01841nas a2200157 4500008004100000245009500041210006900136490000800205520129500213100002101508700001901529700002501548700002401573700002301597856006301620 2021 eng d00aMolecular phylogeny of Allodia (Diptera: Mycetophilidae) constructed using genome skimming0 aMolecular phylogeny of Allodia Diptera Mycetophilidae constructe0 vn/a3 a
In this study, we use low-coverage shotgun sequencing of genomic DNA, commonly referred to as genome skimming, to investigate the phylogenetic relationships of the fungus gnat genus Allodia Winnertz (Mycetophilidae, Mycetophilinae, Exechiini). Nineteen specimens, representing 16 in-group and three outgroup taxa, were successfully sequenced and molecular markers of both mitochondrial and nuclear origin were retrieved. The phylogenetic analyses of 13 protein-coding mitochondrial genes, two ribosomal mitochondrial genes and the nuclear ribosomal 18S and 28S strongly support the monophyly of its two subgenera Allodia s.s. and Brachycampta. Complete mitochondrial genomes of 15 species were assembled, which enables further comparisons with the mitochondrial genomes of other Diptera. Overall, the methodology used in this study proved successful and promising for other dipteran groups. In addition to the phylogenetic reconstruction, the morphological characters previously used to separate the two subgenera were evaluated and re-examined. Together with the composite structure of the male genitalia, we consider details of the scutal bristles appropriate for separating the two groups. Based on the achieved results, we reinstate Brachycampta stat. rev. as a separate genus.
1 aMagnussen, Trude1 aJohnsen, Arild1 aKjærandsen, Jostein1 aStruck, Torsten, H.1 aSøli, Geir, E. E. uhttps://onlinelibrary.wiley.com/doi/abs/10.1111/syen.1252903010nas a2200133 4500008004100000245010100041210006900142300001200211490000700223520255200230100002502782700002302807856004602830 2020 eng d00aUpdated checklist of Norwegian Mycetophilidae (Diptera), with 92% DNA barcode reference coverage0 aUpdated checklist of Norwegian Mycetophilidae Diptera with 92 DN a201-2340 v673 aUp to present 602 species and 65 genera of fungus gnats, family Mycetophilidae, are published from Norway. Extensive collecting supported by the Norwegian Biodiversity Information Centre (NBIC) over the eight last years, with special focus on insect fauna in northern Norway, has documented 240 additional species and 2 additional genera from Norway, of which 118 species are considered as new to science. Based on a thorough review of the species previously published from Norway, we have crossed out six species as misidentified. One new synonym is established: Boletina conformis Siebke, 1863 syn. n. = Boletina plana (Walker, 1856). Two species are restituated based on integrative studies including DNA barcodes. These are Ectrepesthoneura bucera Plassmann, 1980 sp. restit., found to be a distinct species separate from Ectrepesthoneura ovata Ostroverkhova, 1977, and Trichonta trifida Lundstrom, 1909 sp. restit., found to be a distinct species separate from Trichonta vulcani (Dziedzicki, 1889). The updated, validated A-checklist includes 821 species of which 703 (86%) refer to formally described species and 118 (14%) to potentially undescribed species, referred to by their interim names as used on BOLD and in our databases. All species are documented with specimens in the museum collections at either Tromsø University Museum (TMU, 781 species, 95%) and/or the Natural History Museum in Oslo (NHMO, 382 species, 47%). Another 14 published species are transferred to a B-checklist with currently unvalidated species, as we fail to recover voucher representatives. Supported by the Norwegian Barcode of Life (NorBOL) network, we have DNA barcoded as many species as possible contributing to the reference library on The Barcode of Life Project (BOLD). Hence, 756 (92%) of the validated Norwegian species are currently documented with DNA barcodes and assigned Barcode Index Numbers (BINs) on BOLD, including the majority of the species considered new to science based on morphology (103 species, 87% of the 118). The checklist, is kept in a short format giving the published species names or interim names as used on BOLD and in our databases, depository information, assigned BINs with indications of discordance, and finally their (2015) Red List status in Norway. An accompanying dataset containing recording details and distribution of all new records from Norway of described species, is published on GBIF and on Norway’s Species Map Service (Artskart).
1 aKjærandsen, Jostein1 aSøli, Geir, E. E. uhttps://www.duo.uio.no/handle/10852/8258102296nas a2200169 4500008004100000022001400041245012800055210006900183260001600252300000900268490000600277520173600283100002502019700002002044700001902064856004302083 2020 eng d a1314-283600aCoelosynapha, a new genus of the subfamily Gnoristinae (Diptera: Mycetophilidae) with a circumpolar, Holarctic distribution0 aCoelosynapha a new genus of the subfamily Gnoristinae Diptera My cOct-09-2020 a1-280 v83 aBackground
The subfamily Gnoristinae is one of the most diverse and taxonomically difficult subfamilies of Mycetophilidae, with new species and genera being described almost every year from various parts of the world. Through inventories of fungus gnats in the Nordic Region and Russia, a genus and species new to science was discovered, yet with links back to an illustration made by the late French entomologist Loïc Matile in the 1980s. DNA barcoding aligned it with yet another species new to science, distributed across Canada and documented through The Barcode of Life Data System (BOLD) by Paul D. N. Hebert and colleagues at the BOLD team.
New information
The new Holarctic genus, Coelosynapha gen. n. is described, consisting of two new species, the Palaearctic Coelosynapha loici sp. n. and the Nearctic Coelosynapha heberti sp. n. DNA-barcodes assign the two new species to distinctly separated (8.27% p-distance) Barcode Index Numbers (BINs) which are most closely aligned to unidentified species of Mycetophilidae from South Australia and Costa Rica on BOLD. The new genus shows morphological characteristics in between the two Holarctic genera Coelosia Winnertz, 1864 and Synapha Meigen, 1818 and further shows affinity to the southern continents genus Austrosynapha Tonnoir, 1929. The Palaearctic Coelosynapha loici sp. n., for which habitat requirements are best documented, is largely restricted to pristine, old-growth conifer (mostly spruce, Picea abies ssp. obovata) forests within the boreal vegetation zone, although it is also recorded from hummock tundra along the Anadyr River in Far East Russia.
We provide the first molecular phylogeny of Keroplatidae and Lygistorrhinidae, families of fungus gnats (Diptera: Bibionomorpha: Sciaroidea). Phylogenies reconstructed by Maximum Likelihood and Bayesian methods, based on four nuclear and four mitochondrial gene markers (5106 base pairs) sequenced for 75 genera and 105 species, show Keroplatidae as monophyletic only with the family Lygistorrhinidae included, herewith treated as the subfamily Lygistorrhininae stat. nov. The subfamily Arachnocampinae is retained in the family, although lowering its overall support. An early branching clade, comprising species of Platyura Meigen, 1803 and Paleoplatyura melanderi Fisher, 1941, forms subfamily Platyurinae Loew, 1850 stat. nov. The subfamilies Sciarokeroplatinae and Macrocerinae grouped together with three genera considered here as Keroplatidae incertae sedis. Subfamily Lygistorrhininae forms a sister clade to subfamily Keroplatinae, both retained monophyletic with high support. The traditional division of the subfamily Keroplatinae into the tribes Orfeliini and Keroplatini appears as outdated, resting largely on adaptive characters prone to parallel evolution. We find support for an alternative tribe corresponding to the Cloeophoromyia–Asindulum genus group, but a tribal reclassification of the Keroplatinae is left for future studies. The genus Heteropterna Skuse, 1888 is considered as identical with Ctenoceridion Matile, 1972 syn. nov.
1 aMantič, Michal1 aSikora, Tomáš1 aBurdíková, Nikola1 aBlagoderov, Vladimir1 aKjærandsen, Jostein1 aKurina, Olavi1 aŠevčík, Jan uhttps://www.mdpi.com/2075-4450/11/6/34800720nas a2200193 4500008004100000022001400041245016800055210006900223260001600292300001200308490000700320100002400327700002500351700002600376700002100402700002200423700001900445856006200464 2019 eng d a0947-574500aMolecular phylogeny of the Paleogene fungus gnat tribe Exechiini (Diptera: Mycetophilidae) revisited: Monophyly of genera established and rapid radiation confirmed0 aMolecular phylogeny of the Paleogene fungus gnat tribe Exechiini cApr-04-2019 a806-8210 v571 aBurdíková, Nikola1 aKjærandsen, Jostein1 aLindemann, Jon, Peder1 aKaspřák, David1 aTóthová, Andrea1 aŠevčík, Jan uhttps://onlinelibrary.wiley.com/doi/abs/10.1111/jzs.1228701618nas a2200169 4500008004100000022001400041245010000055210006900155260002000224300001400244490000800258520106700266100002101333700002301354700002501377856004601402 2019 eng d a1313-298900aAllodia Winnertz from the Himalayas, with nine species new to science (Diptera, Mycetophilidae)0 aAllodia Winnertz from the Himalayas with nine species new to sci cJanuary-29-2019 a119 - 1380 v8203 aAn extensive collection of fungus gnats from Nepal and Bhutan, deposited at Kyushu University Museum in Japan, has been examined and revealed nine species of Allodia Winnertz, 1864 new to science: Allodia caligata Magnussen, sp. n., A. dibolia Magnussen, sp. n., A. shimai Magnussen, sp. n., A. spathulata Magnussen, sp. n., A. horologia Magnussen, sp. n., A. himalayensis Magnussen, sp. n., A. nepalensis Magnussen, sp. n., A. thudamensis Magnussen, sp. n., and A. scalprata Magnussen, sp. n. All specimens were collected at high altitudes in the central and eastern Himalayas. The species all belong to the subgenus Allodia s. str. and constitute the first records of the genus Allodia in Nepal and Bhutan. Brevicornu nigrofasciatum (Brunetti, 1912) comb. n., originally described from northern India, is transferred from Allodia based on the original description. A key for the identification of the new species is provided.
1 aMagnussen, Trude1 aSøli, Geir, E. E.1 aKjærandsen, Jostein uhttps://zookeys.pensoft.net/article/3161802204nas a2200265 4500008004100000245021900041210006900260300001000329490000700339520131600346653001101662653001501673653002101688653001101709653001901720653001801739653001801757653001501775653001301790100002201803700002101825700001801846700002501864856004901889 2011 eng d00aNew records of Manota WILLISTON (Diptera: Mycetophilidae) in Europe and North America, including a redescription of Manota unifurcata LUNDSTRÖM and pointers towards the interrelationships among Palaearctic species0 aNew records of Manota WILLISTON Diptera Mycetophilidae in Europe a55-660 v173 aKnowledge of the morphology of Manota unifurcata LUNDSTRÖM, 1913 is deepened by a detailed description and illustration of the male genitalia. Based on a study of the characters of the male genitalia in specimens from various countries, it is reconfirmed that M. unifurcata is the only species of Manota WILLISTON in Europe. Its geographic distribution is reviewed, and is augmented by new records from Germany and the first records from Sweden. The relationships of M. unifurcata to other Manota species are discussed. It appears that the species is rather isolated from other Manota in terms of both morphology and geographic distribution. The presence of a male hind tibial organ, which is described here, is a synapomorphous character shown by at least 4 of the 5 East Palaearctic species of Manota. These species and several Oriental Manota, for which presence or absence of the tibial organ is unknown, have several male genitalia characters in common, a fact that indicates their close relationships. Manota ibanezi HIPPA & HUERTA, 2009 from Mexico is shown to occur also in the north-eastern United States (Maine and New York). These are the first records of a named Manota species from the Nearctic Region. Possible explanations for the rarity of Manota in both North America and Europe are discussed.10aEurope10aFaunistics10aHolarctic region10aManota10aMycetophilidae10aNorth America10arelationships10aSciaroidea10aTaxonomy1 aJaschhof, Mathias1 aJaschhof, Catrin1 aRulik, Björn1 aKjærandsen, Jostein uhttps://sciaroidea.myspecies.info/node/5003800623nas a2200217 4500008004100000245003300041210002900074260003200103300001200135100002200147700001800169700001600187700001800203700002100221700002500242700002000267700002300287700001800310700002800328856004900356 2010 eng d00aTvåvingar – Flies Diptera0 aTvåvingar Flies Diptera aUppsalabArtDatabanken, SLU a393-4091 aCederberg, Björn1 aBartsch, Hans1 aBjelke, Ulf1 aBrodin, Yngve1 aEngelmark, Roger1 aKjærandsen, Jostein1 aStruwe, Ingemar1 aSörensson, Mikael1 aViklund, Bert1 aGärdenfors, Ulf, (ed.) uhttps://sciaroidea.myspecies.info/node/4944402083nas a2200229 4500008004100000245009800041210006900139260003200208300001200240490000800252520138800260653001601648653002301664653001401687653001701701653001401718653001301732653001301745100002301758700002501781856004701806 2012 eng d00aKatatopygia gen. n., a monophyletic branch segregated from Boletina (Diptera, Mycetophilidae)0 aKatatopygia gen n a monophyletic branch segregated from Boletina bPensoft Publishersc03/2012 a37–670 v1753 aThe genus Katatopygia gen. n. is proposed for the Boletina erythropyga/punctus-group that was first introduced by Garrett (1924, 1925) and currently comprises eight described species. Molecular studies have strongly indicated that this group forms a monophyletic sister-group to a clade consisting of all other Boletina, Coelosia and Gnoriste, and its monophyly is supported by morphological data as well. The new genus includes the following species: Katatopygia antoma (Garrett, 1924), comb. n., Katatopygia antica (Garrett, 1924), comb. n., Katatopygia erythropyga (Holmgren, 1883), comb. n., Katatopygia hissarica (Zaitzev & Polevoi, 2002), comb. n., Katatopygia magna (Garrett, 1925), comb. n., Katatopygia laticauda (Saigusa, 1968), comb. n., Katatopygia neoerythropyga (Zaitzev & Polevoi, 2002), comb. n. and Katatopygia sahlbergi (Lundström, 1906), comb. n., all transferred from Boletina. K. sahlbergi is found to be a senior synonym of Boletina punctus Garrett, 1925, syn. n. A phylogeny based on morphological data and using parsimony analysis yielded four most parsimonious trees where the new genus is retrieved as monophyletic with high support. Katatopygia neoerythropyga is found to be the sister-taxon to all other species that form two clades, one with K. sahlbergi-like species and one with K. erythropyga-like species. A key to males of Katatopygia is provided. 10aGnoristinae10aidentification key10anew genus10anew synonymy10aphylogeny10arevision10aTaxonomy1 aMartinsson, Svante1 aKjærandsen, Jostein uhttp://dx.doi.org/10.3897/zookeys.175.238800467nas a2200121 4500008004100000245012100041210006900162300001400231490000700245100001900252700002500271856004900296 2012 eng d00aBrachyradia, a new genus of the tribe Exechiini (Diptera: Mycetophilidae) from the Oriental and Australasian regions0 aBrachyradia a new genus of the tribe Exechiini Diptera Mycetophi a117–1270 v601 aŠevčík, Jan1 aKjærandsen, Jostein uhttps://sciaroidea.myspecies.info/node/4933000492nas a2200133 4500008004100000245010800041210006900149300001300218490000800231100001900239700002500258700002600283856004900309 2012 eng d00aRevision of Speolepta (Diptera: Mycetophilidae), with descriptions of new Nearctic and Oriental species0 aRevision of Speolepta Diptera Mycetophilidae with descriptions o a93–1070 v1441 aŠevčík, Jan1 aKjærandsen, Jostein1 aMarshall, Stephen, A. uhttps://sciaroidea.myspecies.info/node/4932900859nas a2200133 4500008004100000245008400041210006900125300001000194490000700204520041600211100002500627700002400652856004900676 2011 eng d00aA new species of Macrorrhyncha Winnertz from NW Europe, (Diptera, Keroplatidae)0 anew species of Macrorrhyncha Winnertz from NW Europe Diptera Ker a43-500 v183 aCloser examination of material of Macrorrhyncha rostrata Zetterstedt, 1851 from Sweden revealed a mixture of two closely related species of which one, M. hugoi sp. n. is described based on type material from Southern Sweden and Southern England. The new species includes all known records of M. rostrata from England and the Channel Islands. Records of M. rostrata from continental Europe need to be verified.1 aKjærandsen, Jostein1 aChandler, Peter, J. uhttps://sciaroidea.myspecies.info/node/4815501482nas a2200241 4500008004100000245011900041210006900160260001500229300001000244490000900254520076500263653001201028653001001040653000801050653001101058653001901069653001601088653002301104100001801127700002501145700002101170856004901191 2011 eng d00aThe genus Manota Williston (Diptera, Mycetophilidae) in Japan, with a key to the Palaearctic species of the genus0 agenus Manota Williston Diptera Mycetophilidae in Japan with a ke c26/05/2011 a33-460 v28923 aThe Japanese fauna of Manota comprises of 11 out of 14 Palaearctic species with a strong influence of Oriental elements in the southern subtropical parts of the country. The following five new species are described: M. curvistylus, M. kyushuensis, M. omotoensis, M. tripectinata, and M. yaeyamaensis. Three species are recorded for first time from Japan: M. bilobata Papp, 2004, M. epigrata Hippa, 2009 and M. planilobata Hippa, 2008. The hypopygia of the Japanese specimens of M. bilobata and M. planilobata are illustrated. New Japanese records are given of the following three species: M. indahae Hippa & Kjaerandsen, 2010, M. satoyamanis Hippa & Kjaerandsen, 2010 and M. tunoae Hippa & Kjaerandsen, 2010. A key to the Palaearctic species of Manota is given10aDiptera10aJapan10akey10aManota10aMycetophilidae10anew species10aPalaearctic region1 aHippa, Heikki1 aKjærandsen, Jostein1 aSaigusa, Toyohei uhttps://sciaroidea.myspecies.info/node/4591001953nas a2200157 4500008004100000022001300041245009400054210006900148300001200217490000700229520141100236100002301647700002501670700001801695856008201713 2011 eng d a0300325600aTowards a molecular phylogeny of the fungus gnat genus Boletina (Diptera: Mycetophilidae)0 aTowards a molecular phylogeny of the fungus gnat genus Boletina a272-2810 v403 aBoletina is a species rich genus of fungus gnats (Diptera: Mycetophilidae) with a mainly Holarctic distribution. The systematics within the genus has gained little attention and this is a first attempt to shed some light over the systematics of Boletina and to test the segregation of the genera Saigusaia and Aglaomyia from Boletina. The nuclear marker 28S and mitochondrial 16S, COI and CytB were amplified and sequenced for 23 taxa that were analysed separately and together with a broad sample of outgroup taxa obtained from GenBank, where also 18S sequences were added. Phylogenies were estimated using maximum likelihood, Bayesian inference and parsimony. We strengthen the hypothesized sister-group relationship between Docosia and Boletina, but the genus Boletina as currently delimited appears to be paraphyletic and nested in a clade together with Aglaomyia, Coelosia and Gnoriste. The genus Saigusaia, on the other hand, seems to be well separated from Boletina. The Boletina erythropyga species group is consistently found as a distinct basal clade within Boletina s.l. The results obtained are otherwise ambiguous both for the taxa in focus and in some analyses globally with a statistically supported total breakdown of the traditional higher classification into tribes, subfamilies and even families. Interestingly, this breakdown almost disappeared when additional 18S sequences were added.1 aMartinsson, Svante1 aKjærandsen, Jostein1 aSundberg, Per uhttp://onlinelibrary.wiley.com/doi/10.1111/j.1463-6409.2011.00474.x/suppinfo#01504nas a2200265 4500008004100000022001400041245010600055210006900161300001000230490000700240520070600247653001100953653001700964653001500981653002400996653001901020653001901039653001301058653001601071100001801087700001901105700002001124700002501144856006901169 2011 eng d a1313-297000aReview of the European Greenomyia Brunetti (Diptera, Mycetophilidae) with new descriptions of females0 aReview of the European Greenomyia Brunetti Diptera Mycetophilida a31-500 v773 aThe females of the four continental Greenomyia Brunetti species in Europe are associated with the males, diagnosed and keyed, providing the first association and description of the females of Greenomyia baikalica Zaitzev, 1994 and Greenomyia stackelbergi Zaitzev, 1982. Colour photographs of their habitus and line drawings of their female terminalia are provided. Greenomyia mongolica Laštovka & Matile, 1974 is found to be a senior synonym of Greenomyia theresae Matile, 2002. syn. n. The diagnostic characters used to distinguish between Greenomyia and Neoclastobasis Ostroverkhova in keys did not hold up to a closer scrutiny and leave the status of Neoclastobasis as separate genus questionable.10aEurope10afungus gnats10aGreenomyia10aidentifi cation key10aMycetophilidae10aNeoclastobasis10aSynonymy10aSystematics1 aKurina, Olavi1 aHedmark, Kjell1 aKarström, Mats1 aKjærandsen, Jostein uhttp://www.pensoft.net/J_FILES/1/articles/936/936-G-1-layout.htm02197nas a2200157 4500008004100000245007500041210006900116300001200185490000800197520171300205100002501918700002201943700002301965700002501988856002602013 2011 eng d00aStable structural color patterns displayed on transparent insect wings0 aStable structural color patterns displayed on transparent insect a668-6730 v1083 aColor patterns play central roles in the behavior of insects, and are important traits for taxonomic studies. Here we report striking and stable structural color patterns—wing interference patterns (WIPs)—in the transparent wings of small Hymenoptera and Diptera, patterns that have been largely overlooked by biologists. These extremely thin wings reflect vivid color patterns caused by thin film interference. The visibility of these patterns is affected by the way the insects display their wings against various backgrounds with different light properties. The specific color sequence displayed lacks pure red and matches the color vision of most insects, strongly suggesting that the biological significance of WIPs lies in visual signaling. Taxon-specific color patterns are formed by uneven membrane thickness, pigmentation, venation, and hair placement. The optically refracted pattern is also stabilized by microstructures of the wing such as membrane corrugations and spherical cell structures that reinforce the pattern and make it essentially noniridescent over a large range of light incidences. WIPs can be applied to map the micromorphology of wings through direct observation and are useful in several fields of biology. We demonstrate their usefulness as identification patterns to solve cases of cryptic species complexes in tiny parasitic wasps, and indicate their potentials for research on the genetic control of wing development through direct links between the transregulatory wing landscape and interference patterns we observe in Drosophila model species. Some species display sexually dimorphic WIPs, suggesting sexual selection as one of the driving forces for their evolution.1 aShevtsova, Ekaterina1 aHansson, Christer1 aJanzen, Daniel, H.1 aKjærandsen, Jostein uhttp://wipbarcode.com01014nas a2200133 4500008004100000245008600041210006900127300001400196490000700210520056500217100001800782700002500800856005500825 2010 eng d00aFirst fungus gnats of genus Manota Williston (Diptera: Mycetophilidae) from Japan0 aFirst fungus gnats of genus Manota Williston Diptera Mycetophili a226–2330 v133 aThe genus Manota is recorded from Japan for the first time. Three new species, Manota satoyamanis, Manota indahae and Manota tunoae spp. nov., are described, based on specimens collected in an ecological sampling program of arthropods in the "satoyama" landscape of Ishikawa Prefecture. "Satoyama" represents the traditional rural landscape of Japan, which is characterized by a mosaic of secondary forests, plantations, ponds and rice paddy fields. The new species raise the number of Palearctic Manota species from five to eight.
1 aHippa, Heikki1 aKjærandsen, Jostein uhttp://dx.doi.org/10.1111/j.1479-8298.2010.00378.x01034nas a2200133 4500008004100000245007900041210006900120300001000189490000700199520054700206100001600753700002500769856010600794 2008 eng d00aAdditions to the Norwegian fauna of fungus gnats (Diptera, Mycetophilidae)0 aAdditions to the Norwegian fauna of fungus gnats Diptera Mycetop a31-410 v553 aFifty three species are reported new to Norway, and their distribution and biology are commented on. Among the new Norwegian species, Anatella alpina Plassmann, 1977 and Trichonta tristis (Strobl, 1898) are also new to the Nordic region. The total number of species of Mycetophilidae in Norway is thus increased to 575. The majority of the species added forms an extension of the boreal taiga fauna into Norway, including nine more or less mountainous species, while only three species display a southern nemoral to boreonemoral distribution.1 aSøli, Geir1 aKjærandsen, Jostein uhttp://www.online-keys.net/sciaroidea/add01/Soli_&_Kjerandsen_2008_additional_Fungus_gnats_Norway.pdf02075nas a2200217 4500008004100000245015600041210006900197300001000266490000900276520131500285653002001600653001601620653001601636653002001652653001401672100002501686700002301711700001901734700002301753856008101776 2009 eng d00aOn the genus Urytalpa Edwards (Diptera: Keroplatidae) in the Nordic and Nearctic regions, with fixation of a new type species and a key to world males0 agenus Urytalpa Edwards Diptera Keroplatidae in the Nordic and Ne a29-500 v21603 aThe five Nordic species of the genus Urytalpa Edwards (Diptera: Keroplatidae) are revised, of which one species, Urytalpa galdes Hedmark & Kjaerandsen, sp. n., is described as new to science based on males collected in northern Sweden. We find that the original type species assignment for Urytalpa (Platyura ochracea Meigen, 1818) is based on a misidentification, and in order to stabilize the nomenclature we therefore select a new type species, Urytalpa dorsalis (Staeger, 1840), sp. restit. A lectotype is designated for Orfelia ochracea (Meigen, 1818), comb. n. = Orfelia unicolor (Staeger, 1840), syn. n. The males of U. atriceps (Edwards, 1913), U. dorsalis, U. macrocera (Edwards, 1913) and U. trivittata (Lundström, 1914), and the females of U. dorsalis, U. macrocera and U. trivittata are described and illustrated based on Nordic material. As the first known Nearctic representative of Urytalpa, U. nigrita (Johannsen, 1910), comb. n., known from western USA (Washington) and Canada, is transferred from Pyrtaula to Urytalpa, illustrated and compared with the closely related U. rhapsodica Chandler, 1995 from central Europe. A key to all known males is provided. The generic limits of Urytalpa as presently understood are vague in relation to related genera and the genus is in need of a revision.10anew combination10anew species10anew synonym10aNordic revision10aOrfeliini1 aKjærandsen, Jostein1 aMartinsson, Svante1 aHedmark, Kjell1 aEvenhuis, Neal, L. uhttp://www.online-keys.net/sciaroidea/2000_/Kjaerandsen_etal_zt02160p050.pdf00936nas a2200157 4500008004100000022001400041245007800055210006900133260001800202300001000220490000700230520045800237100001800695700002500713856004000738 2009 eng d a0785-876000aA Siberian fungus gnat (Diptera: Mycetophilidae) species found in Estonia0 aSiberian fungus gnat Diptera Mycetophilidae species found in Est c30 March 2009 a56-600 v203 aThe first European record of Exechia inaperta Ostroverkhova, 1979 is presented and its morphological difference from the allied E. exigua Lundström, 1909 is discussed. Diagnostic characters and detailed figures ofmale terminalia are given for both species. The new finding of E. inaperta in Estonia indicates a possibly disjunct Euro-Siberian distribution pattern of the South-Taiga, also observed in several other species of fungus gnats.
1 aKurina, Olavi1 aKjærandsen, Jostein uhttp://www.entomologicafennica.org/02016nas a2200181 4500008004100000245011600041210006900157300000900226490000900235520140500244653001401649653001801663653001601681653001301697653001901710100002501729856008001754 2009 eng d00aThe genus Pseudexechia Tuomikoski re-characterized, with a review of European species (Diptera: Mycetophilidae)0 agenus Pseudexechia Tuomikoski recharacterized with a review of E a1-450 v20563 aThe genus Pseudexechia Tuomikoski is re-characterized and described, including a thorough morphological study of the male and female terminalia, providing homology assessment of the various parts and substructures. The 25 currently known species of Pseudexechia are tentatively grouped into four species groups that are characterized mainly by structures of the male terminalia: the canalicula group(Holarctic), the longistylus group (Afrotropical) the trisignata group (Holarctic and Oriental), and the trivittata group (Holarctic and Oriental). The ten European species of Pseudexechia are then revised, of which one, Pseudexechia tuomikoskii sp. n., is described as new to science. All males and nine associated females are keyed, measured, described and illustrated. A principal component analysis of 59 morphometric measurements failed to give a clear separation of the different species and species groups. Except for overall size and some diffuse differences in flagellomere and tarsus lengths the present study also failed to reveal morphometric characters that are clearly taxonomically informative, and species identity must rest primarily on structural differences in the terminalia with aid of coloration patterns. Given as ratios, however, some measurements, like the wing vein R4+5 bending index and the length to width ratio of clypeus, appear to be informative at species group level.10aExechiini10amorphometrics10anew species10arevision10aspecies groups1 aKjærandsen, Jostein uhttp://www.online-keys.net/sciaroidea/2000_/Kjaerandsen2009_Zootaxa2056.pdf03003nas a2200145 4500008004100000245015800041210006900199300001000268490000700278520241200285100002202697700002502719700001802744856009502762 2008 eng d00aFungus gnats (Diptera: Bolitophilidae, Diadocidiidae, Ditomyiidae, Keroplatidae & Mycetophilidae) from Tyresta National Park and Nature Reserve in Sweden0 aFungus gnats Diptera Bolitophilidae Diadocidiidae Ditomyiidae Ke a29-520 v143 aFaunistic data on fungus gnats from the boreonemoral, old-growth, pine-dominated forests of Tyresta National Park and the surrounding Nature Reserve are presented. The material was collected with Malaise traps, window traps and coloured pan traps at 15 sites in the years 1997-2003. The Tyresta forest suffered from a 450 ha area wild-fire in 1999, and about half (55%) of the samples originates from newly, partly heavily burnt wild-fire sites. Altogether 248 species are recorded, including 22 species new to Sweden, viz. Symmerus nobilis Lackschewitz, 1937, Orfelia unicolor (Staeger, 1840), Phthinia winnertzi Mik, 1869, Sciophila krysheni Polevoi, 2001, Sciophila modesta Zaitzev, 1982, Sciophila persubtilis Polevoi, 2001, Sciophila setosa Garrett, 1925, Boletina edwardsi Chandler, 1992, Gnoriste harcyniae von Roder, 1887, Allodia (Allodia) anglofennica Edwards, 1921, Allodia (Brachycampta) foliifera (Strobl, 1910), Anatella ankeli Plassmann, 1977, Exechiopsis (Xenexechia) perspicua (Johannsen, 1912), Synplasta pseudingeniosa Zaitzev, 1993, Mycetophila dziedzickii Chandler, 1977, Mycetophila gentilicia Zaitzev, 1999, Mycetophila lubomirskii Dziedzicki, 1884, Phronia distincta Hackman, 1970, Sceptonia regni Chandler, 1991, Sceptonia thaya Sevcik, 2004, Trichonta clavigera Lundstrom, 1913, and Trichonta subterminalis Zaitzev & Menzel, 1996. Five species (1 Diadocidia, 1 Docosia, 2 Cordyla and 1 Dynatosoma) are regarded as new to science and will be described elsewhere. The species richness and composition fits well the general picture of increasing species diversity towards north when compared with other surveys in the Nordic region. The material shows no significant difference between fire-sites and intact forest with respect to number of specimens caught, but the species composition is quite different. As expected, the highest number of species (185) was found at the undisturbed sites, and 43 species are significantly found to be avoiding the fire sites. Still, attraction of many fungus gnats to wild-fire sites is strongly indicated by a high number of species (151) captured there, of which 37 species are significantly over-represented at such sites. For 201 species (81%) the known larval habitat is given, showing that fungus gnats from Tyresta are dependant upon a rich biota of both epigeal and wood-growing fungi, and on decaying wood, particularly of deciduous trees.1 aJakovlev, Jevgeni1 aKjærandsen, Jostein1 aViklund, Bert uhttp://www.online-keys.net/sciaroidea/add01/Jakovlev_al_2008_fungus_gnats_from_tyresta.pdf02414nas a2200121 4500008004100000245013700041210006900178300001200247490000700259520195200266100002502218856004902243 2006 eng d00aReview of fungus gnats in the genus Tarnania Tuomikoski, with a phylogeny of the Rymosia s.l. genus group (Diptera : Mycetophilidae)0 aReview of fungus gnats in the genus Tarnania Tuomikoski with a p a121-1480 v373 aThe four known species of Tarnania Tuomikoski are reviewed, viz. T dziedzickii (Edwards, 1941), T. fenestralis (Meigen, 1818), T. nemoralis (Edwards, 1941), and T. tarnanii (Dziedzicki, 1910). Males and females are re-described, photographed and their terminalia figured. An attempt is made to homologize and name specific substructures of the male gonostylus, widely recognizable within the tribe Exechiini. A phylogenetic analysis of the Tarnania species, including representatives of the six other genera of the Rymosia s. lat. genus group, strengthens the view that Tarnania is monophyletic. Tarnania is supported by six unambiguous character changes of which three are considered to be unique synapomorphies, viz. 1) lower parts of metepisternum and metepimeron covered with campaniform sensilla; 2) hind tibia with several curved bristles posterodorsally, placed irregularly in more than one row; and 3) anterior branch of male gonostylus forming an elongated, bifurcated lobe. The most parsimonious hypothesis for relationships among the species of Tarnania is ((T tarnanii + T nemoralis) + (T dziedzickii + T fenestralis)). The practice of regarding the genera of the Rymosia s. lat. genus group as an assemblage of plesiomorphic genera is also supported, the most parsimonious hypothesis for relationships among them being (Notolopha (Allodiopsis (Myrosia (Synplasta (Tarnania + (Rymosia + Pseudorymosia)))))). Tarnania is most diverse in northwestern Europe, with all four species known from Norway, Sweden, Great Britain, Belgium, Germany, Switzerland, and France. T dziedzickii extends its distribution southwards to include the North African and the Near East Regions. T. fenestralis is widely distributed in the western Palaearctic Region and extends its distribution eastwards to the eastern Palaearctic region. Only T. tarnanii displays a wide Holarctic distribution including most of Russia, Alaska, Canada and Greenland.
1 aKjærandsen, Jostein uhttps://sciaroidea.myspecies.info/node/2680301850nas a2200145 4500008004100000245012600041210006900167260001200236300001200248490000700260520133800267100002501605700002501630856004901655 2007 eng d00aFungus gnats (Diptera: Bolitophilidae, Diadocidiidae, Ditomyiidae, Keroplatidae and Mycetophilidae) from Møre og Romsdal0 aFungus gnats Diptera Bolitophilidae Diadocidiidae Ditomyiidae Ke c12/2007 a147-1710 v543 aFaunistic data on fungus gnats from the county of Møre og Romsdal in Norway are presented and all species known from the county are summarized in a checklist. Treatment of some 23000 specimens, collected with one Malaise trap and one window trap for a whole year each, resulted in the identification of 315 species from a single site at Jordalsgrend, Sunndal municipality. Material from three other localities in Møre og Romsdal and a few previously published records adds 42 species, bringing the total up to 357 species belonging to the families Bolitophilidae (11), Diadocidiidae (6), Ditomyiidae (2), Keroplatidae (11) and Mycetophilidae (327). Ten of the species are considered to be new to science and three species represented with single females could not be identified to species level. Records of 57 species are published for the first time from Norway, including three species that have been listed from Norway without any published records. The 34 species included in the Norwegian 2006 Red Data List are commented on. The high species diversity found at Jordalsgrend reveals a new picture when compared with other surveys in the Nordic region, and may have implications for future forest management, as boreal-oceanic, old-growth, deciduous forests are underrepresented in most conservation plans.
1 aKjærandsen, Jostein1 aJordal, John, Bjarne uhttps://sciaroidea.myspecies.info/node/2632603706nas a2200157 4500008004100000245007300041210006400114260001200178300001000190490000700200520316900207100002503376700001803401700002403419856010503443 2007 eng d00aThe fungus gnats of Iceland (Diptera, Keroplatidae & Mycetophilidae)0 afungus gnats of Iceland Diptera Keroplatidae Mycetophilidae c12/2007 a61-960 v643 aThe Icelandic fauna of fungus gnats in the families Keroplatidae and Mycetophilidae is revised based on available material lodged at the Icelandic Institute of Natural History; the Zoological Museum in Copenhagen, Denmark; the Museum of Zoology in Lund, Sweden; and the Museum of Zoology in Amsterdam, the Netherlands. Eight species names previously published from Iceland are removed from the Icelandic fauna due to misidentifications. Three replaced names and 20 new species are added; viz. Allocotocera pulchella (Curtis, 1837), Sciophila hirta Meigen, 1818, S. parviareolata Santos Abreu, 1920, Boletina basalis (Meigen, 1818), B. gripha Dziedzicki, 1885, Leia fascipennis Meigen, 1818, Anatella sp., Brevicornu auriculatum (Edwards, 1925), B. verralli (Edwards, 1925), Exechia borealis Lundström, 1912 sp. restit., E. micans Lastovka & Matile, 1974, E. pectinivalva Stackelberg, 1948, E. pseudofestiva Lackschewitz, 1937, E. sp. A, Exechiopsis ligulata (Lundström, 1913), Rymosia speyae Chandler, 1994, Mycetophila marginata Winnertz, 1863, Phronia bicolor Dziedzicki, 1889, P. braueri Dziedzicki, 1889, P. taczanowskyi Dziedzicki, 1889, Trichonta atricauda (Zetterstedt, 1852), T. terminalis (Walker, 1856) and Zygomyia pseudohumeralis Caspers, 1980.The first modern Swedish checklist of fungus gnats of the families Bolitophilidae, Diadocidiidae, Ditomyiidae, Keroplatidae and Mycetophilidae is presented. The checklist results from a comprehensive literature research as well as treatment of a considerable determined and undetermined material from Swedish museum collections and recent material from several sources. To get better grounds for judging many old and doubtful records from Sweden, a nearly complete review of fungus gnats from the J. W. Zetterstedt collection at the Museum of Zoology in Lund has been undertaken and identifications corrected where needed. In order to preserve nomenclatural stability three species names are reinstated, all with priority over junior synonyms, viz. Orfelia lugubris (Zetterstedt, 1851) comb. n. = Orfelia tristis (Lundström, 1911) syn. n., Ectrepesthoneura ovata Ostroverkhova, 1977 = Ectrepesthoneura bucera Plassmann, 1980 syn. n., and Dynatosoma thoracicum (Zetterstedt, 1838) sens. auct. nec Zaitzev = Dynatosoma norwegiense Zaitzev & Økland, 1994 syn. n. We further find the holotype of Mycetophila grisea Zetterstedt, 1852 to be identical to Mycetophila perpallida Chandler, 1993, but retain Mycetophila perpallida pending a review of other possible synonyms with precedence. Ectrepesthoneura pubescens (Zetterstedt, 1860) is found to be a synonym of Ectrepesthoneura unifurcata (Zetterstedt, 1860) comb. n. syn. n. where the first name is retained as valid due to page priority. Four names described by Zetterstedt remain nom. dub., viz.: Mycomya diluta (Zetterstedt, 1860), Mycomya (Mycomya) notata (Zetterstedt, 1860), Brevicornu fusculum (Zetterstedt, 1838), and Brevicornu obscurellum (Zetterstedt, 1838) comb. n. Stigmatomeria obscura (Winnertz, 1863) sp. restit. is found to be a distinct species separate from Stigmatomeria crassicornis (Stannius, 1831). New combinations are suggested for Exechia praedita Plassmann, 1976 = Exechiopsis (Xenexechia) praedita (Plassmann, 1976) comb. n., and for Rhymosia pectinacea Ostroverkhova, 1979 = Pseudexechia pectinacea (Ostroverkhova, 1979) comb. n. Having removed 17 published species names with doubtful or wrong records (listed at the end) we find that the published sources comprise altogether 585 species. 137 species are reported for the first time in Sweden, bringing the total up to 722. Additional 36 species considered to be new to science are mentioned for completeness, but will be further presented and described elsewhere. Hence, at present the known fauna (including claimed undescribed species) comprises 758 species in 83 genera; 25 species of the family Bolitophilidae, 5 of the family Diadocidiidae, 3 of the family Ditomyiidae, 45 of the family Keroplatidae, 679 of the family Mycetophilidae and 1 in the unplaced genus Sciarosoma Chandler. For each species a full account of published Swedish sources with pagination, all synonyms used in Sweden and the currently known distribution in the Swedish provinces as well as the known world distribution is given. The Swedish species of fungus gnats are generally very widespread: 47% being widespread in Europe, 43% being distributed in the Eastern Palaearctic Region, and 25% having a Holarctic distribution. We find significantly higher species richness in the boreal forests of northern Sweden, but only 3% of the species so far described are known only from the Nordic biogeographical region.
1 aKjærandsen, Jostein1 aHedmark, Kjell1 aKurina, Olavi1 aPolevoi, Alexei1 aØkland, Bjørn1 aGötmark, Frank uhttp://www.online-keys.net/sciaroidea/add01/Kjerandsen_et_al_2007_Checklist_Sweden.pdf01500nas a2200217 4500008004100000245014800041210006900189300001000258490000700268520063400275653004700909653001000956653001000966653008100976653005201057653006501109653001001174100002501184700002401209856004901233 2006 eng d00aOn the identity of Pseudexechia parallela (Edwards, 1925) (Diptera: Mycetophilidae) and description of a new related species from Great Britain0 aidentity of Pseudexechia parallela Edwards 1925 Diptera Mycetoph a41-490 v193 aPseudexechia parallela (Edwards, 1925) is redescribed and illustrated. Based on study of types and new material Pseudexechia parallela (Edwards, 1925) is considered to be a senior synonym of P. hamulata (Lackschewitz, 1937) syn. n. Pseudexechia parallela is reported from Sweden, Kamtschatka, Russia and Minnesota, U.S.A. for the first time, thus expanding its known range from Europe to a wide Holarctic distribution. A new allied species, Pseudexechia monica sp. n., is described and illustrated based on males from Wales in Great Britain.
10aOf Pseudexechia parallela ( Edwards 1925 )10ap. 4210ap. 4610aPseudexechia hamulata ( Lackschewitz 1937 ) ( Mycetophilidae ) : New synonym10aPseudexechia monica ( Mycetophilidae ) : Sp nov10aPseudexechia parallela ( Edwards 1925 ) ( Mycetophilidae ) :10aWales1 aKjærandsen, Jostein1 aChandler, Peter, J. uhttps://sciaroidea.myspecies.info/node/2388001848nas a2200157 4500008004100000245008500041210006900126300001200195490000700207520131100214100001801525700002301543700002501566700001901591856008001610 2007 eng d00aMolecular phylogeny of the fungus gnat tribe Exechiini (Mycetophilidae, Diptera)0 aMolecular phylogeny of the fungus gnat tribe Exechiini Mycetophi a327-3350 v363 aThe phylogenetic relationships within the fungus gnat tribe Exechiini have been left unattended for many years. Recent studies have not shed much light on the intergeneric relationship within the tribe. Here the first attempt to resolve the phylogeny of the tribe Exechiini using molecular markers is presented. The nuclear 18S and the mitochondrial 16S, and cytochrome oxidase subunit I (COI) genes were successfully sequenced for 20 species representing 15 Exechiini genera and five outgroup genera. Bayesian, maximum parsimony and maximum likelihood analyses revealed basically congruent tree topologies and the monophyly of Exechiini, including the genus Cordyla, is confirmed. The molecular data corroborate previous morphological studies in several aspects. Cordyla is found in a basal clade together with Brachypeza, Pseudorymosia and Stigmatomeria. The splitting of the genera Allodiopsis s.l. and Brevicornu s.l. as well as the sistergroup relationship of Exechia and Exechiopsis is also supported. The limited phylogenetic information provided by morphological characters is mirrored in the limited resolution of the molecular markers used in this study. Short internal and long-terminal branches obtained may indicate a rapid radiation of the Exechiini genera during a short evolutionary period.1 aRindal, Eirik1 aSøli, Geir, E. E.1 aKjærandsen, Jostein1 aBachmann, Lutz uhttp://www.online-keys.net/sciaroidea/2000_/Rindal_et_al_2007_Exechiini.pdf00451nas a2200109 4500008004100000245010900041210006900150300001200219490000600231100002500237856007900262 1994 eng d00aProsciara didactyla sp. n. and P. megachaetica Hippa & Vilkamaa, 1991 from Thailand (Diptera, Sciaridae)0 aProsciara didactyla sp n and P megachaetica Hippa Vilkamaa 1991 a147-1480 v51 aKjærandsen, Jostein uhttp://www.online-keys.net/sciaroidea/add01/kjaerandsen_1994_Prosciara.pdf01516nas a2200121 4500008004100000245005700041210005700098300001200155490000600167520110700173100002501280856008901305 1993 eng d00aDiptera in mines and cave systems in southern Norway0 aDiptera in mines and cave systems in southern Norway a151-1600 v43 aThe dipterous fauna in 32 mines, 5 caves and some other cave systems in southern Norway has been studied with regard to species composition and periodicity. Some 20 000 specimens belonging to 80 species in 18 families were recorded. Mycetophilidae (95.0%), Culicidae (3.2%) and Heleomyzidae (1.3%), dominated. With the exception of Speolepta leptogaster (Winnertz, 1863) (Mycetophilidae), a possible troglophile, all species must be regarded as trogloxenes, most of them habitual trogloxenes inhabiting cave systems for hibernation. Some differences regarding species composition in different cave systems and between western and eastern Norway were demonstrated. Seasonal occurrence and sex-ratios reflect different life cycle strategies and seasonal adaptations among the habitual trogloxenes: hibernators, (Mycetophilidae, Culicidae), aestivators (Limoniidae, Bolitophilidae), species which seek cave systems independent of sex and season (Heleomyzidae, Trichoceridae), and opportunists (Chironomidae, Phoridae?, Dixidae?). Species belonging to other families are most likely accidental trogloxenes.1 aKjærandsen, Jostein uhttp://www.online-keys.net/sciaroidea/add01/kjaerandsen_1993_Cave_Diptera_Norway.pdf00473nas a2200145 4500008004700000245005200047210005000099260003500149300001000184100002000194700002100214700002500235700001800260856004900278 2005 Norwdgian 00aSoppmygg, artsrik insektgruppe i nord-områdene0 aSoppmygg artsrik insektgruppe i nordområdene aBergenbUniversitetet i Bergen a66-711 aAndersen, Trond1 aGammelmo, Oivind1 aKjærandsen, Jostein1 aRindal, Eirik uhttps://sciaroidea.myspecies.info/node/2335802409nas a2200145 4500008004100000245007700041210006900118300001000187490000700197520187600204100002202080700002502102700002002127856011602147 2006 eng d00aSeventy species of fungus gnats new to Finland (Diptera: Mycetophilidae)0 aSeventy species of fungus gnats new to Finland Diptera Mycetophi a22-390 v113 aSeventy species of fungus gnats are reported as new to Finland. Additionally two species are confirmed, increasing the known Finnish fauna to 699 species. Eighteen of the species are also new to the Nordic region, viz.: Mycomya (Mycomya) livida (Dziedzicki, 1885); Neoempheria bimaculata (von Roser, 1840); Phthinia winnertzi Mik, 1869; Sciophila pseudoflexuosa Kurina, 1991; Sciophila setosa Garrett, 1925; Allodiopsis gracai Ševčík & Papp, 2003; Brevicornu arcticoides Caspers, 1985; Exechia pseudofestiva Lackschewitz, 1937; Exechia repandoides Caspers, 1984; Exechiopsis (Xenexechia) perspicua (Johannsen, 1912); Notolopha sibirica Zaitzev & Maximova, 2000; Pseudexechia canalicula (Johannsen, 1912); Dynatosoma silesiacum Ševčík, 2001; Mycetophila exstincta Loew, 1869; Mycetophila idonea Lastovka, 1972; Mycetophila triangularis Lundström, 1912; Sceptonia hamata Ševčík, 2004; Sceptonia thaya Ševčík, 2004. Three species are reported for the first time from the Palaearctic region, viz.: Sciophila setosa, Exechiopsis (Xenexechia) perspicua and Pseudexechia canalicula. The new records are based mainly on original material collected in southern Finland in 2003 - 2004. In addition the collections at the Finnish Museum of Natural History, Helsinki were re-examined for the genera Boletina (in part), Allodiopsis, Exechia, Exechiopsis, Myrosia, Notolopha, Rymosia and Synplasta. Detailed information on Finnish records as well as data on the general distribution and taxonomical notes are given for each species new to Finland. 1 aJakovlev, Jevgeni1 aKjærandsen, Jostein1 aPolevoi, Alexei uhttp://www.online-keys.net/sciaroidea/2000_/Jakovlev_et_al_2006_Seventy_species_of_fungus_gnats_new_to_%7E1.pdf01534nas a2200133 4500008004100000245011100041210006900152260001200221300001000233490000700243520103600250100002501286856008901311 2007 eng d00aTwo new species of Allodia subgenus Brachycampta Winnertz from Norway and Sweden (Diptera: Mycetophilidae)0 aTwo new species of Allodia subgenus Brachycampta Winnertz from N c03/2007 a17-230 v183 aAllodia (Brachycampta) huggerti sp. n. from Sweden and Allodia (Brachycampta) rindeni sp. n. from Norway and Sweden are described based on a few adult males. Detailed illustrations of their terminalia are provided. The A. (B.) barbata species group is defined for species of which both dorsal and ventral branches of the male gonostylus are reduced to slender lobes, and the two new species both belong in this species group. They differ from other species in the species group primarily by the structure of the apicoventral corners of the gonocoxite, by the shape of the hypandrial lobe, and in details of the gonostylus. The new species seem to be most closely related with each other and further to A. (B.) racemosa Zaitzev, 1992 known from Alaska. The new species are named in memory of their collectors, the late dr. Lars Huggert (1942 - 2003) and the late Helge Rinden (1967-1999). 1 aKjærandsen, Jostein uhttp://www.online-keys.net/sciaroidea/2000_/Kjerandsen_2007_Allodia_%28B%29_sp_n.pdf01137nas a2200169 4500008004100000245010200041210006900143300002200212490000800234653009000242653008900332653007300421653026000494653010600754100002500860856008200885 1994 eng d00aThree new species of Pseudexechia Tuomikoski from Tanzania and Thailand (Diptera: Mycetophilidae)0 aThree new species of Pseudexechia Tuomikoski from Tanzania and T a325-330, illustr.0 v13710a-fig; '; d; **** MYCETOPHILIDAE-; Pseudexechia lanceostylus; SP-NOV; Tanzania; P.-32710a-fig; '; d; **** MYCETOPHILIDAE-; Pseudexechia longistylus; SP-NOV; Tanzania; P.-32510a-fig; '; d; Invertebrates; Arthropods; Insects; Dipterans/True Flies10aDoi Inthanon; New species; Pseudexechia lanceostylus; Pseudexechia longistylus; TANZANIA-; Tanga region; New species; * INSECTA-; ** DIPTERA-; *** NEMATOCERA-; **** MYCETOPHILIDAE-; Pseudexechia; **** MYCETOPHILIDAE-; Pseudexechia inthanonensis; SP-NOV; T10aPseudexechia; PHYLOGENY-; New species implications; Pseudexechia inthanonensis; THAILAND-; Chiang Mai1 aKjærandsen, Jostein uhttp://www.online-keys.net/sciaroidea/add01/kjaerandsen_1994_Pseudexechia.pdf00838nas a2200253 4500008004100000245006300041210006100104300001000165490000800175653001300183653001300196653003300209653001200242653002200254653002300276653005200299653001300351653002300364653004000387653001500427100002500442700002500467856009200492 2005 eng d00aSvampmyggor - artrik insektsgrupp som trivs sa in i Norden0 aSvampmyggor artrik insektsgrupp som trivs sa in i Norden a26-340 v10010aBiology-10aDiptera-10adistribution-and-systematics10aEurope-10aFeeding-behaviour10aGeneral-morphology10ahistory-of-study; Mycetophilidae- : Nematocera-10aInsecta-10aMolecular-genetics10aMycetophilidae-: History-of-zoology10aPhylogeny-1 aKjærandsen, Jostein1 aBengtson, Sven, Axel uhttp://www.online-keys.net/sciaroidea/add01/Kjaerandsen_&_Bengtson_2005_Svampmyggor.pdf01435nas a2200205 4500008004100000245007400041210006900115300001200184490000700196520055800203653005300761653001300814653006200827653004700889653001200936653015200948100002501100700001801125856008601143 2004 eng d00aA new species of Cordyla Meigen from Norway (Diptera: Mycetophilidae)0 anew species of Cordyla Meigen from Norway Diptera Mycetophilidae a137-1430 v513 aA new species of fungus gnats in the genus Cordyla Meigen, 1803, C. bomloensis sp. n., is described based on adult material from southwestern Norway. Both the male and the female are described, photographed and their terminalia figured. The new species belongs in the C. fusca-group. It seems to be most closely allied to C. brevicornis (Staeger, 1840) and C. pusilla Edwards, 1925 from which it is differing prevalently by structures of the male and female terminalia. Its seemingly isolated distribution in southwestern Norway is briefly commented on.10aCordyla-bomloensis ( Mycetophilidae- ) : Norway-10aDiptera-10aInsecta-; Cordyla-bomloensis ( Mycetophilidae- ) : Sp-nov10aNew-species; Mycetophilidae- : Nematocera-10aNorway-10aP.-138; Systematics-; Nomenclature-; New-taxa; Land-zones; Palaearctic-region; Eurasia-; Europe-; Arthropods-; Insects-; Invertebrates-; True-Flies1 aKjærandsen, Jostein1 aKurina, Olavi uhttp://www.online-keys.net/sciaroidea/add01/Kjaerandsen_&_Kurina_2004_Cordyla.pdf00682nas a2200133 4500008004100000245006100041210005600102300001000158490000700168653021400175100002500389700002400414856011000438 1992 eng d00aFungus-gnats from the Faeroes. (Diptera, Mycetophilidae)0 aFungusgnats from the Faeroes Diptera Mycetophilidae a85-870 v6010aMYCETOPHILIDAE-; ATLANTIC-OCEAN-ISLANDS; Faeroes; Faunal list including 5 first records; * insecta-; ** diptera-; *** nematocera-; **** mycetophilidae-; Invertebrates; Arthropods; Insects; Dipterans/True Flies1 aKjærandsen, Jostein1 aJørgensen, Lis, L. uhttp://www.online-keys.net/sciaroidea/add01/Kjerandsen_&_Joergensen_1992_Fungus-gnats_from_the_Faroes.pdf03494nas a2200133 4500008004100000245015700041210006900198300000900267490000800276520270200284653026002986100002503246856008903271 2005 eng d00aA review of fungus gnats in the tribe Exechiini (Diptera, Mycetophilidae) from the J. W. Zetterstedt collection at the Museum of Zoology in Lund, Sweden0 areview of fungus gnats in the tribe Exechiini Diptera Mycetophil a1-350 v8563 aThe collections of fungus gnats by Johan Wilhelm Zetterstedt (1785ы1874), lodged in the Museum of Zoology in Lund, Sweden, are examined for all species belonging in the tribe Exechiini Edwards. The majority of the material was collected in Fennoscandia, mainly in Sweden, in the first half of the 19th century. Altogether 37 species of the tribe Exechiini could be safely identified. Three additional species are strongly indicated to be present in the collections, but could not be identified with certainty, viz. Allodia (Brachycampta) alternans (Zetterstedt, 1838), Cordyla murina Winnertz, 1863 and Stigmatomeria crassicornis (Stannius, 1831). Some of Zetterstedt's types have been erroneously synonymized and misinterpreted in modern literature. Hence, illustrations of terminalia are presented for all recognizable Exechiini types described by Zetterstedt. In order to preserve nomenclatural stability a lectotype is selected for Brevicornu griseolum (Zetterstedt, 1852) sensu auctore nec Edwards, and a neotype is selected for Allodia (Brachycampta) alternans (Zetterstedt, 1838). Two species names are reinstated, viz. Brevicornu canescens (Zetterstedt, 1852) sp. restit. stat. n. and Notolopha brachycera (Zetterstedt, 1838) sp. restit. stat. n. Two new synonyms are established, viz. Notolopha brachycera (Zetterstedt, 1838) = Allodiopsis (Notolopha) tuomikoskii Zaitzev & Maximova, 2000 syn. n., and Brevicornu griseolum (Zetterstedt,1852) = Brevicornu boreale (Lundstrom, 1914) syn. n. All type specimens of Brevicornu fusculum (Zetterstedt, 1838) have lost their abdomens. No material of Exechia parvula (Zetterstedt, 1852) or Cordyla canescens Zetterstedt, 1852 could be located in the collections. Although the type material of Exechia parvula probably is lost, the name is still valid as a junior synonym for Mycetophila nana Staeger, 1840 since Mycetophila nana Staeger, 1840 is a junior primary homonym of Mycetophila nana Macquart, 1826. Cordyla canescens has been made a junior synonym for Stigmatomeria crassicornis (Stannius, 1831). The identity of Brevicornu fusculum is highly uncertain and the name must remain as a nomen dubium. Eleven species are reinstated or correctly reported from Sweden for the first time: Allodia (Allodia) tuomikoskii Hackman, 1971, Allodia (Allodia) zaitzevi Kurina, 1998, Allodiopsis rustica (Edwards, 1941), Brevicornu canescens (Zetterstedt, 1852), Brevicornu nigrofuscum (Lundstrom, 1909), Exechiopsis (Xenexechia) crucigera (Lundstrom, 1909), Pseudexechia aurivernica Chandler, 1978, Notolopha brachycera (Zetterstedt, 1852) Synplasta gracilis (Winnertz, 1863), Tarnania dziedzickii (Edwards, 1941), and Tarnania nemoralis (Edwards, 1941).10aBT: Systematics-; Nomenclature-; Type-material; Synonymy-; Available-name; Taxonomy-; Status-; Animals-and-man; Education-and-entertainment; Land-zones; Palaearctic-region; Eurasia-; Europe-; DE: Exechiini- ( Mycetophilidae- ) : Museums-collections-and-1 aKjærandsen, Jostein uhttp://www.online-keys.net/sciaroidea/2000_/Kjerandsen_2005_types_of_Zetterstedt.pdf