Palaeoentomology https://www.mapress.com/pe <p><strong>Palaeoentomology </strong>is the official journal of the <a href="http://fossilinsects.net/">International Palaeoentomological Society</a>. It is an international peer-reviewed scientific journal, which publishes high quality, original research contributions as well as review papers. Papers are published in English and they cover a wide spectrum of topics in palaeoentomology, fossil terrestrial arthropods and amber research, i.e. systematic palaeontology, morphology, diversity, palaeogeography, palaeoecology, palaeobehavior, evolutionary and phylogenetic studies on fossil insects and terrestrial arthropods, biostratigraphy, taphonomy, and amber (deposits, inclusions, geochemistry, curation). Descriptions of new methods (analytical, instrumental or numerical) should be relevant to the broad scope of the journal.</p> Magnolia press en-US Palaeoentomology 2624-2826 <span lang="EN-GB">Authors need to complete and return an </span><span lang="EN-GB"><a href="/phytotaxa/images/copyright.rtf">Assignment of Copyright</a> </span><span lang="EN-GB">form when a paper is accepted for publication. Authors from institutions that do not allow transfer of copyrights to publishers (e.g. government institutions such as USDA, CSIRO) should attach a copyright waiver or similar document.</span> <p><strong>First fossil representative of the sawfly subfamily Blennocampinae (Hymenoptera: Tenthredinidae)</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.1 <p><em>Eutomostethus</em> <em>karimae</em> <strong>sp.</strong> <strong>nov.</strong>, the first fossil representative of the sawfly subfamily Blennocampinae, is described from the Eocene Green River Formation (Colorado, USA). Extant representatives of the genus <em>Eutomostethus</em> are distributed in the Palaearctic and the Oriental regions, with two species probably introduced by humans in the Nearctic Region. The presence of a fossil related to this genus in the Eocene of North America is in accordance with the different land bridges present at that time and allowing important entomofaunal exchanges between this region and Eurasia. The present discovery also corroborates the recent estimate of the divergence of the subfamily Blennocampinae at the extreme end of the Cretaceous.</p> ANDRÉ NEL GENG-YUN NIU MEI-CAI WEI Copyright (c) 2022 Magnolia press limited 2022-04-13 2022-04-13 5 2 099–104 099–104 10.11646/palaeoentomology.5.2.1 <p><strong>Fossil caddis cases from the lower Eocene Huachong Formation of the Sanshui Basin, Foshan City, Guangdong Province, South China with detrital zircon analyses</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.2 <p>Here we describe for the first time the insect (trace) fossils from the lower Eocene Huachong Formation at the Sanshui Basin in Foshan City, Guangdong Province, South China. Three specimens of caddis cases display different morphologies, but all of them are constructed using mainly ostracods. The detrital zircon from a layer below the fossil bed is studied. Our isotopic chronological analyses of the detrital zircons reveal at least four phases of volcanic activities in this area during the Phanerozoic.</p> DI-YING HUANG YI-TONG SU XIN-NENG LIAN JIAN GAO Copyright (c) 2022 Magnolia press limited 2022-04-20 2022-04-20 5 2 105–112 105–112 10.11646/palaeoentomology.5.2.2 <p><strong>A new calopterygid damselfly (Odonata, Zygoptera) from the Oligocene Ningming Basin, Guangxi, South China</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.3 <p>A new calopterygid genus and species, <em>Guangxicalopteryx huashanensis</em> <strong>gen. et sp. nov.</strong>, is described from the Oligocene of the Ningming Formation in Guangxi Zhuang Autonomous Region, South China. It probably belongs to the subfamily Calopteryginae, ‘in-between’ <em>Caliphaea</em> + <em>Noguchiphaea</em> and the other Calopteryginae. This new fossil strongly supports the current hypothesis of a humid subtropical climate for the area at this time.</p> DI-YING HUANG QI LIU XIN-NENG LIAN YAN-ZHE FU ANDRÉ NEL Copyright (c) 2022 Magnolia press limited 2022-04-20 2022-04-20 5 2 113–119 113–119 10.11646/palaeoentomology.5.2.3 <p><strong>New Serphitidae and Gallorommatidae (Insecta: Hymenoptera: Microprocta) in the Early Cretaceous Lebanese amber</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.4 <p>Three new serphitids (<em>Microserphites libanensis </em><strong>sp. nov.</strong>, <em>Leptoserphites pabloi </em><strong>gen. et sp. nov.</strong> and <em>Leptoserphites iriae </em><strong>gen. et sp. nov.</strong>) and a gallorommatid (<em>Cretaceomma libanensis</em> <strong>gen. et sp. nov.</strong>) from two different outcrops from the lower Barremian Lebanese amber are characterised, described, illustrated and their taxonomic positions are discussed. These serphitids and gallorommatid constitute the earliest records of these Cretaceous fossil families.<em> Galloromma turolensis</em> Ortega <em>et al</em>., 2011 is transferred to the genus <em>Cretaceomma </em><strong>gen. nov.</strong></p> ALEXANDR P. RASNITSYN MOUNIR MAALOUF RAMY MAALOUF DANY AZAR Copyright (c) 2022 Magnolia press limited 2022-04-22 2022-04-22 5 2 120–136 120–136 10.11646/palaeoentomology.5.2.4 <p><strong>Redescription of <em>Minyohelea nexuosa</em> (Diptera: Ceratopogonidae) based on a new specimen from Lebanese amber</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.5 <p>The first records of Ceratopogonidae, or biting midges, are from the earliest Cretaceous. The early Cretaceous representatives of the family are currently interpreted as haematophagous. †<em>Minyohelea</em> Borkent, 1995 is one of six extinct, bloodsucking ceratopogonid genera currently recorded (Pielowska-Ceranowska <em>et al</em>., 2021). So far, nine species of the genus <em>Minyohelea </em>have been described, with the most recently addition being <em>M. nexuosa </em>Pielowska-Ceranowska, 2021 from the Mdeyrij-Hammana amber locality in Lebanon. However, subsequent work has recovered an additional male specimen of <em>M. nexuosa </em>from a separate outcrop hosting Lebanese amber at 32 km South-West from Mdeyrij-Hammana outcrop at the Jezzine Fall (Fig. 1) in Wadi Jezzine village [Caza (= District) Jezzine, South Lebanon Governorate, Lebanon]. As this new specimen preserves additional morphological features not seen previously, this paper documents the additional details and provides an amended diagnosis for <em>Minyohelea nexuosa </em>Pielowska-Ceranowska, 2021. Previously missing morphological features are documented and illustrated here.</p> AGATA PIELOWSKA-CERANOWSKA DANY AZAR JACEK SZWEDO Copyright (c) 2022 Magnolia press limited 2022-04-22 2022-04-22 5 2 137–141 137–141 10.11646/palaeoentomology.5.2.5 <p><strong>A new fossil representative of the scorpionfly subfamily Panorpinae (Mecoptera, Panorpidae) from the Miocene of France</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.6 <p>The extant representatives of the order Mecoptera (except Siphonaptera now considered to belong to the Mecoptera: Tihelka <em>et al.</em>, 2020) are famous among insects because of their long beaklike rostrum but also, because the males of the family Panorpidae have enlarged genitals raised over the body, and are called scorpionflies. The order Mecoptera is thought to have arisen during the Carboniferous period (Misof <em>et al.</em>, 2014), a dating corroborated by their abundant fossil record during the Permian period (https://paleobiodb.org), and the presence of the antliophoran sister group Amphiesmenoptera during the late Carboniferous (Nel <em>et al.</em>, 2007). The origin of the main family of Mecoptera <em>i.e.</em>, the Panorpidae, was estimated to date to the Early Cretaceous (<em>ca.</em> 122.5 Ma) (Miao <em>et al.</em>, 2019). The phylogenetic relationships within the family Panorpidae were recently investigated and revised using morphological data (Wang &amp; Hua, 2021) and new hypotheses were proposed for their past dispersal events. Wang &amp; Hua (2021: fig. 17) assumed that the Panorpidae originated from Asia and that at least two dispersal events have shaped the west European fauna. Here we describe a new specimen of scorpionfly from the Miocene of Murat (Cantal, France).</p> CORENTIN JOUAULT ANDRÉ NEL Copyright (c) 2022 Magnolia press limited 2022-04-29 2022-04-29 5 2 142–145 142–145 10.11646/palaeoentomology.5.2.6 <p><strong><em>Rhomeocalpsua torosa</em> gen. et sp. nov., a unique lineage of Endomychidae from mid‑Cretaceous Burmese amber (Coleoptera: Coccinelloidea)</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.7 <p>A new fossil genus and species of the family Endomychidae, <em>Rhomeocalpsua torosa</em> Li, Tomaszewska &amp; Cai, <strong>gen. et sp. nov.</strong>, is described and illustrated from the mid-Cretaceous Burmese amber. The new genus is characterised by the relatively elongate body, antennae composed of nine antennomeres with unique club morphology, unmodified pronotum, mesocoxal cavities broadly closed laterally, femora with deep and long grooves, and 3-3-3 tarsi. Detailed morphological comparisons between the Cretaceous fossils and extant relatives suggest that its unique character combination does not fit into any existing subfamilies of Endomychidae, Mycetaeidae, Eupsilobiidae or Anamorphidae.</p> YAN-DA LI WIOLETTA TOMASZEWSKA DI-YING HUANG CHEN-YANG CAI Copyright (c) 2022 Magnolia press limited 2022-04-29 2022-04-29 5 2 146–154 146–154 10.11646/palaeoentomology.5.2.7 <p><strong>The youngest and first Lebanese representative of the family Saucrosmylidae (Insecta, Neuroptera) from the Cenomanian</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.8 <p><em>Lebanosmylus leae</em> <strong>gen.</strong> <strong>et</strong> <strong>sp.</strong> <strong>nov.</strong>, the youngest and first representative of the family Saucrosmylidae, is described from the marine lithographic Cenomanian limestone of the Konservat-Lagerstätte of Hjoula, Lebanon, on the basis of a wing compression. The paleobiogeographic implications are briefly discussed.</p> DANY AZAR ANDRÉ NEL Copyright (c) 2022 Magnolia press limited 2022-04-29 2022-04-29 5 2 155–160 155–160 10.11646/palaeoentomology.5.2.8 <p><strong>New dictyopteran fossils from the Pennsylvanian of West Beijing, China</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.9 <p>Carboniferous insects from China are rare. Here we report a new fossiliferous locality at the Yexi Section, western Beijing, from where Pennsylvanian insects have been discovered. These insect fossils collected from the black shales of the Benxi Formation (middle–late Moscovian to early Kasimovian) are associated with rich plant remains. The fossils are represented mainly by dictyopteran tegmina that cannot be further identified. The discovery is helpful for our understanding of the diversity and preservation of Carboniferous insects in western Beijing and also the Benxi Formation of North China.</p> DI-YING HUANG GUO WEI TAO WEI YI WU XIANG-DONG WANG XIN-RAN LI Copyright (c) 2022 Magnolia press limited 2022-04-29 2022-04-29 5 2 161–166 161–166 10.11646/palaeoentomology.5.2.9 <p><strong>A brief report on the Palaeocene insects from the Sanshui Basin of Guangdong, South China</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.10 <p>More than two hundred and seventy specimens belonging to seven neopteran orders were collected, primarily from the upper part of the Xinzhuangcun Formation. Hemiptera, Hymenoptera, and Diptera have become more diverse groups in the Early Paleocene. The environment and climate in this period are putatively reconstructed.</p> ZHI-JUN ZHANG XI WANG ZHENG LIU XIAN-QIU ZHANG Copyright (c) 2022 Magnolia press limited 2022-04-29 2022-04-29 5 2 167–172 167–172 10.11646/palaeoentomology.5.2.10 <p><strong>Revision of the Oligocene pamphiliid genus and species <em>Tapholyda caplani</em> (Cockerell, 1933)</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.11 <p>The position of the enigmatic Oligocene pamphiliid genus and species <em>Tapholyda caplani </em>(Cockerell, 1933) is revised based on new specimens from the late Oligocene of the Creede Formation (Colorado, USA). The study of the wing venation and body characters indicate affinities with the fossil subfamily Juralydinae. The species is transferred to the latter accordingly. We revise the diagnoses of the Juralydinae and <em>Tapholyda caplani</em>. We designate a lectotype for the species and provide an interpretative drawing of its forewing venation. The placement of <em>Tapholyda caplani </em>in the Juralydinae extends the temporal range of the subfamily to the Oligocene.</p> CORENTIN JOUAULT MEI-CAI WEI GENG-YUN NIU ANDRÉ NEL Copyright (c) 2022 Magnolia press limited 2022-04-29 2022-04-29 5 2 173–182 173–182 10.11646/palaeoentomology.5.2.11 <p><strong>New insect fossils discovered from the Lower Jurassic Sangonghe Formation at the Turpan Basin, Xinjiang, NW China</strong></p> https://www.mapress.com/pe/article/view/palaeoentomology.5.2.12 <p>Early Jurassic insects have been described from the Badaowan and the Sangonghe formations in the Xinjiang Uygur Autonomous Region, NW China. Among them, the insect fossils from the Sangonghe Formation remain poorly explored. Here we report for the first time a diverse assemblage of fossil insects from the Sangonghe Formation near the Daheyan Township, Turpan Basin. They are represented by six groups, including Odonatoptera, Dermaptera, Blattodea, Hemiptera, Coleoptera, and Diptera. <em>Sinoscarterella</em> <em>incompleta</em> Nel, Fu &amp; Huang, <strong>gen. et sp. nov.</strong> of Dysmorphoptilidae (Hemiptera) and <em>Liassorhyphus liaoi</em> Nel &amp; Huang,<strong> gen. et sp. nov. </strong>of Anisopodidae (Diptera) are described here. Our discovery provides a window into a potentially diverse entomofauna in the Early Jurassic, increasing our knowledge about the insect diversity during that time in eastern Asia.</p> YE-HAO WANG ANDRÉ NEL YAN-ZHE FU YI-TONG SU CHEN-YANG CAI YU-MING LIU JIAN GAO DI-YING HUANG Copyright (c) 2022 Magnolia press limited 2022-04-29 2022-04-29 5 2 183–194 183–194 10.11646/palaeoentomology.5.2.12