Thiotrichasumpichi sp. nov. - a new species of Thiotrichinae (Lepidoptera, Gelechiidae) from south-eastern Europe.

Thiotrichasumpichisp. nov. is described from Greece and Croatia. The systematic position of the new species within Thiotricha is discussed based on external and genitalia characters and from DNA barcodes of the mitochondrial COI gene (cytochrome c oxidase 1). Adults, details of external morphology, and male and female genitalia of the new species are illustrated.

Klimeschiopsis terroris auctt. from Spaina further case of cryptic diversity in European Lepidoptera (Lepidoptera, Gelechiidae, Gelechiinae).

A new species of Gnorimoschemini (Gelechiidae), Klimeschiopsis arnoldfransorum sp. nov., is described from specimens collected in Spain. The species is most closely related to Klimeschiopsis terroris (Hartig, 1938), with which it was hitherto mixed, but differs particularly by its small size with reduced yellowish-white forewing markings, the characters of the male and female genitalia, and the highly divergent DNA barcode (cytochrome c-oxidase subunit 1). Adult and genitalia of both sexes are figured. Finally, a checklist of the genus is provided.

An updated checklist of Azorean arthropods (Arthropoda).

Background: The Azores is a remote oceanic archipelago of nine islands which belongs to the Macaronesia biogeographical region hosting a unique biodiversity. The present Azorean landscape is strongly modified by the presence of man and only in small areas, where the soil or climate was too rough, have primitive conditions remained unchanged. Despite the fact that most of the Azorean native habitats are now lost, a large number of endemic species are still present and need urgent conservation. The present checklist of terrestrial and freshwater arthropods of the Azores Archipelago is based on all known published literature. The main goal of this work is to list, as rigorously as possible, all the known terrestrial and freshwater arthropods of the Azores. In this way, we are contributing to solve the 'Linnaean' shortfall, i.e. an incomplete taxonomic description of species-level diversity and the Wallacean Biodiversity Shortfall, the incomplete species distribution knowledge. New information: The checklist includes new records of arthropods at island and archipelago levels that were published in the last twelve years. Compared to the last checklist of Azorean arthropods (Borges et al. 2010b), a total of 217 taxa (species and subspecies) are added.Currently, the total number of terrestrial and freshwater arthropod species and subspecies in the Azores is estimated to be 2420 taxa belonging to 14 classes, 53 orders, 440 families, 1556 genera, 2400 species and 149 individual subspecies.The most diverse orders of Azorean arthropods are: Coleoptera (585 taxa), Diptera (423 taxa), Hemiptera (338 taxa), Hymenoptera (163 taxa), Lepidoptera (159 taxa) and Araneae (133 taxa).A total of 276 endemic taxa are currently known (232 species and 44 subspecies), belonging to eight classes and 22 orders. São Miguel, Terceira and Pico are the islands with higher number of endemic species and subspecies. In the Azores, the number of native non-endemic taxa is 793 taxa, totalling 1069 indigenous taxa. Compared to the other nearest Macaronesian archipelagos (Madeira and Canaries), the Azorean arthropod fauna is characterised by a lower percentage of endemism (endemics/indigenous: 26% in Azores, 47% in Madeira Archipelago and 42% in Canary Islands) and a high proportion of exotic introduced taxa (39% in Azores, 19% in Madeira Archipelago and 8% in Canary Islands).Based on recent IUCN Red-listing of Azorean arthropods, a large fraction of the endemic taxa is under high threat.

A review of the Palearctic Ptycerata Ely, 1910 (= Caulastrocecis Chrtien, 1931, syn. nov.) based on morphology (Lepidoptera, Gelechiidae).

The genus Ptycerata Ely, 1910 is recognised as a senior synonym of Caulastrocecis Chrtien, 1931, syn. nov., and revised in the Palearctic region. Nine species are recognised as valid. Three new species are described: Ptycerata sumpichi sp. nov. (Italy), Ptycerata nupponeni sp. nov. (Russia: Altai) and Ptycerata transbaikalica sp. nov. (Russia: Zabaikalskiy kray). Three new synonyms are established: Aristotelia salinatrix Meyrick, 1926, syn. nov. of Ptycerata furfurella (Staudinger, 1871) comb. nov., Xystophora tripunctella Snellen, 1884 syn. nov. of Ptycerata pudicella (Mann, 1861) comb. nov.; Aristotelia condensata Meyrick, 1928 syn. nov. of Ptycerata interstratella (Christoph, 1872) comb. nov. Further new generic combinations are proposed: Ptycerata gypsella (Constant, 1893) comb. nov., Ptycerata cryptoxena (Gozmy, 1952) comb. nov., Ptycerata perexigella (Junnilainen, 2010) comb. nov. In order to stabilise nomenclature lectotypes are designated for Ptycerata busckella Ely, 1910, Gelechia furfurella Staudinger, 1871, Hypsolophus pudicellus Mann, 1861, Aristotelia condensata Meyrick, 1928 and Aristotelia interstratella Christoph, 1872. The female genitalia of P. interstratella are described for the first time. Ptycerata pudicella is recorded as new for Cyprus and Mongolia, and P. interstratella as new from Kazakhstan, Kyrgyzstan, Tadzhikistan and Iran. Ptycerata pudicellus is removed from the list of Lepidoptera found in Spain.

Diagnostics and updated checklist of Oriental Pseudopostega (Opostegidae), including the matrona species group with a new, extralimital species discovered in the Mediterranean.

We provide diagnostics for eight species groups of Oriental Pseudopostega Kozlov (Lepidoptera: Opostegidae) and a pictorial key for their identification. We designate three new species groups, P. frigida and P. strigulata groups, and the P. auritella group for two Palaearctic species, and rename the P. nigrimaculella group as the P. matrona group. We assign P. euryntis (Meyrick), P. zelopa (Meyrick), and P. subviolaceae (Meyrick), three formerly unplaced species, to species groups based on re-examination of male and female genitalia. We list 22 currently known Oriental Pseudopostega species, and synonymize Pseudopostega spilodes (Meyrick), syn. nov., with P. machaerias (Meyrick). One new Mediterranean species with affiliations to the Oriental fauna, P. matrona Karsholt Remeikis, sp. nov., is described. The new species is illustrated with photographs of the adults and male genitalia. Additionally, we provide a distribution map of the P. matrona group, now extralimital to the Oriental region.

Monopis jussii, a new species (Lepidoptera, Tineidae) inhabiting nests of the Boreal owl (Aegolius funereus).

Monopis jussii Kaila, Mutanen, Huemer, Karsholt & Autto, sp. nov. (Lepidoptera, Tineidae) is described as a new species. It is closely related to the widespread and common M. laevigella ([Denis & Schiffermüller], 1775), but differs in its distinct COI DNA barcode sequences, four examined nuclear loci as well as details in forewing coloration and pattern. Most reared specimens of M. jussii have emerged from the nest remnants of the Boreal owl (Aegolius funereus (Linnaeus, 1758)), but also nests of the Ural owl (Strix uralensis Pallas, 1771) and the Great tit (Parus major Linnaeus, 1758) have been observed as suitable habitats. Based on the present knowledge, the new species has a boreo-montane distribution as it is recorded only from northern Europe and the Alps. Several extensive rearing experiments from Strix spp. nest remnants from southern Finland did not produce any M. jussii, but thousands of M. laevigella, suggesting that the species is lacking in the area or, more unlikely, that the nest of these owl species do not serve as good habitat for the new species. This unexpected species discovery highlights, once again, the usefulness of DNA barcoding in revealing the cryptic layers of biodiversity. To serve stability we select a neotype for Tinea laevigella [Denis & Schiffermüller], 1775, and discuss the complicated synonymy and nomenclature of this species.

The enigmatic case of the genus Argyresthia in the Azores Islands (Lepidoptera: Argyresthiidae).

The species composition of the genus Argyresthia Hübner, 1825 in the Azores is examined. Argyresthia brumella, sp. nov., is described and illustrated from Terceira and Flores Islands. Argyresthia minusculella Rebel, 1940, syn. nov. and Tinea poecilella Rebel, 1940, syn. nov. are synonymized with Argyresthia atlanticella Rebel, 1940. The high variability of A. atlanticella is revealed through the polymorphic wing pattern and the intraspecific genetic divergence of the DNA barcode COI in the specimens examined.

Megacraspedus cottiensis sp. nov. (Lepidoptera, Gelechiidae) from northern Italy - a case of taxonomic confusion.

Megacraspedus cottiensis sp. nov. is described from the western Alps (prov. Torino, Italy). The dorsal habitus and genitalia for both the male and brachypterous female are provided. The new species belongs to the M. faunierensis species group based on genitalia morphology and DNA barcodes, and was hitherto confused with M. neli Huemer & Karsholt, 2018 from the southwestern Alps. However, it clearly differs in morphology and DNA barcode sequences from that species and from M. faunierensis Huemer & Karsholt, 2018. The new species is suspected of being a regional endemic of the Cottian Alps.

Commented checklist of European Gelechiidae (Lepidoptera).

The checklist of European Gelechiidae covers 865 species, belonging to 109 genera, with three species records which require confirmation. Further, it is the first checklist to include a complete coverage of proved synonyms of species and at generic level. The following taxonomic changes are introduced: Pseudosophronia constanti (Nel, 1998) syn. nov. of Pseudosophronia exustellus (Zeller, 1847), Metzneria expositoi Vives, 2001 syn. nov. of Metzneria aestivella (Zeller, 1839); Sophronia ascalis Gozmány, 1951 syn. nov. of Sophronia grandii Hering, 1933, Aproaerema incognitana (Gozmány, 1957) comb. nov., Aproaerema cinctelloides (Nel & Varenne, 2012) comb. nov., Aproaerema azosterella (Herrich-Schäffer, 1854) comb. nov., Aproaerema montanata (Gozmány, 1957) comb. nov., Aproaerema cincticulella (Bruand, 1851) comb. nov., Aproaerema buvati (Nel, 1995) comb. nov., Aproaerema linella (Chrétien, 1904) comb. nov., Aproaerema captivella (Herrich-Schäffer, 1854) comb. nov., Aproaerema semicostella (Staudinger, 1871) comb. nov., Aproaerema steppicola (Junnilainen, 2010) comb. nov., Aproaerema cottienella (Nel, 2012) comb. nov., Ptocheuusa cinerella (Chrétien, 1908) comb. nov., Pragmatodes melagonella (Constant, 1895) comb. nov., Pragmatodes albagonella (Varenne & Nel, 2010) comb. nov., Pragmatodes parvulata (Gozmány, 1953) comb. nov., Oxypteryx nigromaculella (Millière, 1872) comb. nov., Oxypteryx wilkella (Linnaeus, 1758) comb. nov., Oxypteryx ochricapilla (Rebel, 1903) comb. nov., Oxypteryx superbella (Zeller, 1839) comb. nov., Oxypteryx mirusella (Huemer & Karsholt, 2013) comb. nov., Oxypteryx baldizzonei (Karsholt & Huemer, 2013) comb. nov., Oxypteryx occidentella (Huemer & Karsholt, 2011) comb. nov., Oxypteryx libertinella (Zeller, 1872) comb. nov., Oxypteryx gemerensis (Elsner, 2013) comb. nov., Oxypteryx deserta (Piskunov, 1990) comb. nov., Oxypteryx unicolorella (Duponchel, 1843) comb. nov., Oxypteryx nigritella (Zeller, 1847) comb. nov., Oxypteryx plumbella (Heinemann, 1870) comb. nov., Oxypteryx isostacta (Meyrick, 1926) comb. nov., Oxypteryx helotella (Staudinger, 1859) comb. nov., Oxypteryx parahelotella (Nel, 1995) comb. nov., Oxypteryx graecatella (Sumpich & Skyva, 2012) comb. nov.; Aproaerema genistae (Walsingham, 1908) comb. rev., Aproaerema thaumalea (Walsingham, 1905) comb. rev.; Dichomeris neatodes Meyrick, 1923 sp. rev.; Caryocolum horoscopa (Meyrick, 1926) stat. rev.; Ivanauskiella occitanica (Nel & Varenne, 2013) sp. rev.; Apodia martinii Petry, 1911 sp. rev.; Caulastrocecis cryptoxena (Gozmány, 1952) sp. rev. Following Article 23.9.2 ICZN we propose Caryocolum blandella (Douglas, 1852) (Gelechia) nom. protectum and Caryocolum signatella (Eversmann, 1844) (Lita) nom. oblitum.

DNA barcode library for European Gelechiidae (Lepidoptera) suggests greatly underestimated species diversity.

For the first time, a nearly complete barcode library for European Gelechiidae is provided. DNA barcode sequences (COI gene - cytochrome c oxidase 1) from 751 out of 865 nominal species, belonging to 105 genera, were successfully recovered. A total of 741 species represented by specimens with sequences ≥ 500bp and an additional ten species represented by specimens with shorter sequences were used to produce 53 NJ trees. Intraspecific barcode divergence averaged only 0.54% whereas distance to the Nearest-Neighbour species averaged 5.58%. Of these, 710 species possessed unique DNA barcodes, but 31 species could not be reliably discriminated because of barcode sharing or partial barcode overlap. Species discrimination based on the Barcode Index System (BIN) was successful for 668 out of 723 species which clustered from minimum one to maximum 22 unique BINs. Fifty-five species shared a BIN with up to four species and identification from DNA barcode data is uncertain. Finally, 65 clusters with a unique BIN remained unidentified to species level. These putative taxa, as well as 114 nominal species with more than one BIN, suggest the presence of considerable cryptic diversity, cases which should be examined in future revisionary studies.

An annotated checklist of Gelechiidae (Lepidoptera) of Israel with description of two new species.

One hundred forty-six species of Gelechiidae including 36 new records are reported from Israel. Anarsia balioneura Meyrick, 1921 and Polyhymno chionarcha Meyrick, 1913 are recorded for the first time in the Palaearctic region. Two new species are described: Metzneria freidbergi sp. nov., and Scrobipalpa aravensis sp. nov. Six new synonyms are established: Stygmatoptera Hartig, 1936 syn. nov. of Polyhymno Chambers, 1874; Eulamprotes Bradley, 1971 syn. nov. of Oxypteryx Rebel, 1911; Polyhymno abaiella Amsel, 1974 syn. nov. of Polyhymno chionarcha, Meyrick, 1913; Gelechia haifella Amsel, 1935 syn. nov. of Athrips rancidella (Herrich-Schäffer, 1854); Sophronia catharurga Meyrick, 1923 and Sophronia parahumerella Amsel, 1935 syn. nov. of Pseudosophronia exustellus (Zeller, 1847). The following new combinations are proposed: Anacampsis karmeliella (Amsel, 1935) comb. nov., Stomopteryx tesserapunctella (Amsel, 1935) comb. nov., Aproaerema languidella (Amsel, 1936) comb. nov., Aproaerema telaviviella (Amsel, 1935) comb. nov., Acompsia (Telephila) ballotellus (Amsel, 1935) comb. nov., Polyhymno dumonti (Hartig, 1936) comb. nov., Oxypteryx atrella (Denis Schiffermüller, 1775) comb. nov., Oxypteryx immaculatella (Douglas, 1850) comb. nov. and Chrysoesthia amseli (Bidzilya, 2008) comb. nov. A lectotype is designated for Lita rhamnifoliae Amsel Hering, 1931.The genitalia of both sexes of Sophronia sagittans Meyrick, 1923, Anacampsis karmeliella (Amsel, 1935), Stomopteryx tesserapunctella Amsel, 1935 as well as male genitalia of Stomopteryx lacteolella Caradja, 1924, Aproaerema telaviviella (Amsel, 1935), Acompsia ballotellus (Amsel, 1935), Polyhymno dumonti (Hartig, 1936) and Chrysoesthia amseli (Bidzilya, 2008) are illustrated and described for the first time. New or additional host plants are recorded for Metzneria aspretella Lederer, 1869, M. agraphella (Ragonot, 1895), M. ehikeella Gozmány, 1954 and Scrobipalpa suaedivorella (Chrétien, 1915). Photographs of the type specimens of most taxa described from Israel and Palestine are presented. The following species are removed from the list of Gelechiidae of Israel: Nothris sulcella Staudinger, 1879, N. skyvai Karsholt Sumpich, 2015, Anarsia spartiella Schrank, 1802, Megacraspedus cerussatellus Rebel, 1930, Oxypteryx atrella (Denis Schiffermüller, 1775), Isophrictis anthemidella (Wocke, 1871), Metzneria metzneriella (Stainton, 1851), Scrobipalpa otregata Povolný, 1972, Scrobipalpa nitentella (Fuchs, 1902), Scrobipalpa remota Povolný, 1972, Scrobipalpa salinella (Zeller, 1847) and Ephysteris diminutella (Zeller, 1847). Moreover, Stomopteryx remissella (Zeller, 1847) is recorded as new to the Altai Mountains of Russia, Anarsia balioneura Meyrick, 1921 is new to Cyprus and Libya, Polyhymno dumonti (Hartig, 1936) is new to Libya and Sudan, Scrobipalpa superstes is new to Greece, Stenolechia gemmella (Linnaeus, 1758) is new to Jordan and Polyhymno chionarcha is new to Saudi Arabia.

Revision of the genus Megacraspedus Zeller, 1839, a challenging taxonomic tightrope of species delimitation (Lepidoptera, Gelechiidae).

The taxonomy of the Palearctic genus Megacraspedus Zeller, 1839 (Lepidoptera, Gelechiidae) is revised, based on external morphology, genitalia and DNA barcodes. An integrative taxonomic approach supports the existence of 85 species which are arranged in 24 species groups (disputed taxa from other faunal regions are discussed). Morphology of all species is described and figured in detail. For 35 species both sexes are described; for 46 species only the male sex is reported, in one species the male is unknown, whereas in three species the female adult and/or genitalia morphology could not be analysed due to lack of material. DNA barcode sequences of the COI barcode fragment with > 500 bp were obtained from 264 specimens representing 62 species or about three-quarters of the species. Species delimitation is particularly difficult in a few widely distributed species with high and allegedly intraspecific DNA barcode divergence of nearly 14%, and with up to 23 BINs in a single species. Deep intraspecific or geographical splits in DNA barcode are frequently not supported by morphology, thus indicating a complex phylogeographic history or other unresolved molecular problems. The following 44 new species (22 of them from Europe) are described: Megacraspedusbengtssoni sp. n. (Spain), M.junnilaineni sp. n. (Turkey), M.similellus sp. n. (Bulgaria, Romania, Turkey), M.golestanicus sp. n. (Iran), M.tokari sp. n. (Croatia), M.neli sp. n. (France, Italy), M.faunierensis sp. n. (Italy), M.gredosensis sp. n. (Spain), M.bidentatus sp. n. (Spain), M.fuscus sp. n. (Spain), M.trineae sp. n. (Portugal, Spain), M.skoui sp. n. (Spain), M.spinophallus sp. n. (Spain), M.occidentellus sp. n. (Portugal), M.granadensis sp. n. (Spain), M.heckfordi sp. n. (Spain), M.tenuiuncus sp. n. (France, Spain), M.devorator sp. n. (Bulgaria, Romania), M.brachypteris sp. n. (Albania, Greece, Macedonia, Montenegro), M.barcodiellus sp. n. (Macedonia), M.sumpichi sp. n. (Spain), M.tabelli sp. n. (Morocco), M.gallicus sp. n. (France, Spain), M.libycus sp. n. (Libya, Morocco), M.latiuncus sp. n. (Kazahkstan), M.kazakhstanicus sp. n. (Kazahkstan), M.knudlarseni sp. n. (Spain), M.tenuignathos sp. n. (Morocco), M.glaberipalpus sp. n. (Morocco), M.nupponeni sp. n. (Russia), M.pototskii sp. n. (Kyrgyzstan), M.feminensis sp. n. (Kazakhstan), M.kirgizicus sp. n. (Afghanistan, Kazakhstan, Kyrgyzstan), M.ibericus sp. n. (Portugal, Spain), M.steineri sp. n. (Morocco), M.gibeauxi sp. n. (Algeria, Tunisia), M.multipunctellus sp. n. (Turkey), M.teriolensis sp. n. (Croatia, Greece, Italy, Slovenia), M.korabicus sp. n. (Macedonia), M.skulei sp. n. (Spain), M.longivalvellus sp. n. (Morocco), M.peslieri sp. n. (France, Spain), M.pacificus sp. n. (Afghanistan), and M.armatophallus sp. n. (Afghanistan). Nevadia Caradja, 1920, syn. n. (homonym), Cauloecista Dumont, 1928, syn. n., Reichardtiella Filipjev, 1931, syn. n., and Vadenia Caradja, 1933, syn. n. are treated as junior synonyms of Megacraspedus. Furthermore the following species are synonymised: M.subdolellus Staudinger, 1859, syn. n., M.tutti Walsingham, 1897, syn. n., and M.grossisquammellus Chrétien, 1925, syn. n. of M.lanceolellus (Zeller, 1850); M.culminicola Le Cerf, 1932, syn. n. of M.homochroa Le Cerf, 1932; M.separatellus (Fischer von Röslerstamm, 1843), syn. n. and M.incertellus Rebel, 1930, syn. n. of M.dolosellus (Zeller, 1839); M.mareotidellus Turati, 1924, syn. n. of M.numidellus (Chrétien, 1915); M.litovalvellus Junnilainen, 2010, syn. n. of M.imparellus (Fischer von Röslerstamm, 1843); M.kaszabianus Povolný, 1982, syn. n. of M.leuca (Filipjev, 1929); M.chretienella (Dumont, 1928), syn. n., M.halfella (Dumont, 1928), syn. n., and M.arnaldi (Turati & Krüger, 1936), syn. n. of M.violacellum (Chrétien, 1915); M.escalerellus Schmidt, 1941, syn. n. of M.squalida Meyrick, 1926. Megacraspedusribbeella (Caradja, 1920), comb. n., M.numidellus (Chrétien, 1915), comb. n., M.albella (Amsel, 1935), comb. n., M.violacellum (Chrétien, 1915), comb. n., and M.grisea (Filipjev, 1931), comb. n. are newly combined in Megacraspedus.

Species conservation profile of moths (Insecta, Lepidoptera) from Azores, Portugal.

BACKGROUND: The few remnants of Azorean native forests harbour a unique set of endemic moths (Insecta, Lepidoptera), some of them under severe long term threats due to small sized habitats or climatic changes. In this contribution, we present the IUCN Red List profiles of 34 endemic moths to the Azorean archipelago, including species belonging to two diverse families: Noctuidae (11 species) and Crambidae (eight species). The objective of this paper is to assess all endemic Azorean moth species and advise on possible future research and conservation actions critical for the long-trem survival of the most endangered species. NEW INFORMATION: Most species have a large distribution (i.e. 58% occur in at least four islands), very large extent of occurrence (EOO) and a relatively large area of occupancy (AOO). Only nine species are single-island endemics, three of them from Flores, three from São Miguel and one from Pico, São Jorge and Faial. Most of the species also experience continuing decline in habitat quality, number of locations and subpopulations caused by the ongoing threat from pasture intensification, forestry, invasive plant species and future climatic changes. The lack of new records may indicate that one of the species previously named is extinct (Eupithecia ogilviata). Therefore, we suggest as future conservation actions: (1) a long-term species monitoring plan and (2) control of invasive species.

Illustrated review of the leaf-mining Nepticulidae of the central Andes (Peru and Bolivia).

We review forty-five species of Nepticulidae (Lepidoptera) based on an analysis of samples collected in the central Andean region of Peru and Bolivia. Thirteen of these species are new to science, and are named and described here: Stigmella paracosma Remeikis & Stonis, sp. nov., S. expressa Remeikis & Stonis, sp. nov., S. acalyphae Diskus & Stonis, sp. nov., S. lepida Diskus & Stonis, sp. nov., S. misera Diskus & Stonis, sp. nov., S. inca Diskus & Stonis, sp. nov., S. eiffeli Diskus & Stonis, sp. nov., S. arequipica Remeikis & Stonis, sp. nov., S. coronaria Diskus & Stonis, sp. nov., S. azulella Diskus & Stonis, sp. nov., S. sparsella Diskus & Stonis, sp. nov., Manoneura forcipis Diskus & Stonis, sp. nov., and Acalyptris murex Diskus & Stonis, sp. nov. Some of the central Andean species are recorded here as leaf-miners on Euphorbiaceae (Acalypha), Fabaceae (Collaea), Rosaceae (Polylepis), Malvaceae (Sida), Calceolariaceae (Calceolaria), Lamiaceae (Clinopodium), and Asteraceae (Ageratina and Trixis). We create eleven new species groups based on morphological characters designated in Stigmella and one in Acalyptris. A pictorial key to the species groups and distribution maps are provided. All new species are illustrated with 150 photographs and drawings of the adults and genitalia, and, where known and/or available, photographs of host-plants and leaf-mines.

Leaf-mining Nepticulidae (Lepidoptera) from record high altitudes: documenting an entire new fauna in the Andean páramo and puna.

The monograph treats 29 species of leaf-mining pygmy moths (Insecta, Lepidoptera, Nepticulidae) discovered in the northern Andean bush and grass páramo and the central Andean puna at altitudes above 3700 m. They represent the world's highest-altitudinal Nepticulidae fauna known. The height record belongs to Stigmella nivea sp. nov. from Peru collected at an elevation of 4700 m. Except for one species, all belong to Stigmella Schrank. Twenty-two of the species recorded are new and are named and described in the current paper: Stigmella paramica Diskus & Stonis, sp. nov.; S. lachemillae Diskus & Stonis, sp. nov.; S. gynoxyphaga Diskus & Stonis, sp. nov.; S. calceolariae Diskus & Stonis, sp. nov.; S. rigida Diskus & Stonis, sp. nov.; S. altiplanica Diskus & Stonis, sp. nov.; S. robusta Remeikis & Stonis, sp. nov.; S. pseudorobusta Remeikis & Stonis, sp. nov.; S. auriargentata Remeikis & Stonis, sp. nov.; S. altimontana Remeikis & Stonis, sp. nov.; S. pandora Remeikis & Stonis, sp. nov.; S. ampla Diskus & Stonis, sp. nov.; S. evanida Diskus & Stonis, sp. nov.; S. mustelina Remeikis & Stonis, sp. nov.; S. angusta Diskus & Stonis, sp. nov.; S. alticosma Remeikis & Stonis, sp. nov.; S. nivea Remeikis & Stonis, sp. nov.; S. kristenseni Diskus & Stonis, sp. nov.; S. lobata Remeikis & Stonis, sp. nov.; S. ageratinae Diskus & Stonis, sp. nov.; S. clinopodiella Diskus & Stonis, sp. nov.; and S. calceolarifoliae Diskus & Stonis, sp. nov. Some of these species are leaf-miners on Asteraceae (Pentacalia, Baccharis, Gynoxys, and Ageratina plants), Calceolariaceae (Calceolaria), Lamiaceae (Clinopodium), and Rosaceae (Lachemilla). Twenty species are known only from adults with no data on their biology and host-plants. In addition, we present data and discuss recently discovered nepticulid taxa associated with Polylepis forests that is the natural vegetation in much of the High Andes. All High-Andean Stigmella species treated are illustrated with photographs of the adults and genitalia, distribution maps, including some with photographs of the leaf-mines and habitats.

Species-Level Para- and Polyphyly in DNA Barcode Gene Trees: Strong Operational Bias in European Lepidoptera.

The proliferation of DNA data is revolutionizing all fields of systematic research. DNA barcode sequences, now available for millions of specimens and several hundred thousand species, are increasingly used in algorithmic species delimitations. This is complicated by occasional incongruences between species and gene genealogies, as indicated by situations where conspecific individuals do not form a monophyletic cluster in a gene tree. In two previous reviews, non-monophyly has been reported as being common in mitochondrial DNA gene trees. We developed a novel web service "Monophylizer" to detect non-monophyly in phylogenetic trees and used it to ascertain the incidence of species non-monophyly in COI (a.k.a. cox1) barcode sequence data from 4977 species and 41,583 specimens of European Lepidoptera, the largest data set of DNA barcodes analyzed from this regard. Particular attention was paid to accurate species identification to ensure data integrity. We investigated the effects of tree-building method, sampling effort, and other methodological issues, all of which can influence estimates of non-monophyly. We found a 12% incidence of non-monophyly, a value significantly lower than that observed in previous studies. Neighbor joining (NJ) and maximum likelihood (ML) methods yielded almost equal numbers of non-monophyletic species, but 24.1% of these cases of non-monophyly were only found by one of these methods. Non-monophyletic species tend to show either low genetic distances to their nearest neighbors or exceptionally high levels of intraspecific variability. Cases of polyphyly in COI trees arising as a result of deep intraspecific divergence are negligible, as the detected cases reflected misidentifications or methodological errors. Taking into consideration variation in sampling effort, we estimate that the true incidence of non-monophyly is ∼23%, but with operational factors still being included. Within the operational factors, we separately assessed the frequency of taxonomic limitations (presence of overlooked cryptic and oversplit species) and identification uncertainties. We observed that operational factors are potentially present in more than half (58.6%) of the detected cases of non-monophyly. Furthermore, we observed that in about 20% of non-monophyletic species and entangled species, the lineages involved are either allopatric or parapatric-conditions where species delimitation is inherently subjective and particularly dependent on the species concept that has been adopted. These observations suggest that species-level non-monophyly in COI gene trees is less common than previously supposed, with many cases reflecting misidentifications, the subjectivity of species delimitation or other operational factors.

Resource specialists lead local insect community turnover associated with temperature - analysis of an 18-year full-seasonal record of moths and beetles.

Insect responses to recent climate change are well documented, but the role of resource specialization in determining species vulnerability remains poorly understood. Uncovering local ecological effects of temperature change with high-quality, standardized data provides an important first opportunity for predictions about responses of resource specialists, and long-term time series are essential in revealing these responses. Here, we investigate temperature-related changes in local insect communities, using a sampling site with more than a quarter-million records from two decades (1992-2009) of full-season, quantitative light trapping of 1543 species of moths and beetles. We investigated annual as well as long-term changes in fauna composition, abundance and phenology in a climate-related context using species temperature affinities and local temperature data. Finally, we explored these local changes in the context of dietary specialization. Across both moths and beetles, temperature affinity of specialists increased through net gain of hot-dwelling species and net loss of cold-dwelling species. The climate-related composition of generalists remained constant over time. We observed an increase in species richness of both groups. Furthermore, we observed divergent phenological responses between cold- and hot-dwelling species, advancing and delaying their relative abundance, respectively. Phenological advances were particularly pronounced in cold-adapted specialists. Our results suggest an important role of resource specialization in explaining the compositional and phenological responses of insect communities to local temperature increases. We propose that resource specialists in particular are affected by local temperature increase, leading to the distinct temperature-mediated turnover seen for this group. We suggest that the observed increase in species number could have been facilitated by dissimilar utilization of an expanded growing season by cold- and hot-adapted species, as indicated by their oppositely directed phenological responses. An especially pronounced advancement of cold-adapted specialists suggests that such phenological advances might help minimize further temperature-induced loss of resource specialists. Although limited to a single study site, our results suggest several local changes in the insect fauna in concordance with expected change of larger-scale temperature increases.

Revision of the genus Istrianis Meyrick, 1918 (Lepidoptera, Gelechiidae) with special regard to the Palaearctic region.

Twenty-one species of the genus Istrianis are recognized as valid in the world fauna, 11 of which are described as new: I. pseudomyricariella sp. nov. (Greece, Kyrgyzstan, Tadzhikistan), I. nilssoni sp. nov. (Greece), I. kravchenkoi sp. nov. (Palestine), I. sattleri sp. nov. (Pakistan), I. armatus sp. nov. (Yemen), I. lvovskyi sp. nov. (Mongolia), I. sruogai sp. nov. (Turkmenistan, Tadzhikistan), I. piskunovi sp. nov. (Ukraine), I. falkovitshi sp. nov. (Turkmenistan), I. kyrgyzsquamella sp. nov. (Kazakhstan, Kyrgyzstan), I. yemeniasquamella sp. nov. (Yemen). Teleia myricariella var. arenicolella Caradja, 1920 is re-called from synonymy of I. myricariella (Frey, 1870) and considered as a valid species: Istrianis arenicolella (Caradja, 1920) sp. rev. One new synonym is established: Teleia amilcarella Lucas, 1933 syn. nov. of I. arenicolella. One new combination is proposed: I. steganotricha (Meyrick, 1935), comb. nov. (ex Telphusa). Redescriptions and identification keys for all the Palaearctic species and for two new species from Yemen are provided, accompanied by illustrations of the adults, and male and female genitalia.

A review of the genus Nothris Hübner, 1825, with description of new species (Lepidoptera: Gelechiidae).

The West Palaearctic genus Nothris is reviewed. Eight species are distinguished, and adults and genitalia are described and figured. Two species are described as new for science: Nothris gregerseni sp. n. and N. skyvai sp. n. New synonymies are established: Nothris discretella Rebel, 1889 syn. n. and N. verbascella clarella Amsel, 1935 stat. n. are considered synonyms of N. verbascella ([Denis & Schiffermüller], 1775); and N. magna Nel & Peslier, 2007 syn. n. is synonymized with N. sulcella Staudinger, 1879. Most Nothris species occur in Turkey.

DNA barcoding as a screening tool for cryptic diversity: an example from Caryocolum, with description of a new species (Lepidoptera, Gelechiidae).

We explore the potential value of DNA barcode divergence for species delimitation in the genus Caryocolum Gregor & Povolný, 1954 (Lepidoptera, Gelechiidae), based on data from 44 European species (including 4 subspecies). Low intraspecific divergence of the DNA barcodes of the mtCOI (cytochrome c oxidase 1) gene and/or distinct barcode gaps to the nearest neighbor support species status for all examined nominal taxa. However, in 8 taxa we observed deep splits with a maximum intraspecific barcode divergence beyond a threshold of 3%, thus indicating possible cryptic diversity. The taxonomy of these taxa has to be re-assessed in the future. We investigated one such deep split in Caryocolum amaurella (Hering, 1924) and found it in congruence with yet unrecognized diagnostic morphological characters and specific host-plants. The integrative species delineation leads to the description of Caryocolum crypticum sp. n. from northern Italy, Switzerland and Greece. The new species and the hitherto intermixed closest relative C. amaurella are described in detail and adults and genitalia of both species are illustrated and a lectotype of C. amaurella is designated; a diagnostic comparison of the closely related C. iranicum Huemer, 1989, is added.