Références 2021 sur les Brachiopoda

Agbaje O. B. A., Brock G. A., Zhang Z., C. Duru K. C., Liang Y., George S. G. & L. E. Holmer, 2021. Biomacromolecules in recent phosphate-shelled brachiopods: identification and characterization of chitin matrix. Journal of Materials Science, 56 (63), -.

Agbaje O. et al., 2021. Chitin Matrix and Ultrastructure of Phosphate- Shelled Brachiopods. 30 p. https://doi.org/10.21203/rs.3.rs-129606/v1

Alméras Y., Ferry S., Granier B.R.C. & Merran Y., 2021. Brachiopodes jurassiens de l'intervalle Valanginien - Hauterivien. Leur contribution à la datation de la Formation de Salima au Mont Liban. Carnets Geol., 21 (7), 163-179.

Anadón N., Fernández-Rodríguez I. & Arias A., 2021. Recent Brachiopod diversity and distribution from the central Cantabrian Sea and the Avilés canyon system (Bay of Biscay). Proceedings XVII Internat. Symposium on Oceanography of the Bay of Biscay (ISOBAY 17), University of Oviedo, Poster, 1 p.

Angiolini L. et al., 2021. Stratigraphy and brachiopod fauna of the Carboniferous El Imán Formation, Colombia. Spanish Journal of Palaeontology, 18 (2), 151- .

Bitner M. A. & V. Gerovasileiou, 2021. Taxonomic composition and assemblage structure of brachiopods from two submarine caves in the Aegean Sea, Eastern Mediterranean. European Zoological Journal, 88 (1), 316-327,

Bujtor L. & R. Albrecht, 2021. Oxfordian brachiopods from the ammonitico rosso-type Fonyászó Limestone formation at Zengővárkony, Mecsek Mountains, Hungary and their palaeoecological, palaeobiogeographical and palaeopathological significance. PalZ, 96 (1), 51-65.

Chen Z. et al., 2021. Late Palaeozoic-Mesozoic palaeontology and stratigraphy in China: A tribute to the achievements of Professor Zhuoting Liao. Geological Journal, 56 (12),  5863-5881

Cisterna G. A. & T. Simanauskas, 2021. Brachiopods from the Río del Peñón Formation. Río Blanco Basin, Upper Palaeozoic of Argentina. Spanish Journal of Palaeontology, 15 (2), 129- .

Claybourn T.M., Skovsted C.B., Betts M.J., Holmer L.E., Bassett-Butt L. & Brock G.A., 2021. Camenellan tommotiids from the Cambrian Series 2 of East Antarctica: Biostratigraphy, palaeobiogeography, and systematics. Acta Palaeontologica Polonica, 66 (1), 207-229.

Clauss W. & Clauss C., 2021. Brachiopoda, Phoronida. In: Taschenatlas Zoologie. Springer Spektrum, Berlin, Heidelberg. https://doi.org 10.1007/978-3-662-61593-5_29.

Cole S. R. & M. J. Hopkins, 2021. Selectivity and the effect of mass extinctions on disparity and functional ecology. Sci. Adv., 7 (eabf4072), 1-11.

Darmarini A.S. et al., 2021. The community structure of intertidal macrozoobenthos on muddy substrate in Lubuk Damar, Aceh Tamiang, Indonesia. IOP Conf. Ser.: Earth Environ. Sci., 744 (012011), 1-9.

Demina L.L., Galkin S.V., Krylova E.M., Budko D.F. & Solomatina A.S., 2021. Some biogeochemical characteristics of the trace element bioaccumulation in the benthic fauna of the Piip Volcano (the southwestern Bering Sea). Minerals, 11, 1233.

Di Cencio A., Dulai A., Catanzariti R., Casati S. & A. Collareta, 2021. First record of the brachiopod Lingula? from the Pliocene of Tuscany (Italy): the youngest occurrence of lingulides in the Mediterranean Basin. N. Jb. Geol. Paläont. Abh., 299 (3), 237-249.
Note : The remains represented on Fig. 3 and described in the text under Lingula? belong to Clio, a genus of planktonic pteropod molluscs, the species is probably C. oblonga Rampal, 1996 ; however, other Clio species are known fossils in the Mediterranean.

Duan X. et al., 2021. Early Cambrian (Stage 4) brachiopods from the Shipai Formation in the Three Gorges area of South China. Journal of Paleontology, 95 (3, 497-526.

Dulai A., Nicolae Trif N. & R. Balc, 2021. Middle Eocene (Bartonian) brachiopods from Turnu Rosu (Transylvanian Basin, Romania): oldest record of Megerlia and Kraussinidae. Fragmenta Palaeontologica Hungarica, 37, 49-64.

Feldman H. R. et al., 2021. Middle Jurassic terebratulide brachiopods from the Jordan Valley (northwestern Jordan). Historical Biology, 33 (4), 446-462.

Feldman H. R. et al., 2021. Callovian (Middle Jurassic) terebratulide brachiopods from the Jordan Valley (northwestern Jordan). Historical Biology, 33 (7), 1053-1065.

Ferretti A. et al., 2021. Dead, fossil or alive: Bioapatite diagenesis and fossilization. Palaeogeography, Palaeoclimatology, Palaeoecology, 579 (110608).

Gerovasileiou V. & C. N. Bianchi, 2021. Mediterranean Marine Caves: A Synthesis of Current Knowledge. Oceanography and Marine Biology: An Annual Review, 59, 1-88.

Goedert J. L., Sandy M. R. & Peckmann J., 2021. First report of the megathyridid (Terebratellidina) brachiopod Argyrotheca from a hydrocarbon seep deposit, middle Eocene Humptulips Formation, Washington State, USA. PalZ, 95, 97–103.

Gozalo R., Pardo Alonso M.V. & Valenzuela Rios J.I., 2021. Estratigrafía y paleontología del yacimiento QUIN-18 (Formación Valmayor, Frasniense, sinclinal de Almaden, España). Revista Española de Paleontología, 17 (1), 83-99.

Grunt T., 2021. New genus Parvithyris (Athyridida, Brachiopoda) from the Middle Devonian of Rhenish Massif, Germany. Österreichisches Multiscience Journal, Earth Sciences, 36/2021, 3-42.

Grunt T., 2021. New Middle-Late Devonian Plicathyridinae (Athyridida, Brachiopoda) from Western Germany and East-European Platform (Russia). German International Journal of Modern Science, 4, 8-21.

Guo Z., Chen Z. & Z. Liao, 2021. Early Carboniferous brachiopod fauna from the Altai Mountains, northern Xinjiang, Central Asia: Systematics, and palaeobiogeographic and palaeogeographical implications. Geological Journal, 56 (12), 6000-6021.

Hirose M. & K. Endo, 2021. Chapter. 21 Phylum Brachiopoda. In: Invertebrate Zoology: A Tree of Life Approach, CRC Press, p. 330-338.

Johnston P.A. & Streng M., 2021. Morphology and relationships of the enigmatic stenothecoid pan-brachiopod Stenothecoides — new data from the middle Cambrian Burgess Shale Formation. Acta Palaeontologica Polonica, 66 (4), 723-751.

Koch L. & C. Brauckmann, 2021. Bericht über bemerkenswerte und neuere Fossil-Arten aus dem mitteldevonischen Massenkalk in der Schwelmer Sammlung Zimmermann (Givetium, Schwelm-Kalk, Nordrhein-Westfalen). Jahrber. Naturwiss. Ver. Wuppertal, 66, 35-52

Korabik M. et al., 2021. A pictorial guide to the epibenthic megafauna of the Lophelia coral conservation area identified from in situ benthic images. Canadian Technical Report of Fisheries and Aquatic Sciences, 3430, 142 p.

Kotlyar O.Yu., 2021. Biostratigraphy and correlation of Devonian deposits in the South-West segment of the East-European Platform by brachiopods (in Russian). Geol. Zhurnal, 3, 74-84.

Kuzmina T. V. , Ratnovskaya A. A. & A. A. Madison, 2021. Lophophore evolution from the Cambrian to the Present. Paleontological J., 55, (10), 1109-1140.

Kuzmina T.V. & Temereva E.N., 2021. Ultrastructure of ganglia in the brachiopod Coptothyris grayi and its phylogenetic significance. Journal of Zoological Systematics and Evolutionary Research, 59 (2), 376-386.

Kuzmina T. & E. Temereva, 2021. Tentacle muscles in brachiopods: Ultrastructure and relation to peculiarities of life style. Journal of experimental Zoology, Part B molecular and developmental Evolution, 338 (3), 192-208.

Liang Y., Holmer L. E., Duan X. & Z. Zhang, 2021. Brachiopods from the Latham Shale Lagerstätte (Cambrian Series 2, Stage 4) and Cadiz Formation (Miaolingian, Wuliuan), California. Journal of Paleontology, xx, p. 1-18.

Liu F., Zhang Z. & C. B. Skovsted, 2021. Research advances on the soft anatomy and skeletal microstructures of Cambrian hyoliths in China and their implications for lophotrochozoan evolution (in Chinese). Chinese Science Bulletin, 66 (27), 3631-3644.

Madison A. A., Kuzmina T. V. & E. N. Temereva, 2021. Analysis of the juvenile shell of Lingula anatina (Brachiopoda: Linguliformea) provides insight into the evolution of life cycles of fossil brachiopods. Paleobiology, 47 (1), 134-148.

Massi D. et al., 2021. Characterization and biogeographic affinity of megazoobenthos in the Central Mediterranean Sea. Marine Ecology, 42 (2), e12627, 12 p.

Masunaga M. & Shiino Y., 2021. Death or living assemblage? The Middle Permian discinid brachiopods in the Kamiyasse Area, Southern Kitakami Mountains, Northeastern Japan. Paleontological Research, 25 (3), 258-278.

Morton J.G.G., 2021. Cenozoic Brachiopoda of South Australia. A photographic identification guide, 117 p.

Niaison T., Guerra D. & S. Breton, 2021. The complete mitogenome of the inarticulate brachiopod Glottidia pyramidata reveals insights into gene order variation, deviant ATP8 and mtORFans in the Brachiopoda. Mitochondrial DNA Part B, 6 (9), 2701-2703.

Octavina C. et al., 2021. Population structure of lamp shells (Brachiopoda: Lingula anatina Lamarck, 1801) in Aceh Northern Shore, Indonesia. IOP Conf. Ser.: Earth Environ. Sci., 869 (012014), 7 p.

Pier J. Q. et al., 2021. Climate change and mass extinction risk in an endemic-rich Late Devonian fauna. Research Square, 317 p.

Piovani L., 2021. Testing the homology of metazoan larvae using single cell sequencing data. Doctoral thesis (Ph.D), University College London, 310 p..

Plandin F. A. & Temereva E., 2021. Anatomy of the coelomic system in Novocrania anomala (Brachiopoda, Craniiformea) and relationships within brachiopods. Zoology, 144 (125884).

Popov L. E., Nikitina O. I., Pirogova T. E. & G. K. Ergaliev, 2021. Cambrian brachiopods from the area of the former Semipalatinsk nuclear-testing site, Chingiz Ranges, Kazakhstan. Paläontologische Zeitschrift, 95 (2), 275-290.

Qiao L. et al., 2021. New observations on Devonian in the Baoshan Block of western Yunnan, China. Geological Journal, 56 (12), 5938-5950.

Radulovic B., 2021. New Pliensbachian rhynchonellide (Brachiopoda) from Livari, (Rumija Mountain, Montenegro): the taxonomic implications of microstructure to disentangle cases of homeomorphism. Historical Biology, 43, xx.

Robinson J. H., 2021. Description and figures of new lectotype and paralectotype material of Recent brachiopod Thecidellina maxilla (Hedley, 1899). Records of the Australian Museum, 73 (5), 137-146.

Robinson J. H., 2021. Brachiopod lamp shells. p. 35-38. In: Kelly M. et al., Fabulous Fiordland, a guide to the marine biota of the Fiordland (Te Moana o Atawhenua) marine area. Version 1.0, NIWA, 220 p.

Ruisen F., Liang Y., Hua H. & Z. Zhang, 2021. First report of the problematic Ediacaran fossil Shaanxilithes from the Jiucheng Member of Zhujiaqing Section in Huize, Yunnan Province (in Chinese). DOI 10.19800/j.cnki.aps.2020035

Simonet Roda M., Griesshaber E., Angiolini L., Harper D.A.T., Jansen U., Bitner M.A., Henkel D., Manzanero E., Müller T., Tomasovych A., Eisenhauer A., Ziegler A. & Schmahl W. W., 2021. The evolution of thecideide microstructures and textures: traced from Triassic to Holocene. Lethaia, 54 (4), 558-577.

Skóra K., Natuniewicz-Sekula M., Maczynski P. & M. A. Bitner, 2021. Fossil Brachiopod from a Roman period grave at Weklice, site 7 (Woj. Warminsko-Mazurskie/PL). On past uses of fossils. Archäologisches Korrespondenzblatt, 51 (3), 405-418.

Teece B. L. et al., 2021. Using laser micropyrolysis to assess potential relationships between Cambrian tommotiids and organophosphatic brachiopods. Journal of Analytical and Applied Pyrolysis, 158, 105277.

Temereva E. N. & T. V. Kuzmina, 2021. The nervous system of the most complex lophophore provides new insights into the evolution of Brachiopoda. Scientific Reports, 11 (16192), 19 p.

Thiel D. et al., 2021. Nemertean, brachiopod and phoronid neuropeptidomics reveals ancestral spiralian signalling systems. Molecular Biology and Evolution, 38 (11), 4847-4866.

Torres-Martínez M.A., Vinn O. & Martín-Aguilar L., 2021. Paleoecology of the first Devonian-like sclerobiont association on Permian brachiopods from southeastern Mexico. Acta Palaeontologica Polonica, 66 (1), 131-141.

Williams E. H. & M. J. Doyvgiallo, 2014. First evidence of a Prehistoric fossil-for-fossil trade: Platystrophia ponderosa (Brachiopoda: Platystrophiidae) at Scientists' Cliffs, Maryland. Maryland Archaeology, 50 (1), 8-9.

Wu H-T., Zhang Y . & Sun Y-L., 2021. A brachiopod fauna from latest Permian to Induan of northern Guizhou, South China and its evolutionary pattern. Geological Journal, 56 (12), 6189-6198.

Xu H. et al., 2021. A late Cisuralian (early Permian) brachiopod fauna from the Taungnyo Group in the Zwekabin Range, eastern Myanmar and its biostratigraphic, paleobiogeographic, and tectonic implications. Journal of Paleontology, 95 (6), 1158-1188.

Yazhou H. et al., 2021. First report of small shelly fossils from the Cambrian Miaolingian Limestones (Zhangxia and Hsuzhuang Formations) in Yiyang county, Henan province of North China. Minerals, 11 (10), 1104.

Ye F., Shi G.R. & Bitner M.A., 2021. Global biogeography of living brachiopods: Bioregionalization patterns and possible controls. PLoS One, 16 (11), e0259004.

Zhang Z. et al., 2021. Go large or go conical: allometric trajectory of an early Cambrian acrotretide brachiopod. Palaeontology, 64 (5), 727-741.

Zhang Z. et al., 2021. The Cambrian Explosion of animals and the evolution of ecosystems on Earth (in Chinese). J. Northwest Univ. (nat. Sci ed.), 51 (6), 1066-1106.