Journal of Paleontology, 78, 542–59.
Manum S. B., Bose M. N., Sawyer R. T. (1991) Clitellate cocoons in freshwater deposits since the Triassic. Zoologica Scripta, 20, 347–66.
McLoughlin S., Bomfleur B., Mörs T., Reguero M. (2016) Fossil clitellate annelid cocoons and their microbiological inclusions from the Eocene of Seymour Island, Antarctica. Palaeontologia Electronica, 19.1.11A, 1–27. https://core.ac.uk/download/pdf/326792266.pdf.
Muir, L. A., Botting, J. P. (2007) A Lower Carboniferous sipunculan from the Granton Shrimp Bed, Edinburgh. Scottish Journal of Geology, 43, 51–6.
Nanglu K., Caron J.-B. (2018) A new Burgess Shale polychaete and the origin of the annelid head revisited. Current Biology, 28, 319–26.
Parry L., Tanner A., Vinther J. (2014) The origin of annelids. Palaeontology, 57, 1091–1103.
Parry L., Vinther J., Edgecombe G. D. (2015) Cambrian stem-group annelids and a metameric origin of the annelid head. Biology Letters, 11, 20150763. DOI: 10.1098/rsbl.2015–0763.
Parry L., Eriksson M. E., Vinther J. (2019) The annelid fossil record. In Handbook of Zoology: Annelida – V. 1. Annelida Basal Groups and Pleistoannelida, Sedentaria I. Eds. G. Purschke, M. Böggemann, W. Westheide. Berlin; Boston: De Gruyter. P. 69–88.
Parry L., Caron J.-B. (2019) Canadia spinosa and the early evolution of the annelid nervous system. Science Advances, 5, eaax5858. DOI: 10.1126/sciadv.aax5858.
Paxton H., Eriksson M. E. (2013) Ghosts from the past – ancestral features reflected in the jaw ontogeny of the polychaetous annelids Marphysa fauchaldi (Eunicidae) and Diopatra aciculata (Onuphidae). GFF, 134, 309–16.
Poinar G. O., Jr. (2007) Enchytraeidae (Annelida: Oligochaeta) in amber. Megadrilogica, 11, 53–7.
Sanfilippo R., Rosso A., Reitano A., Insacco G. (2017) First record of sabellid and serpulid polychaetes from the Permian of Sicilia. Acta Palaeontologica Polonica, 62, 25–38.
Shcherbakov D. E., Timm T., Tzetlin A. B., Vinn O., Zhuravlev A. Yu. (2020) A probable oligochaete from an Early Triassic Lagerstätte of the southern Cis-Urals and its evolutionary implications. Acta Palaeontologica Polonica, 65, 219–233.
Struck T. et al. (2015) The evolution of annelids reveals two adaptive routes to the interstitial realm. Current Biology, 25, 1993–9.
Szaniawski H., Imajima M. (1996) Hartmaniellidae – living fossils among polychaetes. Acta Palaeontologica Polonica, 41, 111–25.
Timm T. (1981) On the origin and evolution of aquatic Oligochaeta. Eesti NSV Teaduste Akadeemia Toimetised, Bioloogia, 30, 174–81.
Ulrich H., Schmelz R. M. (2001) Enchytraeidae as prey of Dolichopodidae, recent and in Baltic amber (Oligochaeta; Diptera). Bonner zoologische Beiträge, 50, 89–101.
Vinn O., ten Hove H. A., Mutvei H. (2008) On the tube ultrastructure and origin of calcification in sabellids (Annelida, Polychaeta). Palaeontology, 51, 295–301.
Vinn O., Luque H. (2013) First record of a pectinariid-like (Polychaeta, Annelida) agglutinated worm tube from the Late Cretaceous of Colombia. Cretaceous Research, 41, 107–10.
Vinther J., Briggs D. E. G. (2009) Machaeridian locomotion. Lethaia, 42, 357−64.
Vinther J., Van Roy P., Briggs D. E. G. (2008) Machaeridians are Palaeozoic armoured annelids. Nature, 451, 185−8.
Weigert A, Bleidorn C. (2016) Current status of annelid phylogeny. Organisms Diversity and Evolution, 16, 345–62.
Weller S. (1925) A new type of Silurian worm. Journal of Geology, 33, 540–4.
Westheide W., McHugh D., Purschke G., Rouse G. W. (1999) Systematization of the Annelida: different approaches. Hydrobiologia, 402, 291–307.
Whittle R., Gabbott S., Aldridge R., Theron J. (2008) Late Ordovician (Hirnantian) scolecodont clusters from the Soom Shale Lagerstätte, South Africa. Journal of Micropalaeontology, 27, 147–59.
Барсков И. С., Морозов Ю. Е. Хитон (Mollusca, Polyplacophora) из верхнего карбона Подмосковья // Палеонтологический журнал. 1996. № 4. С. 3–6.
Мироненко А. А. Анатомия и некоторые аспекты палеобиологии аммоноидей: современные данные // Юрские отложения юга Московской синеклизы и их фауна / Отв. ред. М. А. Рогов, В. А. Захаров. – М.: ГЕОС, 2017. С. 161–182.
Несис К. Н. Головоногие: умные и стремительные (Истории из частной и семейной жизни кальмаров, каракатиц, осьминогов, а также наутилуса помпилиуса). – М.: Октопус, 2005.
Пархаев П. Ю. Новые данные по морфологии раковинной мускулатуры кембрийских гельционеллоидных моллюсков //Палеонтологический журнал. 2004. № 3. С. 27–29.
Пархаев П. Ю. Строение раковинной мускулатуры кембрийских брюхоногих моллюсков рода Bemella (Gastropoda: Archaeobranchia: Helcionellidae) // Палеонтологический журнал. 2014. № 1. С. 20–27.
Пархаев П. Ю. Происхождение и ранняя эволюция типа Mollusca // Палеонтологический журнал. 2017. № 6. C. 91–112.
Arkhipkin A. I., Bizikov V. A., Fuchs D. (2012) Vestigial phragmocone in the gladius points to a deepwater origin of squid (Mollusca: Cephalopoda). Deep-Sea Research I, 61, 109–122.
Barskov I. S. et al. (2008) Cephalopods in the marine ecosystems of the Paleozoic. Paleontological Journal, 42 (11), 1167–284.
Bengtson S. (1992) The cap-shaped Cambrian fossil Maikhanella and the relationship between coeloscleritophorans and molluscs. Lethaia, 25, 401–20.
Bengtson S., Collins D. (2015) Chancelloriids of the Cambrian Burgess Shale. Palaeontologia Electronica, 15, 1.6A, 1–67. palaeo-electronica.org/content/2015/1031-chancelloriids.
Bengtson S., Hou X. (2001) The integument of Cambrian chancelloriids. Acta Palaeontologica Polonica, 46, 1–22.
Breton G., Wisshak M., Néraudeau D., Morel N. (2017) Parasitic gastropod bioerosion trace fossil on Cenomanian oysters from Le Mans, France and its ichnologic and taphonomic context. Acta Palaeontologica Polonica, 62, 45–57.
Caron J.-B., Scheltema A., Schander C., Rudkin D. (2006) A soft-bodied mollusc with radula from the Middle Cambrian Burgess Shale. Nature, 442, 159–63.
Checa A. G., Jiménez-Jiménez A. P. (2003) Evolutionary morphology of oblique ribs of bivalves. Palaeontology, 46, 709–24.
Checa A. G., Jiménez-Jiménez A. P. (2003) Rib fabrication in Ostreoidea and Plicatuloidea (Bivalvia, Pteriomorphia) and its evolutionary significance. Zoomorphology, 122, 145–59.
Checa A. G., Ramírez-Rico J., González-Segura A., Sánchez-Navas A. (2009) Nacre and false nacre (foliated aragonite) in extant monoplacophorans (=Tryblidiida: Mollusca). Naturwissenschaften, 96, 111–22.
Clements T., Colleary C., De Baets K., Vinther J. (2017) Buoyancy mechanisms limit preservation of coleoid cephalopod soft tissues in Mesozoic Lagerstätten. Palaeontology, 60, 1–14.
Connors M. J. et al. (2012) Three-dimensional structure of the shell plate assembly of the chiton Tonicella marmorea and its biomechanical consequences. Journal of Structural Biology, 177, 314–28.
Conway Morris S., Caron J.-B. (2007) Halwaxiids and the early evolution of the lophotrochozoans. Science, 315, 1255–8.
Conway Morris S., Peel J. S. (1995) Articulated halkieriids from the Lower Cambrian of North Greenland and their role in early protostome evolution. Philosophical Transactions of the Royal Society B: Biological Sciences, 347, 305–58.
Cope J. C. W. (1999) Middle Ordovician bivalves from mid-Wales and the Welsh Borderland. Palaeontology, 42, 467–99.
Dean C. D., Sutton M. D., Siveter D. J., Siveter D. J. (2015) A novel respiratory architecture in the Silurian mollusk Acaenoplax. Palaeontology, 58, 839–47.
De Blasio F. V. (2007) The role of suture complexity in diminishing strain and stress in ammonoid phragmocones. Lethaia, 41, 15–24.
Distel D. L. et al. (2017) Discovery of chemoautotrophic symbiosis in the giant shipworm Kuphus polythalamia (Bivalvia, Teredinidae) extends wooden-steps theory. Proceedings of the National Academy of Sciences of the USA, 114, E3652–8.
Doguzhaeva L. A., Mapes R. H. (2018) A new late Carboniferous coleoid from Oklahoma, USA: implications for the early evolutionary history of the subclass Coleoidea (Cephalopoda). Journal of Paleontology, 92, 157–69.
Doguzhaeva L. A., Weaver P. G., Ciampaglio C. N. (2012) A unique late Eocene coleoid cephalopod Mississaepia from Mississippi, USA: New data on cuttlebone morphology, ultrastructure, chemical composition, and their phylogenetic implications. Acta Palaeontologica Polonica, 59, 147–62.
Doguzhaeva L. A. et al. (2018) An Early Triassic gladius associated with soft tissue remains from Idaho, USA – a squid-like coleoid cephalopod at the onset of the Mesozoic Era. Acta Palaeontologica Polonica, 63, 341–55.
Ebbestad J. O. R. (2008) The tergomyan mollusc Carcassonnella from the Upper Ordovician Girvan, Scotland. Palaeontology, 51, 663–75.
Fang X. et al. (2018) Palaeogeographic distribution and diversity of cephalopods during the Cambrian-Ordovician transition. Palaeoworld, 28, 51–7.
Fuchs D., Iba Y. (2015) The gladiuses in coleoid cephalopods: homology, parallelism, or convergence? Swiss Journal of Palaeontology, 134, 281–7.
Fuchs D., Bracchi G., Weis R. (2009) New octopods (Cephalopoda: Coleoidea) from the Late Cretaceous (upper Cenomanian) of Hâkel and Hâdjoula, Lebanon. Palaeontology, 52, 65–81.
Fuchs D. et al. (2015) The locomotion system of Mesozoic Coleoidea (Cephalopoda) and its phylogenetic significance.