Похождения видов. Вампироноги, паукохвосты и другие переходные формы в эволюции животных - Андрей Юрьевич Журавлёв
Шрифт:
Интервал:
Закладка:
Klug C. et al. (2016) The oldest Gondwanan cephalopod mandibles (Hangenberg Black Shale, Late Devonian) and the mid-Palaeozoic rise of jaws. Palaeontology, 59, 611–29.
Kluessendorf J., Doyle P. (2000) Pohlsepia mazonensis, an early ‘octopus’ from the Carboniferous of Illinois, USA. Palaeontology, 43, 919–26.
Knight R. I. et al. (2014) Exceptional preservation of a novel gill grade in large Cretaceous inoceramids: Systematic and palaeobiological implications. Palaeontology, 57, 37–54.
Kröger B. (2013) Cambrian – Ordovician cephalopod palaeogeography and diversity. Geological Society of London Memoir, 38, 429–48.
Kröger B., Mutvei H. (2005) Nautiloids with multiple paired muscle scars from Lower-Middle Ordovician of Baltoscandia. Palaeontology, 48, 781–91.
Kröger B., Servais T., Zhang Y. (2009) The origin and initial rise of pelagic cephalopods in the Ordovician. PLoS ONE, 4 (9), e7262. DOI: 10.1371/journal.pone.0007262.
Kröger B., Vinther J., Fuchs D. (2011) Cephalopod origin and evolution: A congruent picture emerging from fossils, development and molecules. Bioessays, 33, 602–13.
Kruta I. et al. (2011) The role of ammonites in the Mesozoic marine food web revealed by jaw preservation. Science, 331, 70–2.
Kruta I. et al. (2016) Proteroctopus riberti in coleoid evolution. Palaeontology, 59, 767–73.
Landman N. H. et al. (2012) Methane seeps as ammonite habitats in the U. S. Western Interior Seaway revealed by isotopic analyses of well-preserved shell material. Geology, 40, 507–10.
Laptikhovsky V., Nikolaeva S., Rogov M. (2018) Cephalopod embryonic shells as a tool to reconstruct reproductive strategies in extinct taxa. Biological Reviews, 93, 270–83.
Lemanis R. (2020) The ammonite septum is not an adaptation to deep water: re-evaluating a centuries-old idea. Proceedings of the Royal Society of London B, 287, 20201919. DOI: 10.1098/rspb.2020.1919.
Lemanis R. et al. (2016) The evolution and development of cephalopod chambers and their shape. PLoS ONE, 11 (3), e0151404. DOI: 10.1371/journal.pone.0151404.
Li L., Zhang X., Yun H., Li G. (2017) Complex hierarchical microstructures of Cambrian mollusk Pelagiella: insight into early biomineralization and evolution. Scientific Reports, 7, 1935. DOI: 10.1038/s41598-017-02235-9.
Lucena Santiago G. (2015) Revisión de la fauna de rudistas de les Collades de Basturs (Lleida, Pirineos centro-meridionales). Barcelona: Universitat Autònoma de Barcelona.
Lukeneder A. (2012) Computed 3D visualisation of extinct cephalopods using computer tomographs. Computers & Geosciences, 45, 68–74.
Mapes R. H., Doguzhaeva L. A. (2018) New Pennsylvanian coleoids (Cephalopoda) from Nebraska and Iowa, USA. Journal of Paleontology, 92, 146–56.
Mapes R. H., Landman N. H., Klug C. (2018) Caught in act? (Distracting sinking in ammonoid cephalopods). Swiss Journal of Palaeontology, 138, 141–9.
Mazurek D., Zatón M. (2011) Is Nectocaris pteryx a cephalopod? Lethaia, 44, 2–4.
Mironenko A. A. (2015) Soft-tissue preservation in the Middle Jurassic ammonite Cadoceras from Central Russia. Swiss Journal of Palaeontology, 134, 281–7.
Mironenko A. A. (2017) Siphuncle soft-parts in the Upper Jurassic ammonite Kachpurites fulgens. Palaios, 32, 153–7.
Mironenko A. A. (2018) Microstructure of aptychi of Upper Jurassic (Upper Oxfordian) ammonites from Central Russia. Lethaia, 51, 75–85.
Mironenko A. A. (2020) Endocerids: suspension feeding nautiloids? Historical Biology, 32, 281–9.
Mironenko A. A., Rogov M. A. (2016) First direct evidence of ammonoid ovoviviparity. Lethaia, 49, 245–60.
Mutvei H., Zhang Y.-B., Dunca E. (2007) Late Cambrian plectronocerid nautiloids and their role in cephalopod evolution. Palaeontology, 50, 1327–33.
Niko S., Nishida T. (2003) Devonohelicoceras hidaense, a new torticonic oncocerid (Cephalopoda) from the Devonian of Central Japan. Proceedings of the Japan Academy, Series B, 79 (7), 201–6.
Nützel A., Lehnert O., Frýda J. (2007) Origin of planktotrophy – evidence from early molluscs: a response to Freeman and Lundelius. Evolution & Development, 9, 313–8.
Peel J. S. (1991) Functional morphology, evolution, and systematics of Early Palaeozoic univalved molluscs. Grønlands Geologiske Undersøgelse, № 161, 1–116.
Peel J. S. (2004) Asymmetry and musculature in some Carboniferous bellerophontiform gastropods (Mollusca). GFF, 126, 213–20.
Peterman D. J., Ciampaglio C. N., Shell R. C., Yacobucci M. M. (2019) Mode of life and hydrostatic stability of orthoconic ectocochleate cephalopods: Hydrodynamic analyses of restoring moments for 3D printed, neutrally buoyant models. Acta Palaeontologica Polonica, 64, 441–60.
Pojeta J., Jr., Runnegar B. (1976) The paleontology of rostroconch mollusks and the early history of the phylum Mollusca. United States Geological Survey Professional Paper, № 968, 1–88.
Ponder W. F., Parkhaev P. Yu., Beechey D. L. (2007) A remarkable similarity in scaly shell structure in Early Cambrian univalved limpets (Monoplacophora; Maikhanellidae) and a Recent fissurellid limpet (Gastropoda: Vetigastropoda) with a review of Maikhanellidae. Molluscan Research, 27, 153–63.
Porter S. M. (2008) Skeletal microstructure indicates chancelloriids and halkieriids are closely related. Palaeontology, 51, 865–79.
Radtke G., Keupp H. (2017) The dorsal shell wall structure of Mesozoic ammonoids. Acta Palaeontologica Polonica, 62, 59–96.
Roger T. D. K., Runnegar B., Matt K. (2020) Pelagiella exigua, an early Cambrian stem gastropod with chaetae: Lophotrochozoan heritage and conchiferan novelty. Palaeontology, 63, 601–27.
Rogers C. S. et al. (2019) Synchrotron X-ray absorption spectroscopy of melanosomes in vertebrates and cephalopods: implications for the affinity of Tullimonstrum. Proceedings of the Royal Society of London B, 286, 20191649. DOI: 10.1098/rspb.2019.1649.
Rosenbluth J., Szent-Györgyi A. G., Thompson J. T. (2010) The ultrastructure and contractile properties of a fast-acting, obliquely striated, myosin-regulated muscle: the funnel retractor of squids. Journal of Experimental Biology, 213, 2430–43.
Ros-Franch S., Márquez-Aliaga A., Damborenea S. E. (2014) Comprehensive database on Induan (Lower Triassic) to Sinemurian (Lower Jurassic) marine bivalve genera and their paleobiogeographic record. The University of Kansas Paleontological Contributions, 8, 1–219.
Runnegar B. (2011) Once again: Is Nectocaris pteryx a stem-group cephalopod? Lethaia, 44, 373.
Runnegar B., Jell P. A. (1976) Australian Middle Cambrian molluscs and their bearing on early molluscan evolution. Alcheringa, 1, 109–38.
Stanley G. D., Jr., Yancey T. E., Shepherd H. M. E. (2013) Giant Upper Triassic bivalves of Wrangellia, Vancouver Island, Canada. Canadian Journal of Earth Sciences, 50, 142–7.
Stanley S. M. (1977) Trends, rates, and patterns of evolution in the Bivalvia. In Patterns of Evolution as Illustrated by the Fossil Record. Ed. A. Hallam. Amsterdam; Oxford; New York: Elsevier. P. 209–50.
Sutton M. D., Briggs D. E. G., Siveter D. J., Siveter D. J. (2001) An exceptionally preserved vermiform mollusc from the Silurian of England. Nature, 410, 461–3.
Sutton M.
