1 1 2 NATALIE R. HALBERT , LARRY D. ROSS , JEYARANEY KATHIRITHAMBY , 1 3 1 JAMES B. WOOLLEY , REBECCA R. SAFF & J. SPENCER JOHNSTON

1Texas A&M University 2Oxford University 3Boston University School of Medicine

PHYLOGENETIC ANALYSIS AS A MEANS OF SPECIES IDENTIFICATION WITHIN ()

Halbert, N. R., L. D. Ross, J. Kathirithamby, J. B. Woolley, R. R. Saff & J. S. Johnston, 2001. Phylogenetic analysis as a means of species identification within Myrmecolacidae (Strep- siptera). – Tijdschrift voor Entomologie 144: 179-186, fig.1, tables 1-3. [ISSN 0040-7496]. Published 1 December 2001. The relationship between males and females of the strepsipteran fenyesi Pierce (Myrmecolacidae) (hosts- males: Solenopsis invicta Buren (Formicidae), females: Hapithus agi- tator Uhler (Orthoptera)), as well as between Stichotrema dallatorreanum Hofeneder, and other unidentified myrmecolacid females from Papua New Guinea is examined. Methods were de- veloped for extraction, amplification, and high-resolution sequencing of mitochondrial and nu- clear DNA from alcohol-preserved Strepsiptera. Phylogenetic analyses were performed in the ex- amination of myrmecolacid family structure based upon sequences from segments of the mitochondrial Cytochrome Oxidase Subunit I (COI, 300 bases) and the nuclear 18S rRNA (18S, 213 bases) genes. Sequence analysis of the COI and 18S regions showed 29% difference between the C. fenyesi male and putative female, 0.78% difference between two female Myrmecolacidae from West New Britain Province (WNB-A and WNB-B), and 0.95% difference between a differ- ent myrmecolacid female (WNB-C) from West New Britain Province, and a myrmecolacid fe- male (POP) from Popondetta, Oro Province, Papua New Guinea. Comparison of levels of vari- ation among myrmecolacid species indicates that the male C. fenyesi and the putative female are not members of the same species. Further, two females from West New Britain Province (WNB- A/B) form a new myrmecolacid species, while different females from West New Britain Province (WNB-C) and from Oro Province (POP) form a second new myrmecolacid species. Correspondence: J. Spencer Johnston, Department of Entomology, Texas A&M University, College Station, TX 77843 USA Key words. – Myrmecolacidae; Caenocholax; Stichotrema; Orthoptera; Formicidae; Papua New Guinea.

Strepsiptera (Insecta), often referred to as ‘stylops,’ elegantly branched antennae, ‘haltere-like’ fore- are curious entomophagous parasitoids of cosmopoli- wings, and fan-shaped hind wings. They are short- tan distribution. They are curious not only for their lived (some live for only two hours), they do not feed, biology but also for their host-parasitoid relationships. and a breeding flight is their sole mission. With the Kathirithamby (1989) reports that Strepsiptera are exception of the family , the bizarre parasitic in members of seven orders (Thysanu- adult females are neotenic. Female Mengenillidae pu- ra, Blattodea, Mantodea, Orthoptera, Hemiptera, pate outside their host, while female Stylopidia re- Hymenoptera and Diptera). The order Strepsiptera is main permanently endoparasitic; therefore, one must divided into two suborders: Mengenillidia and Stylo- look for the host to find Stylopidia females. Strep- pidia (Kinzelbach 1971). sipteran females produce viviparous 1st instar larvae, Strepsiptera have only two free-living stages: the which emerge via the brood canal opening/opening small, active adult winged male and the 1st instar lar- of the apron (Kathirithamby 2000) in the cephalotho- va. The adult males have prominent compound eyes, rax of the endoparasitic female. In endopterygote

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hosts the 1st instars are carried back to the nests of the Two Hapithus agitator Uhler (Orthoptera: Grylli- host (phoresy), where they enter and parasitise the dae, collected by Dr. R. Wharton) were found para- eggs or larvae of the host (Kathirithamby 1989, Mae- sitised by three strepsipteran females in College Sta- ta et al. this issue). Adult male size varies between 1.6- tion, Texas. The females were originally identified as 6 mm, while neotenic females range between 2 mm- C. fenyesi based on external morphological compar- 2.6 cm (Kathirithamby 1989). isons of the shed 1st instar cuticles of the male C. fenyesi and the 1st instar larvae found in the putative Within the suborder Stylopidia, the family Myr- females (Cook 1996, Cook et al. 1998). mecolacidae is unique. Myrmecolacid males and fe- males not only have contrasting morphology and de- Stichotrema dallatorreanum Hofeneder velopment, but also parasitise different hosts. Hofeneder (1910) described the female and 1st in- Myrmecolacid males parasitise Formicidae (ants) while star larvae (1920) of Stichotrema dallatorreanum females parasitise Orthoptera: Tettigoniidae, Grylli- which parasitises Orthoptera: Tettigoniidae in Papua dae and Gryllotalpidae (grasshoppers, crickets) and New Guinea (PNG). The hosts are Segestidea no- Mantodea: Mantidae (mantids). As a result of the ex- vaeguineae (Brancsik), Segestes decoratus Redtenbacher treme sexual dimorphism of Strepsiptera and the dual and Sexava nublia Stål, of which the first two are eco- hosts of the Myrmecolacidae, it is difficult to correct- nomic pests of the oil palm (Elaeis guineensis), a sig- ly match male and female Myrmecolacidae (Kathi- nificant cash crop in PNG (Kathirithamby et al. 1998; rithamby 1989, Kathirithamby & Hamilton 1992; Solulu et al. 1998; Kathirithamby et al. this issue). S. Kathirithamby et al. 2001). Of the 98 species of dallatorreanum is primarily, if not exclusively, Myrmecolacidae described, only five are of females. parthenogenic (Kathirithamby unpublished). Of these females, only two have been identified and matched to their males. Eight species were described Unknown Species from males that have been found parasitic in formicid Two species of Tettigoniidae from PNG, Phyl- hosts, hence the hosts of only these species are lophorella subinermis Karny (Phyllophorinae) from known. The remaining 88 myrmecolacid species are West New Britain Province (WNB-A and WNB-B) and based only on free-living males caught in light traps Paracaedicia sp. (Phaneropterinae) found in West (Kathirithamby 1998, Kathirithamby et al. 2001). New Britain Province (WNB-C) and Popondetta, Oro One approach used to pair males and females is to Province, Papua New Guinea (POP) were found to be compare the respective 1st instar larvae found in the parasitised by unknown female Myrmecolacidae hosts (Luna de Carvalho 1967, 1973, Cook et al. (Kathirithamby et al. this issue). The unknown species 1998). However, on host entry first instars moult to and their hosts are summarized in table 1, along with apodous second instar larvae (Kathirithamby et al. the other species considered in this study. 1984) so that comparisons of this nature are general- ly based on the shed cuticles of the first instar rather Locus Choice and Analysis than the entire organism. This evaluation gives tenu- Accurate and robust phylogenetic analysis requires ous and uncertain relationships since first instars have the use of appropriately variable characters. For mol- few taxonomically useful characters, and comparisons ecular data, this means choosing a marker that is nei- of shed cuticles are even less reliable. ther hypervariable (leading to ‘noisy’ data) nor hypo- variable (excess uninformative characters). Caenocholax fenyesi Pierce Mitochondrial DNA sequences are commonly em- Pierce (1909) originally described Caenocholax ployed in phylogenetic studies because of their gener- fenyesi from four males collected in Mexico by Dr. A. ally highly variable nature compared to nuclear loci Fenyes. Light trap collections of C. fenyesi in the (Vawter & Brown 1986), which allows for the detec- United States show this species is found in 7 of the tion of genetic variation between closely related southern states. C. fenyesi was first recorded stylopiz- species and even individuals of the same species (Si- ing Solenopsis invicta Buren (red imported fire ant) mon et al. 1994). Strepsiptera () are sexuals and workers by Kathirithamby and Johnston known from the fossil record to have been present in (1992) in College Station, Texas. Stylopization of S. the Late Cretaceous period 146-65mya (Kukalova- invicta by pupal stages of C. fenyesi causes abnormal Peck 1991), which necessitates the utilization of social behaviors such as isolation, unusual posture, highly conserved loci. As such, Cytochrome Oxidase and decreased aggressiveness (Cook 1996). The find- I (COI), which is relatively conserved among mito- ings of Kathirithamby and Johnston (1992) and chondrial genes (Hillis et al. 1996), was first used as Cook (1996) suggest potential for biological control the molecular marker of choice in this study. To con- of S. invicta by C. fenyesi. firm and expand our data, we also sequenced sections of the mitochondrial 12S rRNA gene, a nuclear rRNA

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