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Journal articles on the topic 'Decapodiformes'

Author: Grafiati
Published: 4 June 2021
Last updated: 4 March 2023

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1

Klug, Christian, Günter Schweigert, Dirk Fuchs, Isabelle Kruta, and Helmut Tischlinger. "Adaptations to squid-style high-speed swimming in Jurassic belemnitids." Biology Letters 12, no. 1 (January 2016): 20150877. http://dx.doi.org/10.1098/rsbl.2015.0877.

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Although the calcitic hard parts of belemnites (extinct Coleoidea) are very abundant fossils, their soft parts are hardly known and their mode of life is debated. New fossils of the Jurassic belemnitid Acanthoteuthis provided supplementary anatomical data on the fins, nuchal cartilage, collar complex, statoliths, hyponome and radula. These data yielded evidence of their pelagic habitat, their nektonic habit and high swimming velocities. The new morphological characters were included in a cladistic analysis, which confirms the position of the Belemnitida in the stem of Decabrachia (Decapodiformes).
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2

Ochiai, Y., G. Wang, Y. Ono, and S. Watabe. "35.P6. Characterization of decapodiformes myosin heavy chains: Structure, function and evolution." Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 148 (August 2007): S153. http://dx.doi.org/10.1016/j.cbpa.2007.06.389.

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3

Bush, Stephanie L., Hendrik J. T. Hoving, Christine L. Huffard, Bruce H. Robison, and Louis D. Zeidberg. "Brooding and sperm storage by the deep-sea squid Bathyteuthis berryi (Cephalopoda: Decapodiformes)." Journal of the Marine Biological Association of the United Kingdom 92, no. 7 (February 23, 2012): 1629–36. http://dx.doi.org/10.1017/s0025315411002165.

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Squids of the family Bathyteuthidae have generally been infrequently encountered in their deep-sea habitat. Remotely operated vehicles were used to observe seven individuals in situ in the Monterey Submarine Canyon, CA, USA. One of these was a female Bathyteuthis berryi holding a sheet with approximately 360 embedded embryos. Examination of this female after collection revealed the presence of a seminal receptacle on the buccal membrane. We present some potential costs and benefits of post-spawning egg care, a strategy that is now known for two families of deep-dwelling squids, but may turn out to be more common with the increasing exploration of the deep sea.
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4

Lindgren, Annie R., and Marymegan Daly. "The impact of length-variable data and alignment criterion on the phylogeny of Decapodiformes (Mollusca: Cephalopoda)." Cladistics 23, no. 5 (October 2007): 464–76. http://dx.doi.org/10.1111/j.1096-0031.2007.00160.x.

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5

Lindgren, Annie R. "Molecular inference of phylogenetic relationships among Decapodiformes (Mollusca: Cephalopoda) with special focus on the squid Order Oegopsida." Molecular Phylogenetics and Evolution 56, no. 1 (July 2010): 77–90. http://dx.doi.org/10.1016/j.ympev.2010.03.025.

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6

Donovan, D. T., and J. M. Strugnell. "A redescription of the fossil coleoid cephalopod genusPalaeololigoNaef, 1921 (Decapodiformes: Palaeololiginidae) and its relationship to Recent squids." Journal of Natural History 44, no. 23-24 (May 24, 2010): 1475–92. http://dx.doi.org/10.1080/00222931003624838.

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7

Hall, Nathan E., Jan Hanzak, A. Louise Allcock, Ira R. Cooke, Atsushi Ogura, and Jan M. Strugnell. "The complete mitochondrial genome of the pygmy squid,Idiosepius(Cephalopoda: Decapodiformes): the first representative from the family Idiosepiidae." Mitochondrial DNA 27, no. 1 (January 17, 2014): 5–6. http://dx.doi.org/10.3109/19401736.2013.865180.

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8

Furuya, Hidetaka, and Takeya Moritaki. "Fourteen New Species of Dicyemids (Phylum: Dicyemida) from Seven Species of Decapodiformes (Mollusca: Cephalopoda) in the Kumano Sea, Japan." Species Diversity 27, no. 1 (April 28, 2022): 181–226. http://dx.doi.org/10.12782/specdiv.27.181.

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9

Makino, Akihiko, and Taeko Miyazaki. "Topographical distribution of visual cell nuclei in the retina in relation to the habitat of five species of Decapodiformes (Cephalopoda)." Journal of Molluscan Studies 76, no. 2 (January 17, 2010): 180–85. http://dx.doi.org/10.1093/mollus/eyp055.

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10

Hendrickx, Michel, Brian Urbano, and Pablo Zamorano. "Distribution of pelagic squids Abraliopsis Joubin, 1896 (Enoploteuthidae) and Pterygioteuthis P. Fischer, 1896 (Pyroteuthidae) (Cephalopoda, Decapodiformes, Oegopsida) in the Mexican Pacific." ZooKeys 537 (November 18, 2015): 51–64. http://dx.doi.org/10.3897/zookeys.537.6023.

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11

Marian, José Eduardo Amoroso Rodriguez. "O enigma da "reação espermatofórica": breve síntese do conhecimento sobre a estrutura e o funcionamento dos espermatóforos dos cefalópodes (Mollusca: Cephalopoda)." Papéis Avulsos de Zoologia 51, no. 13 (2011): 207–19. http://dx.doi.org/10.1590/s0031-10492011001300001.

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Cefalópodes coleóides (lulas, sépias e polvos) produzem espermatóforos muito complexos que são transferidos à fêmea durante a cópula por meio do hectocótilo, um apêndice modificado nos machos. Durante a transferência à fêmea, ocorre a chamada "reação espermatofórica", complexo processo de evaginação do aparato ejaculatório do espermatóforo, que conduz à exteriorização da massa espermática e corpo cimentante. A presente revisão sintetiza o conhecimento acerca da morfologia e funcionamento desta estrutura exclusiva dos coleóides, identificando lacunas e definindo estratégias que possibilitem avanços na área. Poucos trabalhos abordam com detalhes a morfologia e anatomia funcional dos espermatóforos dos cefalópodes, grande parte do conhecimento acerca da estrutura do espermatóforo tendo sido gerada por trabalhos clássicos do século XIX e início do século XX. Investigações acerca do funcionamento dos espermatóforos são consideravelmente mais raras, estando o conhecimento básico sobre a reação espermatofórica restrito a apenas 19 espécies de coleóides. A revisão da literatura especializada permite sugerir que existem dois tipos básicos de fixação de espermatóforos em Decapodiformes (lulas e sepióides): fixação superficial e implante profundo (ou intra-dérmico). Na fixação superficial, comum em diversas espécies (e.g., Loliginidae, Sepiidae, Ommastrephidae), a base dos espermatângios é aderida ao tecido-alvo aparentemente por meio do corpo cimentante, a partir de substâncias adesivas e, em alguns casos, estruturas de fixação. No implante profundo, comum em alguns grupos de lulas oceânicas e de águas profundas (e.g., Architeuthidae, Cranchiidae, Octopoteuthidae, Sepiolidae), os espermatóforos implantam-se inteiramente no corpo da fêmea, de forma autônoma. Permanece desconhecido o mecanismo responsável pelo implante profundo. Em Octopodiformes (polvos), o espermatóforo é inserido no gonoduto feminino, alcançando a glândula oviducal, onde estão localizadas as espermatecas, ou a cavidade do ovário. Como o funcionamento extracorpóreo dos espermatóforos depende exclusivamente da intrincada estrutura e organização de seus componentes (e.g., membranas e túnicas), somente investigações detalhadas dessas estruturas proverão as bases para a compreensão do funcionamento e da exata função do complexo espermatóforo dos coleóides. Recomenda-se o desenvolvimento de um protocolo simples e eficiente para coloração e preparação total de espermatóforos, de forma que seja possível expandir as descrições morfológicas do espermatóforo em estudos taxonômicos e anatômicos, permitindo, portanto, ampliação do conhecimento acerca desta enigmática estrutura.
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12

Kawashima, Yuumi, Hidenori Nishihara, Tetsuya Akasaki, Masato Nikaido, Kotaro Tsuchiya, Susumu Segawa, and Norihiro Okada. "The complete mitochondrial genomes of deep-sea squid (Bathyteuthis abyssicola), bob-tail squid (Semirossia patagonica) and four giant cuttlefish (Sepia apama, S. latimanus, S. lycidas and S. pharaonis), and their application to the phylogenetic analysis of Decapodiformes." Molecular Phylogenetics and Evolution 69, no. 3 (December 2013): 980–93. http://dx.doi.org/10.1016/j.ympev.2013.06.007.

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13

Omura, Ayano, and Yuzuru Ikeda. "The Diverse Morphology of Decapodiform Cephalopods: A Summer Lecture." Contemporary Mathematics and Science Education 1, no. 1 (August 4, 2020): ep20005. http://dx.doi.org/10.30935/conmaths/8450.

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14

Anderson, Frank E., and Annie R. Lindgren. "Phylogenomic analyses recover a clade of large-bodied decapodiform cephalopods." Molecular Phylogenetics and Evolution 156 (March 2021): 107038. http://dx.doi.org/10.1016/j.ympev.2020.107038.

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15

OMURA, Ayano, and Hideki ENDO. "The functional-morphological adaptive strategy of digestive organs of decapodiform cephalopods." Journal of Veterinary Medical Science 78, no. 1 (2016): 43–47. http://dx.doi.org/10.1292/jvms.15-0185.

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16

Young, R. E., M. Vecchione, and C. F. E. Roper. "A new genus and three new species of decapodiform cephalopods (Mollusca: Cephalopoda)." Reviews in Fish Biology and Fisheries 17, no. 2-3 (March 30, 2007): 353–65. http://dx.doi.org/10.1007/s11160-007-9044-z.

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17

Lindgren, Annie R., Abigail Pratt, Michael Vecchione, and Frank E. Anderson. "Finding a home for the ram’s horn squid: phylogenomic analyses support Spirula spirula (Cephalopoda: Decapodiformes) as a close relative of Oegopsida." Organisms Diversity & Evolution, September 28, 2022. http://dx.doi.org/10.1007/s13127-022-00583-7.

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18

Ibrahim, G., M. Luisetto, and O. Latyshev. "Glial cells in the posterior sub-esophageal mass of the brain in Sepia officinalis (Linnaeus, 1758) (decapodiformes–sepiida): ultrastructure and cytochemical studies." Invertebrate Neuroscience 20, no. 4 (September 2, 2020). http://dx.doi.org/10.1007/s10158-020-00249-z.

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19

Sanchez, Gustavo, and Fernando Fernández-Álvarez. "Towards an eDNA assay for decapodiform cephalopods." ARPHA Conference Abstracts 4 (March 4, 2021). http://dx.doi.org/10.3897/aca.4.e65037.

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Assessing the distribution and diversity of cephalopods using traditional approaches (standard fishing, market collection, and DNA barcoding) is time-consuming. Environmental DNA (eDNA) assays are non-invasive, fast, and can capture the diversity of the species of interest using a specific primer-set. For Cephalopods, standardization of such primers has been challenging because of a poor database of several markers, and the absence of complete mitochondrial genomes for its design. In this fast-talk, I will briefly talk about our new 87 complete mitochondrial genomes from specimens correctly identify and with museum vouchers, and how these mitogenomes promise to resolve the database limitation for eDNA assays in decapodiform cephalopods.
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