Your search keyword '"Tanyderidae"' showing total 26 results

1. Rare Nematoceran Dipterans (Insecta: Diptera) from the Khasurty Locality, Transbaikalia.

Author

Lukashevich, E. D.

Abstract

New taxa of Nematocera are described from the Lower Cretaceous Khasurty locality (Western Transbaikalia, Russia). These are Praearchitipula ribeiroi sp. nov., P. kaluginae sp. nov., P. podenasi sp. nov. (Pediciidae), ?Protanyderus madrizi sp. nov. (Tanyderidae), Eoptychoptera fasbenderi sp. nov. (Ptychopteridae), Gilkania transbaikalica gen. et sp. nov. (Chironomidae), Amorimyia robusta gen. et sp. nov. (Anisopodidae). [ABSTRACT FROM AUTHOR]

Published

2020

2. The first Tanyderidae (Diptera) from Lower Cretaceous Álava amber (Spain).

Author

Skibińska, Kornelia, Krzemiński, Wiesław, and Arillo, Antonio

Subjects

*AMBER, *DIPTERA, *SPECIES, *ORIBATIDAE

Abstract

A new genus and species, Espanoderus barbarae gen. et sp. nov., belonging to the family Tanyderidae (Diptera, Nematocera), is described from Lower Cretaceous amber of Spain (Álava amber). The new genus is the smallest member of Tanyderinae and the first member of the family from the Álava amber. The position of the new genus in a phylogenetic tree of Tanyderidae is presented. [ABSTRACT FROM AUTHOR]

Published

2019

3. Data on the crane fly fauna of the families Cylindrotomidae, Ptychopteridae and Tanyderidae (Diptera) of eastern and northeastern Kazakhstan

Author

V. I. Devyatkov

Subjects

Geography, Cylindrotomidae, biology, Ptychopteridae, Ecology, Insect Science, Fauna, Tanyderidae, Crane fly, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2021

4. Sequence analysis of mitochondrial genome of the false and phantom crane-fly Ptychoptera qinggouensis Kang, Yao and Yang, 2013 (Diptera, Ptychopteridae)

Author

Zehui Kang and Shuo Ma

Subjects

0106 biological sciences, 0301 basic medicine, Genetics, Ptychopteridae, biology, Brachycera, Tipulomorpha, Sequence analysis, Ptychoptera, phylogeny, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Genome, 03 medical and health sciences, MitoGenome Announcement, 030104 developmental biology, Mitochondrial genome, Sister group, Genus, Tanyderidae, false and phantom crane-fly, Molecular Biology, Research Article

Abstract

The genus Ptychoptera Meigen, 1803 is the largest genus of the family Ptychopteridae with 78 known species. In this study, we report a nearly complete mitochondrial (mt) genome of this genus, which is a circular molecule of more than 15,028 bp. The mt genome contains 13 protein-coding genes, 22 tRNA genes, 2 rRNA genes and a non-coding region. The overall base composition is A (38.1%), T (36.7%), C (14.9%), and G (10.4%), with an AT content of 74.8%. The AT content of N-strand genes (75.7%) is higher than that of the J-strand genes (71.7%). Phylogenetic analysis reveals that the monophyly of Ptychopteridae, Bibiomorpha, Tipulomorpha and Brachycera are strongly supported, and the sister group relationship between Tanyderidae and Ptychopteridae is not supported.

Published

2020

5. Mouthparts of nectar-feeding Tanyderidae (Insecta: Diptera): lapping and siphoning

Author

Elena D. Lukashevich

Subjects

Insecta, Plant Nectar, Diptera, Proboscis, Rostrum, Zoology, General Medicine, Feeding Behavior, Biology, biology.organism_classification, Arthropod mouthparts, Insect Science, Functional morphology, Tanyderidae, Nectar, Animals, Butterflies, Ecology, Evolution, Behavior and Systematics, Developmental Biology

Abstract

Mouthparts of adult Tanyderidae are examined in detail for the first time, with emphasis on scanning electron microscopy. A full set of mouthparts, devoid of conspicuous dentation or serration and showing no differences between sexes, was found in both examined species, Eutanyderus wilsoni Alexander, 1928 and Peringueyomyina barnardi Alexander, 1921. The mouthparts are elongated into a proboscis in E. wilsoni and are short, attached to the tip of a long rostrum, in P. barnardi. In the absence of direct field observations, nectar-feeding is hypothesized for both genera.

Published

2021

6. New species of the genus Similinannotanyderus (Tanyderidae, Diptera) from the Myanmar amber

Author

Kornelia Skibińska and Wiesław Krzemiński

Subjects

0106 biological sciences, 010506 paleontology, Nematocera, biology, Male genitalia, Paleontology, Zoology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Cretaceous, Geography, Genus, Tanyderidae, 0105 earth and related environmental sciences

Abstract

A new species of Tanyderidae (Diptera, Nematocera), Similinannotanyderus zbigniewi sp. nov., belonging to the family Tanyderidae is described and figured. It is the second representative of this genus from the Upper Cretaceous Myanmar amber. The complete drawing of a wing and additional drawing of male genitalia of Similinannotanyderus lii Dong, Shih & Ren, 2015a have been provided.

Published

2018

7. Male terminalia and their rotation in Tanyderidae (Insecta, Diptera, Nematocera) since the Mesozoic

Author

Elena D. Lukashevich

Subjects

0106 biological sciences, 010506 paleontology, Nematocera, biology, Terminalia, Zoology, biology.organism_classification, Rotation, 010603 evolutionary biology, 01 natural sciences, Gondwana, Extant taxon, Tanyderidae, Mesozoic, General Agricultural and Biological Sciences, 0105 earth and related environmental sciences

Abstract

The structure of the male terminalia and their rotation are reviewed in both extinct and extant genera of Tanyderidae based on new observations and literature. The structure of gonostyli and parame...

Published

2018

8. Two new species of the genus Dacochile (Diptera, Tanyderidae) from Burmese amber

Author

Kornelia Skibińska and Wiesław Krzemiński

Subjects

0106 biological sciences, 010506 paleontology, biology, Zoology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, language.human_language, Cretaceous, Burmese, Genus, Tanyderidae, language, General Agricultural and Biological Sciences, 0105 earth and related environmental sciences

Abstract

Two new species of primitive crane flies (Diptera,Tanyderidae), Dacochile browni n. sp. and Dacochile poinari n. sp. from the Cretaceous Burmese are described and figured. Moreover, an addi...

Published

2018

9. A new species ofNeoderusAlexander, 1927 (Diptera: Tanyderidae) from southern Chile, with a first description of a male and key to extant genera of the family

Author

R. Isaí Madriz, Targe Lindsay, Gregory W. Courtney, and Anna Astorga

Subjects

0106 biological sciences, LSID, biology, 010607 zoology, Zoology, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Extant taxon, Habitat, Genus, Insect Science, Tanyderidae, Key (lock), Ecology, Evolution, Behavior and Systematics

Abstract

Neoderus Alexander, 1927 (Diptera: Tanyderidae) is revised to include a new species, Neoderus chonos Madriz, sp. n. Adults of N. chonos were collected in January 2016 from two sites in Chilean Patagonia. This paper provides a description of the new species, including the first male description of the genus, diagnosis of adult Neoderus, and redescription of N. patagonicus (Alexander, 1913). Habitat characteristics, known distribution and historical information for the new species are also discussed. A generic key to adults of world Tanyderidae is given.urn:lsid:zoobank.org:pub:27F176EE-57EE-4427-BD97-521FA4C92D68

Published

2018

10. On morphology of Tanyderus pictus (Diptera: Tanyderidae) pupa and adult from Chile

Author

Dmitri E. Shcherbakov and E. D. Lukashevich

Subjects

0106 biological sciences, Pupa, 010506 paleontology, biology, Insect Science, Tanyderidae, 010607 zoology, Zoology, Morphology (biology), biology.organism_classification, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Published

2016

11. The primitive crane flies (Diptera: Tanyderidae)

Author

Ruben Isai and Madriz Villanueva

Subjects

Systematics, Tanyderidae, Zoology, Biology, biology.organism_classification

Published

2018

12. On the history of ranges of two relict nematoceran families, Ptychopteridae and Tanyderidae (Insecta: Diptera): a biogeographical puzzle

Author

E. D. Lukashevich and K. Yu. Eskov

Subjects

Ptychopteridae, biology, Insect Science, Tanyderidae, Zoology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2015

13. New species of Tanyderidae (Diptera) from the Jiulongshan Formation of China

Author

Wiesław Krzemiński, Chungkun Shih, Dong Ren, Fei Dong, and Kornelia Skibińska

Subjects

Geography, biology, Tanyderidae, Paleontology, China, Inner mongolia, biology.organism_classification, Archaeology, Ecology, Evolution, Behavior and Systematics

Abstract

Dong, F., Shih, C.K., Skibinska, K., Krzeminski, W. & Ren, D., 10.4.2015. New species of Tanyderidae (Diptera) from the Jiulongshan Formation of China. Alcheringa 39, xxx–xxx. ISSN 0311-5518Two new tanyderid species of Praemacrochile Kalugina, 1985 (P. dryasis, P. ovalum) and one new tanyderid species of Protanyderus Handlirsch, 1909 (P. astictum) are described and illustrated from the late Middle Jurassic Jiulongshan Formation of Daohugou in eastern Inner Mongolia, China. These species are circumscribed using well-preserved fossil specimens with bodies and complete wings. We also collected and identified new material of two species of Praemacrochile (P. ansorgei Lukashevich & Krzeminski and P. chinensis, Krzeminski & Ren) and one species of Protanyderus (P. vulcanium Zhang) from the same locality.Fei Dong [123dongfeifei@163.com], Dong Ren [rendong@mail.cnu.edu.cn] and Chungkun Shih [chungkun.shih@gmail.com], College of Life Sciences, Capital Normal University, Xisanhuanbeilu 105, Haidian District, Beijin...

Published

2015

14. A new genus of Tanyderidae (Insecta: Diptera) from Myanmar amber, Upper Cretaceous

Author

Dong Ren, Fei Dong, and Chungkun Shih

Subjects

Taxon, biology, Genus, Male genitalia, Tanyderidae, Paleontology, Zoology, biology.organism_classification, Cretaceous

Abstract

A new genus and species, Similinannotanyderus lii gen. et sp. nov., is described from Myanmar amber. It differs from other genera of Tanyderidae based on special characters of wing venation and male genitalia. This new taxon broadens the diversity of Tanyderidae in the Cretaceous, and its morphological characters enhance our understanding of the development and evolution of the primitive crane flies.

Published

2015

15. Skeleton and musculature of the male abdomen in Tanyderidae (Diptera, Nematocera) of the Southern Hemisphere

Author

O. G. Ovtshinnikova, Elena D. Lukashevich, and T. V. Galinskaya

Subjects

0106 biological sciences, Nematocera, Insecta, Araucoderus, Arthropoda, 010607 zoology, 010603 evolutionary biology, 01 natural sciences, rotation, Nothoderus, Systematics, Tanyderidae, lcsh:Zoology, morphology, Muscle attachment, Animalia, lcsh:QL1-991, crane flies, Southern Hemisphere, Ecology, Evolution, Behavior and Systematics, biology, Ptychopteridae, World, Diptera, terminalia, Terminalia, genitalia, Anatomy, biology.organism_classification, Skeleton (computer programming), Animal Science and Zoology, Blephariceridae, Neogene, Research Article

Abstract

The structure of the male terminalia and their musculature of species of tanyderid generaAraucoderusAlexander, 1929 from Chile andNothoderusAlexander, 1927 from Tasmania are examined and compared with each other and with published data on the likely relatives. The overall pattern of male terminalia of both genera is similar to those of most Southern Hemisphere genera, with simple curved gonostyli, lobe-like setose parameres, and setose cerci inconspicuous under the epandrium. Both genera have terminalia similarly rotated by 180° (and 90° as an intermediate stage); rotation may be either clockwise or counterclockwise. However, the similar patterns are realized differently: segment VIII is the decreased and asymmetrical due to completely membranose tergite VIII inNothoderus(the first record of such modification in Tanyderidae), but narrow and symmetrical inAraucoderus. Accordingly, pregenital muscles are very different between the genera. Based on localization of muscle attachment sites, the hypandrial origin of the stripe between gonocoxites is shown in both genera, and entire membranization of tergite VIII and partial membranization of hypoproct is shown inNothoderus. Tanyderidae are characterized by highly specialized sclerites and muscles of male terminalia and provide no evidence of relationship with previously studied members of Psychodidae, Blephariceridae and Ptychopteridae.

Published

2018

16. Dacochile Poinar & Brown 2004

Author

Guo, Mingxia, Xing, Lida, Wang, Bo, Zhang, Weiwei, Wang, Shuo, Shi, Aimin, and Bai, Ming

Subjects

Insecta, Dacochile, Arthropoda, Tanyderidae, Diptera, Animalia, Biodiversity, Taxonomy

Abstract

3.387 Genus Dacochile Poinar & Brown, 2004 Dacochile Poinar & Brown, 2004a: 341. Type species: Type species: Dacochile microsoma Poinar & Brown, 2004., Published as part of Guo, Mingxia, Xing, Lida, Wang, Bo, Zhang, Weiwei, Wang, Shuo, Shi, Aimin & Bai, Ming, 2017, A catalogue of Burmite inclusions, pp. 249-379 in Zoological Systematics 42 (3) on page 335, DOI: 10.11865/zs.201715, http://zenodo.org/record/5360313

Published

2017

17. A catalogue of Burmite inclusions

Author

Guo, Mingxia, Xing, Lida, Wang, Bo, Zhang, Weiwei, Wang, Shuo, Shi, Aimin, and Bai, Ming

Subjects

Florideophyceae, Rickettsiales, Dysagrionidae, Baissomantidae, Rhabditida, Palpigradi, Ripiphoridae, Cupedidae, Mesochrysopidae, Trichonymphida, Mesoraphidiidae, Buprestidae, Gekkonidae, Trypanosomatidae, Tanyderidae, Mantispidae, Bethylidae, Ophiocordycipitaceae, Hypermastigea, Praeterleptonetidae, Therevidae, Passalopalpidae, Raphidioptera, Jungermanniopsida, Burmaphlebiidae, Neoamblypygi incertae sedis, Micropalpimanidae, Aphelenchida, Tingidae, Lophioneuridae, Theridiidae, Enicocephalidae, Ascomycota, Archaeatropidae, Symphypleona, Mymarommatidae, Bacteria, Metazoa, Trichoptera, Palaeoclavariaceae, Micropterigidae, Pompilidae, Coccoideaceae, Schizopteridae, Lepiceridae, Hilarimorphidae, Buthidae, Alienopteridae, Mogoplistidae, Pseudoscorpiones, Ceramiales, Plasmodiidae, Notoligotomidae, Stephanidae, Eucaudomyiidae, Ceratopogonidae, Heterorhabditidae, Halithersidae, Pacullidae, Sphecidae, Porellales, Leptonetidae, Philopotamidae, Rhinotermitidae, Mysteromyiidae, Hexapoda, Parasitiformes, Biodiversity, Eccrinales, Hypocreales, Perforissidae, Psychomyiidae, Miozoa, Arthropoda, Gomortegaceae, Uropygi, Elcanidae, Embioptera, Gomphidae, Rickettsiaceae, Gordioidea, Ricinulei, Animalia, Xylomyidae, Alphaproteobacteria, Palaeoburmesebuthidae, Archaeidae, Basidiomycota, Grylloblattodea, Trentepohliaceae, Aleyrodidae, Secernentea, Tetratomidae, Coccidae, Rhodophyta, Sordariomycetes, Orthoptera, Strepsiptera, Boletales, Manipulatoridae, Oxymonadida, Polycentropodidae, Dermaptera, Archipsyllidae, Zygentoma, Lepidolaenaceae, Bibionidae, Platycnemididae, Chlorophyta, Mymaridae, Frullaniaceae, Polyneoptera incertae sedis, Australiphemeridae, Epedanidae, Acari, Tethepomyiidae, Chaerilidae, Dryinidae, Ortheziidae, Mantoblattidae, Palaeoeuscorpiidae, Plantaginaceae, Tridactylidae, Palaeotrilineatidae, Oecobiidae, Zorotypidae, Hemiptera (awaiting allocation), Trichonymphidae, Nymphidae, Ptychopteridae, Trombidiformes, Apidae, Bryophyta, Anisolabididae, Bolboceratidae, Lagonomegopidae, Arachnida, Uloboridae, Athericidae, Amblypygi, Piesmatidae, Entomobryomorpha, Evaniidae, Sapygidae, Liposcelididae, Ptilodactylidae, Sialidae, Archizelmiridae, Chimeromyiidae, Bryopsida (awaiting allocation), Labiduridae, Mecoptera, Chaoboridae, Laurales, Tetrablemmidae, Parvosegestriidae, Agaricomycetes, Reptilia, Odonata, Asiloidea incertae sedis, Rhachiberothidae, Hybosoridae, Cascopleciidae, Curculionidae, Sphaeriusidae, Trichonymphea, Thelyphonida, Archeorhinotermitidae, Marchantiophyta, Hydroptilidae, Geophilomorpha, Cretaceothelidae, Lepidoptera, Cantharidae, Valeseguyidae, Diplatyidae, Protopsyllidiidae, Plumorsolidae, Bombyliidae, Tiphiidae, Solifugae, Nemonychidae, Oligotomidae, Gelastocoridae, Euglenozoa, Mesomycetozoea, Taxonomy, Fungi, Scolebythidae, Polyxenida, Sclerodermataceae, Fossilcalcaridae, Burmanymphidae, Limoniidae, Mantodea, Phasmida, Anthicidae, Rhagionemestriidae, Odontellidae, Pisauridae, Poliocheridae, Theridiosomatidae, Burmascutidae, Aulacidae, Hydrometridae, Malacostraca, Eremochaetidae, Sciaridae, Resinacaridae, Poduromorpha, Teranymphidae, Araneidae, Ulvophyceae, Gomphaeschnidae, Choanozoa, Geotrupidae, Leptopodidae, Baetidae, Stylocellidae, Eccrinaceae, Rhopalosomatidae, Staphylinidae, Hemiptera, Proteobacteria, Squamata, Lampyridae, Meloidae, Bryopompilidae, Cosmocercidae, Trichomonadea, Monocotyledones, Dicotyledons, Euisoptera incertae sedis, Phthanoxenidae, Pyrsonymphidae, Blattaria, Insecta, Stigmaphronidae, Raphidiomimidae, Eopsilodercidae, Smicripidae, Megaloptera, Platystictidae, Braconidae, Perilestidae, Diplopoda, Kozariidae, Dipteromantispidae, Monotomidae, Oxyurida, Keroplatidae, Stratiomyidae, Oxymonadidae, Tetratomaedes, Aradidae, Chromista, Melittosphecidae, Dorylaimea, Zhangsolvidae, Arthropoda (awaiting allocation), Ommatidae, Isotomidae, Zoraptera, Elateridae, Histeridae, Sminthuridae, Pachytroctidae, Prostomidae, Primoricinuleidae, Pelecinidae, Cimicidae, Chaerilobuthidae, Osmylidae, Magnoliopsida, Cretostylopidae, Psilodercidae, Myrmeleontidae, Spirotrichonymphida, Blattodea, Sucinlourencoidae, Diptera, Corydasialidae, Delesseriaceae, Sorellembiidae, Coniopterygidae, Sisyridae, Tracheophyta, Dilaridae, Incertae sedis, Collembola, Praentomobryidae, Palaeoleptidae, Kinetoplastea, Psychodidae, Berothidae, Mermithidae, Nematoda, Chordodidae, Pygidicranidae, Nematomorpha, Eukoeneniidae, Weitschatidae, Nemestrinidae, Garypinidae, Ixodida, Hemiptera incertae sedis, Dipluridae, Embolemidae, Platygastridae, Thelastomatidae, Caridae, Plantae, Chordata, Cornales, Achilidae, Pseudopolycentropodidae, Acroceridae, Poales, Scorpiones, Synxenidae, Neuroptera, Aphelenchoididae, Lamiales, Trichomonadida, Silvanidae, Araneae, Lophioneurida, Praeaulacidae, Chilopoda, Mycetophilidae, Oonopidae, Ixodidae, Dictynidae, Pseudococcidae, Ithyceridae, Compsocidae, Apsilocephalidae, Empididae, Holomastigotidae, Poales (awaiting allocation), Eucoccidiida, Burmitaphididae, Formicidae, Ephemeroptera, Isoptera (awaiting allocation), Metamonada, Gordioida, Bryopsida, Parvaverrucosidae, Denntstaedtiaceae, Kalotermitidae, Meropeidae, Cheiridiidae, Cheyletidae, Spathiopterygidae, Trypanosomatida, Geophilidae, Cecidomyiidae, Trentepohliales, Phasmatidae, Devescovinidae, Protoaraneoididae, Maimetshidae, Tabanidae, Ascaridida, Spatiatoridae, Lepismatidae, Opiliones, Gigartinaceae, Coleoptera, Hemiphlebiidae, Cixiidae, Scirtesidae, Anaeromonadea, Styloniscidae, Carabidae, Isopoda, Clothodidae, Gigartinales, Isoptera, Hersiliidae, Corethrellidae, Psychopsidae, Protozoa, Diptera (awaiting allocation), Othniodellithidae, Syspastoxyelidae, Thysanoptera, Asilidae, Capnodiales, Feaellidae, Hymenoptera, Dermestidae, Culicidae, Dothideomycetes, Oxalidales, Mermithida, Psocodea

Abstract

Guo, Mingxia, Xing, Lida, Wang, Bo, Zhang, Weiwei, Wang, Shuo, Shi, Aimin, Bai, Ming (2017): A catalogue of Burmite inclusions. Zoological Systematics 42 (3): 249-379, DOI: 10.11865/zs.201715

Published

2017

18. Similinannotanyderus lii Dong, Shih & Ren 2015

Author

Guo, Mingxia, Xing, Lida, Wang, Bo, Zhang, Weiwei, Wang, Shuo, Shi, Aimin, and Bai, Ming

Subjects

Insecta, Arthropoda, Similinannotanyderus lii, Tanyderidae, Diptera, Animalia, Biodiversity, Similinannotanyderus, Taxonomy

Abstract

479) Similinannotanyderus lii Dong, Shih & Ren, 2015 Similinannotanyderus lii Dong, Shih & Ren, 2015: 262. Type specimen(s). H (♂): CNU-DIPMA2014001 (CNU).

Published

2017

19. Similinannotanyderus Dong, Shih & Ren 2015

Author

Guo, Mingxia, Xing, Lida, Wang, Bo, Zhang, Weiwei, Wang, Shuo, Shi, Aimin, and Bai, Ming

Subjects

Insecta, Arthropoda, Tanyderidae, Diptera, Animalia, Biodiversity, Similinannotanyderus, Taxonomy

Abstract

3.386 Genus Similinannotanyderus Dong, Shih & Ren, 2015 Similinannotanyderus Dong, Shih & Ren, 2015: 261. Type species: Similinannotanyderus lii Dong, Shih & Ren, 2015., Published as part of Guo, Mingxia, Xing, Lida, Wang, Bo, Zhang, Weiwei, Wang, Shuo, Shi, Aimin & Bai, Ming, 2017, A catalogue of Burmite inclusions, pp. 249-379 in Zoological Systematics 42 (3) on page 335, DOI: 10.11865/zs.201715, http://zenodo.org/record/5360313

Published

2017

20. Dacochile microsoma Poinar & Brown 2004

Author

Guo, Mingxia, Xing, Lida, Wang, Bo, Zhang, Weiwei, Wang, Shuo, Shi, Aimin, and Bai, Ming

Subjects

Insecta, Dacochile, Arthropoda, Tanyderidae, Diptera, Animalia, Dacochile microsoma, Biodiversity, Taxonomy

Abstract

480) Dacochile microsoma Poinar & Brown, 2004 Dacochile microsoma Poinar & Brown, 2004a: 341. Type specimen(s). H (♀): #B-D-12 (PACO)., Published as part of Guo, Mingxia, Xing, Lida, Wang, Bo, Zhang, Weiwei, Wang, Shuo, Shi, Aimin & Bai, Ming, 2017, A catalogue of Burmite inclusions, pp. 249-379 in Zoological Systematics 42 (3) on page 336, DOI: 10.11865/zs.201715, http://zenodo.org/record/5360313

Published

2017

21. The first representative of Espanoderus and one new species of Similinannotanyderus (Diptera: Tanyderidae) from mid-Cretaceous amber of northern Myanmar.

Author

Men, Qiulei, Hu, Zhengkun, and Xu, Luyao

Abstract

One new species of Espanoderus Skibińska, Krzemiński & Arillo, 2017, Espanoderus orientalis sp. nov. and one new species of Similinannotanyderus Dong, Shih & Ren, 2015a, Similinannotanyderus longitergata sp. nov. from the Burmese mid-Cretaceous amber are described and illustrated. A key to all recorded species of genus Similinannotanyderus is provided. Espanoderus orientalis sp. nov. represents the second record of species in genus Espanoderus and the first record from Burmese amber. [ABSTRACT FROM AUTHOR]

Published

2020

22. Araucoderus gloriosus Alexander 1920

Author

Madriz, R. Isa�� and Courtney, Gregory W.

Subjects

Insecta, Araucoderus, Arthropoda, Tanyderidae, Diptera, Animalia, Biodiversity, Araucoderus gloriosus, Taxonomy

Abstract

Araucoderus gloriosus (Alexander, 1920) Tanyderus gloriosus Alexander, 1920: 13: 5. Radinoderus gloriosus Alexander, 1927: 189: 9. Araucoderus gloriosus Alexander, 1929: 1: 228. Diagnosis. Egg: The only Tanyderidae known in this stage. Larva: cuticle translucent, varying from light grey to tan in color; head orange to brown in color; mandible with three prominent teeth; endocarina (glandular duct) present; postmentum without teeth, flat to convex anteriorly. Pupa: Body elongate, cylindrical; head with tubercles, antennal sheath lying between wing margin and midleg; respiratory organs inconspicuous, undivided and tubular; abdominal segment VIII with digitiform lobes inserted posterolaterally, posterior to spiracle. Male: Cuticle with variegated coloration, light- to dark brown; vestiture light brown; abdominal tergites dark brown, with irregular, pale markings anteriorly on either side of median; wing more than 14 mm in length, infuscated, with pigment arranged in transverse bands; supernumerary cross-veins absent; male terminalia: with varying degree of rotation, usually 90 degrees, involving segments 7���9; dorsal bridge of paramere with pair of projections anterolaterally; lateromedial element of paramere with small convex anterior lobe bearing 4���6 setiform sensilla, with a dentate mesal lobe set with five dissimilar projections, with a fleshy convex lobe inserted proximally, set with many small trichoid sensilla; dorsomedial element ���I-shaped���, articulated basally with dorsal bridge, articulated apically with lateral ejaculatory processes of aedeagus; parameral lobe at gonocoxite base reniform in lateral view, with several prominent setiform sensilla inserted subapically; aedeagus trifurcate, with point of trifurcation asymmetrical in dorsal view in some specimens; phallotrema flared slightly. Female: coloration, head, thorax, legs and wings as in male; spermatheca pyriform; ducts uniformly sclerotized, annulated and unpigmented. Description. See also Alexander (1920). Egg (Figs. 4���6): elongate-ovoid, white, lacking microsculpture; micropile not evident; laid in clusters of 10 or more. Larva IV instar (Figs. 7���21, 49, 50, 52, 53): Measurements (n = 3), total length 31.34 mm (30.43���32.20), head width 1.35 mm (1.33���1.43), head length 1.67 mm (1.58���1.80). Head capsule ovate, heavily sclerotized anteriorly, dorsoventrally compressed, rounded posteriorly, partially retracted into prothorax; stemmata not apparent; primordial adult eye well-developed; frontoclypeal apotome (frcly ap; Figs. 11, 16) somewhat pentagonal in shape, enclosed by frontal sutures; coronal suture visible medially on posterior 1/3 of the head; mesal endocarina (ec; Fig. 11, 16) ending medially on anterior clypeal margin; anterior clypeal margin (acm; Fig. 11, 16) composed of two pairs of undifferentiated lobes, medial pair elongate-transverse, lateral pair bulbous; labrum as broad as medial endocarinal lobes combined, broad, fleshy, somewhat dorsoventrally compressed; paraclypeal setae paired (s 3, s 4; Fig. 11); labral sclerite with paired setiform sensilla widely separated (s 2; Fig. 11); palatal brush (pb; Figs. 12 ��� 14,18) with paired setiform sensilla inserted dorsally (s 1; Fig. 11); antenna (ant; Figs. 10, 12, 18, 20) inserted anterolaterally; base partially shrouded by epicondyle (econ; Figs. 11, 16, 20); two-segmented, basal segment more than twice the length of distal segment; apical segment with at least six inconspicuous, two conspicuous sensilla basiconica inserted apically (aps; Fig. 10); mandibles (md; Figs. 7, 12, 14, 16, 18, 20) well developed, symmetrical, pyramidal in shape, scoop-like, with three dentations apically; middle dentation projecting beyond others; oral surface of mandible with well-developed prosthecal brush dorsally, two setiform sensilla ventrally, adoral surface with two sensilla basiconica (s 12, s 13; Fig. 12), anterior condyle well developed; maxillary stipes with one prominent digitiform sensilla anterodorsally (s 21; Fig. 7), with cluster of microtrichia posteroventrally; galea globular (mxg; Figs. 7, 8, 12, 18), partially sclerotized, with three apical setiform sensilla (s 18, s 19, s 20; Figs. 7, 8); lacinia elongate (mxl; Figs. 7, 8, 12, 18), covered with microtrichia adorally, bearing one seta (s 22; broken in Fig. 9) anterolaterally; maxillary palpus (mxp; Figs. 7���9, 12, 18, 20) unsegmented, cylindrical, slightly longer than wide, set with many sensilla basiconica apically, with apical sensilla globose to digitiform, arranged in whirls; cardo (mxc; Figs. 7, 8, 12, 18) with three setiform sensilla (s 24���s 26; Fig. 8), separated from stipes (mxs; Figs. 8, 12, 18) by cardostipital ridge; postmentum (lmpo; Figs. 8, 12, 13, 18) heavily sclerotized, quadrate basally, with anterior margin straight or slightly emarginated, concave; postgenal bridge (pbr; Fig. 13) complete; prementum (lmpr; Figs. 7, 12 ���14,18) with saddle-shaped sclerite apically; labial palpus (lmp; Figs. 7, 14) cylindrical, sclerotized, with six digitiform sensilla apically, two almost twice as long as the rest; glossae inconspicuous, (lmg; Fig. 7) conical; hypopharynx (hy; Figs. 7, 13, 14) cushion-like, with semicircular sclerite dorsally; pharyngeal filter (ph fi; Fig. 13), housed within pharynx (ph; Fig. 13) well developed, supported by two narrow, sclerotized oral arms originating from hypopharynx. Thoracic segments (pro, mes, met; Fig. 15) equal in length, each bearing ten transverse, equally spaced 1���4 branched setae dorsally, four 2���4 branched setae laterally and six clusters of 1���3 branched setae ventrally; prothorax bearing pair of well-developed spiracles laterally (a spir; Fig. 15), pro- and mesothorax slightly differentiated by tenuous intersegmental constriction; metathorax with circular and pad-like lobes ventrally. Abdominal segments (aI���aVIII & aA; Fig. 15) with distinct intersegmental constrictions; abdominal segments I���IV with circular lobes ventrally, two simple setae, one bifurcated seta posterolaterally; segment VIII with one pair of posterior spiracles (p spir; Figs. 15, 17, 21), one pair of elongate, annulated filaments extending beyond anal division; filaments with evenly spaced simple setae posteriorly; anal division (aA; Figs. 15, 17, 19, 21) with one pair of elongate, annulated filaments dorsally, one pair of prolegs (pran; Figs. 19, 21) ventrally; prolegs each with elongate, annulated filament inserted dorsoapically, with two rows of retractile hooks apically, basal row with 11���13 hooks, apical row with 12���13 slightly longer hooks; anal papillae (ap; Figs. 15, 17, 19, 21) elongate-digitiform, twice the length of extended prolegs. Pupa: Male: Measurements (n = 1), total length 18.40 mm, respiratory organ 0.50 mm (ro; Figs. 23, 25). Body (Figs. 22���25, 51) elongate, cylindrical, with cephalothorax circumference slightly larger than abdomen; mouthparts and thoracic appendages fused to each other and to remainder of cephalothorax. Head with tubercles; dorsal apotome (da; Figs. 23, 25) apically with single sensilla (s da; Figs. 22, 24), apotome ventrally abutting anterior margin of face; cephalic sclerite with one seta, sclerite fused anterolaterally to orbital portion of head capsule; antenna (ant; Figs. 22, 24) extending posteriorly to between wing margin and midleg; clypeal apotome with pair of sensilla inserted basally; mouthparts restricted to area anterior of forecoxae; apex of labrum (lbr; Figs. 22, 24) truncate; mandible present, maxilla absent; palpus (plp; Figs. 22, 24) directed obliquely anterolaterally; labella divided medially; sensilla: setae arising from lobes; dorsal apotomals bilobed. Thorax: respiratory organ tubular, with numerous annulations, pores concentrated at apex; legs (pro leg, mes leg, met leg; Figs. 22, 24) directed posteriorly, with tarsi extending posteriorly beyond wing apex, lying parallel to each other; metanotum (met; Fig. 22) undivided medially, haltere (htl; Fig. 22) extended posterolaterally before anterolateral margin of abdominal tergite 2 (aII; Figs. 23, 25). Abdomen: circular in cross-section; tergites I���VIII with setae arranged in transverse rows on sclerotized bands bearing small coniform tubercles; pleurites II���VII with setae arranged in one caudal longitudinal row of three setae and one seta inserted in medial tubercle, adjacent to spiracle; sternites I���VIII with one pair of setae inserted posteriorly; segment VIII with posterolateral fleshy lobes bearing two setae posteriorly to spiracle; Segment IX (aIX; Figs. 23, 25) without setae, a pair of posterior dorsomedial fleshy lobes present; terminal process apically tapered in both sexes. Female: Measurements (n = 1), total length 23.52 mm, respiratory organ 0.57 mm. In other details, same as male. Male (Figs. 1, 26���29, 32���38, 46): Measurements (n = 5), total length 14.66 mm (12.48���17.28); head length 1.48 mm (1.42���1.56); head width 1.22 mm (1.16���1.30); palpus length 1.54 mm (segment length average 0.15��� 0.24���0.57���0.31���0.32); clypeus length 0.41 mm (0.40���0.44); clypeus width 0.37 mm (0.35���0.39); wing length 15.82 mm (14.14���18.08); wing width 3.75 mm (3.35���4.05). Head with mandible and maxilla poorly developed (md, mx; Fig. 27); antenna with scape and pedicel glabrous, each with several setiform sensilla inserted distally; scape cylindrical (scp; Figs. 27, 28), slightly larger than pedicel; pedicel spherical (ped; Figs. 27, 28); flagellomeres numbering 15, all elongate, more than 3 times longer than wide, cylindrical; f 1 slightly longer than f 2; f 3���14 each with 4���5 trichoid sensilla inserted near base of flagellomere, arranged concentrically, as long or longer than flagellomere; f 1���15 each with several basiconic sensilla throughout; f 15 with 3 trichoid sensilla inserted apically. Cervical sclerites more than two times longer than wide. Wing (Figs. 30, 31) held away from body at angle in live resting individual; infuscate, with three transverse bands of pigment, basal-most band extending from h vein to posterior wing margin and slightly beyond proximal area of anal loop, medial band extending from midlength of Sc vein to posterior edge of C vein at distal end of anal lobe, passing through r-m and m-cu; apical-most band touching C vein on both sides of wing, appearing as an ���X��� from anterĺor margĺn of wĺng to apĺces of R4, M Z; costal cell yellow in color; cell r1 with two isolated, irregular, infuscated spots, one midlength of vein Rs and a second spot at cell apice; other spots, when present, variable among individuals. Halteres pale yellow at base, dark at apex. Legs light to dark brown, darker at both ends: Tibial spurs 0���2���2, symmetrical. Abdomen: segment I less than half as long as next segment, causing abdomen to droop ventrally; tergites dark brown with large irregular pale yellow markings basally on either side of medial line, each with dark yellow ovoid pattern centrally, basally. Terminalia (Figs. 32���38) with torsion of segments 7���9 variable from 0 to 180 degrees; gonocoxites (goncx; Figs. 32, 33, 36��� 38) narrowly contiguous at base (Fig. 33), divergent from each other at origin, each nearly cylindrical, tapering slightly toward apex; setiform sensilla or setae alveoli distributed over dorsal, ventral and lateral surface, absent mesally; gonostylus (gonst; Figs. 32, 33, 36) cylindrical, about 2/3 length of gonocoxite, slightly tapering at apex, curved medially, with prominent setae alveoli evenly distributed over surface, hirsute apically; hypandrium not evident; epandrium (epand; Figs. 32, 36���38) slightly wider than long, with setae alveoli distributed over entire surface; proctiger recessed anteriorly, nested within epandrium; cercus (cerc; Figs. 37, 38) inconspicuous, unmodified, setose; paramere subdivided into dorsal bridge (pm db; Fig. 37), lateromedial element (pm lme; Figs. 36���38), dorsomedial element (pm dme; Figs. 37, 38) and parameral lobe at gonocoxite base (pm gbl; Figs. 32, 33, 37, 38); dorsal bridge arch-shaped, with a pair of small projections anterolaterally; lateromedial element broadly interconnected with gonocoxite anteromesally, divided into three prominent lobes, anterior lobe small, convex, with 4���6 setiform sensilla, mesal lobe dentate, with five dissimilar projections, with fleshy convex lobe proximally bearing many small trichoid sensilla; dorsomedial element ���I-shaped���, articulated basally with dorsal bridge, articulated apically with lateral ejaculatory processes of aedeagus; parameral lobe at gonocoxite base reniform in lateral view, with several prominent setiform sensilla inserted subapically, many smaller trichoid sensilla inserted on entire surface; ejaculatory apodeme (ej apod; Figs. 32���35, 38) extending anteriorly to abdominal segment 7 terminus, laterally compressed, clavate at base, with surface corrugated; sperm sac (spm sac; Figs. 34, 35) balloonlike, surrounded by aedeagus posteriorly, attached to ejaculatory apodeme anteriorly; aedeagus (aed; Figs. 32���38) narrowed abruptly at base, trifurcated at midlength; point of trifurcation asymmetrical in dorsoventral view; phallotrema flared slightly, placed between cerci when at rest; testes (tes; Figs. 32���35, 38) pyriform, rounded anteriorly, differentiated from vasa deferentia only by width, shape; vasa deferentia (v d; Figs. 34, 35), testes rugose in appearance; ejaculatory duct (ej dt; Figs. 34, 35) lightly sclerotized, entering sperm sac through ejaculatory apodeme foramen. Female (Figs. 39���45): Measurements (n = 3), total length 21.02 mm (19.20���24.48); head length 1.51 mm (1.25���1.72); head width 1.23 mm (1.14���1.38); clypeus length 0.47 (0.37���0.55); clypeus width 0.40 (0.35���0.47); palpus length 1.80mm (palpomere length average 0.11���0.34���0.66���0.32���0.36); wing length 18.56 mm (16.15��� 22.08); wing width 4.92 mm (4.00���5.96). Head with eyes as in male; mandible and maxilla twice as long as wide; antenna as in male. Wing as in male. Terminalia with posterior margin of sternite VIII broadly bilobate, strongly emarginate medially, emargination with ���square U��� shape; genital fork (gen fk; Figs. 40, 42, 43, 44) transversely elongated posteriorly, more than eight times longer than wide, ���Y���-shaped medially, acuminate anteriorly; spermatheca numbering three; corpora ovoid, with visible necks; spermathecal ducts annulated and uniformly sclerotized, more than twice as long as corpora, unpigmented. Distribution. Araucoderus is restricted to Patagonia. All confirmed records lie between latitudes 38��31���S and 48��02���S, ranging in altitude from 2 to 1700masl. A survey of the central regions of Chile yielded no specimens. There is one published Araucoderus record from Argentina (Alexander, 1959). Type material. Chile. Regi��n XI (Ays��n): Holotype ��: Chile Rio Ays��n, approximately, coll. P. Dusen, no date given; the specimen is deposited in two museums. Naturhistoriska Riksmuseet Stockholm, Sweden (NHRM) and the USNM. The latter possesses only the wing, antenna and middle leg. Only the USNM material was examined during the current study. Material examined. See Figure 2. Chile. Regi��n IX (Araucan��a): Estero el Rosario @ confluence with Estero la Cascada 39��23���12.93���S 71��41���46.27���W, 710masl, 3.x.2007, coll. G.W. Courtney, [2L]; Villarica N.R. R��o Quelhue @ northeast side Lago Villarrica 39��14.134���S 71��57.758���W, 230masl, 29.xi.2013, coll. R.I. Madriz, on riparian vegetation [1��]; R��o Blanco Sur, downstream from Conguill��o Road 38��31���16.62���S 71��50���17.70���W, 601masl, 19.xii.2013, coll. G.R. Curler, riparian vegetation [1♀]. Regi��n XIV (Los R��os): Estero Truful @ Hwy 203 crossing 39��49���29.97���S 71��59���53.63���W, 230masl, 4.xii.2013, coll. R.I. Madriz [3��]. Regi��n X (Los Lagos): Casa Pangue Llanquihue, 4.xii.1926, coll. E.S. Shannon [1��]; Ensenada, Llanquihue, 2.i.1937, coll. E.C. Reed [1��]; Llanquihue Hornohuinco, xii.1968, coll. L.E. Pena [1��]; Lago Puyehue southeast shore, 10.ii.1978, coll. W.N. Mathis [1��]; Osorno Prov. Laguna el Espejo, 7.ii.1978, col. W.N. Mathis [1��]; Palena R��o Amarillo ca. 28km southeast Chait��n, 23.i.1987, coll. C.M. & O.S. Flint, Jr., [1��]; Llanquihue Prov. R��o del Este @ R��o Cocham��, 5km east Cocham�� 41��30���S 72��16���W, 2���4.ii.1998, coll. N.E. Woodley [9��]; Prov. Llanquihue, {Cayutue} near Ral��n 41��14���S 72��16���W, 12.ii.1998, coll. N.E. Woodley [2��]; Puyehue N.P., R��o Anticura above Salto R��o Anticura, 40��40���16.14���S 72��10���12.88���W, 395masl, 4.xii.2008 coll. G.W. Courtney [1♂]; Puyehue N.P., R��o Anticura above Salto R��o Anticura, 40��40���16.14���S 72��10���12.88���W, 395masl, 6.xii.2013, coll. R.I. Madriz [1��]; Puyehue N.P., Sendero Pud�� 40��40���15.1���S 72��10���11.6���W, 393masl, 9.xii.2013, coll. S. Marshall & G.W. Courtney [1��]; R��o Blanco @ Puente R��o Blanco Arenales 41��03���04.6���S 72��39���46.8���W, 69masl, 9& 13.xii.2013, coll. R.I. Madriz & G.W. Courtney [2L, 1P, 2��, 1♀]; Puyehue N.P., R��o Colorado @ Puente Arauco Sendero de Chile 40��40���15.5���S 72��08���43.9���W, 467masl, 10.xii.2013, coll. R.I. Madriz, G.W. Courtney & G.R. Curler [10L, 1P, 13��, 1♀]; Small creek ��� 7km above Ral��n on road to Cayetu�� 41��19���50.7���S 72��16���30.1���W, 240masl, 12.xii.2013, coll. R.I. Madriz & G.W. Courtney [6L, 5 ��]; Cayetu�� Road, small creek ��� 5.5k above Ral��n 41��20'20.89"S 72��16'23.40"W, 150masl, 13.xii.2013, coll. G.W. Courtney, riffle kick sample [5L]; R��o Pedregoso @ Puente Pedregoso 41��20���12.9���S 72��24���27.3���W, 55masl, 13.xii.2013, coll. R.I. Madriz [3��]; R��o Blanco @ Puente R��o Blanco, 40��58���36.5���S 72��35���01.9���W, 242masl, 14.xii.2013, coll. R.I. Madriz [2��]; R��o Blanco @ Puente R��o Blanco 41��00���30.2���S 72��34���13.9���W, 330masl, 14.xii.2013, coll. R.I. Madriz [2��]; R��o Llaquepe @ Puente Llaquepe 41��43���43.9���S 72��28���51.4���W, 33masl, 15.xii.2013, coll. R.I. Madriz [1 ♀]; R��o Negro Chaqueihua 0.5km N of intersection to Hornopir��n N.P. 41��55'38.2"S 72��25'19.6"W, 39masl, 15.xii.2013, coll. R.I. Madriz & G.W. Courtney [4L, 1��, 1♀]; R��o la Arena @ Puente la Arena 42��00���03.6���S 72��26���11.8���W, 32masl, 16.xii.2013, coll. R.I. Madriz [1P, 1♂]; R��o Santa Juanita @ Puente Santa Juanita 42��07���38.1���S 72��27���54.8���W, 32masl, 16.xii.2013, coll. R.I. Madriz [2��]; R��o Pichicolo southwest Hornopir��n 41��59���07.7���S 72��33���51.7���W, 19masl, 17.xii.2013, coll. G.W. Courtney [3L]; Regi��n XI (Ays��n): Creek crossing @ highway 7 46��14���46.0���S 72��47���31.9���W, 273masl, 27.xii.2013, coll. R.I. Madriz [1��]; West of intersection to Cale, Published as part of Madriz, R. Isa�� & Courtney, Gregory W., 2016, The Neotropical tanyderid Araucoderus gloriosus (Alexander) (Diptera, Tanyderidae), with description of the egg, larva and pupa, redescription of adults, and notes on natural history, pp. 325-351 in Zootaxa 4158 (3) on pages 330-347, DOI: 10.11646/zootaxa.4158.3.2, http://zenodo.org/record/258695, {"references":["Alexander, C. P. (1920) A new genus and species of net-winged midge (Blephariceridae) and an undescribed species of Tanyderidae (Diptera). Arkiv for Zoologi, 13, 1 - 7. http: // dx. doi. org / 10.5962 / bhl. part. 20145","Alexander, C. P. (1927) Diptera. Family Tanyderidae. Genera Insectorum, 189, 1 - 13.","Alexander, C. P. (1929) Diptera of Patagonia and south Chile: based mainly on material in the British Museum (Natural History). Part I. Crane-flies. London: British Museum (Natural History). pp. 228.","Alexander, C. P. (1959) Undescribed species of nematocerous Diptera. Part VII. Bulletin of the Brooklyn Entomological Society, 54, 53 - 59.","Handlirsch, A. (1909) Zur phylogenie und flugelmorphologie der Ptychopteriden (Dipteren). Annalen des Naturhistorischen Museums in Wien, 23, 263 - 272.","Friedemann, K., Schneeberg, K. & Beutel, R. G. (2014) Fly on the wall - attachment structures in lower Diptera. Systematic Entomology, 39, 460 - 473. http: // dx. doi. org / 10.1111 / syen. 12064","Hennig, W. (1968) Kritische Bemerkungen uber den Bau der Flugelwurzel bei den Dipteren und die Frage nach der Monophylie der Nematocera. Stuttgarter Beitrage Naturkunde 193, 1 - 23.","Borkent, A., Borkent, C. J. & Sinclair, B. J. (2008) The male genital tract of Chaoboridae (Diptera: Culicomorpha). The Canadian Entomologist, 140, 621 - 629. http: // dx. doi. org / 10.4039 / n 08 - 048","Jung, H. F. (1956) Beitrage zur Biologie, Morphologie und Systematik der europaischen Psychodiden (Diptera). Deutsche Entomologische Zeitschrift, 3, 97 - 257.","Curler, G. R., Moulton, J. K. & Madriz, R. I. (2015) Redescription of Aposycorax chilensis (Tonnoir) (Diptera, Psychodidae, Sycoracinae) with the first identification of a blood meal host for the species. Zootaxa, 4048 (1), 114 - 126. http: // dx. doi. org / 10.11646 / zootaxa. 4048.1.7","Judd, D. D. (2004) Insecta: Diptera, Tanyderidae. In: Yule, C. M & Yong, H. S (Eds.), Freshwater Invertebrates of the Malaysian Region. Academy of Sciences Malaysia, pp. 626 - 633.","Osten Sacken, C. R. (1859) New genera and species of North American Tipulidae with short palpi, with attempt at a new classification of the tribe. Proceedings of the Academy of Natural Sciences of Philadelphia, 11, 197 - 256.","Krzeminski, W. & Judd, D. D. (1997) Family Tanyderidae. In: Papp, L. & Darvas, B. (Eds.), Contributions to a Manual of Palaearctic Diptera. Vol. 2: Nematocera and Lower Brachycera. Science Herald, Budapest, pp. 281 - 289."]}

Published

2016

23. The Neotropical tanyderid Araucoderus gloriosus (Alexander) (Diptera, Tanyderidae), with description of the egg, larva and pupa, redescription of adults, and notes on natural history

Author

Madriz, R. Isaí and Courtney, Gregory W.

Subjects

Insecta, Arthropoda, Tanyderidae, Diptera, Animalia, Biodiversity, Taxonomy

Abstract

Madriz, R. Isaí, Courtney, Gregory W. (2016): The Neotropical tanyderid Araucoderus gloriosus (Alexander) (Diptera, Tanyderidae), with description of the egg, larva and pupa, redescription of adults, and notes on natural history. Zootaxa 4158 (3): 325-351, DOI: http://doi.org/10.11646/zootaxa.4158.3.2

Published

2016

24. Araucoderus Alexander 1929

Author

Madriz, R. Isa�� and Courtney, Gregory W.

Subjects

Insecta, Araucoderus, Arthropoda, Tanyderidae, Diptera, Animalia, Biodiversity, Taxonomy

Abstract

Araucoderus Alexander, 1929 Araucoderus Alexander, 1929: pp. 228. Type species: Tanyderus gloriosus Alexander, by original designation., Published as part of Madriz, R. Isa�� & Courtney, Gregory W., 2016, The Neotropical tanyderid Araucoderus gloriosus (Alexander) (Diptera, Tanyderidae), with description of the egg, larva and pupa, redescription of adults, and notes on natural history, pp. 325-351 in Zootaxa 4158 (3) on page 330, DOI: 10.11646/zootaxa.4158.3.2, http://zenodo.org/record/258695, {"references":["Alexander, C. P. (1929) Diptera of Patagonia and south Chile: based mainly on material in the British Museum (Natural History). Part I. Crane-flies. London: British Museum (Natural History). pp. 228."]}

Published

2016

25. Nannotanyderinae: a new subfamily of Tanyderidae (Diptera)

Author

Kornelia Skibińska

Subjects

Systematics, 010506 paleontology, Subfamily, biology, Baltic amber, Tanyderidae, Zoology, Taxonomy (biology), 010502 geochemistry & geophysics, Oceanography, biology.organism_classification, 01 natural sciences, 0105 earth and related environmental sciences

Published

2016

26. The Neotropical tanyderid Araucoderus gloriosus (Alexander) (Diptera, Tanyderidae), with description of the egg, larva and pupa, redescription of adults, and notes on natural history

Author

Gregory W. Courtney and R. Isaí Madriz

Subjects

Male, 0106 biological sciences, 010506 paleontology, animal structures, Oviposition, Zoology, Captivity, Biology, History, 21st Century, 010603 evolutionary biology, 01 natural sciences, Araucoderus gloriosus, Genus, parasitic diseases, Tanyderidae, Animals, Body Size, Chile, Ecosystem, Ecology, Evolution, Behavior and Systematics, Ovum, 0105 earth and related environmental sciences, Larva, Ecology, Diptera, fungi, Pupa, Animal Structures, History, 19th Century, Organ Size, History, 20th Century, biology.organism_classification, Life stage, Natural history, Female, Animal Science and Zoology, Animal Distribution, Entomology

Abstract

Larvae, pupae and adults of Araucoderus gloriosus (Alexander) were collected during fieldwork in Chilean Patagonia, December 2013 and January 2014. Eggs were obtained from females that oviposited in captivity. Association of all life stages is based on co-occurrence and rearing of individual larvae to adults. A diagnosis for the genus and species is provided. Descriptions of the egg, larva and pupa and redescriptions of the male and female are completed. Eggs of A. gloriosus are the first described for Tanyderidae. Natural history characteristics for this species, including microhabitat, copulatory behavior and oviposition, are discussed.

Published

2016