Thematische Bibliographien / Arthropoda Behavior / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Arthropoda Behavior“

Autor: Grafiati
Veröffentlicht am 4. Juni 2021
Zuletzt aktualisiert am 9. Februar 2022

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1

Edgecombe, Gregory D. „Morphological data, extant Myriapoda, and the myriapod stem-group“. Contributions to Zoology 73, Nr. 3 (2004): 207–52. http://dx.doi.org/10.1163/18759866-07303002.

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The status of Myriapoda (whether mono-, para- or polyphyletic) and position of myriapods in the Arthropoda are controversial, an impediment to evaluating fossils that may be members of the myriapod stem-group. Parsimony analysis of 319 characters for extant arthropods provides a basis for defending myriapod monophyly and identifying those morphological characters that are necessary to assign a fossil taxon to the Myriapoda. The alliance of hexapods and crustaceans need not relegate myriapods to the arthropod stem-group; the Mandibulata hypothesis accommodates Myriapoda and Tetraconata as sister taxa. No known pre-Silurian fossils have characters that convincingly place them in the Myriapoda or the myriapod stem-group. Because the strongest apomorphies of Myriapoda are details of the mandible and tentorial endoskeleton, exceptional fossil preservation seems necessary to recognise a stem-group myriapod.
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2

Klok, C. Jaco, Richard D. Mercer und Steven L. Chown. „Discontinuous gas-exchange in centipedes and its convergent evolution in tracheated arthropods“. Journal of Experimental Biology 205, Nr. 7 (01.04.2002): 1019–29. http://dx.doi.org/10.1242/jeb.205.7.1019.

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SUMMARY We have examined the gas-exchange characteristics of five southern African centipede species from three orders. Two scolopendromorph species exhibit discontinuous gas-exchange cycles (DGCs) identical to those recorded for several insect and chelicerate species. Another scolopendromorph and a lithobiomorph species exhibit weak periodic patterns, and a scutigermorph species shows continuous gas exchange. A crucial component for DGCs in tracheated arthropods is the presence of occludible spiracles. However, on the basis of studies of temperate centipedes, most recent invertebrate biology texts hold the view that centipedes, as a group, cannot close their spiracles. Using flow-through normoxic and normoxic—anoxic—normoxic respirometry and electron microscopy, we conclusively demonstrate that at least one of the scolopendromorph species, Cormocephalus morsitansL., can close its spiracles fully, thus accounting for its DGCs. Homologies in spiracular structure and DGCs suggest that several other tracheated arthropod taxa probably have this ability too and that DGCs have evolved convergently at least four times in the Arthropoda. Spiracular closure and discontinuous gas-exchange cycles are probably more widespread in arthropods than has previously been suspected.
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3

ZHANG, ZHI-QIANG. „Animal biodiversity: An introduction to higher-level classification and taxonomic richness“. Zootaxa 3148, Nr. 1 (23.12.2011): 7. http://dx.doi.org/10.11646/zootaxa.3148.1.3.

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For the kingdom Animalia, 1,552,319 species have been described in 40 phyla in a new evolutionary classification. Among these, the phylum Arthropoda alone represents 1,242,040 species, or about 80% of the total. The most successful group, the Insecta (1,020,007 species), accounts for about 66% of all animals. The most successful insect order, Coleoptera (387,100 species), represents about 38% of all species in 39 insect orders. Another major group in Arthropoda is the class Arachnida (112,201 species), which is dominated by the mites and ticks (Acari 54,617 species) and spiders (43,579 species). Other highly diverse arthropod groups include Crustacea (66,914 species), Trilobitomorpha (19,606 species) and Myriapoda (11,885 species). The phylum Mollusca (117,358 species) is more diverse than other successful invertebrate phyla Platyhelminthes (29,285 species), Nematoda (24,783 species), Echinodermata (20,509 species), Annelida (17,210 species) and Bryozoa (10,941 species). The phylum Craniata, including the vertebrates, represents 64,832 species (for Recent taxa, except for amphibians): among these 7,694 described species of amphibians, 31,958 species of “fish” and 5,750 species of mammals.
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4

BLAKE, JAMES A. „Revalidation of the genus Thoracophelia Ehlers, 1897, replacing Euzonus Grube, 1866 (Polychaeta: Opheliidae), junior homonym of Euzonus Menge, 1854 (Arthropoda: Diplopoda), together with a literature summary and updated listing of Thoracophelia species“. Zootaxa 2807, Nr. 1 (01.04.2011): 65. http://dx.doi.org/10.11646/zootaxa.2807.1.5.

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Brewer et al. (2011) recently demonstrated that the generic name Euzonus was being used in both Arthropoda (Diplopoda) and Polychaeta (Opheliidae) systematics and that the arthropod name was the senior synonym. The diplopod name Euzonus Menge, 1854, based on a single species, E. collulum Menge, 1854 from Baltic amber predates Euzonus Grube, 1866, established for E. arcticus Grube, 1866 from the Arctic Ocean. The Nomenclator Zoologicus (2005) verifies that both names are listed as uncorrected homonyms.
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5

Blick, Theo. „Korrekte Erscheinungsdaten von Arthropoda Selecta“. Arachnologische Mitteilungen 19 (01.07.2000): 66. http://dx.doi.org/10.5431/aramit1911.

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6

Eckert, Rolf, und Jürgen Becker. „Myriapoden aus mitteldeutschen Höhlen (Arthropoda, Myriapoda)“. Mitteilungen aus dem Museum für Naturkunde in Berlin. Zoologisches Museum und Institut für Spezielle Zoologie 〈Berlin〉 72, Nr. 2 (28.10.1996): 207–20. http://dx.doi.org/10.1002/mmnz.4830720203.

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7

Camargo, Issac, und Sergio Ticul Álvarez-Castañeda. „Analyses of predation behavior of the desert shrew Notiosorex crawfordi“. Mammalia 83, Nr. 3 (27.05.2019): 276–80. http://dx.doi.org/10.1515/mammalia-2018-0008.

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Abstract The desert shrew Notiosorex crawfordi is the smallest mammal in the arid and semiarid areas of North America. It displays ecological adaptations that allow it to colonize environments inhospitable for other species in the Order Soricomorpha. Little is known about the natural history of this species; hence, this work reports the characteristics of foraging behavior, prey items, prey size and bite effectiveness on prey items of similar or larger size than these shrews. The behavior in captivity of two individuals of N. crawfordi captured in Baja California Sur was analyzed in glass terrariums, recording the locomotion, posture, food preferences, prey manipulation and bite effectiveness. Preference for prey items collected from the same transects/habitat as the shrews and differing in size and belonging to different groups of Arthropoda was evaluated, revealing a greater preference for scorpions, which were attacked within 1 min of being placed in the terrarium. Observations of foraging behavior of captive desert shrews show that prey items from the different arthropod groups and lizards become paralyzed at the first bite. The behavior displayed by the prey suggested the potential presence of toxins in the saliva of N. crawfordi.
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8

Brown, Mark R., Douglas H. Sieglaff und Huw H. Rees. „Gonadal Ecdysteroidogenesis in Arthropoda: Occurrence and Regulation“. Annual Review of Entomology 54, Nr. 1 (Januar 2009): 105–25. http://dx.doi.org/10.1146/annurev.ento.53.103106.093334.

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9

Callaerts, Patrick, Jason Clements, Carmen Francis und Korneel Hens. „Pax6 and eye development in Arthropoda“. Arthropod Structure & Development 35, Nr. 4 (Dezember 2006): 379–91. http://dx.doi.org/10.1016/j.asd.2006.09.002.

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10

ARANGO, C. „Morphological phylogenetics of the sea spiders (Arthropoda: Pycnogonida)“. Organisms Diversity & Evolution 2, Nr. 2 (2002): 107–25. http://dx.doi.org/10.1078/1439-6092-00035.

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11

Xylander, Willi E. R., und Lutz Nevermann. „Antibacterial activity in the hemolymph of myriapods (Arthropoda)“. Journal of Invertebrate Pathology 56, Nr. 2 (September 1990): 206–14. http://dx.doi.org/10.1016/0022-2011(90)90102-c.

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12

Naumann, Benjamin, Hans S. Reip, Nesrine Akkari, David Neubert und Jörg U. Hammel. „Inside the head of a cybertype – three-dimensional reconstruction of the head muscles of Ommatoiulus avatar (Diplopoda: Juliformia: Julidae) reveals insights into the feeding movements of Juliformia“. Zoological Journal of the Linnean Society 188, Nr. 4 (28.11.2019): 954–75. http://dx.doi.org/10.1093/zoolinnean/zlz109.

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Abstract The origin and diversification of the arthropod head is one of the major topics in the field of evolutionary morphology of Arthropoda. Among the major arthropod groups, Myriapoda and, more precisely Diplopoda, are generally poorly studied regarding their head anatomy. However, this group is of pivotal importance to understand the evolutionary functional morphology of the arthropod head. In this study, we investigate the complete musculoskeletal system of the diplopod head with a detailed description of the cephalic anatomy of the recently described species Ommatoiulus avatar. The comparison of our data with the literature on the few other species available show that the morphology of the musculoskeletal system within Juliformia, a subgroup of the Diplopoda, is relatively conservative. Using video recordings of the feeding movements in addition to the anatomical data, we revise the mechanism of the mandibular movements in Juliformia. There was a controversy whether mandibular abduction is an active process, facilitated by contraction of an abductor muscle, or if it is a passive process, mediated by tentorial and gnathochilarial movements not involving a direct abduction by muscular contraction. We show that mandibular abduction in Ommatoiulus is an active movement involving the contraction of an abductor muscle. This is similar to the mandibular abduction in other arthropod groups.
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13

Shelley, Rowland M. „The millipeds of eastern Canada (Arthropoda: Diplopoda)“. Canadian Journal of Zoology 66, Nr. 7 (01.07.1988): 1638–63. http://dx.doi.org/10.1139/z88-239.

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The diplopod fauna of eastern Canada, an area containing all or parts of Ontario, Quebec, New Brunswick, Nova Scotia, Prince Edward Island, and Newfoundland, consists of 6 orders, 15 families, 28 genera, and 38 species. Eighteen species, 47% of the total fauna, are synanthropic forms introduced chiefly from Europe, and 11 additional millipeds, including another order and family, may occur there, particularly in southern Ontario. The sole Canadian records of Polyzonium mutabile Causey, Aniulus paludicolens Causey, Uroblaniulus stolidus Causey, Pseudopolydesmus branneri (Bollman), Scytonotus granulatus (Say), and Pleuroloma flavipes Rafinesque; the genera Cleidogona, Scytonotus, and Pleuroloma; and the family Cleidogonidae are from Ontario. Pleuroloma flavipes and Uroblaniulus stolidus, in Essex and Algoma counties, are newly recorded from Canada. Polyxenus lagurus (L.), Underwoodia iuloides (Harger), and Trichopetalum lunatum Harger are the only native diplopods in the Maritime Provinces, and Allajulus caeruleocinctus (Wood), a Palearctic introduction, is the only species known from New Brunswick and Prince Edward Island. The combination Polyzonium cryptocephalum (McNeill) is revived for the dominant eastern polyzoniid species, and Petaserpes rosalbus Cope and Polyzonium divaricatum Loomis are recognized as synonyms of it, the latter being new. Other new synonymies are Polyzonium borealis Loomis and P. quadricauda Loomis with P. mutabile Causey; Julus immaculatus Wood and Parajulus dux Chamberlin with Uroblaniulus canadensis (Newport); and Underwoodia polygama Cook and Collins with U. iuloides. Apheloria virginiensis (Drury), n.comb., is proposed as are subspecific statuses for the common eastern spirobolid millipeds. American species improbable for eastern Canada are identified, and a key to known and potential taxa and pertinent anatomical drawings are provided.
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14

AGUILA, RAYNER NÚÑEZ, und ALEJANDRO BARRO CAÑAMERO. „A list of Cuban Lepidoptera (Arthropoda: Insecta)“. Zootaxa 3384, Nr. 1 (10.07.2012): 1. http://dx.doi.org/10.11646/zootaxa.3384.1.1.

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A total of 1557 species belonging to 56 families of the order Lepidoptera is listed from Cuba, along with the source ofeach record. Additional literature references treating Cuban Lepidoptera are also provided. The list is based primarily onliterature records, although some collections were examined: the Instituto de Ecología y Sistemática collection, Havana,Cuba; the Museo Felipe Poey collection, University of Havana; the Fernando de Zayas private collection, Havana; andthe United States National Museum collection, Smithsonian Institution, Washington DC. One family, Schreckensteinidae,and 113 species constitute new records to the Cuban fauna. The following nomenclatural changes are proposed: Paucivenahoffmanni (Koehler 1939) (Psychidae), new comb., and Gonodontodes chionosticta Hampson 1913 (Erebidae), syn. nov.,is a synonym of Gonodontodes dispar Hampson 1913. Burca cubensis (Skinner 1913) (Hesperiidae), and Eulepidotis reflexa (Herrich-Schäffer 1869) (Erebidae) are revised and revalidated.
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15

TETLIE, O. ERIK, PAUL A. SELDEN und DONG REN. „A NEW SILURIAN EURYPTERID (ARTHROPODA: CHELICERATA) FROM CHINA“. Palaeontology 50, Nr. 3 (Mai 2007): 619–25. http://dx.doi.org/10.1111/j.1475-4983.2007.00651.x.

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16

Bamber, Roger N., Nicola J. Mitchell und Timothy J. Ferrero. „Rediscovery of Nymphon gerlachei Giltay, 1935 (Arthropoda, Pycnogonida)“. Antarctic Science 13, Nr. 3 (September 2001): 237–39. http://dx.doi.org/10.1017/s0954102001000347.

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Recently collected material from west of the Antarctic Peninsula has proven to be consistent with Nymphon gerlachei Giltay, 1935, previously known only from the holotype. The information now available on its intraspecific morphological variability has allowed the distinctions between this species and N. charcoti to be established.
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17

Grimaldi, David A. „Fossil record and phylogeny of the Arthropoda“. Arthropod Structure & Development 39, Nr. 2-3 (März 2010): 72–73. http://dx.doi.org/10.1016/j.asd.2010.01.001.

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18

Pitz, Kevin M., und Petra Sierwald. „Phylogeny of the millipede order Spirobolida (Arthropoda: Diplopoda: Helminthomorpha)“. Cladistics 26, Nr. 5 (07.09.2010): 497–525. http://dx.doi.org/10.1111/j.1096-0031.2009.00303.x.

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19

Moritsch, Monica M., M. Joey Pakes und David R. Lindberg. „How might sea level change affect arthropod biodiversity in anchialine caves: a comparison of Remipedia and Atyidae taxa (Arthropoda: Altocrustacea)“. Organisms Diversity & Evolution 14, Nr. 2 (28.02.2014): 225–35. http://dx.doi.org/10.1007/s13127-014-0167-5.

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20

Riley, J., DM Spratt und PJA Presidente. „Pentastomids (Arthropoda) Parasitic in Australian Reptiles and Mammals.“ Australian Journal of Zoology 33, Nr. 1 (1985): 39. http://dx.doi.org/10.1071/zo9850039.

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Records of pentastomid arthropods parasitic in Australian reptiles and mammals are reviewed, with particular reference to material collected recently. Specimens representative of six genera are described. Sebekia sp. from the estuarine crocodile, Crocodylusporosus, is the first record of the genus in Australia and probably represents a new species. A nymph with double hooks, from the dasyurid marsupial Satanellus hallucatus, is determined as Waddycephalus sp. This represents the first evidence of double hooks in nymphal forms of the genus and of the role of marsupials as intermediate hosts of Waddycephalus. Nymphs from the peramelid marsupial, Isoodon macrourus, and from S, hallucatus are determined as Armillifer australis Riley & Self, 1981; those from Perameles nasuta are identified as A. arborealis Riley & Self, 1981. These represent the first records of marsupials as intermediate hosts of Armillifer. Adults of the genus Elenia Heymons, 1932 are confirmed as parasites of varanid lizards. E. australis Heymons, 1932 is recognized and it is suggested that specimens described by Heymons (1939), allegedly from Varanus varius at Townsville, Qld, may represent a new species. The cosmopolitan porocephalid Linguatula serrata Frolich, 1789 is recorded from the nasopharynx of the dingo or wild dog and the validity of the indigenous species, L. dingophila Johnson, 1910 is discussed. The cephalobaenid Raillietiella amphiboluri Mahon, 1954 is reported from Amphibolurus barbatus.
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21

STAPLES, DAVID A. „Pycnogonids (Arthropoda, Pycnogonida) from the Southwest Indian Ridge“. Zootaxa 4567, Nr. 3 (18.03.2019): 401. http://dx.doi.org/10.11646/zootaxa.4567.3.1.

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This report addresses sixty-two deep-sea pycnogonid specimens collected by the Southwest Indian Ocean Seamounts Expedition, November 7 to December 21, 2011 on-board the British research vessel R.S.S. James Cook (voyage numbers JC066, JC067). Pycnogonids were collected from four of six geological features sampled along the central section of the Southwest Indian Ridge (SWIR) in an area approximately 1500 km south-south east of Madagascar. Specimens were mostly gathered utilizing a remotely operated vehicle (ROV) and tethered video-sediment grab platforms. Additional specimens were gathered from sediment cores or hand-picked from whale bone and wood-fall experiment nets and mooring buoy ropes. Fifteen new species are described, illustrated and compared with their nearest relatives. Two previously described species belonging to the genera Colossendeis and Austrodecus are recorded. A specimen of Austrodecus bamberi represents the first record of the female and is the only species in the collection previously known from the SWIR. One species of Colossendeis remains unnamed pending further analysis. One subadult specimen of Sericosura showing strong morphological affinity with a specimen previously recorded from the Walvis Ridge remains undescribed pending availability of further material. One subadult specimen is tentatively assigned to Nymphon. Specimens are assigned to six families and eight genera. Colossendeis rostrata is synonymised with C. melancholicus. The methodology of counting palp segments in the genera Austrodecus and Rhynchothorax is reviewed.
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22

McAllister, Chris T., und Henry W. Robison. „INTRODUCED MILLIPEDS (ARTHROPODA: DIPLOPODA) OF ARKANSAS, LOUISIANA, OKLAHOMA, AND TEXAS“. Southwestern Naturalist 63, Nr. 4 (07.10.2019): 284. http://dx.doi.org/10.1894/0038-4909-63-4-284.

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23

Bamber, Roger N. „A new species ofPycnogonum(Arthropoda: Pycnogonida: Pycnogonidae) from Hong Kong“. Journal of Natural History 42, Nr. 9-12 (März 2008): 815–19. http://dx.doi.org/10.1080/00222930701850463.

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24

Breitling, Rainer. „HOW NOT TO CONDUCT A SCIENTIFIC DEBATE: A COUNTERPOINT TO THE RECENT CRITIQUE OF THE PRAGMATIC CLASSIFICATION” OF JUMPING SPIDERS (ARTHROPODA: ARACHNIDA: ARANEAE: SALTICIDAE)“. Ecologica Montenegrina 21 (07.05.2019): 62–69. http://dx.doi.org/10.37828/em.2019.21.7.

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25

Penney, David. „Spiders in Upper Cretaceous Amber from New Jersey (Arthropoda: Araneae)“. Palaeontology 45, Nr. 4 (Juli 2002): 709–24. http://dx.doi.org/10.1111/1475-4983.00256.

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26

Adis, Joachim. „Prancha de identificação para os arácnidos neotropicais (Arthropoda) (Em Portugues e Alemão)∗; Bestimmungs‐Tafel für neotropische arachnida (Arthropoda) (In Portugiesisch und Deutsch)∗“. Studies on Neotropical Fauna and Environment 26, Nr. 1 (Januar 1991): 55–63. http://dx.doi.org/10.1080/01650529109360833.

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27

Spinsanti, Giacomo, Francesco Nardi und Francesco Frati. „Isolation of novel microsatellite loci in Orchesella villosa (Arthropoda, Collembola)“. Pedobiologia 50, Nr. 2 (Juni 2006): 105–9. http://dx.doi.org/10.1016/j.pedobi.2005.10.003.

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28

Vannier, Jean, und Jun-Yuan Chen. „The Early Cambrian colonization of pelagic niches exemplified by Isoxys (Arthropoda)“. Lethaia 33, Nr. 4 (Dezember 2000): 295–311. http://dx.doi.org/10.1080/002411600750053862.

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29

Bamber, Roger. „The sea-spiders (Arthropoda: Pycnogonida) of Admiralty Bay, King George Island“. Polish Polar Research 32, Nr. 1 (01.01.2011): 27–38. http://dx.doi.org/10.2478/v10183-011-0001-0.

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The sea-spiders (Arthropoda: Pycnogonida) of Admiralty Bay, King George IslandBetween 1979 and 2007, various sampling projects from the PolishArctowskiResearch Station in Admiralty Bay, King George Island, Antarctica, collected a diverse assemblage of pycnogonids,inter alia. Examination of this material has revealed 24 species in 11 genera and six families: all of this material is described. Samples were from poorly-sorted fine-sand to coarse-silt substrata, at depths between 27 and 405 m. The diverse assemblage was of species consistent with the known pycnogonid fauna of these depths in the South Shetlands and the Palmer Archipelago region, and includes a number of species recorded for only the second time since the types. As typical for Antarctic waters, the predominant and most diverse genus wasNymphon(nine species); the prevalent species wasNymphon eltaninae, notNymphon australe: implications for the apparent wide-distribution of records of the latter species are discussed. These records increase the biogeographical range ofNymphon subtileandNymphon punctumfrom Subantarctic waters to the Scotia Sea.
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30

KOIUHLER, HEINZ-RUDIGER, und GERD ALBERTI. „Morphology of the mandibles in the millipedes (Diplopoda, Arthropoda)“. Zoologica Scripta 19, Nr. 2 (April 1990): 195–202. http://dx.doi.org/10.1111/j.1463-6409.1990.tb00255.x.

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31

Sperfeld, Erik, Jens Petter Nilssen, Shelby Rinehart, Klaus Schwenk und Dag Olav Hessen. „Ecology of predator-induced morphological defense traits in Daphnia longispina (Cladocera, Arthropoda)“. Oecologia 192, Nr. 3 (16.01.2020): 687–98. http://dx.doi.org/10.1007/s00442-019-04588-6.

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32

Mikhailov, K. G., und S. I. Golovatch. „The exact publication date in Arthropoda Selecta — what does this mean?“ Arthropoda Selecta 29, Nr. 1 (März 2020): 151–53. http://dx.doi.org/10.15298/arthsel.29.1.14.

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33

Waloszek, Dieter, Andreas Maas, Junyuan Chen und Martin Stein. „Evolution of cephalic feeding structures and the phylogeny of Arthropoda“. Palaeogeography, Palaeoclimatology, Palaeoecology 254, Nr. 1-2 (Oktober 2007): 273–87. http://dx.doi.org/10.1016/j.palaeo.2007.03.027.

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34

Murienne, Jérôme, Mark S. Harvey und Gonzalo Giribet. „First molecular phylogeny of the major clades of Pseudoscorpiones (Arthropoda: Chelicerata)“. Molecular Phylogenetics and Evolution 49, Nr. 1 (Oktober 2008): 170–84. http://dx.doi.org/10.1016/j.ympev.2008.06.002.

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35

Brandão, Martha, Juliana Moreira und José Luque. „Checklist of Platyhelminthes, Acanthocephala, Nematoda and Arthropoda parasitizing penguins of the world“. Check List 10, Nr. 3 (Juli 2014): 562–73. http://dx.doi.org/10.15560/10.3.562.

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36

BAMBER, ROGER N., und C. NINA STEFFANI. „A new species of Queubus Barnard, 1946 (Arthropoda: Pycnogonida) from Namibia“. Zootaxa 1531, Nr. 1 (23.07.2007): 57–61. http://dx.doi.org/10.11646/zootaxa.1531.1.5.

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A new species of the enigmatic pycnogonid genus Queubus is described from an ovigerous male collected at 46 m depth off southern Namibia. Q. echidna sp. nov. has a unique disposition of blunt spines over the leg articles; it is also distinct from the only other described species, Q. jamesanus, in the presence of a palp and of compound spines on the oviger, in the absence of a propodal heel or dorsal trunk tubercles, and in having a bulbous, rather than tapering, proboscis. The genus remains endemic to Atlantic southern Africa.
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37

BAMBER, ROGER N., und MICHAEL H. THURSTON. „The deep-water pycnogonids (Arthropoda: Pycnogonida) of the northeastern Atlantic Ocean“. Zoological Journal of the Linnean Society 115, Nr. 2 (Oktober 1995): 117–62. http://dx.doi.org/10.1111/j.1096-3642.1995.tb02325.x.

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38

TONINI, LORENA, JULIANA PAULO DA SILVA, ARLINDO SERPA FILHO und JOELCIO FREITAS. „Replacement names for two preoccupied generic names in Arthropoda “. Zootaxa 4097, Nr. 1 (29.03.2016): 125. http://dx.doi.org/10.11646/zootaxa.4097.1.7.

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39

BRITO, RONIERE A., ESTEVAM C. A. LIMA und DOUGLAS ZEPPELINI. „Three new species of Collembola (Arthropoda: Hexapoda) from Brazil“. Zootaxa 4700, Nr. 4 (26.11.2019): 401–30. http://dx.doi.org/10.11646/zootaxa.4700.4.1.

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Three new species of Collembola are described for Southeastern Brazil: Arrhopalites mendoncae sp. nov., Pararrhopalites queirozi sp. nov., and Coecobrya phoenix sp. nov. Although they were collected in caves and present characters such as absence of pigmentation, reduction or absence of eyes, and restriction to the local hypogean environment, none of them is troglobite. It is the first Coecobrya known from Brazil, the second species of the genus Arrhopalites with a trichobothrial complex angle superior to 160°, and the third species of the genus Pararrhopalites with three sensilla in the inter-antennal region. All species are named in honor of the Museu Nacional do Rio de Janeiro, and our colembologist colleagues, who recently had an entire collection destroyed by a fire of great proportions.
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40

STOEV, PAVEL, PETRA SIERWALD und AMBER BILLEY. „An annotated world catalogue of the millipede order Callipodida (Arthropoda: Diplopoda)“. Zootaxa 1706, Nr. 1 (20.02.2008): 1. http://dx.doi.org/10.11646/zootaxa.1706.1.1.

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The paper presents the first world catalogue of the millipede order Callipodida (Diplopoda: Helminthomorpha). The order is currently known to comprise 3 suborders, 7 families, 35 valid (sub-)genera and 133 (sub-)species. Furthermore, 10 nominal species, whose taxonomic status has not been considered in any publications other than the first descriptions, are listed as species inquirenda. The synonymy of Paracortina wangi Stoev, 2004 under Angulifemur unidigitis Zhang, 1997 is formalized here. Given for each (sub-)species are the original description with author, year, pages and figures; complete chronological list of subsequent faunistic or taxonomic references; type material and, if known, current repository; type locality; species range; and sometimes additional remarks on its status or distribution. The relevant taxonomic and faunistic literature on Diplopoda was consulted to complete the data presented here. The species list is based on a species index card catalogue housed in the Museum National d’Histoire Naturelle in Paris (“Fichier iconographiqueBrolemann et successeurs”), with additions from the Zoological Record and various on-line resources. A bibliography containing 286 taxonomic references relevant to the Callipodida is included.
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41

Takahashi, Yoshie, Matthew H. Dick und Shunsuke F. Mawatari. „Sea spiders (Arthropoda: Pycnogonida) from waters adjacent to the Nansei Islands of Japan“. Journal of Natural History 41, Nr. 1-4 (16.02.2007): 61–79. http://dx.doi.org/10.1080/00222930601121783.

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42

Fay, Ashleigh M., und Abigail M. Smith. „In a pinch: Skeletal carbonate mineralogy of crabs (Arthropoda: Crustacea: Decapoda)“. Palaeogeography, Palaeoclimatology, Palaeoecology 565 (März 2021): 110219. http://dx.doi.org/10.1016/j.palaeo.2021.110219.

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43

LIN, J. P., und D. E. G. BRIGGS. „BURGESS SHALE-TYPE PRESERVATION: A COMPARISON OF NARAOIIDS (ARTHROPODA) FROM THREE CAMBRIAN LOCALITIES“. PALAIOS 25, Nr. 7 (01.07.2010): 463–67. http://dx.doi.org/10.2110/palo.2009.p09-145r.

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44

Cunningham, M., A. Gonzalez, M. Dreon, D. Castro und R. Pollero. „LIPID AND PROTEIN COMPOSITION AT DIFFERENT DEVELOPMENTAL STAGES OF PEDICULUS CAPITIS (ARTHROPODA, PHTHIRAPTERA)“. Journal of Parasitology 87, Nr. 6 (Dezember 2001): 1251–54. http://dx.doi.org/10.1645/0022-3395(2001)087[1251:lapcad]2.0.co;2.

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45

Cunningham, M., A. Gonzalez, M. Dreon, D. Castro und R. Pollero. „Lipid and Protein Composition at Different Developmental Stages of Pediculus capitis (Arthropoda, Phthiraptera)“. Journal of Parasitology 87, Nr. 6 (Dezember 2001): 1251. http://dx.doi.org/10.2307/3285283.

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46

Schram, Frederick R., Cees H. J. Hof und Fedor A. Steeman. „Thylacocephala (Arthropoda: Crustacea?) from the Cretaceous of Lebanon and implications for thylacocephalan systematics“. Palaeontology 42, Nr. 5 (Oktober 1999): 769–97. http://dx.doi.org/10.1111/1475-4983.00097.

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47

Zhang, Xingliang, Dongjing Fu und Tao Dai. „A new species ofKangacaris(Arthropoda) from the Chengjiang lagerstätte, lower Cambrian, southwest China“. Alcheringa: An Australasian Journal of Palaeontology 36, Nr. 1 (März 2012): 23–25. http://dx.doi.org/10.1080/03115518.2011.576532.

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48

Ringvold, Halldis, Arne Hassel, Roger N. Bamber und Lene Buhl-Mortensen. „Distribution of sea spiders (Pycnogonida, Arthropoda) off northern Norway, collected by MAREANO“. Marine Biology Research 11, Nr. 1 (17.07.2014): 62–75. http://dx.doi.org/10.1080/17451000.2014.889308.

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49

REGIER, JEROME C., und JEFFREY W. SHULTZ. „A phylogenetic analysis of Myriapoda (Arthropoda) using two nuclear protein-encoding genes“. Zoological Journal of the Linnean Society 132, Nr. 4 (August 2001): 469–86. http://dx.doi.org/10.1111/j.1096-3642.2001.tb02471.x.

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50

SCARABINO, FABRIZIO, RUDÁ AMORIM LUCENA, TOMÁS MUNILLA, ANNA SOLER-MEMBRIVES, LEONARDO ORTEGA, EVANGELINA SCHWINDT, GUZMÁN LÓPEZ, JOSÉ MARÍA ORENSANZ und MARTIN LIDSEY CHRISTOFFERSEN. „Pycnogonida (Arthropoda) from Uruguayan waters (Southwest Atlantic): annotated checklist and biogeographic considerations“. Zootaxa 4550, Nr. 2 (24.01.2019): 185. http://dx.doi.org/10.11646/zootaxa.4550.2.2.

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Records of pycnogonids from Uruguayan waters (south-western Atlantic) include 26 species cited from precise locations, and at least five other species based on unconfirmed records. Nearly half of the species in that fauna belong to the genus Nymphon (12 spp.). Most species (22) come from deep-water and were recorded and described by C. A. Child. Of these, at least twelve species have an extended Antarctic and Subantarctic distribution, showing the influence of these cold waters in the area; three others have a wide deep-sea distribution pattern. Five species are known only from the lower slope and abyssal basin off La plata river: Mimipallene Atlantis and four species of Nymphon. Records from coastal and shelf areas (four species) are poorly documented and should be the focus of future research. Of these, Colossendeis geoffroyi is considered endemic in the Southwest Atlantic between 34ºS and 40ºS, but presents clear Antarctic affinities. A small-sized species living in shallow waters, Pycnogonum cessaci, is here considered as cryptogenic.
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