References on Terebratalia

References on Terebratalia

updated on 25 August 2021

Ackerly S. C., 1991. Rapid shell closure in Recent Terebratulida and Paleozoic Orthida. In: Brachiopods through time, MacKinnon D. I., Lee D. E. & J. D. Campbell Eds, Balkema, Rotterdam, pp. 177-182.

Ackerly S. C., 1992. Rapid shell closure in the brachiopods Terebratulina retusa and Terebratalia transversa. J. mar. biol. Ass. U.K., 72, 579-598.

Adachi K., Kuramochi T., Kimura K. & S. Kumura, 2013. First extensive examination of genome size in Phylum Brachiopoda (lamp shells) collected from Japan. Journal of Shellfish Research, 32 (2), 539-541.

Alexander R. R., 1990. Mechanical strength of shells of selected extant articulate brachiopods: implications for paleozoic morphologic trends. Historical Biology, 3, 169-188.

Altenburger A. & A. Wanninger, 2009. Comparative larval myogenesis and adult myoanatomy of the rhynchonelliform (articulate) brachiopods Argyrotheca cordata, A. cistellula, and Terebratalia transversa. Frontiers in Zoology, 6 (3) - doi:10.1186/1742-9994-6-3.

Altenburger A., Martinez P. & A. Wanninger, 2011. Homeobox gene expression in Brachiopoda: The role of Not and Cdx in bodyplan patterning, neurogenesis, and germ layer specification. Gene Expression Patterns, 11, 427-436.

Altenburger A., Martinez P., Budd G.E. & Holmer L.E., 2017. Gene expression patterns in brachiopod larvae refute the “brachiopod-fold” hypothesis. Frontiers in Cell and Developmental Biology, 5 (AUG), 74.

Alvarez F., Emig C. C. & J. Tréguier, 2017. Brachiopodes actuels: historique et révision de la collection D.-P. Œhlert (Laval) ; brachiopodes des côtes françaises métropolitaines. - Sciences etc, Annales des collections de Sciences et techniques du Musée des Sciences de Laval, -et-Bulletin de la Société des Sciences naturelles de l'Ouest de la France, hors-série 1, 386 p. (2016). Carnets de Géologie, CG2017_B02, 386 p.

Andrikou A. & A. Hejnol, 2020. FGF signaling induces mesoderm in members of Spiralia. biorxiv - https://www.biorxiv.org/content/10.1101/2020.08.13

Andrikou C., Passamaneck Y., Lowe C. J., Martindale M. Q. & A. Hejnol, 2019. Molecular patterning during the development of Phoronopsis harmeri reveals similarities to rhynchonelliform brachiopods. EvoDevo, 10 (33), 15 p.

anonyme, 1975. Chronology of developement of Brachiopoda and Phoronida. Travaux pratiques pour étudiants (Friday Harbor lab., USA) 5 p.

Aruga J., 2018. Brachiopoda. In: Lophotrochozoan Zic genes. Advances in Experimental Medicine and Biology, 1046, 76-77.

Atkins D., 1959. The growth stages of the lophophore and loop of the brachiopod Terebratalia transversa (Sowerby). J. Morphol., 105, 401-426.

Baird M. J., Lee D. E. & Lamare, M. D.,, 2013. Reproduction and growth of the brachiopod terebratulid Liothyrella neozelanica Thomson, 1918 from Doubtful Sound, New Zealand. Biological Bulletin, 225 (3), 125-136. Biological Bulletin, 225 (3), 125-136.

Bajnai D. et al., 2018. Assessing kinetic fractionation in brachiopod calcite using clumped isotopes. Scientific Reports, 8 (533), 12 p.

Baldwin A., 2007. Brachiopods (Phylum Brachiopoda) of British Columbia. - 2 p.

Ballanti L. A., Tullis A. & Ward P. D., 2012. Comparison of oxygen consumption by Terebratalia transversa (Brachiopoda) and two species of pteriomorph bivalve molluscs: implications for surviving mass extinctions. Paleobiology, 38 (4), 525-537.

Bapst D. W., Schreiber H. A. & Carlson S. J. , 2018. Combined analysis of extant Rhynchonellida (Brachiopoda) using morphological and molecular data. Systematic Biology, 67, 32–48.

Beecher C. E., 1895. Revision of the Families of the loop-bearing Brachiopoda. The development of Terebratalia obsoleta Dall. Transactions Connecticut Acad. Arts Sci., 9 (2), 376-399, Pl I-III.

Bernard F. R., 1972. The living Brachiopoda of British Columbia. Syesis, 5, 73-82.

Bickmore M. G., Lohmann K. C. & C. W. Thayer, 1994. Intra-annual, seasonal variations in the isotopic and minor-element composition of brachiopodal calcite (Terebratalia transversa). Geol. Soc. Amer., Abstracts (Boulder) 26(7):A421.

Biernat G. & A. Williams, 1970. Ultrastructure of the protegulum of some acrotretide brachiopoda. Palaeontology, 13 (3), 491-502.

Bosi M. R. & Simonetta A. M., 1965. Osservazioni sull'anatomia di Terebralia transversa (Sowerby) 1846 (Brachiopoda, Testicardines). Monitore zoologico italiano, 73, 74-90.

Bradbury P. C., 1970. Urceolaria kozloffi sp. n. a symbiont of brachiopods. Acta Protozool., 7 (32), 465-473.

Brand U., A. Logan, N. Hiller & J. Richardson, 2003. Geochemistry of modern brachiopods: applications and implications for oceanography and paleoceanography. Chemical Geology, 198, 305-334.

Brand U., Bitner M.A., Logan A., Azmy K., Crippa G., Angiolini L., Colin P., , 2019. Griesshaber E., Harper E.M., Taddei Ruggiero E. & Häussermann V., - Brachiopod-based oxygen-isotope thermometer: update and review. Riv. It. Paleont. Strat., 125 (3), 775-787.

Buening N. & S. J. Carlson, 1992. Geochemical investigation of growth in selected Recent articulate brachiopods. Lethaia, 25, 331-345.

Cadien D. B. & L. L. Lovell L. L. & K. L. Barwick, Eds, 2018. A taxonomic listing of benthic macro- and megainvertebrates. www.scamit.org. 12th ed., 167 p.

Carney D., Olivier J. S. & C. Armstrong, 1999. Sedimentation and composition of wall communities in Alaskan fjords. Polar Biol., 22, 38-49.

Carpenter S. J. & K. C. Lohmann, 1995. d18O and d13C values of modern brachiopod shells. Geochim. Cosmoschim. Acta, 58 (18), 3749-3764.

Casella L.A. et al., 2018. Micro- and nanostructures reflect the degree of diagenetic alteration in modern and fossil brachiopod shell calcite: A multi-analytical screening approach (CL, FE-SEM, AFM, EBSD). Palaeogeography, Palaeoclimatology, Palaeoecology, 502, 13-30.

Casella L.A., E. Griesshaber, M. Simonet Roda, A. Ziegler, V. Mavromatis, , 2018. D. Henkel, J. Laudien, V. Häussermann, R.D. Neuser, L. Angiolini, M. Dietzel, A. Eisenhauer, A. Immenhauser, U. Brand &W.W. Schmahl - Archival biogenic micro- and nanostructure data analysis: Signatures of diagenetic systems. Data in Brief, 19, 299-311.

Chang A., Schomburg D. & Schomburg I., 2009. Class 1 Oxidoreductases. Springer Handbook of Enzymes, 2nd ed, vol. 27, 821 p. Springer Handbook of Enzymes, 2nd ed, vol. 27, 821 p.

Chuang S. H., 1983. Brachiopoda. In: Reproductive biology of invertebrates, Eds Adiyodi K. G. & R. G. Adiyodi, Wiley, New-York, vol. 2, 517-530.

Chuang S. H., 1994. Brachiopoda. In: Reproductive Biology of Invertebrates, Eds Adiyodi K. G. & R. G. Adiyodi, In: Asexual propagation and reproductive strategies, Oxford & IBH Publishing, New Dehli, vol. VI, part B, 315-328.

Cohen B. L. & A. Weydmann, 2005. Molecular evidence that phoronids are a subtaxon of brachiopods (Brachiopoda: Phoronata) and that genetic divergence of metazoan phyla began long before the early Cambrian. Organisms, Diversity & Evolution, 5, 253-273.

Cohen B. L., Gawthrop A. B. & T. Cavalier-Smith, 1998. Molecular phylogeny of brachiopods and phoronids based on nuclear-encoded small subunit ribosomal RNA gene sequences. Philosophical Transactions of the Royal Society, B 353, 2039-2061.

Cole A. G. & B. K. Hall, 2004. The nature and significance of invertebrate cartilages revisited: distribution and histology of cartilage and cartilage-like tissues within the Metazoa. Zoology, 107, 261-273.

Collins M. J., 1986. Post mortality strength loss in shells of the Recent articulate brachiopod Terebratulina retusa (L.) from the west coast of Scotland. In: les Brachiopodes fossiles et actuels, Racheboeuf P. R. & C. Emig Eds, Actes du 1er Congrès international sur les Brachiopodes, Brest, 1986. Biostratigr. Paléozoïque, 4, 209-218.

Collins M. J., 1991. Growth rate and substrate-related mortality of a benthic brachiopod population. Lethaia, 24, 1-11.

d'après Long, 1975. Chronologie du developpement à Friday Harbor manuscrit

Daley G. M., 1993. Passive deterrioration of shelly material: a study of recent Eastern Pacific articulate brachiopod Terebratalia transversa Sowerby. Palaios, 8, 226-232.

Dall W. H., 1891. Notes on some recent brachiopods. Proc. Acad. US nat. Sci. Philadelphia, 1891, 172-175.

Dall W. H., 1895. Scientific results of explorations by the U. S. Fish Commission steamer Albatross. N°34- Report on mollusca and brachiopoda dredged in deep waters, chiefly near the Hawaiian islands, with illustration of hitherto unfigured species from northwest America. Proc. U. S. Nat. Mus., 17 (1032), 675-733, pl. 25-32 (18894).

Dall W. H., 1920. Annotated list of the Recent Brachiopoda in the Collection of the United States National Museum, with descriptions of thirty-three new forms. Proceedings of the U. S. National Museum, 57 (2314), 261-377.

Dhillon RS, James NP, Kyser TK & Bone Y., 2015. Delta O-18 and delta C-13 variability in brachiopods from modern shelf sediments and its utility for understanding complex oceanography, Southern Australian Shelf. Journal of sedimentary Research, 85 (8), 955-967.

Elliott G. F., 1953. Brachial development and evolution in terebratelloid brachiopods. Biol. Rew., Cambridge phil. Soc., 28 (3), 261-279.

Emig C. C., 1990. Examples of post-mortality alteration in Recent brachipod shells and (paleo) ecological consequences. Mar. Biol., 104, 233-238.

Endo K., Curry G. B., Quinn R., Collins M. J., Muyzer G. & P. Westbroek, 1994. Re-interpretation of Terebratulide phylogeny based on immunological data. Palaeontology, 37 (2), 349-373.

Endo K., Walton D., Reyment R. A. & G. B. Curry, 1995. Fossil intra-crystalline biomolecules of brachiopod shells: diagenesis and preserved geo-biological information. Org. Geochem., 23 (7), 661-673.

Esheleman W. P. & J. L. Wilkens, 1979. Actomyosin ATPase activities in the brachiopoda Terebratalia transversa. Can. J. Zool., 57 (10), 1944-1949.

Eshleman W. P. & J. L. Wilkens, 1979. Brachiopod orientation to current direction and substrate position (Terebratalia transversa). Can. J. Zool., 57 (10), 2079-2082.

Eshleman W. P., J. L. Wilkens & Cavey M. J., 1982. Electrophoretic and electron microscopic examination of the adductor and diductor muscles of an articulate brachiopode, Terebratalia transversa. Cand. J. Zool., 60 (4), 550-559.

Fenton C. L., 1932. A parasitic brachiopod. Nautilus, 46 (2), 52-54.

Fraser C. M., 1932. A comparison of the marine fauna of the Nanaimo region with that of the San Juan Archipelago. Trans. Roy. Soc. Can., (3) 26 (Sect. 5), 49-70.

Freeman G., 1993. Metamorphosis in the brachiopod Terebratalia: evidence for a role of calcium channel function and the dissociation of shell formation from settlement. Biol. Bull., 184, 15-24.

Freeman G., 1993. Regional specification during embryogenesis in the articulate brachiopod Terebratalia. Developmental Biology, 160, 196-213.

Freeman G., 1995. Regional specification during embryogenesis in the inarticulate brachiopod Glottidia. Developmental Biology, 172, 15-36.

Freeman G., 2001. The developmental biology of brachiopods. Paleontological Society Papers, 7, 69-88.

Freeman G., 2003. Regional specification during embryogenesis in Rhynchonelliform brachiopods. Developmental Biology, 261, 268-287.

Freeman G., 2007. A developmental basis for the Cambrian radiation. Zoological Science, 24 (2), 113-122.

Freeman G. & J.W. Lundelius, 2005. The transition from planktotrophy to lecithotrophy in larvae of Lower Palaeozoic Rhynchonelliform brachiopods. Lethaia, 38, 219-254.

Freeman G. & Lundelius J., 2008. Brachiopod larvae through time. Fossils and Strata, 54, 251-257.

Fuchs J., Iseto T., Hirose,M., Sundberg P. & Obst M., 2010. The first internal molecular phylogeny of the animal phylum Entoprocta (Kamptozoa). Mol. Phylogenet. Evol., 56 (1), 370-379.

Gasiorowski L. & A. Hejnol, 2019. Hox gene expression in postmetamorphic juveniles of the brachiopod Terebratalia transversa. EvoDevo, 10 (1), 19 p.

Gasiorowski L. & A. Hejnol, 2020. Hox gene expression during development of the phoronid Phoronopsis harmeri. EvoDevo, 11 (2), 17 p.

Gunji Y., 1991. The geometry of the loop and its morphogenetic field. In: Brachiopods through time, MacKinnon D. I., Lee D. E. & J. D. Campbell Eds, Balkema, Rotterdam, pp. 123-130.

Gustus R. M. & R. A. Cloney, 1972. Ultrastruture similarities between setae of brachiopods and polychaetes. Acta Zool., 53, 229-233.

Halanych K. M., 1998. Consideration for reconstructing metazoan history: signal, resolution, and hypothesis testing. Amer. Zool., 38, 929-941.

Hammen C. S. & R. C. Bullock, 1991. Opine oxidoreductases in brachiopds, bryozoans, phoronids and molluscs. Biochem. System. Ecol., 19 (4), 263-269.

Harper E.M., 2011. What do we really known about predation on modern rhynchonelliforms? Memoirs of the Association of Australasian Palaeontologists, 41, 45-57.

Hatai K., 1936. Remarks on the loop of certain brachiopoda. Saito Mus. Res. Bull., 10, 219-229.

Hatai K., 1936. A preliminary note on the Tertiary brachiopod fauna of Japan. Proc. Imp. Acad., 12, 100-102.

Hatai K., 1937. On some Recent brachiopod from Eastern Shantung, China. Bull. biogeogr. Soc. Japan, 7 (13), 317-324.

Hatai K., 1940. The Cenozoic brachiopoda of Japan. Sci. Rep. Tôhoku Univ., (Geol.), 20, 1-413, pl. 1-12.

Hatai K., 1940. On some Recent brachiopoda from Seto, province Kii. Records of Oceanographic Works in Japan, 10 (2), 100-111.

Hayasaka I., 19**. ** ** p. 364

Hayasaka I., 1931. On the brachiopods of Mutsu Bay. Venus, 3 (1), 1-9.

Hayasaka I., 1932. Report of the biological survey of Mutsu bay. 22. Brachiopods of Mutsu bay. Sci. Rep. Töhoku Univ., (Biol) 7 (1), 1-13.

Hayasaka I., 1938. Brachiopoden in der Onagawa Bucht am Südende des KitakamGebirges nordöstlich von Sendai, Nord-Japan. Sci. Rep. Tohoku Univ., (Biol.) 13 (1), 1-7.

Helfenbein K.G., Brown W.M. & J. L.Boore, 2001. The complete mitochondrial genome of the articulate brachiopod Terebratalia transversa. Molecular Biology And Evolution, 18 (9), 1734-1744.

Helmcke J. G., 1939. Ordnung der Tentaculata : Brachiopoda. In: Handbuch der Zoologie, Eds Krumbach W. & T. Kukenthal, W. de Gruyter, Berlin, 3 (2), 139-262.

Helmcke J.-G., 1939. Die Brachiopoden des Zoologischen Museums zu Berlin. III. Sitzungsberichte der Gesellschaft Naturforschender Freunde zu Berlin, Jahrgang 1938 (Oktober–Dezember), p. 221-268.

Hirai E. & T. Fukushi, 1960. The development of two species of lamp-shells, Terebratalia coreanica and Coptothyris grayi. Bull. mar. biol. Sta. Asamushi, Tôhoku Univ., 10 (2), 77-80.

Hochberg F. G., 1996. Brachiopoda. p. 1-74. In: Taxonomic Atlas of the Benthic Fauna of the Santa Maria Basin and Western Santa Barbara Channel. Santa Barbara Museum of Natural History, vol. 14, Miscellaneous Taxa, 305 pp.

Hochberg F. G., 2007. Brachiopoda. In: The Light and Smith Manual- Intertidal invertebrates from Central California to Oregon. 4th Edition, completely revised and expanded, Univ. Calif. Press, Los Angeles, p. 864-865.

Hugues W. W., G. D. Rosenberg & R. D. Tkachuck, 1988. Growth increments in the shell of the living brachiopod Terebratalia transversa. Mar. Biol., 98, 511-518.

Ikeda H. & T. Kuramochi, 1997. Brachiopods collected from Sagami Bay (in Japanese). ** 18, 39-44.

Ishikawa H., 1976. Comparative studies on the thermal stability of animal ribosomal RNA's. V. Tentaculata (Phoronids, moss-animals and lamp-shells). Comp. Biochem. Physiol., 57 B, 9-14.

Ishikawa H., 1977. Comparative studies on the thermal stability of animal ribosomal RNA's. Tentaculata (Phoronids, moss-animals and lamp-shells). Comp. Biochem. Physiol., B 57 (1), 9-14.

James M. A., 1997. Brachiopoda: Internal Anatomy, Embryology, and Development. Microscopic Anatomy of Invertebrates, Wiley-Liss, New-York, 13, 297-407.

Jope M., 1967. The protein of brachiopod shell. I. Amino acid composition and implied protein taxonomy. Comp. Biochem. Physiol., 20, 593-600.

Jope M., 1969. The protein of brachiopod shell. III and IV. Comparison with structural protein of soft tissue. Comp. Biochem. Physiol., 30, 209-224.

Jope M., 1973. The protein of brachiopod shell. V. N-terminal end groups. Comp. Biochem. Physiol., 45B, 17-24.

Jope M., 1977. Brachiopod shell proteins: their functions and taxonomic significance. Amer. Zool., 17 (1), 133-140.

Jope M., 1986. Evolution of the Brachiopoda : the molecular approach. In: les Brachiopodes fossiles et actuels, Racheboeuf P. R. & C. Emig Eds, Actes du 1er Congrès international sur les Brachiopodes, Brest, 1986. Biostratigr. Paléozoïque, 4, 103-112.

Konjukova Ye D., 1957. Brachiopodes des mers d'Extrème-Orient ( en russe). Isledov. Daln. Mor. SSSR, 4, 5-84.

Kowalewski M., M. Carroll, L. Casazza, N. S. Gupta, B. Hannisdal, A. Hendy,m, 2003. R. A. Krause Jr., M. LaBarbera, D. G. Lazo, C. Messina, S. Puchalski S., T. A. Rothfus, J. Sälgeback, J. Stempien, R. C. Terry & A. Tomasovych, - . Quantitative fidelity of brachiopod-mollusk assemblages from modern subtidal environments of San Juan Islands, USA. J. Taphonomy, 1 (1), 43-65.

Kuramochi T., 1998. Notes on Pinnotheres laquei (Pinnotheridae) collected from Wakasa Bay, off Takahama city, Japan Sea. Nankiseibutu, 40 (1), 97-99.

Kuramochi T., 1999. A list of recent brachiopods from Japan and adjacent waters (in Japanese). Nankiseibutu, 41 (2), 155-158.

La Barbera M., 1990. Principles of design of fluid transport systems in zoology. Science, 249, 992-1000.

LaBarbera M., 1977. Brachiopod orientation to water movement. 1. Theory, laboratory behavior, and field orientations. Paleobiology, 3, 270-287.

LaBarbera M., 1978. Brachiopod orientation to water movement: functional morphology. Lethaia, 11, 67-79.

LaBarbera M., 1981. Water flow patterns in and around three species of articulate brachiopods. J. exp. mar. Biol. Ecol., 55, 185-206.

Laumer C. E. et al., 2015. Spiralian phylogeny informs the evolution of microscopic lineages. Current Biology, 25, 2000-2006.

Laumer C. E. et al., 2019. Revisiting metazoan phylogeny with genomic sampling of all phyla. Proc. R. Soc. B, 286, 10 p.

Law R. H. & C. W. Thayer, 1991. Articulate fecundity in the Phanerozoic: Steady state or what? In: Brachiopods through time, MacKinnon D. I., Lee D. E. & J. D. Campbell Eds, Balkema, Rotterdam, pp. 183-190.

Lecuyer C., Grandjean P., Reynard B., Albarede F. & P. Telouk, 2002. 11B/10B analysis of geological materials by ICP MS Plasma 54: Application to the boron fractionation between brachiopod calcite and seawater. Chemical Geology, 186 (1-2), 45-55.

Logan A. & P. Baker, 2013. The development and shell microstructure of the pseudodeltidium and interarea in thecideide brachiopods. Palaeontology, 56 (2), 433-455.

Long J. A., 1964. The embryology of three species representing three super families of Articulate brachiopoda. PhD thesis, Univ. Washington,

Long J. A. & S. A. Stricker, 1989. Brachiopoda. Reproduction of Invertebrates, vol. 6, **.

López Carranza N. & Carlson S. J., 2019. Testing species assignments in extant terebratulide brachiopods: A three-dimensional geometric morphometric analysis of long-looped brachidia. PLoS One, 14 (11), e0225528.

López Carranza N., Schreiber H. A. & S. J. Carlson, 2015. Putting 3D models to the test: quantifying loop variability in Laqueus erythraeus and Terebratalia transversa. Permophiles, 61 (suppl. 1), 56-57.

Luo Y. J., Satoh N. & Endo K., 2015. Mitochondrial gene order variation in the brachiopod Lingula anatina and its implications for mitochondrial evolution in lophotrochozoans. Marine Genomics, 24 (1), 31-40.

Lüter C., 1997. Zur Ultrastruktur, Ontogenese und Phylogenie der Brachiopoda. Dr. Dissertation, Georg-August-Univ. Göttingen, Cuvillier Verlag Göttingen, pp.184.

MacKinnon D. I., 1977. The formation of muscle scars in articulate brachiopods. Phil. Trans. Roy. Soc. London, 280 (970), 1-27.

Makridin V. P. et al, 1975. ...Brachiopodes mésozoiques et cénozoiques. Nauka, Moskva, 1975, 109-116.

Martín-Durán J. M., Passamaneck Y. J., Martindale M. Q. & Hejnol A., 2016. The developmental basis for the recurrent evolution of deuterostomy and protostomy. Nature Ecology & Evolution, 1 (5), 1-51.

Martín-Durán J.M. et al., 2018. Convergent evolution of bilaterian nerve cords. Nature, 553 (7686), 45-50.

Mattox N. T., 1955. Observations on the brachiopod communities near Santa Catalina Island. In: Essays in the natural sciences in honour of Captain Allan Hancock, Los Angeles, Univ. Southern California Press, pp. 73-86.

McCammon ** Reynods W. A. & H. M. , 1977. Aspects of the functional morphology of the lophophore in articulates barchiopods. Amer. Zool., 17, 121-132.

McCammon H. M., 1972. Establishing and maintening articulate brachiopods in aquaria. J. Geol. Educ., pp.139-142, may 1972.

McCammon H. M. & W. A. Reynolds, 1976. Experimental evidence for direct nutrient assimilation by the lophophore of articulate brachiopods. Mar. Biol., 34, 41-51.

McCammon H. M. & W. A. Reynolds, 1977. Aspects of the functional morphology of the lophophore in articulate brachiopods. Amer. Zool., 17 (1), 121-132.

Messina C. & M. Labarbera, 2004. Hydrodynamic behavior of brachiopod shells: experimental estimates and field observations. Palaios, 19 (5), 441-450.

Nielsen C., 1987. Structure ans function of Metazoan ciliary bands and their phylogenetic significance. Act. Zool. (Stockh.), 68 (4), 205-262.

Nislow C., 1994. Cellular dynamics during the early development of an articulate brachiopod, Terebratalia transversa. In: Reproduction and development of marine invertebrates, W. H. Wilson, S. A. Stricker & G. L. Shim (Eds), John Hopkins Univ. Press, Baltimore, London, 118-128.

Nomura S. & K. Hatai, 1935. On the variation of certain internal features of the fossil Terebratalia coreanica from Hokkaidô. Venus, 5 (1), 10-13.

Ohuye T., 1936. On the coelomic corpuscules in the body fluid of some invertebrates. VI. A note on the formed elements in the coelomic fluid of a brachiopod, Terebratalia coreanica. Sci. Rep. Tôhoku Univ. (Biol.), 11 (§2), 231-238.

Ohuye T., 1937. On the coelomic corpuscules in the body fluid of some invertebrates. VIII. Supplementary note on the formed elements in the coelomic fluid of some brachiopoda. Sci. Rep. Tôhoku Univ., (4) 12 (2), 241-243.

Ohuye T., 1938. On the coelomic corpuscules in the body fluid of some invertebrates. X. Some morphological and histological properties of the granulocytes of various invertebrates. Sci. Rep. Tôhoku Univ. (Biol.), 12 (4), 593-622.

Owen G. & A. Williams, 1969. The caecum of articulate Brachiopoda. Proc. Roy. Soc. London, B, 172, 187-201.

Paine R. T., 1969. Growth and size distribution of the brachiopod Terebratalia transversa Sowerby. Pacif. Sci., 23 (3), 337-344.

Pakhnevich A.V., Zezina O. N. & Temereva E. N., 2013. Modern brachiopods and phoronids in the collections of the Zoological Museum of the Moscow University [in Russian]. Zoologicheskie issledovania, 13, 48 p.

Parkinson D., Curry G. B., Cusack M & A. E. Fallick, 2005. Shell structure, patterns and trends of oxygen and carbon stable isotopes in modern brachiopod shells. Chemical Geology, 219 (1-4), 193-235.

Passamaneck Y. J., N. Furchheim, A. Hejnol, M. Q. Martindale & C. Lüter, 2011. Ciliary photoreceptors in the cerebral eyes of a protostome larva. EvoDevo, 2 (6), 17 p.

Passamaneck Y.& K. M. Halanych, 2006. Lophotrochozoan phylogeny assessed with LSU and SSU data: Evidence of lophophorate polyphyly. Molecular Phylogenetics and Evolution, 40 (1), 20-28.

Passamaneck Y.J., Hejnol A. & Martindale M.Q., 2015. Mesodermal gene expression during the embryonic and larval development of the articulate brachiopod Terebratalia transversa. EvoDevo, 6 (10)

Pennington J.T. & S.A. Stricker, 2002. Phylum Brachiopoda. In: Atlas of Marine Invertebrate Larval Forms, Young C., Rice M. & M. Sewell (eds). Academic Press, London, Chapter 41, p. 441-461.

Powell C.L., Boessenecker R.W., Smith N.A., Fleck R.J., Carlson S.J., Allen J.R., 2019. , Long D.J., Sarna-Wojcicki A.M. & Guruswami-Naidu R.B. - Geology and paleontology of the late Miocene Wilson Grove Formation at Bloomfield Quarry, Sonoma County, California. U.S. Geological Survey Scientific Investigations Report, 2019-5021, 77 p.

Reed C. G. & Cloney R. A., 1977. Brachiopod tentacles: ultrastructure and functional significance of the connective tissue and myoepithelial cells in Terebratalia. Cell Tiss. Res.? 185, 17-42.

Reed C. G. & Stricker S. A., 1984. Development of the mantle in Terebratalia transversa, Brachiopoda: Articulata. Amer. Zool., 24 (3) :13A

Reeve L., 1861. A revision of the history, synonymy, and geographical distribution of the recent Terebratulae. Ann. Mag. nat. Hist., 7 (3), 169-190.

Rhodes M. C. & C. W. Thayer, 1991. Effects of turbidity on suspension feeding: Are brachiopods better yhan bivalves? In: Brachiopods through time, MacKinnon D. I., Lee D. E. & J. D. Campbell Eds, Balkema, Rotterdam, pp. 191-196.

Richardson J. R., 1975. Loop development and the classification of terebratellacean brachiopods. Paleontology, 18 (2), 285-314.

Richardson J. R., 1981. Brachiopods and pedicles. Paleobiology, 7 (1), 87-95.

Richardson J. R., Stewart I. R. & Liu Xixing, 1989. Brachiopoda from China seas. Chin. J. Oceanol. Limnol., 7 (3), 211-219, Pl. I-IV.

Robinson J. H. & D. E. Lee, 2008. Brachiopod pedicle traces: recognition of three separate types of trace and redefinition of Podichnus centrifugalis Bromley & Surlyk, 1973. Fossils and Strata, 54, 219-225

Rodrigues S. C., 2007. Biotic interactions recorded in shells of recent Rhynchonelliform brachiopods from San Juan Island, USA. Journal of Shellfish Research, 26 (1), 241-252.

Rodríguez S. & R. R. Alexander, 1994. Optimum life orientations of brachiopods for hydrodynamic stability and filtration: inferences from flume experiments on shells of extant species. Geol. Soc. Amer., Abstracts (Boulder), 26 (5), 58.

Rollion-Bard C. et al., 2019. Assessing the biomineralization processes in the shell layers of modern brachiopods from oxygen isotopic composition and elemental ratios: Implications for their use as paleoenvironmental proxies. Chemical Geology, 524, 49-66.

Rollion-Bard C., Saulnier S., Vigier N., Schumacher A., Chaussidon M. & C. , 2016. Lécuyer - Variability in magnesium, carbon and oxygen isotope compositions of brachiopod shells: Implications for paleoceanographic studies. Chemical Geology, 423, 49-60.

Rosenberg G. D., W. W. Hugues & R. D. Tkachuk, 1988. Intermediary metabolism and shell growth in the brachiopod Terebratalia transversa. Lethaia, 21, 219-230.

Rosenberg G. D., W. W. Hugues & R. D. Tkachuk, 1989. Shell form and metabolic gradients in the mantle of Mytilus edulis. Lethaia, 22, 343-344.

Rowley R. J. & D. I. Mackinnon, 1995. Use of the fluorescent marker calcein in biomineralisation studies of brachiopods and other marine organisms. Bull. Inst. océanogr., Monaco, n° spécial 14 (2), 111-120.

Rudwick M. J. S., 1970. Living and fossil brachiopods. Hutchinson Univ. Libr., London, 199 pp.

Saito M., 1996. Early loop ontogeny of some recent laqueid brachiopods. Trans. Proc. Palaeont. Soc. Japan, N. S., 183, 485-499.

Saito M. & K. Endo, 2001. Molecular phylogeny and morphological evolution of laqueoid brachiopods. Paleontological Research, 5 (2), 87-100.

Saito M., S. Kojima & K. Endo, 2000. Mitochondrial COI sequences of brachiopods: genetic code shared with protostomes and limits of utility for phylogenetic reconstruction. Mol. Phylogenetics Evol., 15 (3), 331-344.

Santagata S., 2015. Brachiopoda. In : Wanniger A. (ed.) Evolutionary developmental biology of invertebrates 2, Lophotrochozoa (Spiralia). Springer, p. 263-278.

Santagata S., C. Resh, A. Hejnol, M. Q. Martindale & Y. J. Passamaneck, 2012. Development of the larval anterior neurogenic domains of Terebratalia transversa (Brachiopoda) provides insights into the diversification of larval apical organs and the spiralian nervous system. EvoDevo, 3, 3-20.

Savazzi E., 1986. Burrowing sculpture and life habits in Paleozoic lingulacean brachiopods. Paleobiology, 12 (1), 46-63.

Schiemann S.M., Martín-Durán J. M., A. Børve, B. C. Vellutini, Y. J. Passamaneck, 2017. & A. Hejnol - Clustered brachiopod Hox genes are not expressed collinearly and are associated with lophotrochozoan novelties. PNAS, E1914 www.pnas.org/cgi/doi/10.1073/pnas.1614501114

Schmahl W. W., Griesshaber E., Neuser R. D., Goetz A. & C. Lüter, 2008. Electron Backscatter Diffraction Study of Brachiopod Shell Calcite - Microscale Phase and Texture Analysis of a Polycrystalline Biomaterial. Particle & Particle Systems Characterization, 25 (5-6), 474-478.

Schumann D., 1976. Biotop-Abhangige Gehause-Variation bei Terebratalia transversa (Brachiopoda, Rezent). In: Eds A. Seilacher et al., Palaeoekologie, Konstruktionen, Sedimentologie, Diagnese und Vergesellschaftung von Fossilien. Zentralbl. Geol. Palaeont., 2 (5-6), 422-424.

Schumann D., 1991. Hydrodynamic influences in brachiopod shell morphology of Terbratalia transversa (Sowerby) from the San Juan islands, USA. In: Brachiopods through time, MacKinnon D. I., Lee D. E. & J. D. Campbell Eds, Balkema, Rotterdam, pp. 265-271.

Shanks A. L., 2001. Brachiopoda. In: An identification guide to the larval marine invertebrates of the Pacific Northwest, A. Shanks ed. Oregon State Univ. Press, Corvallis p. 267-269.

Shimizu K., Luo Y.-J., Satoh N. & Endo K., 2017. Possible co-option of engrailed during brachiopod and mollusc shell development. Biology Letters, 13 (8), 20170254.

Smirnova T. N., 2008. Ontophylogenetic studies of the brachiopods of the Order Terebratulida. Paleontological Journal, 42 (8), 805-824.

Sowerby G. B., 1846. Descriptions of thirteen new species of Brachiopoda. Proceedings of the Zoological Society of London, 14, 91-95.

Sperling E.A., Pisani D. & Peterson K.J., 2011. Molecular paleobiological insights into the origin of the Brachiopoda. Evolution & Development, 13 (3), 290-303.

Staver J. M. & R. R. Strathmann, 2002. Evolution of fast development of planktonic embryos to early swimming. Biol. Bull., 203, 58-69.

Strathmann R. R., 1973. Function of lateral cilia in suspension feeding of Lophophorates (Brachiopoda, Phoronida, Ectoprocta). Mar. Biol., 23, 129-136.

Stricker S. A & C. G. Reed, 1984. Secretion of the protegulum and juvenile shell in Terebratalia transversa (Brachiopoda: Articulata). Amer. Zool., 24 (3), 13A.

Stricker S. A. & C. G. Reed, 1985. Development of the pedicle in the articulate brachiopod Terebratalia transversa (Brachiopoda, Terebratulida). Zoomorphology, 105 (4), 253-264.

Stricker S. A. & C. G. Reed, 1985. The ontogeny of shell secretion in Terebratalia transversa (Brachiopoda, Articulata). 2. Formation of the protegulum and juvenile shell. J. Morphol., 183 (3), 251-272.

Stricker S. A. & C. G. Reed, 1985. The protegulum and juvenile shell of a recent articulate Brachiopod: patterns of growth and chemical composition. Lethaïa, 18 (4), 295-303.

Stricker S. A. & C. G. Reed, 1985. The ontogeny of shell secretion in Terebratalia transversa (Brachiopoda, Articulata). 1. Development of the mantle. J. Morphol., 183, 233-250.

Stricker S. A. & M. W. Folsom, 1997. Oocyte maturation in the brachiopod Terebratalia transversa: Role of follicle cell oocyte attachments during ovulation and germinal vesicle breakdown. Biological Bulletin, 193 (3), 324-340.

Struck T. H., Golombek A., Weigert A., Franke F. A., Westheide W., Purschke G.,, 2015. Bleidorn C. & K. M.l Halanych - The evolution of annelids reveals two adaptive routes to the interstitial realm. Current Biology 25, 7 p.

Suchanek T. H. & J. Levinton, 1974. Articulate brachiopod food. J. Paleont., 48 (1), 1-5.

Sumkiss K. & K. M. Wilbur, 1989. Brachiopods - Fluorapatite and calcareous shells. In: Biomineralization, Acad. Press, San Diego, pp. 261-273. (pp. Total 337)

Sun M., Shen X., Liu H., Liu X., Wu Z. et al., 2011. Complete mitochondrial genome of Tubulipora flabellaris (Bryozoa: Stenolaemata): The first representative from the class Stenolaemata with unique gene order. Marine Genomics, 4 (3), 159-165.

Takayanagi H., Asami R., Abe O., Miyajima T., Kitagawa H., Keiichi S. & Iryu Y., 2013. Intraspecific variations in carbon-isotope and oxygen-isotope compositions of a brachiopod Basiliola lucida collected off Okinawa-jima, southwestern Japan. Geochimica et Cosmochimica Acta, 115, 115-136.

Thayer C. W., 1974. Salinity tolerance of articulate brachiopods. 9th ann. Meet. Geol. Soc. Amer., pp. 80-81.

Thayer C. W., 1975. Size-frequency and population structure of brachiopods. Palæogeog. Palæoclim. Palæoecol., 17, 139-148.

Thayer C. W., 1975. Brachiopod punctae: respiratory structures and paleothermometers. An. Meet. Geol. Soc. Amer., p. 1296.

Thayer C. W., 1975. Strenght of pedicle attachment in articulate brachiopods: ecologic and paleoecologic significance. Paleobiology, 1 (4), 388-399.

Thayer C. W., 1975. Morphologic adaptations of benthic invertebrates to soft substrata. J. mar. Res., 33 (2), 177-189.

Thayer C. W., 1975. The strength of pedicle attachment in articulate brachiopods: its geologic and paleogeologic significance. 10th An. Meet. Geol. Soc. Amer., Abstr., p. 124.

Thayer C. W., 1977. Recruitment, growth, and mortality of a living articulate brachiopod, with implications for the interpretation of survivorship curves. Paleobiology, 3 (1), 98-109.

Thayer C. W., 1985. Brachiopods versus Musels: competition, predation and palability. Science, 228 (4707), 1527-1528.

Thayer C. W., 1986. Respiration and the function of brachiopod punctae. Lethaia, 19 (1), 23-31.

Thiel D., Bauknecht P., Jékely G. & Hejnol A., 2017. An ancient FMRFamiderelated peptide - receptor pair induces defence behaviour in a brachiopod larva. Open Biol., 7 (170136).

Thomson J. A., 1927. Brachiopod morphology and genera (Recent and Tertiary). N. Z. Bd Sci. Art, Manual 7, 1-338, 2 pl.

Tkachuk R. D., Rosenberg G. D. & W. W. Hugues, 1989. Utilization of free amino acids by mantle tissue in the brachiopod, Terebratalia transversa and the bivalve mollusc, Chlamys hastata. Comp. Biochem. Physiol., B, 92B (4), 747-750.

Tomasovych A., 2004. Postmortem durability and population dynamics affecting the fidelity of brachiopod size-frequency distributions. Palaios, 19 (5), 477-496.

Tomasovych A., 2008. Substrate exploitation and resistance to biotic disturbance in the brachiopod Terebratalia transversa and the bivalve Pododesmus macrochisma. Marine Ecology Progress Series, 363, 157-170.

Tomasovych A. & T. A. Rothfus, 2005. Differential taphonomy of modern brachiopods (San Juan Islands, Washington State); effect of intrinsic factors on damage and community-level abundance. Lethaia, 38, 271-292.

Tomasovych A. , S. J. Carlson & M. Labarbera, 2008. Ontogenetic niche shift in the brachiopod Terebratalia transversa: relationship between the loss of rotation ability and allometric growth. Palaeontology, 51 (6), 1471–1496.

Tsuchiya M. & K. Osanai, 1978. Experimental marine organisms collected in the neighborhood of the Asamushi marine biological station. Bull. mar. biol. Sta. Asamushi, 16 (2), 29-58.

Tyler C. L., Leighton L. R., Carlson S. J., Huntley J. W. & M. Kowalewski, 2013. Predation on modern and fossil brachiopods: assessing chemical defenses and palatability. Palaios, 28, 724-735.

Ullmann C.V., Frei R., Korte C. & Lüter C., 2017. Element/Ca, C and O isotope ratios in modern brachiopods: Species-specific signals of biomineralization. Chemical Geology, 460, 15-24.

Vallès Y. & J. L. Boore, 2006. Lophotrochozoan mitochondrial genomes. Integrative and Comparative Biology, 46(4), 544-557.

Voskuil R., 2001. An introduction to the living Brachiopoda. Vita Marina, 47 (4), 107-120

Waeschenbach A., M. J. Telford, J. S. Porter & D. T. J. Littlewood, 2006. The complete mitochondrial genome of Flustrellidra hispida and the phylogenetic position of Bryozoa among the Metazoa. Molecular Phylogenetics and Evolution, 40 (1), 195-207.

Wells S. M., R. M. Pyles & N. M. Collins, 1983. Brachiopoda. In: The IUCN Invertebrate red data book, IUCN, Gland CH, p. 533-538

Whiteaves J. F. , 1901. Catalogue of the marine invertebrates of Eastern Canada. Brachiopoda. Geol. Surv. Canada, Ottawa, pp. 89-91.

Williams A., 1968. Significance of the structure of the brachiopod periostracum. Nature, London, 218 (5141), 551-554.

Williams A., 1997. Brachiopoda: Introduction and Integuments. Microscopic Anatomy of Invertebrates, Wiley-Liss, New-York, 13, 227-286.

Williams A. & A. D. Wright, 1961. The origin of the loop in articulate brachiopods. Palaeontology, 4 (2), 149-176.

Williams A. & R. A. Hewitt, 1977. The delthyrial covers of some living brachiopods. Proc. Roy. Soc. London, B 197 (1126), 105-129.

Yamamoto G., 1952. Seasonal changes of benthonic communities and the succession in the benthos caused by the production of the scallops. Sci. Rep. Tôhoku Univ. (Biol.), 19 (4), 302-314.

Yamamoto K., Asami R. & Iryu Y., 2013. Correlative relationships between carbon- and oxygen-isotope records in two cool-temperate brachiopod species off Otsuchi Bay, northeastern Japan. Paleontological Research, 17 (1), 12-26.

Yatsu N., 1902. On the development of Lingula anatina. J. Coll. Sci. Univ. Tokyo, 17 (4), 1-112.

Zaky A.M., Brand U., Buhl D., Blamey N., Bitner M.A., Logan A., Gaspard D. & A. , 2019. Popov, - Strontium isotope geochemistry of modern and ancient archives: tracer of secular change in ocean chemistry. Revue canadienne des Sciences de la Terre, 56 (3), 245-264.

Zezina O. N., 1970. Brachiopods of the area of the Kuril Islands and the Kurile-Kamchatka trench. In: Fauna of the Kurile Kamtchatka trench and its environment, Trudy Inst. Okeanol., Moscow, 86, 432-457.

Zezina O. N., 1973. Composition et répartition des brachiopodes dans le benthos du Golfe d'Alaska (en russe). Trudy Inst. Okeanol., Moscow, 91, 192-202.

Zezina O. N., 198*. Brachiopods of the area of the Kurile islands and the Kurile-Kamtchatka trench (in Russian). Proc. Shirshov Inst. Oceanol., Moscow., 86, 452-481.

Zezina O. N., 1997. Brachiopods in a natural biofilter at the the shelves and slopes in the far-eastern seas of Russia (in Russian). In: Composition and distribution of bottom invertebrate animals in the seas of Russia and adjacent waters (in Russian). Russian Acad. Sci., Moscow, pp. 52-60.

Zezina O. N., 1997. (Brachiopodes actuels dans la composition naturelle benthique biofiltrante des mers de Russie) en russe. Paleont. Inst., Acad. Sci. Russ., 83 pp.

Zezina O. N., 1997. Annotated list of recent brachiopods species in the seas of Russia and adjacent waters (in Russian). In: Composition and distribution of bottom invertebrate animals in the seas of Russia and adjacent waters (in Russian). Russian Acad. Sci., Moscow, pp. 61-73

Zezina O. N. & S. N. Temereva, 2005. Brachiopoda and Phoronida. In: Biota of the Russian waters of the Sea of Japan, Ed. A. V. Adrianov, Dalnauka, Vladivostock. vol. 3, 138 p.

Zimmer R. L., 19**. Phylum Brachiopoda. In: Lights Manual 'Intertidal Invertebrates of the Central California coast',

Zimmer R. L., 19**. Phylum Phoronida. Phylum Brachiopoda. In: Intertidal invertebrates of the Central California coast, Lights Manual, pp. 613-617.

Zimmer R. L., 1997. Phoronids, brachiopods, and bryozoans, the lophophorates. In: Gilbert S. F. & A. M. Raunio (eds), Embryology, constructing the organism. Sinauer Assoc. Sunderland, MA, pp. 279-305.

TOP