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Journal articles on the topic 'Jumping bristletails'

Author: Grafiati
Published: 4 June 2025
Last updated: 14 July 2025

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1

Parisky, K. M. "JUMPING BRISTLETAILS - A GLIMPSE INTO THE ANCIENT INSECT NOSE." Journal of Experimental Biology 214, no. 23 (2011): vi. http://dx.doi.org/10.1242/jeb.050039.

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2

Sánchez‐García, Alba, Enrique Peñalver, Xavier Delclòs, and Michael S. Engel. "Jumping bristletails (Insecta, Archaeognatha) from the Lower Cretaceous amber of Lebanon." Papers in Palaeontology 5, no. 4 (2019): 679–97. http://dx.doi.org/10.1002/spp2.1261.

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3

Dejaco, Thomas, Wolfgang Arthofer, H. David Sheets, et al. "A toolbox for integrative species delimitation in Machilis jumping bristletails (Microcoryphia: Machilidae)." Zoologischer Anzeiger - A Journal of Comparative Zoology 251, no. 4 (2012): 307–16. http://dx.doi.org/10.1016/j.jcz.2011.12.005.

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4

Jong, Grant D. De. "New Species and New Records of Jumping Bristletails from the Rocky Mountains (Microcoryphia: Meinertellidae, Machilidae)." Proceedings of the Entomological Society of Washington 116, no. 3 (2014): 255–72. http://dx.doi.org/10.4289/0013-8797.116.3.255.

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5

Cen, Wei, Jia-Wen Li, Jia-Tao He, et al. "Morpho-Molecular Discordance and Cryptic Diversity in Jumping Bristletails: A Mitogenomic Analysis of Pedetontus silvestrii (Insecta: Archaeognatha: Machilidae)." Insects 16, no. 5 (2025): 452. https://doi.org/10.3390/insects16050452.

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Archaeognatha (bristletails) represent an evolutionarily significant but understudied insect group. Notably, the morphological identification method proposed by Mendes for Archaeognatha has certain limitations, which may lead to the underestimation or misidentification of some cryptic species. To address this issue, we employed an integrated strategy that combines morphological and molecular identification methods. Therefore, this study aimed to (1) identify cryptic diversity within Pedetontus silvestrii using mitogenomic data; (2) clarify phylogenetic relationships among Archaeognatha lineages; and (3) estimate divergence times for key taxonomic splits. We analyzed mitochondrial genomes from six P. silvestrii populations (Liaoning, Jilin, and Hebei Provinces) alongside 14 published Archaeognatha genomes. Key findings include the following: (1) Integrative analyses of genetic distances, phylogenetic reconstruction, bPTP-based molecular species delimitation, and divergence time estimation collectively revealed four evolutionarily distinct lineages within P. silvestrii. (2) Machilidae and Machilinae were non-monophyletic, whereas Petrobiellinae showed close affinity to Meinertellidae. (3) Archaeognatha originated ~301.19 Mya (Late Carboniferous); the Machilinae–Petrobiinae split occurred approximately 153.99 Mya (Jurassic). This study underscores the critical importance of mitogenomic analysis in elucidating cryptic biodiversity, while emphasizing the necessity of integrating morphological identification with molecular characterization for comprehensive species delineation in future taxonomic investigations.
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6

Dejaco, Thomas, Melitta Gassner, Wolfgang Arthofer, Birgit C. Schlick-Steiner, and Florian M. Steiner. "Taxonomist’s Nightmare … Evolutionist’s Delight : An Integrative Approach Resolves Species Limits in Jumping Bristletails Despite Widespread Hybridization and Parthenogenesis." Systematic Biology 65, no. 6 (2016): 947–74. http://dx.doi.org/10.1093/sysbio/syw003.

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7

Yanoviak, Stephen P., Yonatan Munk, and Robert Dudley. "Arachnid aloft: directed aerial descent in neotropical canopy spiders." Journal of The Royal Society Interface 12, no. 110 (2015): 20150534. http://dx.doi.org/10.1098/rsif.2015.0534.

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The behaviour of directed aerial descent has been described for numerous taxa of wingless hexapods as they fall from the tropical rainforest canopy, but is not known in other terrestrial arthropods. Here, we describe similar controlled aerial behaviours for large arboreal spiders in the genus Selenops (Selenopidae). We dropped 59 such spiders from either canopy platforms or tree crowns in Panama and Peru; the majority (93%) directed their aerial trajectories towards and then landed upon nearby tree trunks. Following initial dorsoventral righting when necessary, falling spiders oriented themselves and then translated head-first towards targets; directional changes were correlated with bilaterally asymmetric motions of the anterolaterally extended forelegs. Aerial performance (i.e. the glide index) decreased with increasing body mass and wing loading, but not with projected surface area of the spider. Along with the occurrence of directed aerial descent in ants, jumping bristletails, and other wingless hexapods, this discovery of targeted gliding in selenopid spiders further indicates strong selective pressures against uncontrolled falls into the understory for arboreal taxa.
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8

De, Jong Grant D. "Jumping bristletail (Insecta: Apterygota: Microcoryphia) records in the southeastern United States." Insecta Mundi, no. 755 (February 28, 2020): 1–8. https://doi.org/10.5281/zenodo.3703027.

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9

Jong, Grant D. De. "Report of Trigoniophthalmus alternatus (Silvestri, 1904) (Insecta: Microcoryphia: Machilidae) in Southern West Virginia, USA." Check List 9, no. 2 (2013): 467. http://dx.doi.org/10.15560/9.2.467.

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The introduced jumping bristletail, Trigoniophthalmus alternatus (Silvestri, 1904), is reported from the state of West Virginia, USA, for the first time. This location extends the range of this species 380 km southwest of its nearest previously reported locality.
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10

De, Jong Alexander B. Orfinger Grant D. "The first record of the jumping bristletail Pedetontus gershneri Allen, 1995 (Microcoryphia: Machilidae) from Alabama, USA significantly extends its known range." Insecta Mundi 2021, no. 894 (2021): 1–4. https://doi.org/10.5281/zenodo.12808431.

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De Jong, Alexander B. Orfinger Grant D. (2021): The first record of the jumping bristletail Pedetontus gershneri Allen, 1995 (Microcoryphia: Machilidae) from Alabama, USA significantly extends its known range. Insecta Mundi 2021 (894): 1-4, DOI: 10.5281/zenodo.12808431
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11

Jong, Grant. "Report of Trigoniophthalmus alternatus (Silvestri, 1904) (Insecta: Microcoryphia: Machilidae) in Southern West Virginia, USA." Check List 9, no. (2) (2013): 467–68. https://doi.org/10.15560/9.2.467.

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The introduced jumping bristletail, <em>Trigoniophthalmus alternatus </em>(Silvestri, 1904), is reported from the state of West Virginia, USA, for the first time. This location extends the range of this species 380 km southwest of its nearest previously reported locality.
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12

Bowser, Matthew L. "Archaeognatha of Canada." ZooKeys 819 (January 24, 2019): 205–9. https://doi.org/10.3897/zookeys.819.23572.

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Current knowledge of the Canadian bristletail (Archaeognatha) fauna is summarized and compared with Tomlin's 1979 chapter on the group in Canada and Its Insect Fauna. Since that time the number of species known from Canada has increased from three to eight. While much work remains to be done to document an estimated eight additional species from Canada, this can be accomplished using an integrated approach.
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13

Riquelme, Francisco, Maira Montejo-Cruz, Bibiano Luna-Castro, and Luis Zuñiga-Mijangos. "Fossil Jumping-bristletail from the Chiapas amber: Neomachilellus (Praeneomachilellus) ezetaelenensis sp. nov. (Microcoryphia: Meinertellidae)." Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen 275, no. 1 (2015): 93–106. http://dx.doi.org/10.1127/njgpa/2015/0453.

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14

Packauskas, Richard J., and Ryan M. Shofner. "A New Species of Jumping Bristletail from Kansas (Microcoryphia: Meinertellidae: Hypomachilodes Silvestri, 1911)." Journal of the Kansas Entomological Society 83, no. 4 (2010): 340–46. http://dx.doi.org/10.2317/jkes1003.02.1.

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15

Haug, Joachim T., Christian W. Hädicke, Carolin Haug, and Marie K. Hörnig. "A possible hatchling of a jumping bristletail in 50 million years old amber." Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen 278, no. 2 (2015): 191–99. http://dx.doi.org/10.1127/njgpa/2015/0523.

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16

Rinnhofer, Lukas J., Núria Roura-Pascual, Wolfgang Arthofer, et al. "Iterative species distribution modelling and ground validation in endemism research: an Alpine jumping bristletail example." Biodiversity and Conservation 21, no. 11 (2012): 2845–63. http://dx.doi.org/10.1007/s10531-012-0341-z.

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17

Baldo, Laura, Alan de Queiroz, Marshal Hedin, Cheryl Y. Hayashi, and John Gatesy. "Nuclear–Mitochondrial Sequences as Witnesses of Past Interbreeding and Population Diversity in the Jumping Bristletail Mesomachilis." Molecular Biology and Evolution 28, no. 1 (2010): 195–210. http://dx.doi.org/10.1093/molbev/msq193.

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18

PALACIOS-MARTINEZ, IÑIGO. "New species of Neomachilellus Wygodzinsky 1953 (Insecta: Archaeognatha: Meinertellidae) from Madre de Dios, Peru." Zootaxa 5448, no. 3 (2024): 417–29. http://dx.doi.org/10.11646/zootaxa.5448.3.5.

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This study describes a new species of jumping bristletail, Neomachilellus mercurialis sp. nov., discovered during a research expedition at the Los Amigos Biological Station in Madre de Dios, Peru. The specimens could not be morphologically assigned to any known species within the genus Neomachilellus s. str. Wygodzinsky 1953. Morphological examination revealed distinct differences in various characters, morphometric measurements, and pigmentation patterns compared to other species. The new species exhibits submedian, widened, oval-shaped ocelli, pigmentation on articles I‒VII of the maxillary palpi, and strong pigment on the femora, tibiae, and tarsi of the legs. Notably, femora and tibiae lack spines or prominent spiniform setae, while the tarsi feature spine-like setae characteristic of the nominal subgenus. The newly discovered species shares a close relationship with other taxa of Neomachilellus, specifically belonging to the muticus-group of species. Urgent taxonomic revision and molecular studies are warranted for this genus, emphasizing the ongoing challenges in understanding Archaeognatha.
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19

Machida, Ryuichiro, and Hiroshi Ando. "Reduction of lateral yolk folds in flattened eggs of a jumping bristletail, Pedetontus unimaculatus Machida (Microcoryphia : Machilidae)." International Journal of Insect Morphology and Embryology 23, no. 3 (1994): 293–95. http://dx.doi.org/10.1016/0020-7322(94)90025-6.

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20

Leo, Chiara, Francesco Nardi, Francesco Frati, et al. "The mitogenome of the jumping bristletail Trigoniophthalmus alternatus (Insecta, Microcoryphia) and the phylogeny of insect early-divergent lineages." Mitochondrial DNA Part B 4, no. 2 (2019): 2855–56. http://dx.doi.org/10.1080/23802359.2019.1660592.

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21

Nakagaki, Yasutaka, Masashi Sakuma, and Ryuichiro Machida. "Expression of engrailed-family genes in the jumping bristletail and discussion on the primitive pattern of insect segmentation." Development Genes and Evolution 225, no. 5 (2015): 313–18. http://dx.doi.org/10.1007/s00427-015-0512-5.

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22

Gassner, Melitta, Thomas Dejaco, Peter Schönswetter, et al. "Extensive variation in chromosome number and genome size in sexual and parthenogenetic species of the jumping‐bristletail genus Machilis (Archaeognatha)." Ecology and Evolution 4, no. 21 (2014): 4093–105. http://dx.doi.org/10.1002/ece3.1264.

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