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Journal articles on the topic 'SilverFast'

Author: Grafiati
Published: 4 June 2021
Last updated: 8 February 2022

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1

Woodbury, Nathan, and Gerhard Gries. "Fungal symbiont of firebrats (Thysanura) induces arrestment behaviour of firebrats and giant silverfish but not common silverfish." Canadian Entomologist 145, no. 5 (July 25, 2013): 543–46. http://dx.doi.org/10.4039/tce.2013.35.

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AbstractWe have recently shown that firebrats, Thermobia domestica (Packard) (Thysanura: Lepismatidae), carry, and deposit with their faeces, the symbiotic bacterium Enterobacter cloacae (Jordan 1890) Hormaeche and Edwards 1960 (Enterobacteriaceae) and the symbiotic fungus Mycotypha microspora Fenner, 1932 (Mycotyphaceae), and that these microbes induce arrestment behaviour and aggregation of firebrats. Here, we tested whether giant silverfish, Ctenolepisma longicaudata Escherich (Thysanura: Lepismatidae), and common silverfish, Lepisma saccharina (Linnaeus) (Thysanura: Lepismatidae), also arrest in response to these two microbes. In dual-choice bioassays, E. cloacae arrested firebrats but not giant silverfish or common silverfish, whereas M. microspora arrested firebrats and giant silverfish but not common silverfish. As close relatives, firebrats and giant silverfish have similar microclimate and nutrient requirements and may use M. microspora as the same aggregation cue when they aggregate in hot and humid microclimates where M. microspora proliferates and breaks down cellulose. As a more distant relative to firebrats and giant silverfish, common silverfish seem to require a different as yet unknown aggregation cue or signal, possibly one that is indicative of the type of microclimate (room temperature; high humidity) they prefer.
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2

O’Driscoll, Richard L., Yoann Ladroit, Steven J. Parker, Marino Vacchi, Simonepietro Canese, Laura Ghigliotti, Adam J. Dunford, and Sophie Mormede. "Acoustic deployments reveal Antarctic silverfish under ice in the Ross Sea." Antarctic Science 30, no. 6 (December 2018): 345–53. http://dx.doi.org/10.1017/s0954102018000366.

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AbstractAntarctic silverfish (Pleuragramma antarcticaBoulenger) are a keystone species in the Ross Sea. Silverfish eggs and larvae are abundant during spring amongst the sub-surface platelet ice in Terra Nova Bay. It is not known whether the eggs are spawned elsewhere and accumulate under the ice or whether there is mass migration of silverfish to coastal spawning sites in winter. To test the latter hypothesis, an upward-looking 67 kHz echo sounder was moored in Terra Nova Bay to observe potential silverfish migration. The echo sounder was deployed at 380 m in a seabed depth of 550 m and ran for 210 days from 15 May until 11 December 2015. Acoustic reflections consistent with silverfish were observed at depths of 230–380 m during 9–22 September. This timing is consistent with the presence of eggs typically observed in October. Adult silverfish were also detected with an echo sounder and camera deployed through the ice in McMurdo Sound on 10 November 2015. Juvenile silverfish, but not adults, were observed through the ice in Terra Nova Bay during 11–16 November 2017. This paper provides a proof of concept, showing that innovative use of acoustics may help fill important observation gaps in the life history of silverfish.
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3

Thompson, David. "Silverfish in the cupboard." Computer Audit Update 1996, no. 11 (November 1996): 13–22. http://dx.doi.org/10.1016/0960-2593(96)88247-4.

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4

Jacob, Jürgen, Gottfried Raab, and Udo Hoppe. "Surface Lipids of the Silverfish (Lepisma saccharina L.)." Zeitschrift für Naturforschung C 52, no. 1-2 (February 1, 1997): 109–13. http://dx.doi.org/10.1515/znc-1997-1-219.

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Abstract Surface lipids obtained from the silverfish by short-term solvent extraction contain ali­ phatic hydrocarbons, monoester waxes, cholesteryl esters, triglycerides, free cholesterol, and free fatty acids. Together, cholesteryl esters and free cholesterol account for >30% of the total lipids. As found for other arthropods living in aquatic or moist environments unsaturated homologues predominate among the acidic constituents. The cuticular lipid composition o f silverfish resembles that of other more primitive arthropod forms such as stoneflies and dragonflies.
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5

Carlig, Erica, Jørgen S. Christiansen, Davide Di Blasi, Sara Ferrando, Eva Pisano, Marino Vacchi, Richard L. O’Driscoll, and Laura Ghigliotti. "Midtrophic fish feeding modes at the poles: an ecomorphological comparison of polar cod (Boreogadus saida) and Antarctic silverfish (Pleuragramma antarctica)." Polar Biology 44, no. 8 (June 20, 2021): 1629–42. http://dx.doi.org/10.1007/s00300-021-02900-w.

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AbstractThe polar cod (Boreogadus saida) and the Antarctic silverfish (Pleuragramma antarctica) are pelagic fish endemic to the Arctic and Antarctica sea, respectively. Both species are abundant and play a central role as midtrophic wasp-waist species in polar ecosystems. Due to their biological and ecological characteristics (small size, complex life histories, relatively short generation cycles, movement capability, planktivorous diet, and importance as prey), the polar cod and the Antarctic silverfish are potentially good sentinels of ecosystem change. Changes in polar zooplankton communities are well documented. How changes impact ecosystems as a whole largely depend on the degree of diet specialization and feeding flexibility of midtrophic species. Here, we provide the ecomorphological characterization of polar cod and Antarctic silverfish feeding performances. A comparative functional ecology approach, based on the analysis of morpho-anatomical traits, including calculation of suction index and mechanical advantage in jaw closing, was applied to profile the feeding modes and flexibility of the two species. Ecomorphological evidence supports differences in food acquisition: the polar cod appears able to alternate particulate ram-suction feeding to a pump filter feeding, and the Antarctic silverfish results be both a particulate ram and a tow-net filter feeder. Both species exhibit opportunistic feeding strategies and appear able to switch feeding mode according to the abundance and size of the available prey, which is a clue of potential resilience to a changing environment.
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6

Woodbury, Nathan, and Gerhard Gries. "Pheromone-based Arrestment Behavior in the Common Silverfish, Lepisma saccharina, and Giant Silverfish, Ctenolepisma longicaudata." Journal of Chemical Ecology 33, no. 7 (May 17, 2007): 1351–58. http://dx.doi.org/10.1007/s10886-007-9303-4.

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7

Barletta, Bianca, Eleonora Mr Puggioni, Cinzia Butteroni, Patrizia Iacovacci, Claudia Afferni, Raffaella Tinghino, Renato Ariano, Raphael C. Panzani, Carlo Pini, and Gabriella Di Felice. "IgE reactivity of recombinant silverfish tropomyosin." Journal of Allergy and Clinical Immunology 109, no. 1 (January 2002): S132. http://dx.doi.org/10.1016/s0091-6749(02)81519-6.

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8

Kuo, Pei-Min, Fang-Hua Chu, Shang-Tzen Chang, Wen-Feng Hsiao, and Sheng-Yang Wang. "Insecticidal activity of essential oil from Chamaecyparis formosensis Matsum." Holzforschung 61, no. 5 (August 1, 2007): 595–99. http://dx.doi.org/10.1515/hf.2007.087.

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Abstract Chamaecyparis formosensis is an endemic precious tree species grown in Taiwan. Based on the results obtained in our current study, the essential oil of C. formosensis wood possesses significant insecticidal activities. In an assay to assess mosquito larvicidal properties, the essential oil completely killed the larvae of Aedes aegypti and Aedes albopictus at a dosage of 100 μg ml-1 in water. Concentrations of the essential oil at a dosage of 0.16 mg cm-3 in air resulted in 100% mortality of silverfish after 2 h. It was found that the extractives of C. formosensis possess multiple bioactivities against insects. There is great potential for the development of insecticides for domestic application to kill mosquito larvae and silverfish based on this raw material.
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9

CORSOLINI, SIMONETTA, NICOLETTA ADEMOLLO, TERESA ROMEO, SILVIA OLMASTRONI, and SILVANO FOCARDI. "Persistent organic pollutants in some species of a Ross Sea pelagic trophic web." Antarctic Science 15, no. 1 (February 26, 2003): 95–104. http://dx.doi.org/10.1017/s0954102003001093.

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Adélie penguin (Pygoscelis adeliae) stomach contents, krill (Euphausia superba and E. crystallorophias) and silverfish (Pleuragramma antarcticum) from the Ross Sea were analysed to determine several persistent organic pollutants (POPs). In discussing the data, the prey-predator linkage between these species was taken into account. Sampling was carried out during the 1995/96 and 1999/00 Italian Antarctic Expeditions. Fifty four polychlorobiphenyls (PCBs) and p,p’-DDE and hexachlorobenzene (HCB) were quantified in stomach contents of penguins nesting at Edmonson Point (Victoria Land) and in whole specimens of silverfish and krill from the Ross Sea. Xenobiotic concentrations in organisms were low compared to data reported for many marine species of lower latitudes and ranged from 0.22 ng g−1 wet wt p,p’-DDE in krill to 161 ng g−1 wet wt PCBs in silverfish. Fingerprints and class of isomer patterns showed a predominance of low chlorinated PCBs, mainly in pelagic organisms. Average input of these POPs through the diet was also evaluated. Concentrations of the most toxic non-ortho PCBs, IUPAC nos 77 (3,3′,4,4′), 126 (3,3′,4,4′,5) and 169 (3,3′,4,4′,5,5′), were 1.63 pg g−1, 7.31 pg g−1 and 0.23 pg g−1 wet wt, respectively, in stomach content samples. Stomach contents had 0.037 pg g−1 wet wt TEQ (Toxic Equivalents) of which penta-CB126 accounted for most of the toxicity.
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10

Sharma, Rachna, and Alka Goel. "Development of insect repellent finish by a simple coacervation microencapsulation technique." International Journal of Clothing Science and Technology 30, no. 2 (April 16, 2018): 152–58. http://dx.doi.org/10.1108/ijcst-02-2017-0022.

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Purpose The paper focused onto the development of microcapsules by using two essential oils. It proposes the uses of eucalyptus oil and cedarwood oil as a natural insecticide. The purpose of this paper is to demonstrate the application of developed microcapsules to impart insect repellency on textile substrate. Design/methodology/approach The paper opted for an experimental study using two essential oils and gum in formations of microcapsules through a simple coaseravtion encapsulation technique. The developed solution was analyzed, including confirmation of size and structure through. Application of developed finish on substrate was also undertaken to prove better ability as repellent fabric. Findings The paper highlights useful invention of microencapsulated fabric developed with the combination of gum acacia and eucalyptus oil as core and shell material. The developed fabric has better ability to repel silverfish as compared to microencapsulated fabric developed with gum acacia (shell) and cedarwood oil (core). Research limitations/implications Due to the lack of time and less availability of essential oils, only two oils were used to test the insect repellent behavior. Practical implications This paper fulfills an identified need, it includes implications for the development of a very useful natural insecticide to repel silverfish (Lepisma saccharina) insect. This insect is a very common problem found in cloth wardrobes and bookshelves; it mainly attacks the fabric with cellulosic content and starch. Social implications Society will get major benefit of using these microencapsulated finished fabrics, which repel silverfish from their home and keep their clothing and books safe for longer period. The natural fragrance and medicinal benefits of these essential oils can never be ignored. Originality/value This study sets a new approach to repel insects like silverfish from the bookshelves and clothing wardrobes. A layer of insect repellent microencapsulated finished fabric can be added in these shelves and wardrobes. It is an eco-friendly approach of using natural essential oils instead of chemical insecticides.
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11

POLITO, MICHAEL, STEVEN D. EMSLIE, and WILLIAM WALKER. "A 1000-year record of Adélie penguin diets in the southern Ross Sea." Antarctic Science 14, no. 4 (December 2002): 327–32. http://dx.doi.org/10.1017/s0954102002000184.

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Non-krill prey remains were recovered from ornithogenic sediments at three active Adélie penguin colonies on Ross Island, to assess long-term dietary trends in this species. Radiocarbon dates place the age of these deposits from a maximum of 947 years ago to the present. We identified 12 taxa of fish and two of squid with the Antarctic silverfish (Pleuragramma antarcticum) as the most abundant prey species represented at all sites. In addition, silverfish have decreased in importance in Adélie penguin diet over the past 600 years, perhaps in response to climate change since the onset of the Little Ice Age, though it remains much more abundant in current penguin diet in the Ross Sea than in the Antarctic Peninsula. Other prey taxa reflect the diversity of prey selection by Adélie penguins in Antarctica.
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12

Smith, Graeme B. "New silverfish taxa from Queensland (Zygentoma: Lepismatidae)." Records of the Australian Museum 67, no. 3 (May 27, 2015): 67–81. http://dx.doi.org/10.3853/j.2201-4349.67.2015.1641.

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13

Large, Maryanne C. J., David R. McKenzie, Andrew R. Parker, Bradley C. Steel, Karen Ho, Stephen G. Bosi, Nicolae Nicorovici, and Ross C. McPhedran. "The mechanism of light reflectance in silverfish." Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 457, no. 2007 (March 8, 2001): 511–18. http://dx.doi.org/10.1098/rspa.2000.0679.

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14

McLure, John W. "Six-legged Math." Mathematics Teacher 80, no. 7 (October 1987): 524–26. http://dx.doi.org/10.5951/mt.80.7.0524.

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Pictures of insects are more likely to appear in older mathematics books than in those published within the last five years. A random sampling of older texts from a dark shelf in a middle school revealed several primitive-looking silverfish, while a new book seemed relatively uninhabited except for one cockroach.
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15

Barletta, Bianca, Gabriella Felice, and Carlo Pini. "Biochemical and Molecular Biological Aspects of Silverfish Allergens." Protein & Peptide Letters 14, no. 10 (October 1, 2007): 970–74. http://dx.doi.org/10.2174/092986607782541123.

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16

Smith, Graeme B. "New silverfish species (Zygentoma: Lepismatidae) from Barrow Island." Records of the Western Australian Museum 30, no. 2 (2015): 98. http://dx.doi.org/10.18195/issn.0312-3162.30(2).2015.098-131.

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17

Clark, C. O. "The Silverfish, an Insect attacking Sized Textile Fibres." Journal of the Society of Dyers and Colourists 43, no. 6 (October 22, 2008): 190–92. http://dx.doi.org/10.1111/j.1478-4408.1927.tb01439.x.

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18

Hong, Seo-Yeon, Jong-Ku Gal, Bo-Yeon Lee, Wu-Ju Son, Jin-Woo Jung, Hyung-Sul La, Kyung-Hoon Shin, Jeong-Hoon Kim, and Sun-Yong Ha. "Regional Differences in the Diets of Adélie and Emperor Penguins in the Ross Sea, Antarctica." Animals 11, no. 9 (September 13, 2021): 2681. http://dx.doi.org/10.3390/ani11092681.

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To identify the dietary composition and characteristics of both Adélie (Pygoscelis adeliae) and Emperor (Aptenodytes forsteri) penguins at four breeding sites, we performed stable carbon (δ13C) and nitrogen (δ15N) isotope analysis of down samples taken from penguin chicks. Adélie Penguin chicks at Cape Hallett mostly fed on Antarctic krill (Euphausia superba; 65.5 ± 3.5%), a reflection of the prevalence of that species near Cape Hallett, and no significant differences were noted between 2017 and 2018. However, Adélie Penguin chicks at Inexpressible Island, located near Terra Nova Bay, fed on both Antarctic silverfish (Pleuragramma antarctica; 42.5%) and ice krill (Euphausia crystallorophias; 47%), reflecting the high biomass observed in Terra Nova Bay. Meanwhile, no significant difference was noted between the two breeding sites of the Emperor Penguin. Emperor Penguin chicks predominantly fed on Antarctic silverfish (74.5 ± 2.1%) at both breeding sites (Cape Washington and Coulman Island), suggesting that diet preference represents the main factor influencing Emperor Penguin foraging. In contrast, the diet of the Adélie Penguin reflects presumed regional differences in prey prevalence, as inferred from available survey data.
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Kulma, Martin, Terezie Bubová, Matthew Paul Davies, Federica Boiocchi, and Jiří Patoka. "Ctenolepisma longicaudatum Escherich (1905) Became a Common Pest in Europe: Case Studies from Czechia and the United Kingdom." Insects 12, no. 9 (September 10, 2021): 810. http://dx.doi.org/10.3390/insects12090810.

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Synanthropic invasive silverfish, Ctenolepisma longicaudatum, has been recently reported to cause nuisance in the indoor environment in many European countries. To get more details on the species distribution, the species occurrence was monitored by the authors in the countries where establishment of C. longicaudatum has been revealed in the last years. In Czechia, 20 findings from 14 municipalities in eight regions were recorded within the last three years. In the United Kingdom, 49 cases, including the first occurrence in Scotland, were recorded. Five cases were recorded for the Republic of Ireland. Domestic settings were the main habitat in the study countries (50.0% for the Czechia and Ireland and 36.8% for the United Kingdom). Regarding C. longicaudatum control, the standard silverfish strategy fails, and the use of insecticidal baits complemented by dust insecticides was suggested as the most promising approach. To reveal presence of C. longicaudatum in Europe, the search of literature, social platforms and databases on invasive species was conducted. According to these sources, the species is known from majority of European countries, when the high increase of records in recent decade was detected.
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20

Kaplin, V. G., and V. G. Vasin. "A new species of silverfish of the genus Persiatelurina Molero et al. (Zygentoma: Nicoletiidae) from Daghestan." Zoosystematica Rossica 28, no. 1 (April 30, 2019): 88–93. http://dx.doi.org/10.31610/zsr/2019.28.1.88.

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A new species of silverfish, Persiatelurina daghestaniana Kaplin, sp. nov., is described from Daghestan. It differs from other species of this genus, P. caucasica (Kaplin, 2016) from Abkhazia and P. farsiana Molero et al., 2018 from Southwestern Iran, by the structure of the legs, maxillae, maxillary and labial palps, pronotum, urotergite X, urosternites II and VII, urocoxites VIII and IX, subgenital plate, and ovipositor.
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21

REBOLEIRA, ANA SOFIA P. S., FERNANDO GONÇALVES, PEDRO OROMÍ, and LUIS F. MENDES. "Squamatinia algharbica gen. n. sp. n., a remarkable new Coletiniinae silverfish (Zygentoma: Nicoletiidae) from caves in southern Portugal." Zootaxa 3260, no. 1 (April 6, 2012): 33. http://dx.doi.org/10.11646/zootaxa.3260.1.3.

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A new genus of Coletiniinae silverfish (Nicoletiidae) similar to Coletinia Wygodzinsky and Lepidospora Escherich isdescribed to accommodate the new species Squamatinia algharbica gen. n. sp. n. Many individuals were collected overall seasons of the year in four caves of the Algarve karst massif in the south of Portugal. An identification key for the known genera of Coletiniinae is provided, as well as some biogeographical and ecological comments.
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22

Engel, Michael S. "A note on the relic silverfish Tricholepidion gertschi (Zygentoma)." Transactions of the Kansas Academy of Science 109, no. 3 & 4 (September 2006): 236–38. http://dx.doi.org/10.1660/0022-8443(2006)109[236:anotrs]2.0.co;2.

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23

CHICK, ANDREW I. R. "A Revised Checklist of the UK Silverfish (Zygentoma: Lepismatidae)." Zootaxa 4504, no. 3 (October 25, 2018): 447. http://dx.doi.org/10.11646/zootaxa.4504.3.10.

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With the discovery of Ctenolepisma longicaudata by Goddard et al. (2016) and the record of Ctenolepisma lineata as a possible introduced pest by Notton (2018), as well as the changes to the higher classification reported by Barnard (2011), the current number of UK Lepismatidae (silverfish and firebrats) that an entomologist might encounter has doubled. Therefore, the most recent checklist (Kloet & Hicks 1964) is in need of revision. This paper aims to provide an updated check list, guide to keys that can be used to Identify UK Lepismatidae as well as to provide an overview of UK species.
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24

Aak, Anders, Morten Hage, and Bjørn Arne Rukke. "Long-Tailed Silverfish (Ctenolepisma longicaudata) Control; Bait Choice Based on Primary and Secondary Poisoning." Insects 11, no. 3 (March 7, 2020): 170. http://dx.doi.org/10.3390/insects11030170.

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The long-tailed silverfish (Ctenolepisma longicaudata) has recently made its appearance and demonstrated a tremendous proliferation in Norway, where it is currently considered a major indoor nuisance pest in modern buildings. To reduce the risk of human pesticide exposure, several baits with indoxacarb, clothianidin, fipronil or imidacloprid as the active ingredient were investigated to provide knowledge regarding their potential for integrated pest management solutions. Primary and secondary poisoning, as well as the durability of baits, were experimentally evaluated in bioassays. Baits with indoxacarb, clothianidin and fipronil killed more than 90% of the experimental insects (primary poisoning) when presented in competition with food. Only indoxacarb produced high mortality when dead conspecifics were consumed (secondary poisoning) and resulted in more than 75% mortality. The efficacy of baits with indoxacarb against C. longicaudata was also found to be very long. Laboratory degraded baits were consumed and induced high levels of mortality for more than a month, and field degraded baits for more than 6 months. Adults and juveniles were equally affected in the experiments. Primary and secondary toxicity in combination with long durability and effects on both life stages tested suggest that the bait has high-level potential as a safe control strategy against the long-tailed silverfish if indoxacarb is used as the active ingredient.
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Smith, Graeme B. "On some silverfish taxa from Tasmania (Zygentoma: Lepismatidae and Nicoletiidae)." Records of the Australian Museum 68, no. 2 (July 21, 2016): 45–80. http://dx.doi.org/10.3853/j.2201-4349.68.2016.1652.

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Boquete, M., F. Pineda, A. Mazon, A. Garcia, F. Oliver, N. Colomer, R. Pamies, et al. "Sensitisation to Lepisma saccharina (silverfish) in children with respiratory allergy." Allergologia et Immunopathologia 36, no. 4 (August 2008): 191–95. http://dx.doi.org/10.1016/s0301-0546(08)72548-5.

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Everson, Inigo. "THE ANTARCTIC SILVERFISH: A KEYSTONE SPECIES IN A CHANGING ECOSYSTEM." Journal of Fish Biology 93, no. 5 (November 2018): 1028. http://dx.doi.org/10.1111/jfb.13838.

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Boquete, M., F. Pineda, A. Mazon, A. Garcia, F. Oliver, N. Colomer, R. Pamies, et al. "Sensitisation to Lepisma saccharina (silverfish) in children with respiratory allergy." Allergologia et Immunopathologia 36, no. 4 (July 1, 2008): 191–95. http://dx.doi.org/10.1157/13127041.

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29

Mendes, Luis F., and George O. Poinar. "A new fossil silverfish (Zygentoma: Insecta) in Mesozoic Burmese amber." European Journal of Soil Biology 44, no. 5-6 (September 2008): 491–94. http://dx.doi.org/10.1016/j.ejsobi.2008.07.009.

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30

Hamana, Koei, Hideyuki Uemiya, and Masaru Niitsu. "Polyamines of primitive apterygotan insects: springtails, silverfish and a bristletail." Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 137, no. 1 (January 2004): 75–79. http://dx.doi.org/10.1016/j.cbpc.2003.10.003.

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31

Wöhrmann, Andreas P. A. "Antifreeze glycopeptides of the high-Antarctic silverfish Pleuragramma antarcticum (Notothenioidei)." Comparative Biochemistry and Physiology Part C: Pharmacology, Toxicology and Endocrinology 111, no. 1 (May 1995): 121–29. http://dx.doi.org/10.1016/0742-8413(95)00007-t.

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32

Ponganis, P. J., and T. K. Stockard. "Short Note: The Antarctic toothfish: how common a prey for Weddell seals?" Antarctic Science 19, no. 4 (October 1, 2007): 441–42. http://dx.doi.org/10.1017/s0954102007000715.

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The Antarctic toothfish (Dissostichus mawsoni Norman) has been considered an occasional large prey item of the Weddell seal (Leptonychotes weddellii Lesson) (Kooyman 1967, Calhaem & Christoffel 1969, Testa et al. 1985, Castellini et al. 1992, Davis et al. 1999, Fuiman et al. 2002). The seal's most common prey is the Antarctic silverfish (Pleuragramma antarcticum Boulenger) as well as benthic and sub-ice fish, cephalopods, and crustaceans (Dearborn 1965, Green & Burton 1987, Plotz 1987, Plotz et al. 1991, Castellini et al. 1992, Burns et al. 1998).
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33

Mendes, Luis F., Eduardo G. P. Fox, Daniel R. Solis, and Odair C. Bueno. "New Nicoletiidae (Zygentoma: Insecta) from Brazil living in fire-ant (Hymenoptera: Insecta) nests." Papéis Avulsos de Zoologia 49, no. 34 (2009): 467–75. http://dx.doi.org/10.1590/s0031-10492009003400001.

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A new myrmecophilous silverfish (Zygentoma: Nicoletiidae: Subnicoletiinae) from Rio de Janeiro, Brazil, found living in fire ant (Solenopsis saevissima, Formicidae: Myrmicinae) nests is described: Allotrichotriura saevissima gen. nov. sp. nov. is compared with the other genera and subgenera known in the subfamily. The main diagnostic features would include the combination of body shape, body and head setation, morphology of praetarsus, and number of abdominal stylets and vesicles. Although further quests were attempted at the type-locality, only the original described material, exclusively composed of females, remains known.
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34

Olaso, Ignacio, Antoni Lombarte, and Francisco Velasco. "Daily ration of Antarctic silverfish (Pleuragramma antarcticum Boulenger, 1902) in the Eastern Weddell Sea." Scientia Marina 68, no. 3 (September 30, 2004): 419–24. http://dx.doi.org/10.3989/scimar.2004.68n3419.

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35

ZANE, L., S. MARCATO, L. BARGELLONI, E. BORTOLOTTO, C. PAPETTI, M. SIMONATO, V. VAROTTO, and T. PATARNELLO. "Demographic history and population structure of the Antarctic silverfish Pleuragramma antarcticum." Molecular Ecology 15, no. 14 (September 6, 2006): 4499–511. http://dx.doi.org/10.1111/j.1365-294x.2006.03105.x.

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Lee, Jungeun, Hyoungseok Lee, Jongkyu Lee, Jungeun Choi, and Hyun Park. "Complete mitochondrial genome of the Antarctic silverfish,Pleuragramma antarcticum(Perciformes, Nototheniidae)." Mitochondrial DNA 26, no. 6 (January 10, 2014): 885–86. http://dx.doi.org/10.3109/19401736.2013.861443.

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37

Walker, Andrew A., Jeffrey S. Church, Andrea L. Woodhead, and Tara D. Sutherland. "Silverfish silk is formed by entanglement of randomly coiled protein chains." Insect Biochemistry and Molecular Biology 43, no. 7 (July 2013): 572–79. http://dx.doi.org/10.1016/j.ibmb.2013.03.014.

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38

Brimblecombe, Peter, and Pascal Querner. "Silverfish (Zygentoma) in Austrian Museums before and during COVID-19 lockdown." International Biodeterioration & Biodegradation 164 (October 2021): 105296. http://dx.doi.org/10.1016/j.ibiod.2021.105296.

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39

Espinasa, Luis, Emily Collins, and Kimberly Socci. "A New Species of Genus Anelpistina and the Second Described Nicoletiid (Zygentoma: Insecta) Species from the Mayan Ruins of Palenque, Chiapas, Mexico." ISRN Zoology 2012 (December 2, 2012): 1–4. http://dx.doi.org/10.5402/2012/802371.

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Recent studies on the American nicoletiid insects (“silverfish”) of the subfamily Cubacubaninae have shown that the group is more species rich than previously recognized. It has become common to find that a single locality is inhabited by more than one species of nicoletiid. In previous studies, a species from genus Squamigera had been described from the rainforest surrounding the Mayan ruins of Palenque, Chiapas, Mexico. We report here the presence of two more species of nicoletiids in the same locality and we describe here a new species of genus Anelpistina. DNA sequence data and morphology are provided to differentiate these species.
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40

Brasso, RL, J. Lang, CD Jones, and MJ Polito. "Ontogenetic niche expansion influences mercury exposure in the Antarctic silverfish Pleuragramma antarcticum." Marine Ecology Progress Series 504 (May 14, 2014): 253–63. http://dx.doi.org/10.3354/meps10738.

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41

Bai, Yu, Jun Chen, Guoyong Li, Hui Wang, Jianlin Luo, and Can Li. "Complete mitochondrial genome of the common silverfish Lepisma saccharina (Insecta: Zygentoma: Lepismatidae)." Mitochondrial DNA Part B 5, no. 2 (March 24, 2020): 1552–53. http://dx.doi.org/10.1080/23802359.2020.1742598.

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42

Lau-Greig, Deborah. "DETERMINATION OF TASTE PREFERENCES OF SILVERFISH AND EFFICIENCY OF THREE BAIT RECIPES." AICCM Bulletin 18, no. 1-2 (December 1992): 45–50. http://dx.doi.org/10.1179/bac.1992.18.1-2.003.

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43

WITTEMAN, A. M., R. VOORNEMAN, S. VAN DEN OUDENRIJN, J. VAN LEEUWEN, J. AKKERDAAS, J. S. VAN DER ZEE, and R. C. AALBERSE. "Silverfish protein in house dust in relation to mite and total arthropod level." Clinical Experimental Allergy 26, no. 10 (October 1996): 1171–76. http://dx.doi.org/10.1046/j.1365-2222.1996.d01-265.x.

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44

Brooks, Cassandra M., Jilda Alicia Caccavo, Julian Ashford, Robert Dunbar, Kimberly Goetz, Mario La Mesa, and Lorenzo Zane. "Early life history connectivity of Antarctic silverfish (Pleuragramma antarctica) in the Ross Sea." Fisheries Oceanography 27, no. 3 (January 25, 2018): 274–87. http://dx.doi.org/10.1111/fog.12251.

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45

Masumoto, M., and R. Machida. "Development of embryonic membranes in the silverfish Lepisma saccharina Linnaeus (Insecta: Zygentoma, Lepismatidae)." Tissue and Cell 38, no. 3 (June 2006): 159–69. http://dx.doi.org/10.1016/j.tice.2006.01.004.

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46

Aak, Anders, Morten Hage, Heidi Heggen Lindstedt, and Bjørn Arne Rukke. "Development of a Poisoned Bait Strategy against the Silverfish Ctenolepisma longicaudata (Escherich, 1905)." Insects 11, no. 12 (December 1, 2020): 852. http://dx.doi.org/10.3390/insects11120852.

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Pest management strives to be an efficient, yet healthy and environmentally safe control method, and the use of poisoned bait often fulfils these criteria. In the present study, we show that bait with indoxacarb as the active ingredient is highly efficient for controlling Ctenolepisma longicaudata (Escherich, 1905) and two of its relatives, Lepisma saccharina (Linnaeus, 1758) and Ctenolepisma calva (Ritter, 1910). Applying small bait droplets (size ~10 mg) along the walls of several types of buildings, at no more than 0.5 to 1.0 g bait per 100 m2, was a cost-efficient and safe strategy for the knockdown and eradication of C. longicaudata. During field experiments, the demography changed from an initial mixture of different stages to total dominance of early instars preceding the population collapse. Poisonous bait outcompeted mass-trapping with sticky-traps and conventional insect spray treatment for the efficient control of C. longicaudata in apartments. Different droplet densities (1 vs. 0.5/m2) and active ingredients (indoxacarb vs. clothianidin) did not have different effects in field experiments. These results show that poisoned bait is a highly relevant tool for managing C. longicaudata and potentially against other silverfish infestations.
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WITTEMAN, A. M., R. VOORNEMAN, S. VAN DEN OUDENRIJN, J. VAN LEEUWEN, J. AKKERDAAS, J. S. VAN DER ZEE, and R. C. AALBERSE. "Silverfish protein in house dust in relation to mite and total arthropod level." Clinical & Experimental Allergy 26, no. 10 (October 1996): 1171–76. http://dx.doi.org/10.1111/j.1365-2222.1996.tb00504.x.

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48

La Mesa, Mario, and Joseph T. Eastman. "Antarctic silverfish: life strategies of a key species in the high-Antarctic ecosystem." Fish and Fisheries 13, no. 3 (July 14, 2011): 241–66. http://dx.doi.org/10.1111/j.1467-2979.2011.00427.x.

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Evans, Clive W., David E. Williams, Marino Vacchi, Margaret A. Brimble, and Arthur L. DeVries. "Metabolic and behavioural adaptations during early development of the Antarctic silverfish, Pleuragramma antarcticum." Polar Biology 35, no. 6 (November 30, 2011): 891–98. http://dx.doi.org/10.1007/s00300-011-1134-7.

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Ghigliotti, Laura, Sara Ferrando, Erica Carlig, Davide Di Blasi, Lorenzo Gallus, Eva Pisano, Stuart Hanchet, and Marino Vacchi. "Reproductive features of the Antarctic silverfish (Pleuragramma antarctica) from the western Ross Sea." Polar Biology 40, no. 1 (April 21, 2016): 199–211. http://dx.doi.org/10.1007/s00300-016-1945-7.

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