Thematische Bibliographien / Cyclostomata / Zeitschriftenartikel

Zeitschriftenartikel zum Thema „Cyclostomata“

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Autor: Grafiati
Veröffentlicht am 25. Juli 2024

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1

Walter, Bernard. „Cavidés néocomiens (Bryozoa, Cyclostomata)“. Geobios 24, Nr. 3 (Januar 1991): 289–308. http://dx.doi.org/10.1016/s0016-6995(09)90008-0.

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2

Hayward, P. J., und J. S. Ryland. „Systematic notes on some British Cyclostomata (Bryozoa)“. Journal of Natural History 19, Nr. 6 (Dezember 1985): 1073–78. http://dx.doi.org/10.1080/00222938500770671.

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3

GONTAR, VALENTINA I. „Paulella, new name for a Bryozoan Homonym (Cyclostomata)“. Zootaxa 2220, Nr. 1 (04.09.2009): 67. http://dx.doi.org/10.11646/zootaxa.2220.1.3.

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The recent unintentional creation of a bryozoan secondary homonym requires a change of name for the species affected. Gontar (2009) established the new monotypic genus Paulina (order Cyclostomata), with type species Paulina taylori, for a small, ramifying uniserial species of Oncousoeciidae from the upper shelf of the Pacific coast of the middle Kurile Islands, Russia. Paulina Gontar, 2009 is preoccupied by Paulina Grigelis, 1977 (Protozoa, Foraminifera). Paulella nom. nov. (gender feminine) is here proposed as a replacement genus, resulting in the new combination Paulella taylori (Gontar, 2009).
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4

Ziko, A., Y. A. El Safori, A. El Sorogy, M. Abd El-Wahab, N. El Dera und W. Sheata. „Bryozoa from northern Red Sea, Egypt: 1Crisia(Cyclostomata)“. Historical Biology 24, Nr. 2 (April 2012): 113–19. http://dx.doi.org/10.1080/08912963.2011.587184.

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5

Gordon, Dennis P., und Paul D. Taylor. „New Zealand Recent Densiporidae and Lichenoporidae (Bryozoa : Cyclostomata)“. Species Diversity 6, Nr. 3 (2001): 243–90. http://dx.doi.org/10.12782/specdiv.6.243.

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6

Taylor, Paul D., und Michał Zatoń. „Taxonomy of the bryozoan generaOncousoecia,MicroeciellaandEurystrotos(Cyclostomata: Oncousoeciidae)“. Journal of Natural History 42, Nr. 39-40 (Oktober 2008): 2557–74. http://dx.doi.org/10.1080/00222930802277640.

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7

Voigt, Ehrhard, und Klaus H. Eiserhardt. „Tervidmonea n.gen. (Bryozoa, Cyclostomata) aus dem Paläogen Mitteleuropas“. Paläontologische Zeitschrift 69, Nr. 3-4 (September 1995): 417–27. http://dx.doi.org/10.1007/bf02987804.

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8

VIEIRA, LEANDRO M., ALVARO E. MIGOTTO und JUDITH E. WINSTON. „Synopsis and annotated checklist of Recent marine Bryozoa from Brazil“. Zootaxa 1810, Nr. 1 (25.06.2008): 1. http://dx.doi.org/10.11646/zootaxa.1810.1.1.

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We present here a checklist of recent marine bryozoans recorded in the literature from Brazil. The total number of species recorded is 346. The most diverse group is the order Cheilostomata with 271 species, followed by the order Ctenostomata, with 42 species, and the order Cyclostomata, with 33 species. Included in the checklist are records by state and citations for species with synonyms utilized in Brazilian works.
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9

Schützinger, S., H. S. Choi, R. A. Patzner und H. Adam. „Estrogens in Plasma of the Hagfish,Myxine glutinosa(Cyclostomata)“. Acta Zoologica 68, Nr. 4 (Dezember 1987): 263–66. http://dx.doi.org/10.1111/j.1463-6395.1987.tb00893.x.

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10

Ostrovsky, A. N., und P. D. Taylor. „Systematics of some Antarctic Idmidronea and Exidmonea (Bryozoa: Cyclostomata)“. Journal of Natural History 30, Nr. 10 (01.10.1996): 1549–75. http://dx.doi.org/10.1080/00222939600770881.

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11

Murariu, Dumitru. „Systematic list of the Romanian vertebrate fauna“. Travaux du Muséum National d'Histoire Naturelle "Grigore Antipa" 53, Nr. 1 (01.12.2010): 377–411. http://dx.doi.org/10.2478/v10191-010-0028-1.

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Systematic list of the Romanian vertebrate fauna Compiling different bibliographical sources, a total of 732 taxa of specific and subspecific order remained. It is about the six large vertebrate classes of Romanian fauna. The first class (Cyclostomata) is represented by only four species, and Pisces (here considered super-class) - by 184 taxa. The rest of 544 taxa belong to Tetrapoda super-class which includes the other four vertebrate classes: Amphibia (20 taxa); Reptilia (31); Aves (382) and Mammalia (110 taxa).
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12

GRISCHENKO, ANDREI V., DENNIS P. GORDON und VIACHESLAV P. MELNIK. „Bryozoa (Cyclostomata and Ctenostomata) from polymetallic nodules in the Russian exploration area, Clarion–Clipperton Fracture Zone, eastern Pacific Ocean—taxon novelty and implications of mining“. Zootaxa 4484, Nr. 1 (25.09.2018): 1. http://dx.doi.org/10.11646/zootaxa.4484.1.1.

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This work describes Bryozoa of the orders Cyclostomata and Ctenostomata found associated with polymetallic nodules collected by box-coring in the eastern part of the Russian exploration area of the Clarion-Clipperton Fracture Zone (CCFZ) under contract to Yuzhmorgeologiya. Scanning electron microscopic study of 358 cyclostome colonies and 14 ctenostome colonies from 4510–5280 m depth has resulted in the recognition of two new species of Ctenostomata, and 14 new species, nine new genera and two new families of Cyclostomata; three additional species of Cyclostomata are left in open nomenclature pending the discovery of missing reproductive characters. The taxonomic novelty is thus notable. One of the new Ctenostomata represents the first living example of the previously monotypic Late Cretaceous genus Pierrella. Twelve of the new cyclostome taxa have well-developed gonozooids, indicating that embryonic cloning (polyembryony) is normal in this deep-sea environment. On the other hand, one indeterminate tubuliporine and two rectangulates have dimorphic peristomes. In the latter two cases, enough mature colonies were found to suggest that this feature is normal, and that the dimorphic zooids are possibly female—in other words, capacious incubation chambers are apparently lacking, and therefore polyembryony would also be lacking or reduced. In one of these species, evidence is presented to suggest that the ancestrular zooid can reproduce precociously. Of the species reported here, only one has previously been found outside the exploration area, highlighting both the limited knowledge we have of bryozoans in the deep Pacific and/or a fauna that is largely endemic to the nodule environment. An additional 31 species of Cheilostomata have also been discovered that will be described in a subsequent publication. Most bryozoans are macrofaunal-sized, so are both inadequately determinable and overlooked in images obtained by remotely operated vehicles; yet, with 50 species, Bryozoa is the most speciose sessile macrofaunal phylum on the nodules. Nodules constitute hard substrata in an area otherwise mostly inhospitable for Bryozoa, hence mining would lead to loss of critical habitat. Further, as suspension-feeders, bryozoans are highly susceptible to smothering by suspended sediment, and non-mined areas closely adjacent to extraction zones would likely also be affected and their associated bryozoan fauna obliterated. More data are required on the distribution of the CCFZ bryozoan species elsewhere in the east Central Pacific to determine if mining would lead to local taxon extirpation or global extinction at both low and high taxonomic levels.
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13

Majer, József. „Somogy megye körszájúinak katalógusa : Körszájúak (Cyclostomata), Zsákorrúak (Hyperoartia) Ingolafélék (Petromyzonidae)“. Natura Somogyiensis, Nr. 1 (2001): 437–38. http://dx.doi.org/10.24394/natsom.2001.1.437.

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14

McCann, Linda. „Bryozoa (Cheilostomata, Ctenostomata, and Cyclostomata) in Galapagos Island Fouling Communities“. Aquatic Invasions 14, Nr. 1 (2019): 85–131. http://dx.doi.org/10.3391/ai.2019.14.1.04.

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15

Kubota, S., Y. Nakai, N. Sato, M. Kuro-o und S. Kohno. „Chromosome Elimination in Northeast Pacific Hagfish, Eptatretus stoutii(Cyclostomata, Agnatha)“. Journal of Heredity 85, Nr. 5 (September 1994): 413–15. http://dx.doi.org/10.1093/oxfordjournals.jhered.a111490.

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16

Harmelin, J. G. „Deep-water crisiids (Bryozoa: Cyclostomata) from the northeast Atlantic Ocean“. Journal of Natural History 24, Nr. 6 (Dezember 1990): 1597–616. http://dx.doi.org/10.1080/00222939000770921.

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17

Späh, Hartmut, und Wolfgang Beisenherz. „Fischfauna der Senne“. Decheniana : Verhandlungen des Naturhistorischen Vereins der Rheinlande und Westfalens 139 (01.01.1986): 292–318. http://dx.doi.org/10.21248/decheniana.v139.3855.

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Mit der Methode der Elektrofischerei wurde 1983 und 1984 der Fischbestand in Fließgewässern der Senne (Ostwestfalen, Bundesrepublik Deutschland) untersucht. Daneben wurden die Gewässerstruktur, die Gewässergüte sowie die Verbreitung und Häufigkeit der Fischnährtierfauna (Makroinvertebratenfauna) ermittelt. Die Fischfauna der Senne umfaßt 1 Rundmäulerart (Cyclostomata) und 23 Fischarten (Osteichthyes), wovon 20 zum autochthonen Fischbestand zu zählen sind. 58% aller nachgewiesenen Arten müssen als im Bestand gefährdet eingestuft werden. In den früher fischreichen Gewässern der Senne wurde nur noch in wenigen Gewässerstrecken eine der fischereilichen Zonierung entsprechende Fischfauna gefunden. Ursache sind neben der meist schlechten Gewässergüte Ausbau- und Regulierungsmaßnahmen.
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18

Suzuki, Nobuo. „Calcitonin-like Substance in Plasma of the Hagfish, Eptatretus burgeri (Cyclostomata)“. Zoological Science 12, Nr. 5 (Oktober 1995): 607–10. http://dx.doi.org/10.2108/zsj.12.607.

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19

Fernholm, B., A. Biju Kumar und Michael Norén. „First record of hagfish (Cyclostomata: Myxinidae) in Indian waters“. Journal of Threatened Taxa 9, Nr. 6 (26.06.2017): 10365. http://dx.doi.org/10.11609/jott.2526.9.6.10365-10368.

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One specimen of hag fish Eptatretus sp. was collected from the Arabian Sea, off Kerala coast of India at 500-600 m depth. The phylogenetic analysis using the sequence of mitochondrial gene cytochrome oxidase C (CO1) suggested the Eptatretus sp. collected from India is distinct from all other species where sequence data is available and P ID (Liberal) for Eptatretus sp. collected from India is 0.96, indicating a high probability that an unknown member of the putative species would be correctly identified as a member once more specimens are collected.
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20

Strange, Rex Meade, und Kimberly J. Delaney. „First Report of a Mitochondrial Pseudogene in Agnathan Vertebrates (Cyclostomata: Petromyzontidae)“. Journal of Molecular Evolution 86, Nr. 3-4 (21.03.2018): 187–89. http://dx.doi.org/10.1007/s00239-018-9835-y.

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21

Strange, Rex Meade, Vivian T. Truong und Kimberly J. Delaney. „The mitogenome of the southern Brook Lamprey, Ichthyomyzon gagei (Cyclostomata: Petromyzontidae)“. Mitochondrial DNA Part B 1, Nr. 1 (01.01.2016): 903–4. http://dx.doi.org/10.1080/23802359.2016.1258347.

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22

Kuratani, Shigeru, und Kinya G. Ota. „Hagfish (cyclostomata, vertebrata): Searching for the ancestral developmental plan of vertebrates“. BioEssays 30, Nr. 2 (2008): 167–72. http://dx.doi.org/10.1002/bies.20701.

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23

Semenov, D. Yu. „Dynamics of species diversity of Cyclostomata and fishes in the Kuybyshev Reservoir“. Journal of Ichthyology 50, Nr. 9 (November 2010): 757–62. http://dx.doi.org/10.1134/s0032945210090080.

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24

Kohno, S., Y. Nakai, S. Satoh, M. Yoshida und H. Kobayashi. „Chromosome elimination in the Japanese hagfish, Eptatretus burgeri (Agnatha, Cyclostomata)“. Cytogenetic and Genome Research 41, Nr. 4 (1986): 209–14. http://dx.doi.org/10.1159/000132231.

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25

Suzuki, Nobuo. „Calcitonin-like substance in the plasma of Cyclostomata and its putative role“. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 129, Nr. 2-3 (Juni 2001): 319–26. http://dx.doi.org/10.1016/s1096-4959(01)00338-4.

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26

Fletcher, Lee Norman, João Paulo Coimbra, Jennifer Rodger, Ian C. Potter, Howard S. Gill, Sarah A. Dunlop und Shaun P. Collin. „Classification of retinal ganglion cells in the southern hemisphere lampreyGeotria australis(Cyclostomata)“. Journal of Comparative Neurology 522, Nr. 4 (15.01.2014): 750–71. http://dx.doi.org/10.1002/cne.23441.

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27

McKinney, Frank K. „A faster-paced world?: contrasts in biovolume and life-process rates in cyclostome (Class Stenolaemata) and cheilostome (Class Gymnolaemata) bryozoans“. Paleobiology 19, Nr. 3 (1993): 335–51. http://dx.doi.org/10.1017/s0094837300000312.

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Zooids of cheilostome bryozoans are on average substantially more robust than are zooids of cyclostome bryozoans. The differences include greater number, length, and cross-sectional area of tentacles, plus a more extensively developed funiculus. Median values for mouth size and cilia-generated feeding current velocity are greater for cheilostomes than for cyclostomes so that cheilostomes have the potential for greater intake of nutrient energy per unit time, which may explain their apparently higher growth rates. For unit area of substrate occupied, the Cheilostomata (Class Gymnolaemata; members of the post-Paleozoic fauna) contain greater biomass and apparently generate greater energy flow than do the Cyclostomata, which are the only extant order of the Class Stenolaemata (characteristic of the Paleozoic fauna).
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28

ΜΑΡΚΟΠΟΥΛΟΥ- ΔΙΑΚΑΝΤΩΝΗ, Α., Ρ. Μ. ΜΙΡΚΟΥ und Μ. ΠΑΠΑΔΑΚΗ. „The finding of bryozoans from the lower Pliocence of Crete (Maronia - Sitia). Systematics - Paleoecology“. Bulletin of the Geological Society of Greece 34, Nr. 2 (01.08.2018): 503. http://dx.doi.org/10.12681/bgsg.16982.

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A rich fauna of Bryozoa from the Lower Pliocene of the Maronia district (location of Hagios loannis) had been studied. 47 species have been indentified belonging to the Cyclostomata (16) and Cheilostomata (31). This study allows to precise - based on the Foraminifers - the distribution of Bryozoans in this area of the South- East Mediterranean. Based on the zoarial forms, the bathymetry, the temperature and the bottoms, where some species live yet now, we attempt to give a reconstruction of the paleoenvironments. The Lower Pliocene age is based on the stratigraphie distribution of the following Foraminifers: Amphistegina lessonii, Bolivina antiqua, μBulimina cf. minima, Cibicides refiilgens, Globigerinoides extremus, Globigerinoides nepenthes, Globigerinella pseudobesa, Globulina fissicosta, Heterolepa dertonensis, Neogloboquatrina ci.acostaensis, Rectuvigerina siphogenerinoides, Sphaeroidinellopsis seminulina.
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29

Reguant, Salvador, und Pere Maluquer. „Los Briozoos de los sedimentos superficiales Holocenos de la plataforma continental del Cabo de Gata (Almería, España)“. Spanish Journal of Palaeontology 7, Nr. 2 (11.08.2022): 141. http://dx.doi.org/10.7203/sjp.25041.

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El estudio de los fragmentos de briozoos encontrados en la fracción de 0,5 a 2,0 mm de 12 muestras escogidas de los sedimentos superficiales, pertenecientes al Holoceno del Cabo de Gata ha permitido la identificación de 48 especies (4 Cyclostomata, 12 Cheilostomata Anasca y 32 Cheilostomata Ascophora). 46 de dichas especies viven actualmente en el Meditrráneo; 36 en el Atlántico oriental y 14 en otros mares. Solo 10 especies son exclusivas del Holoceno; 35 se han encontrado en el Neógeno y 10 en el Paleógeno. Se describen las especies más significativas. Por otra parte, las asociaciones faunísticas encontradas en las diversas muestras indican en la mayoría de casos un medio de aguas poco profundas y con tasas muy bajas de sedimentación.
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30

HOMBRADOS, Isabelle, Karin RODEWALD, Michèle ALLARD, Eugène NEUZIL und Gerhard BRAUNITZER. „Primary Structure of the Minor Haemoglobins from the Sea Lamprey (Petromyzon marinus,Cyclostomata)“. Biological Chemistry Hoppe-Seyler 368, Nr. 1 (Januar 1987): 145–54. http://dx.doi.org/10.1515/bchm3.1987.368.1.145.

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31

Harmelin, J. G., und M. T. Venec-Peyre. „Morphology, ecology, and biogeography of Discoramulina Bollii Seiglie, 1964, a cyclostomata-like foraminifer“. Journal of Foraminiferal Research 22, Nr. 2 (01.04.1992): 181–86. http://dx.doi.org/10.2113/gsjfr.22.2.181.

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32

Reinecke, Manfred. „Substance P is a vasoactive hormone in the atlantic hagfish Myxine glutinosa (Cyclostomata)“. General and Comparative Endocrinology 66, Nr. 2 (Mai 1987): 291–96. http://dx.doi.org/10.1016/0016-6480(87)90279-6.

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33

Gontar, V. I. „New species from the order Cyclostomata (Bryozoa) from the northern and middle Kurile Islands“. Proceedings of the Zoological Institute RAS 313, Nr. 1 (25.03.2009): 41–57. http://dx.doi.org/10.31610/trudyzin/2009.313.1.41.

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Six new species of cyclostome bryozoans are reported from the shelf of the northern and middle Kurile Islands. These include one new genus Paulina (type species P. taylori, sp. nov.), which is distinguished from Stomatopora Milne-Edwards, 1838 in having a basal gonozooid with a suborbicular shape, ultrastructure of frontal exterior wall with longitudinal stripes of calcification and unique ultrastructural fabric of coarse chevrons. The other five species are represented by Crisiella chirpoiensis, sp. nov., Desmatelesia repens, sp. nov., Desmeplagioecia pastiliformis, sp. nov., Heteropora urupae, sp. nov., and Tubulipora duplicatocrenata, sp. nov.
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34

HOMBRADOS, Isabelle, Yolande VIDAL, Karin RODEWALD, Gerhard BRAUNITZER† und Eugène NEUZIL. „The Primary Structure of the Hemoglobins of a Southern Hemisphere Lamprey(Mordacia mordax,Cyclostomata)“. Biological Chemistry Hoppe-Seyler 372, Nr. 1 (Januar 1991): 49–56. http://dx.doi.org/10.1515/bchm3.1991.372.1.49.

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35

Strange, Rex Meade, und Landon L. Moore. „Characterization and Evolution of Germ1, an Element that Undergoes Diminution in Lampreys (Cyclostomata: Petromyzontidae)“. Journal of Molecular Evolution 87, Nr. 9-10 (05.09.2019): 298–308. http://dx.doi.org/10.1007/s00239-019-09909-0.

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36

Song, Young Sun, und Jin-Koo Kim. „Molecular phylogeny and classification of the family Myxinidae (Cyclostomata: Myxiniformes) using the supermatrix method“. Journal of Asia-Pacific Biodiversity 13, Nr. 4 (Dezember 2020): 533–38. http://dx.doi.org/10.1016/j.japb.2020.09.006.

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37

Voigt, Ehrhard. „Septocea n. g. (Bryozoa cyclostomata), ein neues Kreide-Bryozoen-Genus von Rügen und Maastricht“. Paläontologische Zeitschrift 69, Nr. 1-2 (März 1995): 173–79. http://dx.doi.org/10.1007/bf02985983.

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38

McKinney, Frank K., Paul D. Taylor und Victor A. Zullo. „Lyre-shaped hornerid bryozoan colonies: homeomorphy in colony form between Paleozoic Fenestrata and Cenozoic Cyclostomata“. Journal of Paleontology 67, Nr. 3 (Mai 1993): 343–54. http://dx.doi.org/10.1017/s0022336000036829.

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Reticulate Hornera reteramae (Bryozoa, order Cyclostomata) have been discovered as free-lying, lyre-shaped colonies in the Castle Hayne Limestone (Eocene) in North Carolina. These specimens represent a striking instance of homeomorphy in colony form with the Late Mississippian genera Lyropora and Lyroporella of the order Fenestrata.Bryozoans with reticulate growth habit most commonly develop upright colonies. Living representatives generally grow in quiet environments or microenvironments, and fossils are generally found in situ in quiet-water deposits. However, lyre-shaped Hornera reteramae occur in skeletal packstones inferred to have been deposited in a moderate-energy, shallow, open shelf environment near normal wave base. Upper Mississippian lyre-shaped colonies are preserved in skeletal packstones and grainstones in localized channels or on upper surfaces of low-angle cross-bedded sheets interpreted as high-energy, marine shoal deposits. Modification of the reticulate growth habit to low, peripherally weighted, free-lying structures apparently allowed invasion of higher energy sand bottoms, both in Mississippian and Eocene times.
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39

Flórez, Paola, Emanuela Di Martino und Laís V. Ramalho. „Early Miocene coral reef-associated bryozoans from Colombia. Part I: Cyclostomata, “Anasca” and Cribrilinoidea Cheilostomata“. Journal of Paleontology 95, Nr. 4 (16.03.2021): 694–719. http://dx.doi.org/10.1017/jpa.2021.5.

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AbstractThis is the first of two comprehensive taxonomic works on the early Miocene (ca. 23–20 Ma) bryozoan fauna associated with coral reefs from the Siamaná Formation, in the remote region of Cocinetas Basin in the La Guajira Peninsula, northern Colombia, southern Caribbean. Fifteen bryozoan species in 11 families are described, comprising two cyclostomes and 13 cheilostomes. Two cheilostome genera and seven species are new: Antropora guajirensis n. sp., Calpensia caribensis n. sp., Atoichos magnus n. gen. n. sp., Gymnophorella hadra n. gen. n. sp., Cribrilaria multicostata n. sp., Cribrilaria nixor n. sp., and Figularia bragai n. sp. Eight species are identified only at genus level and remain in open nomenclature. Of the species found, 27% have erect colonies and 73% encrusting colonies. Both types contributed to the reef framework and produced sediment. The observed bryozoan diversity was higher in the barrier reefs than in the lagoonal patch reefs.UUID: http://zoobank.org/5c8468ef-31b0-4e7e-ba93-60a2e2f30b76.
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40

Korolyev, V. V., und Yu S. Reshetnikov. „Rare species of cyclostomata and fish in the Upper Oka basin and within Kaluga oblast“. Journal of Ichthyology 48, Nr. 8 (September 2008): 583–95. http://dx.doi.org/10.1134/s0032945208080043.

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41

Ooka-Souda, Sadako, Tetsuo Kadota und Hiro-Aki Takeuchi. „Effect of cutting the spinal cord on circadian rhythm of the hagfish, Eptatretus burgeri (cyclostomata)“. Neuroscience Research 31 (Januar 1998): S212. http://dx.doi.org/10.1016/s0168-0102(98)82291-8.

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42

Nobuo, Suzuki, Sekiguchi Toshio, Yachiguchi Koji, Urata Makoto, Kinoshita Yasuko, Matsubara Hajime, Asahina Kiyoshi, Kambegawa Akira und Srivastav Ajai Kumar. „Physiological Role of a Calcitonin-Like Substance in the Life Cycle of the Lamprey, Lampetra japonica (Cyclostomata)“. International Journal of Zoological Investigations 05, Nr. 02 (31.12.2019): 23–30. http://dx.doi.org/10.33745/ijzi.2019.v05i02.003.

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43

Renecke, M., D. Betzler und W. G. Forssmann. „Immunocytochemistry of cardiac polypeptide hormones (Cardiodilatin/atrial natriuretic polypeptide) in brain and hearts of Myxine glutinosa (Cyclostomata)“. Histochemistry 86, Nr. 3 (1987): 233–39. http://dx.doi.org/10.1007/bf00490253.

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44

Kluge, Bernhard, und Albrecht Fischer. „The pronephros of the early ammocoete larva of lampreys (Cyclostomata, Petromyzontes): Fine structure of the renal tubules“. Cell and Tissue Research 263, Nr. 3 (1991): 515–28. http://dx.doi.org/10.1007/bf00327284.

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45

Sansom, Robert S., Sarah E. Gabbott und Mark A. Purnell. „Decay of vertebrate characters in hagfish and lamprey (Cyclostomata) and the implications for the vertebrate fossil record“. Proceedings of the Royal Society B: Biological Sciences 278, Nr. 1709 (14.10.2010): 1150–57. http://dx.doi.org/10.1098/rspb.2010.1641.

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46

Kluge, Bernhard, und Albrecht Fischer. „The pronephros of the early ammocoete larva of lampreys (Cyclostomata, Petromyzontes): Fine structure of the external glomus“. Cell and Tissue Research 260, Nr. 2 (Mai 1990): 249–59. http://dx.doi.org/10.1007/bf00318628.

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47

Meyer-Rochow, V. Benno, und Duncan Stewart. „Review of larval and postlarval eye ultrastructure in the lamprey (cyclostomata) with special emphasis onGeotria australis (gray)“. Microscopy Research and Technique 35, Nr. 6 (15.12.1996): 431–44. http://dx.doi.org/10.1002/(sici)1097-0029(19961215)35:6<431::aid-jemt3>3.0.co;2-l.

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48

McCuller, Megan, und James Carlton. „Transoceanic rafting of Bryozoa (Cyclostomata, Cheilostomata, and Ctenostomata) across the North Pacific Ocean on Japanese tsunami marine debris“. Aquatic Invasions 13, Nr. 1 (2018): 137–62. http://dx.doi.org/10.3391/ai.2018.13.1.11.

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49

Matveevsky, Sergey, Nikolay Tropin, Aleksandr Kucheryavyy und Oxana Kolomiets. „The First Analysis of Synaptonemal Complexes in Jawless Vertebrates: Chromosome Synapsis and Transcription Reactivation at Meiotic Prophase I in the Lamprey Lampetra fluviatilis (Petromyzontiformes, Cyclostomata)“. Life 13, Nr. 2 (11.02.2023): 501. http://dx.doi.org/10.3390/life13020501.

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Transcription is known to be substage-specific in meiotic prophase I. If transcription is reactivated in the mid pachytene stage in mammals when synapsis is completed, then this process is observed in the zygotene stage in insects. The process of transcriptional reactivation has been studied in a small number of different taxa of invertebrates and vertebrates. Here, for the first time, we investigate synapsis and transcription in prophase I in the European river lamprey Lampetra fluviatilis (Petromyzontiformes, Cyclostomata), which is representative of jawless vertebrates that diverged from the main branch of vertebrates between 535 and 462 million years ago. We found that not all chromosomes complete synapsis in telomeric regions. Rounded structures were detected in chromatin and in some synaptonemal complexes, but their nature could not be determined conclusively. An analysis of RNA polymerase II distribution led to the conclusion that transcriptional reactivation in lamprey prophase I is not associated with the completion of chromosome synapsis. Monomethylated histone H3K4 is localized in meiotic chromatin throughout prophase I, and this pattern has not been previously detected in animals. Thus, the findings made it possible to identify synaptic and epigenetic patterns specific to this group and to expand knowledge about chromatin epigenetics in prophase I.
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Toscano, Francesco, und Paul D. Taylor. „A new Early Miocene bryozoan, Favosipora ichnusae sp. nov. (Cyclostomata), from the Isili Limestone of Sardinia, Italy“. Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen 248, Nr. 3 (01.06.2008): 301–8. http://dx.doi.org/10.1127/0077-7749/2008/0248-0301.

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