Shared but overlooked: 30 species of Holarctic Microlepidoptera revealed by DNA barcodes and morphology

JEAN-FRANÇOIS LANDRY; VAZRICK NAZARI; JEREMY R. DEWAARD; MARKO MUTANEN; CARLOS LOPEZ-VAAMONDE; PETER HUEMER; PAUL D.N. HEBERT

doi:10.11646/zootaxa.3749.1.1

Issue: Vol. 3749 No. 1: 16 Dec. 2013

Type: Monograph

Published: 2013-12-16

DOI: 10.11646/zootaxa.3749.1.1

Page range: 1–93

Abstract views: 69

PDF downloaded: 65

Shared but overlooked: 30 species of Holarctic Microlepidoptera revealed by DNA barcodes and morphology

JEAN-FRANÇOIS LANDRY⁺⁻
VAZRICK NAZARI⁺⁻
JEREMY R. DEWAARD⁺⁻
MARKO MUTANEN⁺⁻
CARLOS LOPEZ-VAAMONDE⁺⁻
PETER HUEMER⁺⁻
PAUL D.N. HEBERT⁺⁻

Agriculture and Agri-Food Canada, Eastern Cereal and Oilseed Research Centre, C.E.F., Ottawa, Ontario K1A 0C6, Canada.

Biodiversity Institute of Ontario, University of Guelph, Guelph ON N1G 2W1 Canada.

Biodiversity Unit, Department of Biology, University of Oulu, Oulu, Finland

INRA, UR0633 Zoologie Forestière, F-45075 Orléans, France

Tiroler Landesmuseen Betriebsges.m.b.H., Feldstr. 11a, A-6020 Innsbruck, Austria

Biodiversity Institute of Ontario, University of Guelph, Guelph ON N1G 2W1 Canada.

Autostichidae biosurveillance Blastobasidae Choreutidae Coleophoridae Depressariidae Gelechiidae Gracillariidae Lepidoptera Lyonetiidae non-native insects Plutellidae Scythrididae Tineidae Tortricidae Yponomeutidae

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Abstract

This study reports 30 species of Lepidoptera previously known from either the Palearctic or the Nearctic that are newly recorded as Holarctic. For 28 of these species, their intercontinental distributions were initially detected through DNA barcode analysis and subsequently confirmed by morphological examination; two Palearctic species were first detected in North America through morphology and then barcoded. When possible, the origin and status of each species (introduced, overlooked Holarctic species, or unknowingly re-described) is discussed, and its morphology is diagnosed and illustrated. The species involved include Tineidae: Scardia amurensis Zagulajev, Triaxomera parasitella (Hübner), Nemapogon cloacella (Haworth), Elatobia montelliella (Schantz), Tinea svenssoni Opheim; Gracillariidae: Caloptilia suberinella (Tengström), Parornix betulae (Stainton); Phyllonorycter maestingella (Müller); Yponomeutidae: Paraswammerdamia albicapitella (Scharfenberg), P. conspersella (Tengström); Plutellidae: Plutella hyperboreella Strand; Lyonetiidae: Lyonetia pulverulentella Zeller; Autostichidae: Oegoconia deauratella (Herrich-Schäffer), O. novimundi (Busck); Blastobasidae: Blastobasis glandulella (Riley), B. maroccanella (Amsel), B. tarda Meyrick; Depressariidae: Agonopterix conterminella (Zeller), Depressaria depressana (F.); Coleophoridae: Coleophora atriplicis Meyrick, C. glitzella Hofmann, C. granulatella Zeller, C. texanella Chambers, C. vitisella Gregson; Scythrididae: Scythris sinensis (Felder & Rogenhofer); Gelechiidae: Altenia perspersella (Wocke), Gnorimoschema jalavai Povolný, Scrobipalpa acuminatella (Sircom), Sophronia gelidella Nordman; Choreutidae: Anthophila fabriciana (L.); and Tortricidae: Phiaris bipunctana (F.). These cases of previously unrecognized faunal overlap have led to their redescription in several instances. Five new synonyms are proposed: Blastobasis glandulella (Riley, 1871) = B. huemeri Sinev, 1993, syn. nov.; B. tarda Meyrick, 1902 = Neoblastobasis ligurica Nel & Varenne, 2004, syn. nov.; Coleophora atriplicis Meyrick, 1928 = C. cervinella McDunnough, 1946, syn. nov.; C. texanella Chambers, 1878 = C. coxi Baldizzone & van der Wolf, 2007, syn. nov., and = C. vagans Walsingham, 1907, syn. nov. Lectotypes are designated for Blastobasis tarda Meyrick and Coleophora texanella Chambers. Type specimens were examined where pertinent to establish new synonymies. We identify 12 previously overlooked cases of species introductions, highlighting the power of DNA barcoding as a tool for biosurveillance.