Superregnum: Eukaryota
Cladus: Unikonta
Cladus: Opisthokonta
Cladus: Holozoa
Regnum: Animalia
Subregnum: Eumetazoa
Cladus: Bilateria
Cladus: Nephrozoa
Cladus: Protostomia
Cladus: Ecdysozoa
Cladus: Panarthropoda
Phylum: Arthropoda
Subphylum: Hexapoda
Classis: Insecta
Cladus: Dicondylia
Subclassis: Pterygota
Cladus: Metapterygota
Infraclassis: Neoptera
Cladus: Eumetabola
Cladus: Paraneoptera
Superordo: Condylognatha
Ordo: Hemiptera
Subordo: Heteroptera
Infraordo: Pentatomomorpha
Superfamilia: Coreoidea
Familia: Rhopalidae
Subfamilia: Serinethinae
Genus: Leptocoris
Species: L. abdominalis – L. aethiops – L. affinis – L. albisoleata – L. amictus – L. augur – L. bahram – L. capitis – L. chevreuxi – L. cinnamonensis – L. corniculatus – L. coxalis – L. dispar – L. griseiventris – L. hexophthalmus – L. insularis – L. intermedius – L. isolatus – L. lanuginosus – L. latus – L. longiusculus – L. marquesensis – L. minusculus – L. mitellatus – L. mutilatus – L. nigrofasciatus – L. obscurus – L. paramictus – L. pectoralis – L. productus – L. rubrolineatus – L. rufomarginatus – L. seidenstueckeri – L. stehliki – L. subrufescens – L. tagalicus – L. teyrovskyi – L. toricollis – L. ursulae – L. verticalis – L. vicinus – L. wagneri
Name
Leptocoris Hahn, 1833
Vernacular names
Synonyms
Lygeomorphus Blanchard, 1840
Pyrrhotes Westwood, 1840
Serinetha Spinola, 1837
Tynotoma Amyot & Serville, 1843
References
Hahn 1833: Wanzenart. Ins., 1 (6), 200.
References
Gross, G.F. 1960: A revision of the genus Leptocoris Hahn (Heteroptera :Coreidae: Rhopalinae) from the Indo-Pacific and Australian regions. Records of the South Australian Museum, 13: 403–451. PDF
Dolling, W.R. 1973: Note on the identity of the New Zealand species of Leptocoris (Heteroptera: Rhopalidae). New Zealand journal of science, 16: 657–658. BUGZ
Links
ION
Nomenclator Zoologicus
Leptocoris is the largest genus of the soapberry bug subfamily. The 41 species of this genus are distributed throughout Africa, South Asia, and Oceania and are thought to have originated in Africa, where the greatest diversity of Leptocoris species are found.[1][2] Members of this genus are large-bodied and have short, wide pronota; they are similar in appearance to the New World genus Jadera (of which there is no range overlap). Leptocoris species can be easily distinguished from the small, slender Boisea (of which there is substantial range overlap). The Australian Leptocoris tagalicus has been studied for its ability to rapidly adapt to invasive hosts (e.g. balloon vine) and is seen as a possible means of biocontrol for environmental weeds.[3][4] The southeast Asian species Leptocoris vicinus is common in urban settings, although it is frequently misidentified as Leptocoris augur.
Species
Leptocoris abdominalis
Leptocoris aethiops
Leptocoris affinis
Leptocoris albisoleatus
Leptocoris amictus
Leptocoris augur
Leptocoris bahram
Leptocoris capitis
Leptocoris chevreuxi
Leptocoris cinnamomensis
Leptocoris corniculatus
Leptocoris coxalis
Leptocoris dispar
Leptocoris fuscus
Leptocoris griseiventris
Leptocoris hexophthalmus
Leptocoris insularis
Leptocoris intermedia
Leptocoris isolatus
Leptocoris lanuginosa
Leptocoris lata
Leptocoris longiusculus
Leptocoris marquesensis
Leptocoris minusculus
Leptocoris mitellatus
Leptocoris mutilatus
Leptocoris nigrofasciatus
Leptocoris obscura
Leptocoris paramictus
Leptocoris pectoralis
Leptocoris productus
Leptocoris rufomarginatus
Leptocoris seidenstueckeri
Leptocoris stehliki
Leptocoris subrufescens
Leptocoris tagalicus
Leptocoris teyrovskyi
Leptocoris toricollis
Leptocoris ursulae
Leptocoris verticalis
Leptocoris vicinus
Leptocoris wagneri
References
Göllner-Scheiding, U. (1983): General-Katalog der Familie Rhopalidae (Heteroptera). Mitt. Zool. Mus. Berlin 59, 37-189.
Göllner-Scheiding, U. (1980): Revision der afrikanischen Arten sowie Bemerkungen zu weiteren Arten der Gattungen Leptocoris Hahn, 1833, und Boisea Kirkaldy, 1910. Dtsch. ent. Z., N.F. 27, 103-148.
Carroll, S.P., Loye, J.E., Dingle, H, et al. (2005): Ecology of Leptocoris Hahn (Hemiptera: Rhopalidae) soapberry bugs in Australia. Australian Journal of Entomology, 44, 344.
Carroll, S.P., Loye, J.E., Dingle, H., et al. (2005): And the beak shall inherit - evolution in response to invasion. Ecology Letters, 8, 944-951.
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