of the Germanic Basin: Their taxonomy and palaeoecological relevance: Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, v. 263, p. 185–198.
Schlotheim, E.F. von, 1820, Die Petrefactenkunde auf ihrem jetzigen Stand- punkte durch die Beschreibung seiner Sammlung versteinerter und fossiler Überreste des Thier- und Pflanzenreichs der Vorwelt. Becker, Gotha, LXII +438 p., 15 pl.
Schönberg, C.H.L., and Wisshak, M., 2014, Marine bioerosion, in Goffredo, S., and Dubinsky, Z., eds., The Mediterranean Sea. Its History and Present Challenges: Springer, Berlin, p. 449–461.
Schoppe, S., and Werding, B., 1996, The boreholes of the sea urchin genus Echinometra (Echinodermata: Echinoidea: Echinometridae) as a micro- habitat in tropical South America: P.S.Z.N. I: Marine Ecology, v. 17, p. 181–186.
Schorrnann, J., 1987, Bißspuren an Seeigeln: Arbeitskreis Paläontologie Hannover, v. 15, p. 73–75.
Seike, K., Shiino, Y., and Suzuki, Y., 2014, Crininicaminus giberti isp. nov.: Tubular trace fossil armored with crinoids stem plates from the Upper Permian Kamiyasse Formation, Northeastern Japan: Spanish Journal of Palaeontology, v. 29, p. 45–50.
Seilacher, A., 1953, Studien zur Palichnologie II. Die fossilen Ruhespuren (Cubichnia): Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, v. 98, p. 87–124.
Seilacher, A., 1979, Constructional morphology of sand dollars: Paleobiology, v. 5, p. 191–221.
Seilacher, A., 1983, Upper Paleozoic trace fossils from the Gilf Kebir-Abu Ras area in southwestern Egypt: Journal ofAfrican Earth Sciences, v. 1, p. 21–34.
Seilacher, A., 2007, Trace Fossil Analysis: Springer-Verlag, New York, 226 p. Seilacher, A., and Macclintock, C., 2005, Crinoid anchoring strategies for soft- bottom dwelling: Palaios, v. 20, p. 224–240.
Sievers, D., Friedrich, J.P., and Nebelsick, J.H., 2014, A feast for crows: bird predation on irregular echinoids fromBrittany, France: Palaios, v. 29, p. 87–94.
Smilek, K.R., and Hembree, D.I., 2012, Neoichnology of Thyonella gemmata: a case study for understanding holothurian ichnofossils: The Open Paleontology Journal, v. 4, p. 1–10.
Smith, A.B., 1984, Echinoid Palaeobiology: Special Topics in Palaeontology, George Allen & Unwin, London, UK, 190 p.
Smith, A.B., 1988, Echinoids, in Smith, A.B., Paul, C.R.C., Gale, A.S., and Donovan, S.K., eds., Cenomanian and Lower Turonian echinoderms from Wilmington, south-east Devon, England: Bulletin of the British Museum (Natural History), Geology Series, v. 42, p. 16–189.
Smith, A.B., and Crimes, T.P., 1983, Trace fossils formed by heart urchins - a study of Scolicia and related traces: Lethaia, v. 16, p. 79–92.
Solovyev, A.N., 1961, The parasite Canceripustula nocens in a Late Jurassic echinoid: Paleontologitchesky Zhurnal, v. 4, p. 115–119. [In Russian]
Sutcliffe, O.E., 1997, An ophiuroid trackway from the Lower Devonian Hünsruck Slate, Germany: Lethaia, v. 30, p. 33–39.
Tapanila, L., 2005, Palaeoecology and diversity of endosymbionts in Palaeozoic marine invertebrates: Trace fossil evidence: Lethaia, v. 38, p. 89–99.
Tapanila, L., 2008, Direct evidence of ancient symbiosis using trace fossils, in Kelley, P.H., and Bambach, R.K., eds., From Evolution to Geobiology: research questions driving paleontology at the start of a new century, Paleontological Society Papers, 14, p. 19–35.
Tchoumatchenco, P., and Uchman, A., 2001, The oldest deep-sea Ophiomorpha and Scolicia and associated trace fossils from the Upper Jurassic–Lower Cretaceous deep-water turbidite deposits of SW Bulgaria: Palaeogeo- graphy, Palaeoclimatology, Palaeoecology, v. 169, p. 85–99.
Thomka, J.R., Malgieri, T.J., and Brett, C.E., 2014, A swollen crinoid plur- icolumnal from the Upper Ordovician of northern Kentucky, USA: the oldest record of an amorphous paleopathologic response in Crinoidea?: Estonian Journal of Earth Sciences, v. 63, p. 317–322.
Thomka, J.R., Brett, C.E., Young, A.L., Bantel, T.E., and Bissett, D.L., 2016, Taphonomy of ‘cystoids’ (Echinodermata: Diploporita) from the Napoleon quarry of southeastern Indiana, USA: The Lower Silurian Massie Formation as an atypical Lagerstätte: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 443, p. 263–277.
Uchman, A., 1995, Taxonomy and palaeoecology of flysch trace fossils: the Marnosoarenacea Formation and associated facies (Miocene, Northern Apennines, Italy): Beringeria, v. 15, p. 1–115.
Vadász, M.E., 1914, Regenerationserscheinungen an fossilen Echinoiden: Centralblatt für Mineralogie, Geologie und Paläontologie, v. 9, p. 283–288.
Vallon, L.H., Rindsberg, A.K., and Bromley, R.G., 2016, An updated classifi- cation of animal behaviour preserved in substrates: Geodinamica Acta, v. 28, p. 5–20.
Villier, L., Neraudeau, D., Clavel, B., Neumann, C., and David, B., 2004, Phylogeny of early Cretaceous spatangoids (Echinodermata: Echinoidea) and taxonomic implications: Palaeontology, v. 47, p. 265–292.
Vinn, O., Wilson, M. A., Ausich, W. I., and Toom, U., 2015, Tremichnus in crinoid pluricolumnals from the Silurian of western Estonia (Baltica): Carnets de Géologie, v. 15, p. 239–243.
Warme, J.E., 1975, Borings as trace fossils, and the processes of marine bioeorosion, in Frey, R.W., ed., The Study of Trace Fossils: Springer- Verlag, New York, p. 181–227.
Welch, J.R., 1976, Phosphannulus on Paleozoic crinoid stems: Journal of Paleontology, v. 50, p. 218–225.
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