What is Amphipteryx agrioides Selys 1853 (Odonata: Amphipterygidae)?

The family Amphipterygidae comprises a group of moderately large, robust species of pan-tropical damselflies. It was first recognized by Selys (1853) as his "6me legion" based on the description of a unique female which he named "Amphipteryx agrioïdes." Its provenance ("Colombie. [Collect. Selys.]") has remained a mystery as no specimens of this genus had subsequently been collected from South America. Selys (1854a: 241, 243) expanded on the distribution of the specimen noting (page 241) that it had been collected “dans la province de Cumana (Amérique méridionale équatoriale)” and (page 243) “d’après un exemplaire recueilli par M. Funck, et qui se trouvait avec l’ Hetaerina majuscula et l’ Agrion (Hyponevra) Funcki….” De Marmels (1990) dismissed the record of A. agrioides from “Cumaná [Venezuela]” as unlikely and suggested deletion of the species from that country.The single holotype female was apparently never re-examined, except by the late B.E. Montgomery who never published his observations, until recently (von Ellenrieder & Garrison 2007). Calvert (1901) in his Biologia Centrali-Americana assigned this name to specimens from Mexico and Guatemala. He described the male for the first time and gave a description of the female comparing it with the original description and noting that "The hind prothoracic lobe also possesses two dorsal lamellate processes (not mentioned by Selys)…." González (1991) described A. longicaudatus (should be A. longicaudata; Novelo 1995) from Oaxaca, Mexico and distinguished this species from A. agrioides based only on Calvert's (1901) description and illustrations. Several years ago, Rosser W. Garrison was sent digital images of the holotype female of A. agrioides by Jérôme Constant of the IRSNB, and observed that the pronotal armature differed from specimens given this name by Calvert (1901) and González (1991) (Garrison pers. comm.). Since Amphipteryx is the type genus of the family Amphipterygidae, it is imperative that its type species, A. agrioides, be correctly assigned to specimens. The purpose of this paper is to determine the correct identity of A. agrioides, provide diagnostic illustrations of the same, and discuss the location of its type locality.

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Description of the first species of Glomeridesmida from Thailand (Diplopoda, Glomeridesmida, Glomeridesmidae)

ZooKeys ◽

10.3897/zookeys.1024.63678 ◽

2021 ◽

Vol 1024 ◽

pp. 137-156

Author(s):

Thomas Wesener ◽

Nattarin Wongthamwanich ◽

Leif Moritz

Keyword(s):

Electron Microscopy ◽

Scanning Electron Microscopy ◽

South America ◽

Morphological Characters ◽

Southern India ◽

Type Locality ◽

Se Asia ◽

The Family ◽

First Time ◽

Scanning Electron

With three genera and 35 previously known species from India, SE Asia, Central and South America, Glomeridesmida are one of the least diverse Diplopoda groups. Here we describe Glomeridesmus siamensissp. nov., the first species of the order Glomeridesmida from Thailand. The geographically nearest confamiliar species have been described from southern India, Sumatra and Java. The species is described combining photographs, light- and scanning electron microscopy of mature and younger males, females and juveniles. Several characters are illustrated for the first time for an Asian representative of the family Glomeridesmidae. In addition to the type locality of G. siamensissp. nov. from Krabi province, locality data of unidentified Glomeridesmus from Thailand are also given. These data are providing further evidence that the Glomeridesmida are not uncommon, but overlooked as they are small and difficult to collect. The unusual telopods and other morphological characters of G. siamensissp. nov. differ considerably from the few Glomeridesmus males described from Central and South America as well as from India, but the unclear status of two generic names available for species from Indonesia prevents us from adding another generic name to this small and understudied order.

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The South American genus Quemedice Mello-Leitao (Araneae: Sparassidae): familial placement and taxonomic revision

Zootaxa ◽

10.11646/zootaxa.1813.1.6 ◽

2008 ◽

Vol 1813 (1) ◽

pp. 60

Author(s):

CRISTINA A. RHEIMS ◽

FACUNDO M. LABARQUE ◽

MARTÍN J. RAMÍREZ

Keyword(s):

Type Species ◽

Taxonomic Revision ◽

Minas Gerais ◽

Type Locality ◽

Southeastern Brazil ◽

South American ◽

Mato Grosso ◽

Male And Female ◽

The Family ◽

First Time

The genus Quemedice Mello-Leitão, 1942 is revised. The female of the type species, Quemedice enigmaticus MelloLeitão, 1942 is redescribed and the male described and illustrated for the first time based on specimens from Argentina (Santiago del Estero province, near the type locality), central-western and southeastern Brazil (states of Minas Gerais, Mato Grosso and São Paulo). Quemedice piracuruca n. sp. is described based on male and female specimens from Colombia (Dept. Meta) and northern, northeastern and central-western Brazil (states of Piauí, Bahia and Minas Gerais). All specimens share the undisputed synapomorphy for Sparassidae, a soft dorsal trilobate membrane at the distal end of leg metatarsi, hence the genus is transferred to the family Sparassidae.

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Catalog of the horse-flies (Diptera: Tabanidae) of Chile

Zootaxa ◽

10.11646/zootaxa.5091.2.1 ◽

2022 ◽

Vol 5091 (2) ◽

pp. 201-257

Author(s):

CHRISTIAN R. GONZÁLEZ ◽

MARIO ELGUETA ◽

TIAGO K. KROLOW ◽

AUGUSTO L. HENRIQUES

Keyword(s):

Page Number ◽

Type Species ◽

Original Description ◽

Type Locality ◽

Species Type ◽

Horse Flies ◽

First Time

A catalog of the Tabanidae from Chile is provided. All valid names and synonyms for the 116 species and 25 genera known for the country including information about name, author, year of publication, page number, type species, type locality and references are listed. The species Dasybasis albohirta (Walker) is cited for the first time for Chile. The type locality of Dasybasis nigrifrons (Philippi) is corrected to Chile (Todos Los Santos Lake). The dates of the description of Tabanus nigrifrons Philippi (now Dasybasis), and Pangonia australis Philippi (now Pseudoscione) are corrected from their original description by Philippi; the original description dates for Tabanus andicola (now Dasybasis), and Tabanus magellanicus (now synonym junior of Dasybasis trita (Walker)) are corrected from 1865 to 1862. Three species previously recorded from Chile are deemed to have been misidentified or misrecorded from Chile: Esenbeckia (E.) cisandeana Wilkerson & Fairchild and Esenbeckia (E.) enderleini Kröber, and Esenbeckia (E.) testaceiventris (Macquart, 1848). The genus Dasybasis Macquart is the richest genus in Chile, with 33 species. Seven genera (Mycteromyia Philippi, Promycteromyia Coscarón & Philip, Archeomyotes Philip & Coscarón, Austromyans Philip & Coscarón, Chaetopalpus Philippi, Pseudomelpia Enderlein, and Sixtomyia Krolow, Henriques & González), three subgenera (Esenbeckia (Astomyia) Burger, E. (Palassomyia) Fairchild, and Protodasyapha (Protodasyapha) Enderlein), and 64 species are known only from Chile. There are also one subgenus (Protodasyapha (Curumyia) Coscarón), and 36 specie with distribution shared only between Chile and Argentina.

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Revision of the family Metarbelidae (Lepidoptera) of the Oriental Region. III. Genus Stueningeria Lehmann, 2019

Ecologica Montenegrina ◽

10.37828/em.2021.43.2 ◽

2021 ◽

Vol 43 ◽

pp. 16-29

Author(s):

Roman V. Yakovlev ◽

Vadim V. Zolotuhin

Keyword(s):

New Species ◽

Type Species ◽

Type Locality ◽

New Combinations ◽

Distribution Map ◽

Eastern Asia ◽

The Third ◽

South Eastern ◽

The Family ◽

First Time

In the third part of the revision of the family Metarbelidae (Lepidoptera) of South-Eastern Asia, we provide a revision of the genus Stueningeria Lehmann, 2019 with description of six new species: Stueningeria htetae sp. nov. (Type locality: Mynmar, 21 km E Putao), Stueningeria csovarii sp. nov. (Type locality: Thailand, Changwat Nan, 15 km N of Bo Luang), Stueningeria loeffleri sp. nov. (Type locality: Thailand, Sakhon Nakhon Prov., Phu Pan NP), Stueningeria ihlei sp. nov. (Type locality: Vietnam (C.), Prov. Thua-Thien-Hue, Kreis A Luoi, Gemeinde A Rong, Passastrasse ca. 30 km S A Luoi.), Stueningeria murzini sp. nov. (Type locality: China, SW Yunnan, Xishuanbanna, Guanping env., 60 km N Jinghong), and Stueningeria pinratanai sp. nov. (Type locality: NW Thailand, Chiangmai, Doi Pui Forest Res. Stat.) Two new combinations are established: Stueningeria campbelli (Hampson, 1910) comb. nov. and Stueningeria phaga (Swinhoe, 1894) comb. nov. Both species are redescribed. The type species of the genus Stueningeria nepalensis Lehmann, 2019 is reported for the first time for the fauna of India (Uttarakhand). We also give for the first time the description of female genitalia of the genus Stueningeria. The genus distribution map is provided.

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Contributions to Molecular Phylogeny of Lichen-Forming Fungi 2. Review of Current Monophyletic Branches of the Family Physciaceae

Acta Botanica Hungarica ◽

10.1556/034.63.2021.3-4.8 ◽

2021 ◽

Vol 63 (3-4) ◽

pp. 351-390

Author(s):

S. Y. Kondratyuk ◽

L. Lőkös ◽

I. Kärnefelt ◽

A. Thell ◽

M.-H. Jeong ◽

...

Keyword(s):

Costa Rica ◽

Molecular Phylogeny ◽

Type Species ◽

Lichen Species ◽

New Combinations ◽

Phylogeny Analysis ◽

The Family ◽

Crustose Lichens ◽

First Time ◽

Combined Matrix

Seven genera new to science, i.e.: Helmutiopsis, Huriopsis, Johnsheardia, Klauskalbia, Kudratovia, Kurokawia and Poeltonia of the Physciaceae are proposed for the ‘Rinodina’ atrocinerea, the ‘Rinodina’ xanthophaea, the ‘Rinodina’ cinnamomea, the ‘Heterodermia’ obscurata, the ‘Rinodina’ straussii, the ‘Anaptychia’ isidiata and the ‘Physconia’ grisea groups consequently that all form strongly supported monophyletic branches in a phylogeny analysis based on a combined matrix of nrITS and mtSSU sequences. Phylogenetic positions of species belonging to the genera Kashiwadia s. l., Leucodermia, Mischoblastia,Oxnerella, Phaeorrhiza s. l., Polyblastidium and Rinodinella s. l. are discussed. Oxnerella afghanica which for the first time recorded as parasitic lichen species from both epiphytic and saxicolous crustose lichens is designated as type species for the genus Oxnerella. Sequences of the recently described Physcia orientostellaris as well as Huriopsis xanthophaea and additional sequences of Kashiwadia aff. orientalis and Mischoblastia aff. oxydata are submitted to the GenBank. The positions of Polyblastidium casaterrinum from Costa Rica, ‘Rinodina’ efflorescens from Białowieża, Poland, and ‘Mischoblastia’ confragosula from Cambodia in the Physciaceae are confirmed in a phylogeny analysis based on the nrITS sequences. The presence of ‘extraneous mycobiont DNA’ in lichen associations is exemplified with earlier incorrect identifications of Heterodermia, Kashiwadia, Kurokawia,Oxnerella and Poeltonia specimens. Fifty-six new combinations are presented: Helmutiopsis alba (for Rinodina alba Metzler ex Arn.), Helmutiopsis aspersa (for Lecanora aspersa Borrer), Helmutiopsis atrocinerea (for Parmelia atrocinerea Fr.), Huriopsis chrysidiata (for Rinodina chrysidiata Sheard), Huriopsis chrysomelaena (for Rinodina chrysomelaena Tuck.), Huriopsis lepida (for Lecanora lepida Nyl.), Huriopsis luteonigra (for Rinodina luteonigra Zahlbr.), Huriopsis plana (for Rinodina plana H. Magn.), Huriopsis thiomela (for Lecanora thiomela Nyl.), Huriopsis xanthomelana (for Rinodina xanthomelana Müll. Arg.), Huriopsis xanthophaea (for Lecanora xanthophaea Nyl.), Johnsheardia cinnamomea (for Rinodina mniaroea var. cinnamomea Th. Fr.), Johnsheardia herteliana (for Rinodina herteliana Kaschik), Johnsheardia jamesii (for Rinodina jamesii H. Mayrhofer), Johnsheardia reagens (for Rinodina reagens Matzer et H. Mayrhofer), Johnsheardia zwackhiana (for Lecanora zwackhiana Kremp.), Kashiwadia austrostellaris (for Physcia austrostellaris Elix), Kashiwadia jackii (for Physcia jackii Moberg), Kashiwadia littoralis for Physcia littoralis Elix), Kashiwadia nubila (for Physcia nubila Moberg), and Kashiwadia tropica (for Physcia tropica Elix), Klauskalbia crocea (for Heterodermia crocea R. C. Harris), Klauskalbia flabellata (for Parmelia flabellata Fée), Klauskalbia obscurata (for Physcia speciosa (Wulfen) Nyl. *obscurata Nyl.), Klauskalbia paradoxa (for Heterodermia paradoxa Schumm et Schäfer-Verwimp), Kudratovia bohlinii (for Rinodina bohlinii H. Magn.), Kudratovia candidogrisea (for Rinodina candidogrisea Hafellner, Muggia et Obermayer), Kudratovia luridata (for Buellia luridata Körb.), Kudratovia metaboliza (for Rinodina metaboliza Vain.), Kudratovia pycnocarpa (for Rinodina pycnocarpa H. Magn.), Kudratovia roscida (for Lecanora roscida Sommerf.), Kudratovia straussii (for Rinodina straussii J. Steiner), Kudratovia terrestris (for Rinodina terrestris Tomin), Kurokawia bryorum (for Anaptychia bryorum Poelt), Kurokawia isidiata (for Anaptychia isidiata Tomin), Kurokawia mereschkowskii (for Physcia mereschkowskii Tomin), Kurokawia palmulata (for Psoroma palmulatum Michx.), Kurokawia runcinata (for Lichen runcinatus With.), Kurokawia stippea (for Parmelia aquila var. stippea Ach.), Lecania safavidiorum (for Oxnerella safavidiorum S. Y. Kondr., Zarei-Darki, Lőkös et Hur), Leucodermia erinacea (for Lichen erinaceus Ach.), Mischoblastia confragosula (for Lecanora confragosula Nyl.), Mischoblastia destituta (for Lecidea destituta Nyl.), Mischoblastia moziana (for Lecanora moziana Nyl.), Mischoblastia moziana subsp. parasitica (comb. et stat. nova for Rinodina moziana var. parasitica Kaschik et H. Mayrhofer), Mischoblastia ramboldii (for Rinodina ramboldii Kaschik), Mischoblastia vezdae (for Rinodina vezdae H. Mayrhofer), Oxnerella afghanica (for Rinodina afghanica M. Steiner et Poelt), Oxnerella castanomelodes (for Rinodina castanomelodes H. Mayrhofer et Poelt), Physciella nigricans (for Lecanora nigricans Flörke), Poeltonia elegantula (for Physconia elegantula Essl.), Poeltonia grisea (for Lichen griseus Lam.), Poeltonia isidiomuscigena (for Physconia isidiomuscigena Essl.), Poeltonia perisidiosa (for Physcia perisidiosa Erichsen), Poeltonia venusta (for Parmelia venusta Ach.), and Polyblastidium albicans (for Parmelia albicans Pers.) are proposed.

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REVISION OF THE GENUS SYNOPHROMORPHA ASHMEAD (HYMENOPTERA: CYNIPIDAE)

The Canadian Entomologist ◽

10.4039/ent119215-3 ◽

1987 ◽

Vol 119 (3) ◽

pp. 215-230 ◽

Cited By ~ 8

Author(s):

Alasdair J. Ritchie ◽

Joseph D. Shorthouse

Keyword(s):

New Species ◽

Phylogenetic Relationships ◽

Type Species ◽

Type Locality ◽

Key To Species ◽

First Time ◽

One New Species

AbstractThe species of Synophromorpha Ashmead (Hymenoptera: Cynipidae) are reviewed. One new species is described (Synophromorpha kaulbarsi; type locality: Naupan, Puebla, Mexico). The previously described species (S. rubi Weld, S. sylvestris (O.S.), and S. terricola Weld) are redescribed, and a key to species is presented. All species are illustrated for the first time. Synophromorpha sylvestris is designated type-species for the genus and a lectotype is chosen. Hypotheses on the phylogenetic relationships between the species of Synophromorpha are presented.

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Two new natatory asellote isopods (Crustacea) from the San Juan Archipelago, Baeonectes improvisus n. gen., n. sp. and Acanthamunnopsis milleri n. sp., with a revised description of A. hystrix Schultz

Canadian Journal of Zoology ◽

10.1139/z82-422 ◽

1982 ◽

Vol 60 (12) ◽

pp. 3332-3343 ◽

Cited By ~ 7

Author(s):

George D. Wilson

Keyword(s):

Surface Waters ◽

Type Species ◽

Saline Water ◽

Original Description ◽

San Juan ◽

The Family ◽

Two New Species ◽

Juan De Fuca ◽

Taxonomic Concept ◽

Highly Evolved

Two new species of asellote isopods from the waters surroundng the San Juan Archipelago are described and diagnosed. Baeonectes improvisus n. gen., n. sp. and Acanthamunnopsis milleri n. sp. belong to the highly evolved, natatory families Eurycopidae and Munnopsidae, respectively. Baeonectes, a circum-arctic and boreal shallow-water genus, also includes B. muticus (Sars), the type-species. The taxonomic concept of Acanthamunnopsis has difficulties that must be resolved before A. milleri can be described. To this end, the family Acanthamunnopsidae Schultz is invalidated and merged with the Munnopsidae; the genus Acanthamunnopsis Schultz is revised; and A. hystrix, the type-species, is redescribed with corrections and additions to the original description. The unusual presence of the bathypelagic genus Acanthamunnopsis in the surface waters of the San Juan Archipelago is discussed. Acanthamunnopsis milleri is tentatively postulated to be a deep resident of the open ocean that was carried landward into the Strait of Juan de Fuca by upwelled intrusions of cold, saline water.

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Checklist and taxonomic changes for Central and South American Philonthina (Coleoptera: Staphylinidae)

Zootaxa ◽

10.11646/zootaxa.4449.1.1 ◽

2018 ◽

Vol 4449 (1) ◽

pp. 1 ◽

Cited By ~ 6

Author(s):

MARIANA CHANI-POSSE ◽

ALFRED F. NEWTON ◽

ASLAK KAPPEL HANSEN ◽

ALEXEY SOLODOVNIKOV

Keyword(s):

South America ◽

Original Description ◽

Junior Synonym ◽

Type Locality ◽

Type Material ◽

New Combination ◽

South American ◽

New Combinations ◽

Generic Composition ◽

Taxonomic Changes

A checklist of all described species of Philonthina, a subtribe of the staphylinid tribe Staphylinini, known to occur in Central and South America (CASA) is presented. Included for each species, and for synonyms known from CASA, is a reference to the original description, type locality and type depository, and for each species the known distribution within and outside CASA. Type material was sought in the main European and American collections where it is deposited (BMNH, MNHUB, IRSNB and FMNH) and is summarized for all indigenous CASA species, with lectotypes designated for 16 names and confirmation of holotypes and prior designation of lectotypes when necessary. Based on recent phylogenetic work in Philonthina and our revision of types of CASA species of Philonthus Stephens, 1829 and Belonuchus Nordmann, 1837, some taxonomic changes are proposed. Thirty-one species of Philonthus are transferred to Belonuchus (16), Gabrius Stephens 1829 (14), and Bisnius Stephens 1829 (one) resulting in the following new combinations: B. abnormalis (Sharp 1885), B. celatus (Sharp 1885), B. corticalis (Sharp 1885), B. extremus (Sharp 1885), B. infimus (Sharp 1885), B. iteratus (Sharp 1887), B. latecinctus (Sharp 1885), B. lucilius (Sharp 1885), B. muticus (Sharp 1876), B. optatus (Sharp 1885), B. platypterus (Sharp 1885), B. rufiventris (Sharp 1887), B. rufocaudus (Sharp 1885), B. rufopygus (Sharp 1885), B. serraticornis (Sharp 1876), B. supernus (Herman 2001), G. approximans (Sharp 1885), G. armatipes (Sharp 1885), G. atricolor (Sharp 1885), G. championi (Sharp 1885), G. dampfi (Bernhauer 1929), G. elegans (Sharp 1885), G. forsterianus (Scheerpeltz 1960), G. misellus (Sharp 1885), G. nugax (Sharp 1885), G. ovaticeps (Sharp 1885), G. peruvianus (Bernhauer 1916), G. planulatus (Sharp 1885), G. rusticus (Sharp 1885), G. serpens (Sharp 1885) and Bi. subaeneipennis (Bernhauer 1916). Endeius nitidipennis Solier 1849 is transferred to Gabrius, resulting in the following new combination, G. nitidipennis (Solier 1849). Leptopeltus carchiensis Chani-Posse & Asenjo 2013 is proposed as junior synonym of Philonthus divisus Sharp 1891, which is transferred to Leptopeltus Bernhauer 1906 resulting in a new combination: Leptopeltus divisus (Sharp 1891). Belonuchus penetrans Silvestri 1946 is transferred to Pridonius Blackwelder 1952 as a new combination. Lectotypes are designated for Atopocentrum mirabile Bernhauer 1906, Philonthus armatipes Sharp 1885, Ph. atricolor Sharp 1885, Ph. championi Sharp 1885, Ph. misellus Sharp 1885, Ph. planulatus Sharp 1885, Ph. rusticus Sharp 1885, Ph. serpens Sharp 1885, Ph. abnormalis Sharp 1885, Ph. celatus Sharp 1885, Ph. infimus Sharp 1885, Ph. latecinctus Sharp 1885, Ph. muticus Sharp 1876, Ph. platypterus Sharp 1885, Ph. rufocaudus Sharp 1885 and Ph. rufopygus Sharp 1885. Of the 543 currently known species of Philonthina reported from CASA, at least 14 are believed to be adventive from elsewhere, 56 may occur naturally elsewhere, and 473 (87%) are evidently endemic to this region. Of the 31 genera represented by these described species, 20 (65%) are endemic to CASA. One genus, Gabronthus Tottenham 1955, is adventive. However, the actual philonthine fauna of CASA will undoubtedly be much larger, and the generic composition highly modified, when the fauna is fully explored and studied within a phylogenetical framework.

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A fresh look at Cladarosymblema narrienense, a tetrapodomorph fish (Sarcopterygii: Megalichthyidae) from the Carboniferous of Australia, illuminated via X-ray tomography

PeerJ ◽

10.7717/peerj.12597 ◽

2021 ◽

Vol 9 ◽

pp. e12597

Author(s):

Alice M. Clement ◽

Richard Cloutier ◽

Jing Lu ◽

Egon Perilli ◽

Anton Maksimenko ◽

...

Keyword(s):

Original Description ◽

Sister Group ◽

Axial Skeleton ◽

Phylogenetic Position ◽

Micro Computed Tomography ◽

Holotype Specimen ◽

Freshwater Swamp ◽

The Family ◽

First Time ◽

Detailed Work

Background The megalichthyids are one of several clades of extinct tetrapodomorph fish that lived throughout the Devonian–Permian periods. They are advanced “osteolepidid-grade” fishes that lived in freshwater swamp and lake environments, with some taxa growing to very large sizes. They bear cosmine-covered bones and a large premaxillary tusk that lies lingually to a row of small teeth. Diagnosis of the family remains controversial with various authors revising it several times in recent works. There are fewer than 10 genera known globally, and only one member definitively identified from Gondwana. Cladarosymblema narrienense Fox et al. 1995 was described from the Lower Carboniferous Raymond Formation in Queensland, Australia, on the basis of several well-preserved specimens. Despite this detailed work, several aspects of its anatomy remain undescribed. Methods Two especially well-preserved 3D fossils of Cladarosymblema narrienense, including the holotype specimen, are scanned using synchrotron or micro-computed tomography (µCT), and 3D modelled using specialist segmentation and visualisation software. New anatomical detail, in particular internal anatomy, is revealed for the first time in this taxon. A novel phylogenetic matrix, adapted from other recent work on tetrapodomorphs, is used to clarify the interrelationships of the megalichthyids and confirm the phylogenetic position of C. narrienense. Results Never before seen morphological details of the palate, hyoid arch, basibranchial skeleton, pectoral girdle and axial skeleton are revealed and described. Several additional features are confirmed or updated from the original description. Moreover, the first full, virtual cranial endocast of any tetrapodomorph fish is presented and described, giving insight into the early neural adaptations in this group. Phylogenetic analysis confirms the monophyly of the Megalichthyidae with seven genera included (Askerichthys, Cladarosymblema, Ectosteorhachis, Mahalalepis, Megalichthys, Palatinichthys, and Sengoerichthys). The position of the megalichthyids as sister group to canowindrids, crownward of “osteolepidids” (e.g.,Osteolepis and Gogonasus), but below “tristichopterids” such as Eusthenopteron is confirmed, but our findings suggest further work is required to resolve megalichthyid interrelationships.

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Delimitation, new species and teleomorph-anamorph relationships in Codinaea, Dendrophoma, Paragaeumannomyces and Striatosphaeria (Chaetosphaeriaceae)

MycoKeys ◽

10.3897/mycokeys.74.57824 ◽

2020 ◽

Vol 74 ◽

pp. 17-74

Author(s):

Martina Réblová ◽

Jana Nekvindová ◽

Jacques Fournier ◽

Andrew N. Miller

Keyword(s):

New Species ◽

Type Species ◽

Morphological Traits ◽

Phylogenetic Analyses ◽

Axenic Culture ◽

Monophyletic Clade ◽

Morphological Comparison ◽

The Family ◽

Terrestrial Habitats ◽

First Time

The Chaetosphaeriaceae are a diverse group of pigmented, predominantly phialidic hyphomycetes comprised of several holomorphic genera including Chaetosphaeria, the most prominent genus of the family. Although the morphology of the teleomorphs of the majority of Chaetosphaeria is rather uniform, their associated anamorphs primarily exhibit the variability and evolutionary change observed in the genus. An exception from the morphological monotony among Chaetosphaeria species is a group characterised by scolecosporous, hyaline to light pink, multiseptate, asymmetrical ascospores and a unique three-layered ascomatal wall. Paragaeumannomyces sphaerocellularis, the type species of the genus, exhibits these morphological traits and is compared with similar Chaetosphaeria with craspedodidymum- and chloridium-like synanamorphs. Morphological comparison and phylogenetic analyses of the combined ITS-28S sequences of 35 isolates and vouchers with these characteristics revealed a strongly-supported, morphologically well-delimited clade in the Chaetosphaeriaceae containing 16 species. The generic name Paragaeumannomyces is applied to this monophyletic clade; eight new combinations and five new species, i.e. P. abietinussp. nov., P. eleganssp. nov., P. granulatussp. nov., P. sabinianussp. nov. and P. smokiensissp. nov., are proposed. A key to Paragaeumannomyces is provided. Using morphology, cultivation studies and phylogenetic analyses of ITS and 28S rDNA, two additional new species from freshwater and terrestrial habitats, Codinaea paniculatasp. nov. and Striatosphaeria castaneasp. nov., are described in the family. A codinaea-like anamorph of S. castanea forms conidia with setulae at each end in axenic culture; this feature expands the known morphology of Striatosphaeria. A chaetosphaeria-like teleomorph is experimentally linked to Dendrophoma cytisporoides, a sporodochial hyphomycete and type species of Dendrophoma, for the first time.

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