Thematische Bibliographien / Myriapode / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Myriapode“

Autor: Grafiati
Veröffentlicht am 25. Januar 2025
Zuletzt aktualisiert am 31. Juli 2025

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1

Edgecombe, Gregory D. "Morphological data, extant Myriapoda, and the myriapod stem-group." Contributions to Zoology 73, no. 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 siste
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2

Edgecombe, Gregory D., Christine Strullu-Derrien, Tomasz Góral, Alexander J. Hetherington, Christine Thompson, and Markus Koch. "Aquatic stem group myriapods close a gap between molecular divergence dates and the terrestrial fossil record." Proceedings of the National Academy of Sciences 117, no. 16 (2020): 8966–72. http://dx.doi.org/10.1073/pnas.1920733117.

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Identifying marine or freshwater fossils that belong to the stem groups of the major terrestrial arthropod radiations is a longstanding challenge. Molecular dating and fossils of their pancrustacean sister group predict that myriapods originated in the Cambrian, much earlier than their oldest known fossils, but uncertainty about stem group Myriapoda confounds efforts to resolve the timing of the group’s terrestrialization. Among a small set of candidates for membership in the stem group of Myriapoda, the Cambrian to Triassic euthycarcinoids have repeatedly been singled out. The only known Devo
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3

Le, Bras Gwenaël, Jean-Jacques Geoffroy, Laurent Albenga, and Jean-Paul Mauriès. "The Myriapoda and Onychophora collection (MY) of the Muséum national d'Histoire naturelle (MNHN, Paris)." ZooKeys 518 (August 25, 2015): 139–53. https://doi.org/10.3897/zookeys.518.10223.

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The Myriapoda and Onychophora collection dataset inventories the occurrence records of the collection of myriapods and onychophorans in the Muséum national d'Histoire naturelle, Paris. The dataset currently consists of 202 lots of onychophorans, representing all of those present, and almost ten thousand (9 795) lots of myriapods, representing 33 to 40% of the MNHN Myriapoda collection. This collection, which is of key historic importance, represents the results of two centuries of myriapod and onychophoran studies. The sources of the collection are worldwide, with a high representation for met
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4

Karam-Gemael, Manoela, Peter Decker, Pavel Stoev, Marinez I. Marques, and Amazonas Chagas Jr. "Conservation of terrestrial invertebrates: a review of IUCN and regional Red Lists for Myriapoda." ZooKeys 930 (April 28, 2020): 221–29. http://dx.doi.org/10.3897/zookeys.930.48943.

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Red Listing of Threatened species is recognized as the most objective approach for evaluating extinction risk of living organisms which can be applied at global or national scales. Invertebrates account for nearly 97% of all animals on the planet but are insufficiently represented in the IUCN Red Lists at both scales. To analyze the occurrence of species present in regional Red Lists, accounts of 48 different countries and regions all over the world were consulted and all data about myriapods (Myriapoda) ever assessed in Red Lists at any level assembled. Myriapod species assessments were found
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Karam-Gemael, Manoela, Peter Decker, Pavel Stoev, Marinez I. Marques, and Jr Amazonas Chagas. "Conservation of terrestrial invertebrates: a review of IUCN and regional Red Lists for Myriapoda." ZooKeys 930 (April 28, 2020): 221–29. https://doi.org/10.3897/zookeys.930.48943.

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Red Listing of Threatened species is recognized as the most objective approach for evaluating extinction risk of living organisms which can be applied at global or national scales. Invertebrates account for nearly 97% of all animals on the planet but are insufficiently represented in the IUCN Red Lists at both scales. To analyze the occurrence of species present in regional Red Lists, accounts of 48 different countries and regions all over the world were consulted and all data about myriapods (Myriapoda) ever assessed in Red Lists at any level assembled. Myriapod species assessments were found
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6

Lozano-Fernandez, Jesus, Robert Carton, Alastair R. Tanner, et al. "A molecular palaeobiological exploration of arthropod terrestrialization." Philosophical Transactions of the Royal Society B: Biological Sciences 371, no. 1699 (2016): 20150133. http://dx.doi.org/10.1098/rstb.2015.0133.

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Understanding animal terrestrialization, the process through which animals colonized the land, is crucial to clarify extant biodiversity and biological adaptation. Arthropoda (insects, spiders, centipedes and their allies) represent the largest majority of terrestrial biodiversity. Here we implemented a molecular palaeobiological approach, merging molecular and fossil evidence, to elucidate the deepest history of the terrestrial arthropods. We focused on the three independent, Palaeozoic arthropod terrestrialization events (those of Myriapoda, Hexapoda and Arachnida) and showed that a marine r
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7

Shear, William A. "Myriapodous arthropods from the Viséan of East Kirkton, West Lothian, Scotland." Earth and Environmental Science Transactions of the Royal Society of Edinburgh 84, no. 3-4 (1993): 309–16. http://dx.doi.org/10.1017/s026359330000612x.

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ABSTRACTSeveral specimens of myriapodous arthropods have been discovered at the early Carboniferous East Kirkton site near Bathgate, West Lothian, Scotland. None is particularly well preserved, but they are the earliest known Carboniferous myriapods, filling the time gap between the Old Red Sandstone of the early Devonian and the abundant myriapod faunas of the late Carboniferous (Pennsylvanian). One of the specimens, a milliped, provides the earliest evidence for both ozopores (repugnatorial gland openings) and spiracles. A second milliped specimen has some characteristics of the living Order
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8

Stoev, Pavel, Marzio Zapparoli, Sergei Golovatch, Henrik Enghoff, Nesrine Akkari, and Anthony Barber. "Myriapods (Myriapoda). Chapter 7.2." BioRisk 4 (July 6, 2010): 97–130. http://dx.doi.org/10.3897/biorisk.4.51.

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9

Stoev, Pavel, Marzio Zapparoli, Sergei Golovatch, Henrik Enghoff, Nesrine Akkari, and Anthony Barber. "Myriapods (Myriapoda). Chapter 7.2." BioRisk 4 (July 6, 2010): 97–130. https://doi.org/10.3897/biorisk.4.51.

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Alien myriapods in Europe have never been subject to a comprehensive review. Currently, 40 species belonging to 23 families and 11 orders can be regarded as alien to Europe, which accounts approximately for about 1.8% of all species known on the continent. Millipedes (Class Diplopoda) are represented by 20 alien species, followed by centipedes (Class Chilopoda) with 16, symphylans with 3 and pauropods with only 1. In addition there are numerous cases of continental species introduced to the Atlantic and Mediterra
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Ospina Bautista, Fabiola, Pablo A. López Bedoya, Jaime Vicente Estévez, Daniela Martínez Torres, and Sebastián Galvis Jiménez. "Restoration strategy drives the leaf litter myriapod richness (Arthropoda: Myriapoda) on a protected area." Boletín Científico Centro de Museos Museo de Historia Natural 26, no. 1 (2022): 13–23. http://dx.doi.org/10.17151/bccm.2022.26.1.1.

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Objective: To determine the leaf litter myriapod community in two restoration strategies of a protective area of Colombia, a secondary forest and an Andean alder plantation. Scope: The knowledge of the biodiversity of invertebrates associated with leaf litter breakdown in restoration forests may contribute to assessing the restoration process efficiency and success. Within this forested soil biodiversity framework, myriapods influence organic matter dynamics by transforming leaf litter (or other plant-derived materials), reducing the surface of decomposition, and affecting decomposer communiti
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11

Dong, Yan, Lixin Zhu, Yu Bai, Yongyue Ou, and Changbao Wang. "Complete mitochondrial genomes of two flat-backed millipedes by next-generation sequencing (Diplopoda, Polydesmida)." ZooKeys 637 (November 28, 2016): 1–20. https://doi.org/10.3897/zookeys.637.9909.

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A lack of mitochondrial genome data from myriapods is hampering progress across genetic, systematic, phylogenetic and evolutionary studies. Here, the complete mitochondrial genomes of two millipedes, Asiomorpha coarctata Saussure, 1860 (Diplopoda: Polydesmida: Paradoxosomatidae) and Xystodesmus sp. (Diplopoda: Polydesmida: Xystodesmidae) were assembled with high coverage using Illumina sequencing data. The mitochondrial genomes of the two newly sequenced species are circular molecules of 15,644 bp and 15,791 bp, within which the typical mitochondrial genome complement of 13 protein-coding gene
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12

Langor, David W., Jeremy R. deWaard, and Bruce A. Snyder. "Myriapoda of Canada." ZooKeys 819 (January 24, 2019): 169–86. http://dx.doi.org/10.3897/zookeys.819.29447.

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The currently documented fauna of described species of myriapods in Canada includes 54 Chilopoda, 66 Diplopoda, 23 Pauropoda, and two Symphyla, representing increases of 24, 23, 23, and one species, respectively, since 1979. Of the 145 myriapod species currently documented, 40 species are not native to Canada. The myriapods have not been well documented with DNA barcodes and no barcodes are available for Pauropoda. It is conservatively estimated that at least 93 additional myriapods species will be discovered in Canada: Chilopoda (40), Diplopoda (29), Pauropoda (17), and Symphyla (seven). In g
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13

Langor, David W., Jeremy R. deWaard, and Bruce A. Snyder. "Myriapoda of Canada." ZooKeys 819 (January 24, 2019): 169–86. https://doi.org/10.3897/zookeys.819.29447.

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The currently documented fauna of described species of myriapods in Canada includes 54 Chilopoda, 66 Diplopoda, 23 Pauropoda, and two Symphyla, representing increases of 24, 23, 23, and one species, respectively, since 1979. Of the 145 myriapod species currently documented, 40 species are not native to Canada. The myriapods have not been well documented with DNA barcodes and no barcodes are available for Pauropoda. It is conservatively estimated that at least 93 additional myriapods species will be discovered in Canada: Chilopoda (40), Diplopoda (29), Pauropoda (17), and Symphyla (seven). In g
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14

Karam-Gemael, Manoela, Thiago Izzo, and Amazonas Chagas-Jr. "Why be red listed? Threatened Myriapoda species in Brazil with implications for their conservation." ZooKeys 741 (March 7, 2018): 255–69. http://dx.doi.org/10.3897/zookeys.741.21971.

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The biodiversity crisis we live in, marked by high extinction rates, requires well-planned conservation efforts. To overcome this issue, red lists of threatened species are recognized as the main objective approach for evaluating the conservation status of species and therefore guiding conservation priorities. This work focuses on the Myriapoda (Chilopoda and Diplopoda) species listed in the Brazilian red list of fauna to enable discussion of the practical implications of red lists for conservation. Almost all myriapods assessed are endemic to Brazil (99 %) and 73 % are known from subterranean
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15

Karam-Gemael, Manoela, Thiago Izzo, and Amazonas Chagas-Jr. "Why be red listed? Threatened Myriapoda species in Brazil with implications for their conservation." ZooKeys 741 (March 7, 2018): 255–69. https://doi.org/10.3897/zookeys.741.21971.

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The biodiversity crisis we live in, marked by high extinction rates, requires well-planned conservation efforts. To overcome this issue, red lists of threatened species are recognized as the main objective approach for evaluating the conservation status of species and therefore guiding conservation priorities. This work focuses on the Myriapoda (Chilopoda and Diplopoda) species listed in the Brazilian red list of fauna to enable discussion of the practical implications of red lists for conservation. Almost all myriapods assessed are endemic to Brazil (99 %) and 73 % are known from subterranean
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16

Ciucă, Valerius M., and Aurora Ciucă. "L'âme myriapode, la multiplication des choses et le droit de la créativité." Innovations 32, no. 2 (2010): 181. http://dx.doi.org/10.3917/inno.032.0181.

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17

Eckert, Rolf, and JÜRgen Becker. "Myriapoden aus mitteldeutschen Höhlen (Arthropoda, Myriapoda)." Deutsche Entomologische Zeitschrift 72, no. 2 (1996): 207–20. http://dx.doi.org/10.1002/mmnd.4800720202.

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18

Eckert, Rolf, and 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, no. 2 (1996): 207–20. http://dx.doi.org/10.1002/mmnz.19960720203.

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19

Eckert, Rolf, and 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, no. 2 (1996): 207–20. http://dx.doi.org/10.1002/mmnz.4830720203.

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20

Wang, Jiajia, Yu Bai, Haifeng Zhao, Ruinan Mu, and Yan Dong. "Reinvestigating the phylogeny of Myriapoda with more extensive taxon sampling and novel genetic perspective." PeerJ 9 (December 23, 2021): e12691. http://dx.doi.org/10.7717/peerj.12691.

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Background There have been extensive debates on the interrelationships among the four major classes of Myriapoda—Chilopoda, Symphyla, Diplopoda, and Pauropoda. The core controversy is the position of Pauropoda; that is, whether it should be grouped with Symphyla or Diplopoda as a sister group. Two recent phylogenomic studies separately investigated transcriptomic data from 14 and 29 Myriapoda species covering all four groups along with outgroups, and proposed two different topologies of phylogenetic relationships. Methods Building on these studies, we extended the taxon sampling by investigati
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21

Minelli, Alessandro. "Arthropod segments and segmentation – lessons from myriapods, and open questions." Opuscula Zoologica (Budapest) 51, Supplementum 2 (2020): 7–21. https://doi.org/10.18348/opzool.2020.S2.7.

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The current understanding of the segmental organization of myriapods is dramatically different from the traditional views, due both to fresh research on a number of myriapod species and to progress in comparative developmental biology at large. In the late eighties, the emerging paradigm of ecdysozoan affinities of arthropods prompted a revisitation of the concept of the segment as an archetypical body unit. Fresh approaches to myriapod comparative morphology and pioneering studies on the developmental genetics of segmentation in Strigamia maritima, Lithobius atkinsoni and Glomeris marginata c
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Wang, Jia-Jia, Yu Bai, and Yan Dong. "A Rearrangement of the Mitochondrial Genes of Centipedes (Arthropoda, Myriapoda) with a Phylogenetic Analysis." Genes 13, no. 10 (2022): 1787. http://dx.doi.org/10.3390/genes13101787.

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Due to the limitations of taxon sampling and differences in results from the available data, the phylogenetic relationships of the Myriapoda remain contentious. Therefore, we try to reconstruct and analyze the phylogenetic relationships within the Myriapoda by examining mitochondrial genomes (the mitogenome). In this study, typical circular mitogenomes of Mecistocephalus marmoratus and Scolopendra subspinipes were sequenced by Sanger sequencing; they were 15,279 bp and 14,637 bp in length, respectively, and a control region and 37 typical mitochondrial genes were annotated in the sequences. Th
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23

Gueriau, Pierre, James C. Lamsdell, Roy A. Wogelius, et al. "A new Devonian euthycarcinoid reveals the use of different respiratory strategies during the marine-to-terrestrial transition in the myriapod lineage." Royal Society Open Science 7, no. 10 (2020): 201037. http://dx.doi.org/10.1098/rsos.201037.

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Myriapods were, together with arachnids, the earliest animals to occupy terrestrial ecosystems, by at least the Silurian. The origin of myriapods and their land colonization have long remained puzzling until euthycarcinoids, an extinct group of aquatic arthropods considered amphibious, were shown to be stem-group myriapods, extending the lineage to the Cambrian and evidencing a marine-to-terrestrial transition. Although possible respiratory structures comparable to the air-breathing tracheal system of myriapods are visible in several euthycarcinoids, little is known about the mechanism by whic
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Cupul-Magaña, Fabio Germán, María del Rosario Valencia Vargas, Julián Bueno Villegas, and Rowland M. Shelley. "MYRIAPODA: Notes on Myriapods (Arthropoda: Myriapoda) from Jalisco, Mexico: Distribution and new records (In spanish)." Dugesiana 21, no. 2 (2014): 83–97. https://doi.org/10.32870/dugesiana.v21i2.4139.

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Presentamos un listado de las 33 especies de miriápodos que se han registrado para Jalisco, México: 15 de ciempiés, un sínfilo y 17 milpiés. De acuerdo con esta diversidad, Jalisco se coloca en la décima primera posición a nivel nacional en cuanto a número de miriápodos. Elaboramos un listado a partir de la revisión de la literatura especializada y de nuevo material biológico examinado. La lista de especies incluye información geográfica tanto a nivel mundial como nacional y estatal. De las especies identificadas, tres especies de ciempiés y 10 de milpiés son endémicas en el país. Siete especi
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Luzyanin, Sergey L., Pavel S. Nefediev, and Gyulli Sh. Farzalieva. "Colonization of reclaimed post-mining habitats by Myriapoda (Diplopoda, Chilopoda) in southwestern Siberia, Russia." Acta Biologica Sibirica 11 (April 30, 2025): 613–31. https://doi.org/10.5281/zenodo.15294658.

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Post-mining landscapes undergo profound ecological transformations, yet the recovery of soil fauna remains poorly understood. This study examines the colonization patterns of myriapods (Diplopoda and Chilopoda) on reclaimed coal mining dumps in southwestern Siberia (Kemerovo Oblast, Russia) across different successional stages. From 2014 to 2017, we sampled two coal mining sites, comparing dumps of varying recovery ages with undisturbed control habitats. Results reveal stark contrasts between the two myriapod groups: Diplopoda exhibited low abundance and species richness, colonizing only at la
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Hilgert, Michael, Nesrine Akkari, Cahyo Rahmadi, and Thomas Wesener. "The Myriapoda of Halimun-Salak National Park (Java, Indonesia): overview and faunal composition." Biodiversity Data Journal 7 (April 15, 2019): e32218. https://doi.org/10.3897/BDJ.7.e32218.

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The myriapod fauna of the mega-diverse country of Indonesia is so far insufficiently known, with no species lists or determination keys. In order to obtain an overview of the faunal composition of the Myriapoda in an Indonesian forest system, the fauna of the Halimun-Salak National Park in western Java was explored during the dry season (September–October 2015) in the framework of the German-Indonesian INDOBIOSYS project (Indonesian Biodiversity Discovery and Information System). A total of 980 Myriapoda specimens were collected by hand by 3–4 researchers from three different sites in the nati
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Bachvarova, Darina, Aleksandar Doichinov, and Rasim Halilov. "Comparative analysis of the myriapod fauna (Diplopoda, Chilopoda) of the Shumen Plateau and the Madara Plateau (Northeastern Bulgaria)." Acta Scientifica Naturalis 9, no. 3 (2022): 36–50. http://dx.doi.org/10.2478/asn-2022-0020.

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Abstract At present, the inventory lists of the Myriapoda of many geographical areas in Bulgaria and the comparative analyzes of the similarity between such local faunas are scarce or completely missing. The present paper presents the results of the comparative analysis of α- and β-diversity of the myriapoda communities in natural habitats in two regions in Northeastern Bulgaria – the Shumen Plateau and the Madara Plateau. The compared habitats in these plateaus have similar geographical, soil and climatic conditions, and similar species composition of plant formations. The analysis of the str
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Horňák, Ondřej, Andrej Mock, Bořivoj Šarapatka, and Ivan Hadrián Tuf. "Character of woodland fragments affects distribution of myriapod assemblages in agricultural landscape." ZooKeys 930 (April 28, 2020): 139–51. http://dx.doi.org/10.3897/zookeys.930.48586.

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Fragments of woodland fulfil many irreplaceable functions in the agricultural landscape including being the main source of biodiversity of soil invertebrates. Due to intensive farming and land use changes, especially in the second half of the 20th century, fragments of woodland in agricultural landscape almost disappeared. This has led to a decrease in the diversity of invertebrates, especially those for which the presence of these woodland habitats in the landscape is a key element for survival. The aim of this study was to evaluate the importance of fragments of woodland (characterised by th
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Horňák, Ondřej, Andrej Mock, Bořivoj Šarapatka, and Ivan Hadrián Tuf. "Character of woodland fragments affects distribution of myriapod assemblages in agricultural landscape." ZooKeys 930 (April 28, 2020): 139–51. https://doi.org/10.3897/zookeys.930.48586.

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Fragments of woodland fulfil many irreplaceable functions in the agricultural landscape including being the main source of biodiversity of soil invertebrates. Due to intensive farming and land use changes, especially in the second half of the 20<sup>th</sup> century, fragments of woodland in agricultural landscape almost disappeared. This has led to a decrease in the diversity of invertebrates, especially those for which the presence of these woodland habitats in the landscape is a key element for survival. The aim of this study was to evaluate the importance of fragments of woodland (characte
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Sammet, Kaarel, Mari Ivask, and Olavi Kurina. "A synopsis of Estonian myriapod fauna (Myriapoda: Chilopoda, Diplopoda, Symphyla and Pauropoda)." ZooKeys 793 (October 29, 2018): 63–96. http://dx.doi.org/10.3897/zookeys.793.28050.

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The data on Estonian Myriapoda are scattered in various publications and there has been no overview of the fauna up to the present. A critical summary of the previous information on Estonian Myriapoda is given, supplemented by new records and distribution maps. Altogether, 5784 specimens from 276 collecting sites were studied. To the hitherto recorded 14 centipede species are addedLithobiusmelanops,L.microps,Geophiluscarpophagus,G.flavus,StrigamiatranssilvanicaandStenotaenialinearis, a probably introduced species. Of the 27 published Estonian millipede species, the data on two species proved e
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Emerson, Michael J., and Frederick R. Schram. "A Novel Hypothesis for the Origin of Biramous Appendages in Crustaceans." Short Courses in Paleontology 3 (1990): 157–76. http://dx.doi.org/10.1017/s2475263000001781.

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Phylogenetic Uncertainty.— Invertebrate zoologists have long debated the relationships of biramous-limbed Crustacea to other groups of arthropods. Haeckel (1866) recognized two groups of arthropods on the basis of respiratory anatomy. The Carides included the crustaceans, trilobites, xiphosures, and eurypterids; and the Tracheata, included the arachnids, insects, and myriapods. Work on the onychophorans (Mosely, 1874) indicated a link between annelids and the terrestrial myriapod-insect line, but this left the origins of the aquatic carides unresolved. Lankester (1881) demonstrated that the xi
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Panha, Somsak. "17th International Congress of Myriapodology." Tropical Natural History, no. 5 (July 3, 2017): 1–78. https://doi.org/10.58837/tnh.17.5.108734.

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The International Congress of Myriapodology (ICM) aims at the interpretation of scientific knowledge about Myriapoda and Onychophora, which include diplopods, pauropods, symphylans, chilopods and onychophorans. Participants are not limited to experts and specialists but also include researchers from other relevant fields as well as amateurs from several communities who are interested in these spectacular animals. Diverse topics of presentation and discussion are encouraged, exploring the latest findings on myriapods and onychophorans at both global and regional scales. The goal is to build on
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Sammet, Kaarel, Mari Ivask, and Olavi Kurina. "A synopsis of Estonian myriapod fauna (Myriapoda: Chilopoda, Diplopoda, Symphyla and Pauropoda)." ZooKeys 793 (October 29, 2018): 63–96. https://doi.org/10.3897/zookeys.793.28050.

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The data on Estonian Myriapoda are scattered in various publications and there has been no overview of the fauna up to the present. A critical summary of the previous information on Estonian Myriapoda is given, supplemented by new records and distribution maps. Altogether, 5784 specimens from 276 collecting sites were studied. To the hitherto recorded 14 centipede species are added Lithobius melanops, L. microps, Geophilus carpophagus, G. flavus, Strigamia transsilvanica and Stenotaenia linearis, a probably introduced species. Of the 27 published Estonian millipede species, the data on two spe
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Voigtländer, Karin, Hans Reip, Peter Decker, and Joerg Spelda. "Critical reflections on German Red Lists of endangered myriapod species (Chilopoda, Diplopoda) (with species list for Germany)." International Journal of Myriapodology 6 (December 20, 2011): 85–105. https://doi.org/10.3897/ijm.6.2175.

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The Red Lists of endangered species published by the German Bundesamt f&uuml;r Naturschutz (BfN - the Federal Agency of Nature Conservation) are essential tools for the nature protection in Germany since the 1970s. Although many groups of insects appear in the German Red Lists, small and inconspicuous soil organisms, among them millipedes and centipedes, have in the past been ignored. In the last few years great efforts have been made to assess these two groups, resulting in Red Lists of German Myriapoda. However, difficulties were encountered in strictly applying the Red List classification c
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Driller, Christine, and Carlos Martínez-Muñoz. "BIOfid Steps Up to Provide Introduced Species Information: The case of myriapods in German greenhouses." Biodiversity Information Science and Standards 6 (August 23, 2022): e93666. https://doi.org/10.3897/biss.6.93666.

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The German Specialized Information Service Biodiversity Research (BIOfid) is an infrastructure that provides scientists with information tailored to the specific needs of biodiversity research and related disciplines (Koch et al. 2017). The service, in particular, promotes digital access to legacy literature and enables the retrieval of research-relevant data using natural language processing (NLP) and machine learning (ML) techniques (Hemati et al. 2016, Abrami et al. 2020, Lücking et al. 2021), and provides a customized semantic search engine (Pachzelt et al. 2021). Thus, historical species
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Adamski, Zbigniew, Jerzy Błoszyk, Katarzyna Piosik, and Kamila Tomczak. "Effects of diflubenzuron and mancozeb on soil microarthropods: a long-term study." Biological Letters 46, no. 1 (2009): 3–13. http://dx.doi.org/10.2478/v10120-009-0008-y.

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Effects of diflubenzuron and mancozeb on soil microarthropods: a long-term studySoil microarthropods exposed to the pesticides mancozeb (240 mg per 1 m2) or diflubenzuron (7.2 mg of diflubenzuron per 1 m2) were studied for 6 months after a single application. The observed taxa included Collembola, Insecta, Myriapoda, and 4 groups of mites: Actinedida (=Prostigmata), Gamasina, Uropodina, and Oribatida. Their abundance in soil was subject to seasonal fluctuations, but for a majority of taxa no significant differences were noticed between the control and exposed plots. The total number of microar
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Kenning, Matthes, Carsten H. G. Müller, and Andy Sombke. "The ultimate legs of Chilopoda (Myriapoda): a review on their morphological disparity and functional variability." PeerJ 5 (November 14, 2017): e4023. http://dx.doi.org/10.7717/peerj.4023.

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The arthropodium is the key innovation of arthropods. Its various modifications are the outcome of multiple evolutionary transformations, and the foundation of nearly endless functional possibilities. In contrast to hexapods, crustaceans, and even chelicerates, the spectrum of evolutionary transformations of myriapod arthropodia is insufficiently documented and rarely scrutinized. Among Myriapoda, Chilopoda (centipedes) are characterized by their venomous forcipules—evolutionarily transformed walking legs of the first trunk segment. In addition, the posterior end of the centipedes’ body, in pa
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Battirola, Leandro D., Sergei I. Golovatch, Tamaris G. Pinheiro, et al. "Myriapod (Arthropoda, Myriapoda) diversity and distribution in a floodplain forest of the Brazilian Pantanal." Studies on Neotropical Fauna and Environment 53, no. 1 (2017): 62–74. http://dx.doi.org/10.1080/01650521.2017.1397978.

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Son, Le Xuan, Le Xuan Dac, Ngo Trung Dung, Dinh The Dung, Nguyen Duc Hung, and Nguyen Duc Anh. "The myriapod fauna (Chilopoda, Diplopoda) of the Truong Sa (Spratly) archipelago, Vietnam." Academia Journal of Biology 44, no. 4 (2022): 77–100. http://dx.doi.org/10.15625/2615-9023/17621.

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This paper provides the first data on myriapods in the Truong Sa archipelago (Vietnam). A total of 292 myriapod specimens identified 9 species in 7 genera, 6 families, 5 orders of two classes Chilopoda and Diplopoda were collected from 10 islands in the Spratly archipelago of Khanh Hoa province in Vietnam including Southwest Cay (Song Tu Tay), Sand Cay (Son Ca), Namyit island (Nam Yet), Grierson Reef (Sinh Ton Dong), Sin Cowe island (Sinh Ton), Pearson Reef (Phan Vinh), Central Reef (Truong Sa Dong), Spratly island (Truong Sa), West Reef (Da Tay), and Amboyna Cay (An Bang), , , during two surv
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Nefediev, P. S., S. Yu Knyazev, G. Sh Farzalieva, and I. H. Tuf. "A contribution to the myriapod fauna of the Omsk Area, Siberia, Russia (Myriapoda: Diplopoda, Chilopoda)." Arthropoda Selecta 26, no. 1 (2017): 113118–0. http://dx.doi.org/10.15298/arthsel.26.2.03.

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Christie, Andrew E. "Neuropeptide discovery in Symphylella vulgaris (Myriapoda, Symphyla): In silico prediction of the first myriapod peptidome." General and Comparative Endocrinology 223 (November 2015): 73–86. http://dx.doi.org/10.1016/j.ygcen.2015.09.021.

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42

Wesener, Thomas, Karin Voigtländer, Peter Decker, Jan Philip Oeyen, Jörg Spelda, and Norman Lindner. "First results of the German Barcode of Life (GBOL) – Myriapoda project: Cryptic lineages in German Stenotaenia linearis (Koch, 1835) (Chilopoda, Geophilomorpha)." ZooKeys 510 (June 30, 2015): 15–29. https://doi.org/10.3897/zookeys.510.8852.

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As part of the German Barcode of Life (GBOL) Myriapoda program, which aims to sequence the COI barcoding fragment for 2000 specimens of Germany's 200 myriapod species in the near future, 44 sequences of the centipede order Geophilomorpha are analyzed. The analyses are limited to the genera Geophilus Leach, 1814 and Stenotaenia Koch, 1847 and include a total of six species. A special focus is Stenotaenia, of which 19 specimens from southern, western and eastern Germany could be successfully sequenced. The Stenotaenia data shows the presence of three to four vastly different (13.7–16.7% p-distan
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Akkari, Nesrine, Anne-Sarah Ganske, Ana Komerički, and Brian Metscher. "New avatars for Myriapods: Complete 3D morphology of type specimens transcends conventional species description (Myriapoda, Chilopoda)." PLOS ONE 13, no. 7 (2018): e0200158. http://dx.doi.org/10.1371/journal.pone.0200158.

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Nefediev, P. S., J. S. Nefedieva, and G. Sh Farzalieva. "New data on the myriapod fauna (Myriapoda: Chilopoda, Diplopoda) of the Republic of Khakassia, central Siberia, Russia." Invertebrate Zoology 18, no. 1 (2021): 36–46. http://dx.doi.org/10.15298/invertzool.18.1.04.

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Janssen, Ralf. "Developmental abnormalities in Glomeris marginata (Villers 1789) (Myriapoda: Diplopoda): implications for body axis determination in a myriapod." Naturwissenschaften 100, no. 1 (2012): 33–43. http://dx.doi.org/10.1007/s00114-012-0989-y.

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Robison, R. A., and E. O. Wiley. "A new arthropod, Meristosoma: More fallout from the Cambrian explosion." Journal of Paleontology 69, no. 3 (1995): 447–59. http://dx.doi.org/10.1017/s0022336000034855.

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New Middle Cambrian fossils demonstrate unusual tagmosis within the Arthropoda. Rare specimens from the Spence Shale of northern Utah are assigned to Meristosoma paradoxum n. gen. and sp. One specimen from the Marjum Formation of west-central Utah is assigned to Meristosoma sp. These taxa are further assigned to the new family Meristosomatidae. Meristosoma, which reached 17 cm in length, is characterized by a short anterior shield, a long thorax with 36 or more articulating segments, and a posterior shield with as many as 11 fused segments. Its short anterior shield and long, multisegmented th
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LONSDALE, OWEN, and MICHELLE M. LOCKE. "Name-bearing type specimens in the Canadian National Collection of Insects, Arachnids & Nematodes (CNC): Blattodea, Dermaptera, Notoptera, Mecoptera, Megaloptera, Myriapoda, Neuroptera, Odonata, Orthoptera, Phthiraptera, Pseudoscorpiones, Psocoptera, Raphidioptera & Siphonaptera." Zootaxa 4526, no. 2 (2018): 101. http://dx.doi.org/10.11646/zootaxa.4526.2.1.

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A catalogue is provided for the name-bearing types of most of the less diverse arthropod groups deposited in the Canadian National Collection of Insects, Arachnids &amp; Nematodes (CNC). There are 90 name-bearing types of Myriapoda [Chilopoda (3 types), Diplopoda (2)], Arachnida [Pseudoscorpiones (1)], and Insecta [Blattodea (1), Dermaptera (1), Notoptera (3), Mecoptera (3), Megaloptera (2), Neuroptera (11), Odonata (2), Orthoptera (5), Phthiraptera (2), Psocoptera (10), Raphidioptera (1) and Siphonaptera (43)]. Three myriapod syntypes are represented by an unknown number of specimens. Holotyp
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Spelda, Joerg, Hans Reip, Biener Ulla Oliveira, and Roland Melzer. "Barcoding Fauna Bavarica: Myriapoda – a contribution to DNA sequence-based identifications of centipedes and millipedes (Chilopoda, Diplopoda)." ZooKeys 156 (December 20, 2011): 123–39. https://doi.org/10.3897/zookeys.156.2176.

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We give a first account of our ongoing barcoding activities on Bavarian myriapods in the framework of the Barcoding Fauna Bavarica project and IBOL, the International Barcode of Life.analyzed 126 taxa (including 122 species) belonging to all major German chilopod and diplopod lineages, often using four or more specimens each, at the moment our species stock includes 82% of the diplopods and 65% of the chilopods found in Bavaria, southern Germany. The partial COI sequences allow correct identification of more than 95% of the current set of Bavarian species. Moreover, most of the myriapod orders
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Marek, Paul E., and William A. Shear. "Myriapods." Current Biology 32, no. 23 (2022): R1294—R1296. http://dx.doi.org/10.1016/j.cub.2022.09.058.

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Dong, Yan, Hongying Sun, Hua Guo, et al. "The complete mitochondrial genome of Pauropus longiramus (Myriapoda: Pauropoda): Implications on early diversification of the myriapods revealed from comparative analysis." Gene 505, no. 1 (2012): 57–65. http://dx.doi.org/10.1016/j.gene.2012.05.049.

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