A Systematic Revision of the Plantbug Genus Kirkaldyella Poppius (Heteroptera: Miridae: Orthotylinae: Austromirini) GERASIMOS CASSIS and TIMOTHY MOULDS

A Systematic Revision of the Plantbug Genus Kirkaldyella Poppius (Heteroptera: Miridae: Orthotylinae: Austromirini) GERASIMOS CASSIS and TIMOTHY MOULDS

A systematic revision of the plantbug genus Kirkaldyella Poppius (Heteroptera: Miridae: Orthotylinae: Austromirini) GERASIMOS CASSIS and TIMOTHY MOULDS Insect Syst.Evol. Cassis, G. & Moulds, T.: A systematic revision of the plantbug genus Kirkaldyella Poppius (Heteroptera: Miridae: Orthotylinae: Austromirini). Insect Syst. Evol. 33: 53-90. Copenhagen, April 2002. ISSN 1399-560X. The genus Kirkaldyella is revised and thirteen species are described, twelve of which are new: K. adunca, K. anasillosi, K. argoantyx, K. boweri, K. carotarhani, K. mcalpinei, K. mcmillani, K. ngarkati, K. notaurantia, K. ortholata, K. pilosa and K. schuhi. The type species, K. rugosa Poppius is redescribed and illustrated. The biology and host associations of the species are dis- cussed. A cladistic analysis of the species is given with all the relationships fully resolved, aside from the most terminal clade (K. notaurantia + K. schuhi + K. rugosa). The analysis is based primarily on characters of the male genitalia. G. Cassis (gerrycC~austmus.gov.au) & T. Moulds ([email protected]), Centre for Bio- diversity and Conservation Research, Australian Museum, 6 College St., Sydney, NSW 2010, Australia. Introduction the genus appears to be confined. Species richness The Austromirini were erected as a tribe of is greatest in New South Wales (6 species) and Orthotylinae by Carvalho (1976) to include a com- Western Australia (7), but this may be partially due plex of elongate genera, usually with an acute to extensive collections by one of us (GC) in the frons, including Austromiris Kirkaldy, Dasymiris heathland and open forest habitats of these states. Poppius and Zanessa Kirkaldy. Cassis & Gross Many species are broadly distributed, although a (1995) assigned the ant-mimetic genera Myrme- few of the Western Australian species have more coridea Poppius and Myrmecoroides Gross to this restricted distributions in the southwestern region tribe, but placed Kirkaldyella Poppius within the of the state. nominotypical tribe. Cassis & Asquith in prepara- The Austromirini are a dominant group of phy- tion are redefining the tribe and revising the con- tophagous insects in a broad range of Australian stituent genera, and recognise Kirkaldyella as a environments. The group has received scant taxo- member of the Austromirini. The austromirines in- nomic and no ecological work, yet they are abun- clude a complex of ant-mimetic genera that exhib- dant on many plant species. In this work we estab- it a range of morphological specialisations. Myr- lish host records for ten species of Kirkaldyella. K. mecomorphy in Kirkaldyella Poppius is restricted rugosa Poppius and K. schuhi sp. n., have been to the larvae, with the adults possessing less appar- collected from a monocot species, Lomandra ent mimetic fascies. longfolia Labill. The host records are from thirteen Most of the species of Kirkaldyella are morpho- genera and ten plant families, representing a broad logically alike, with all species being dark, elon- range of unrelated hosts. gate to elongate-ovoid insects. The male genitalia, particularly the spiculum, separates all the species Methods and materials and is extensively described and illustrated in this work. Supporting external characters include those Two hundred and sixty four specimens were of the vestiture and colour patterns. examined in this study. This material was bor- Prior to this work, Kirkaldyella comprised the rowed from several Australian and American insti- type species K. rugosa Poppius alone. We describe tutions. The institutional acronyms listed in the 12 new species from temperate Australia, where species descriptions are: © Insect Systenatics & Evolution (Group 5) 54 Cassis, G. & Moulds, T. INSECT SYST. EVOL. 33:1 (2002) AM - Australian Museum; imens examined' section of each species. For AMNH - American Museum of Natural History; specimens lacking latitude and longitude informa- ANIC - Australian National Insect Collection; tion, coordinates were calculated using ESRI BPBM - Bernice P. Bishop Museum; soft- CAS - Californian Academy of Science; ware (ARCINFO and ARCVIEW), and are given MNH - Musei Nationalis Hungarici; in brackets. Data for specimens collected by the MV - Museum of Victoria; senior author and cohorts include lot numbers (e.g. QM - Queensland Museum; SAMA - South Australian Museum; WA95-L65). Additional habitat and locality infor- UQIC - University of Queensland Insect Collection; mation can be provided by the authors with refer- UZMH - Universty Museum (Zoology) Helsinki; ence to the lot numbers. Maps were prepared using WAM - Western Australian Museum. the above software. Much the was one of study material collected by Phylogenetic methods. - All the characters were of us (GC) and cohorts, and is housed at the unweighted and unordered. The data were ana- Australian Museum. The type rugosa material ofK. lysed using Hennig86. Trees were produced using was not examined. However, material compared the m* and bb subroutines. Numerous species of with the type by the late Jose ge- Carvalho, and his an undescribed genus ofAustromirini were used as nitalic notes and illustrations were available to us. The morphological techniques and outgroups. Because the coding for all character terminology states for these outgroups was identical only one follow those of Cassis (1995) and references there- outgroup is presented in the analysis. in. The description of the male genitalia is com- plex and positional statements refer to the resting Taxonomic characters. - The dorsal margin of the position of the components within the pygophore. genital opening of the pygophore generally has The pygophore is illustrated with and without the one process on the right hand side. K. mcalpinei parameres to indicate the resting position of the and K. carotarhani have an additional process on latter and the presence of processes of the genital the left hand side (Fig. lOB-IIB). The right hand opening. The right paramere is illustrated in two process can be absent (Fig. 7B), greatly reduced in positions to indicate diagnostic structures, particu- size (Fig. lOB) or elongate (Fig. 8B). The left larly mesial spines. Illustrations of the aedeagus paramere is hammer shaped and possesses an api- are given with and without the theca. cal hook. The apical hook is most commonly ori- All measurements are maximum lengths and in entated toward the lateral margin but-can also be millimetres. The abbreviations for morphometric orientated toward the medial margin (Fig. 7C and characters are as follows: BL = body length, HW 16C). The right paramere is generally subrectan- = head width across eyes, IOD = interocular dis- gular and is characterised by an elongate postero- tance, HL = head length, PL = pronotal length, PW lateral process. The medial margin commonly has pronotal width at posterior margin, All = length of between four and thirteen teeth, arranged linearly second antennal segment, and LL = labial length. or in an orbicular congregation (Fig. 8E) or a com- Scanning electron micrographs were prepared bination of both (Fig. 9D). The aedeagus of Kirk- using techniques outlined in Bolte (1996) and aldyella is characterised by three to four elongate Swearingen et al. (1997). Illustrations were draft- spines one of which is commonly bifid. The tip of ed using a camera lucida and rendered using the longest spine in K. boweri and K. ngarkati ADOBE Illustrator software. (Fig. 9F-G and 13F-G) has a series of teeth not For plant specimens collected by us, host plant seen in any other species of Kirkaldyella. The identifications were provided by botanists at the shape of the pronotum is an important taxonomic Royal Botanic Gardens (Sydney) and Western character in the Kirkaldyella. Pronotum shape can Australian Herbarium (Perth). Vouchers of the take three forms, trapeziform (Fig. lOH and 1 iF), host plants are housed in these institutions and reg- campanulate (Fig. 8H and 9H) or quadrate (Fig. 7F istration numbers are available from the authors. and 16H). The lateral anterior margins are often Host information from specimens collected by mildly explanate. The anterior half of the prono- others was transcribed from the data labels and tum is characterised in many species by the pres- have not been verified. Discussion of host plant ence of the callosite region (Fig. IA) which is associations are made in reference to the angio- composed of two gently raised areas. In many spe- sperm phylogeny proposed by Soltis et al. (2000). cies a pair of small foveae are present between the The locality information is given in the 'Spec- calli (Fig. IA). INSECT SYST. EVOL. 33:1 (2002) Revision of the mirid genus Kirkaldyella 55 Table 1. Host plants and habitats of Kirkaldyella species. Kirkaldyella species Host plant Plant family Habitat anasillosi Acacia sp. Mimosaceae flowers argoantyx Echium plantagineum Boraginaceae unknown Halosarcia indica Chenopodiaceae unknown boweri Pimelea sylvestris Thymelaeaceae flowers Hardenbergia comptoniana Fabaceae unknown carotarhani Elaeocarpus obovatus Elaeocarpaceae flowers Eucalyptus crebra Myrtaceae unknown leaves and flower ngarkati Eucalyptus calycogona Myrtaceae leaves and flowers Senecio latus dissectifolius Asteraceae leaves and flowers notaurantia Scaevola nitida Goodeniaceae leaves and flowers ortholata Acacia sp. Mimosaceae flowers pilosa Pultenaea tenuifolia Fabaceae leaves and flowers Allocasuarina campestris Casuarinaceae leaves Conospermum stoechadis Proteaceae flowers Phymatocarpus porphyocephalus Myrtaceae leaves and flowers rugosa

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