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Journal articles on the topic 'Boreidae'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Burrows, M. "Jumping mechanisms and performance of snow fleas (Mecoptera, Boreidae)." Journal of Experimental Biology 214, no. 14 (June 22, 2011): 2362–74. http://dx.doi.org/10.1242/jeb.056689.

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2

Keith, Denis. "Découverte de Boreus hiemalis L. (Mecoptera : Boreidae) dans le Lyonnais." Bulletin mensuel de la Société linnéenne de Lyon 55, no. 9 (1986): 319–20. http://dx.doi.org/10.3406/linly.1986.10777.

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3

Beutel, Rolf G., Frank Friedrich, and Michael F. Whiting. "Head morphology of Caurinus (Boreidae, Mecoptera) and its phylogenetic implications." Arthropod Structure & Development 37, no. 5 (September 2008): 418–33. http://dx.doi.org/10.1016/j.asd.2008.02.002.

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4

Palmer, Christopher. "Diversity of feeding strategies in adult Mecoptera." Terrestrial Arthropod Reviews 3, no. 2 (2010): 111–28. http://dx.doi.org/10.1163/187498310x519716.

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AbstractIn this article I review the diet and feeding behaviour of adult scorpionflies in the nine extant families. Members of the Apteropanorpidae and Panorpidae are saprophagous on dead and decaying invertebrates, and the only known eomeropid Notiothauma reedi is also saprophagous on animal matter. Bittacids are predacious on a variety of invertebrates, predominantly insects. Both bittacids and panorpids supplement their diet with a variety of food sources such as nectar, and members of the Nannochoristidae most likely utilise nectar as the primary food source. Adult Panorpodidae are phytophagous, and all species of Boreidae are also regarded as phytophagous, although feeding on invertebrate carrion has also been reported for this family. The diets of the Meropeidae and Choristidae in natural habitats are unknown, although choristids may be saprophagous based on laboratory investigations. Nuptial feeding is a feature of the Bittacidae and Panorpidae, whereby the male provides the female with a food item as a prelude to or during courtship, and the female feeds on it during copulation. Relating head morphology to known diets indicates some patterns. The rostrum is more elongate in those taxa known to feed predominantly on animal matter, and shorter and wider in plant-feeding taxa such as the Panorpodidae. An exception is the predominantly phytophagous Boreidae, in which most species have a long rostrum.
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5

Allemand, Roland. "Présence de Boreus hiemalis L. dans les Pyrénées-Orientales (Mecoptera Boreidae)." Bulletin mensuel de la Société linnéenne de Lyon 60, no. 3 (1991): 85. http://dx.doi.org/10.3406/linly.1991.10928.

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6

Russell, Loren K., Romano Dallai, Marco Gottardo, and Rolf G. Beutel. "The sperm ultrastructure of Caurinus dectes Russell (Mecoptera: Boreidae) and its phylogenetic implications." Tissue and Cell 45, no. 6 (December 2013): 397–401. http://dx.doi.org/10.1016/j.tice.2013.07.001.

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7

Stolbov, V. A., D. E. Galich, and D. S. Nizovtsev. "New data on distribution of winter insects (Mecoptera: Boreidae; Diptera: Limoniidae) in Western Siberia." Far Eastern entomologist 359 (May 8, 2018): 12–15. http://dx.doi.org/10.25221/fee.359.3.

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8

Bilinski, Szczepan M., and Jürgen Büning. "Structure of ovaries and oogenesis in the snow scorpionfly boreus hyemalis (LINNE)(MECOPTERA : BOREIDAE)." International Journal of Insect Morphology and Embryology 27, no. 4 (October 1998): 333–40. http://dx.doi.org/10.1016/s0020-7322(98)00026-9.

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9

Byers, George W. "GEOGRAPHIC AFFINITIES OF THE NORTH AMERICAN MECOPTERA." Memoirs of the Entomological Society of Canada 120, S144 (1988): 25–30. http://dx.doi.org/10.4039/entm120144025-1.

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AbstractMecoptera of the Nearctic Region are, in general, more like those of the eastern Palaearctic than of any other faunal region. But the fossil record shows that our major extant genera have been in the northern continents since Early Cenozoic. Panorpidae and Panorpodidae probably entered North America by way of Beringia in the Eocene or Oligocene. Nearctic Bittacidae probably came from the Neotropical Region, but a few exhibit peculiar affinities with some eastern Asiatic species, suggesting migration out of the Nearctic into the Palaearctic. Boreidae appear to have been of North American origin but are now Holarctic; they are unknown as fossils. The Meropeidae were probably widespread in mid–Mesozoic but now are found only in eastern North America and western Australia.
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10

Sikes, Derek, and Jill Stockbridge. "Description of Caurinus tlagu, new species, from Prince of Wales Island, Alaska (Mecoptera, Boreidae, Caurininae)." ZooKeys 316 (July 11, 2013): 35–53. http://dx.doi.org/10.3897/zookeys.316.5400.

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11

Beckenbach, Andrew T. "Mitochondrial genome sequences of representatives of three families of scorpionflies (Order Mecoptera) and evolution in a major duplication of coding sequence." Genome 54, no. 5 (May 2011): 368–76. http://dx.doi.org/10.1139/g11-006.

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The complete mitochondrial DNA sequences of a hangingfly, Bittacus pilicornis (Mecoptera: Bittacidae), a snow scorpion fly, Boreus elegans (Mecoptera: Boreidae), and a nearly complete sequence from another scorpionfly species, Microchorista philpotti (Mecoptera: Nannochoristidae) were determined. The coding sequence of all three genomes includes the 37 genes normally found in insect mtDNAs, in the same gene order as first described in Drosophila. In addition to the standard set of genes, the Microchorista sequence includes a large duplication of the coding region. The duplication is at least 4 kb (and may be much larger) and includes the remnants of three protein-coding genes and seven tRNA genes. The duplication evidently arose as a single event, and the duplicated region can be aligned in its entirety with the corresponding region of the functional genome. Although most of the genes contain defects that render them nonfunctional, analysis shows that the protein-coding genes in the duplicated region evolved for a considerable period under constraints expected of functional protein-coding genes. It is evident, therefore, that for a period two copies of some of the mitochondrial genes were functional in this species, including genes coding for proteins.
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12

Henry, Shasta Claire, Peter B. McQuillan, and James B. Kirkpatrick. "An Alpine Malaise trap." Alpine Entomology 2, no. 1 (July 20, 2018): 51–58. http://dx.doi.org/10.3897/alpento.2.24800.

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The Southernmost region of Australia, the island of Tasmania, is also the most mountainous, with large areas of rugged alpine environments. This entomological frontier offers a distinct suite of insects for study including many endemic taxa. However, harsh weather, remote locations and rough terrain represent an environment too extreme for many existing insect trap designs. We report here on the design and efficacy of a new Alpine Malaise Trap (AMT), which can be readily hybridised with several other common insect trapping techniques. Advantages of the design include its light weight and portability, low cost, robustness, rapid deployment and long autonomous sampling period. The AMT was field tested in the Tasmanian highlands (AUST) in 2017. A total of 16 orders were collected. As expected, samples are dominated by Diptera. However, the trap also collected a range of flightless taxa including endemic and apterous species, Apteropanorpatasmanica – closest relative of the boreal, snow scorpionflies (Boreidae). Combined and compared with other trap types the Alpine Malaise Traps captured less specimens but of a greater diversity than passive sticky traps, while drop traps captured less specimens but a greater diversity than AMT. The statistical potential of the catch is discussed.
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13

ROOD, RODNEY J., JAMES B. JOHNSON, EDWARD A. LISOWSKI, KEITH S. PIKE, and WILLIAM J. TURNER. "Caurinus dectes Russell (Mecoptera: Boreidae: Caurininae) a range extension in Oregon and a new state record in Washington." Zootaxa 4013, no. 3 (September 9, 2015): 449. http://dx.doi.org/10.11646/zootaxa.4013.3.10.

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14

VILVENS, CLAUDE, and SUZANNE T. WILLIAMS. "New species of Ilanga (Gastropoda: Trochoidea: Solariellidae) from the Indo-West Pacific." Zootaxa 4732, no. 2 (February 12, 2020): 201–57. http://dx.doi.org/10.11646/zootaxa.4732.2.1.

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In this study we list and figure a total of 22 species assigned to the genus Ilanga Herbert, 1987 that were collected during recent Paris Museum expeditions, of which 16 are new and described here (listed in the order they appear in the text): Ilanga herberti n. sp., I. euryomphalos n. sp., I. polygramma n. sp., I. stephanophora n. sp., I. harrytaylori n. sp., I. eurystoma n. sp., I. oxeia n. sp., I. cosmia n. sp., I. corrineae n. sp., I. comes n. sp., I. dongshaensis n. sp., I. philia n. sp., I. helicoides n. sp., I. lauensis n. sp., I. mesembrine n. sp. and I. boreia n. sp.. These species occur throughout the Indo-West Pacific, extending the known range of this genus beyond the south west Indian Ocean. We also synonymise Microgaza fulgens Dall, 1907 and Microgaza konos Vilvens, 2009 (syn. nov.) (as I. fulgens). New combinations include Ilanga fulgens and I. navakaensis.
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15

Chatzēantōnioy, Phaidōn. "Novi podaci za graditeljsku istoriju katolikona svetogorskog manastira Pantokratora." Zbornik radova Vizantoloskog instituta, no. 44 (2007): 587–600. http://dx.doi.org/10.2298/zrvi0744587c.

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(grcki) T?n periodo 2003-2006 ektelest?kan oi programmatismenes apo to KEDAK ergasies apokatastas?s toy katholikoy t?s Mon?s Pantokratoros, oi opoies perielambanan t?n antikatastas? t?n molybdin?n phyll?n kalyy?s t?n steg?n kath?s kai t?n ex?terik?n epichrismat?n toy sygkrot?matos. Kata t? diarkeia t?n ergasi?n proekyyan ne?tera stoicheia schetika me t?n oikodomik? istoria toy katholikoy. Sygkekrimena entopist?ke ? steg? t?s anatolik?s keraias toy kyri?s naoy, proion epektas?s pros anatolas toy Ieroy B?matos kata to pr?to miso toy 17oy ai?na, en? phan?ke oti o s?merinos kentrikos troylos toy naoy den einai o archikos, alla apotelei meros t?s megal?s anakainis?s poy egine sto sygkrot?ma sta mesa toy 19oy ai?na. Se o,ti aphora t?n lit?, katest? saphes oti ? s?merin? t?s morph? proekyye apo ton diplasiasmo toy embadoy enos archikoy stenoy narth?ka, en? oi steges sto dytiko tm?ma toy sygkrot?matos apekt?san t?n s?merin? toys diatax? otan egine mia kath? yyos prosth?k? ston ex?narth?ka. Idiaitero endiapheron paroysiazei to gegonos oti op?s proekyye apo t?n parat?r?s? t?s toichopoiias sto kat?tero tm?ma toy boreioy choroy toy katholikoy kai t?s anatolik?s kai t?s boreias toichopoiias toy parekkl?sioy t?s Koim?se?s t?s Theotokoy, kai meta apo sygkris? me t?n toichopoiia toy notioy choroy kai toy ypoloipoy kyri?s naoy, exagetai to symperasma oti to tm?ma ayto mallon an?kei se palaiotero oikodom?ma, to opoio ens?mat?th?ke sto katholiko, ypothes? poy enischyetai apo ton entopismo st? notia pleyra t?s lit?s, st? thes? toy katedaphismenoy parekkl?sioy t?n Tri?n Ierarch?n, enos toichoy palaioteroy apo to katholiko. Akom?, entopist?kan ne?tera stoicheia poy aphoroyn st?n anadiamorph?s?, kata t?n anakainis? toy 19oy ai?na, toy isogeioy st?n boreiodytik? g?nia toy sygkrot?matos kai schetizontai me t?n metaphora toy taphoy t?n kt?tor?n st? s?merin? toy thes? kai t?n prosth?k? toy ex?narth?ka, ? opoia stath?ke ? aitia gia t?n diaphoropoi?s? t?s archik?s prosbas?s pros to k?d?nostasio.
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16

"Snow Scorpionflies (Mecoptera: Boreidae) of the Hanford Reach National Monument." Pan-Pacific Entomologist 95, no. 1 (April 1, 2019): 1. http://dx.doi.org/10.3956/2019-95.1.1.

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