Monomorium species groups

Barry Bolton (1987) revised the Afrotropical Monomorium and organized all of the species in the genus "into a system of informal species-groups which are defined and discussed on a world-wide basis."

These groupings of Monomorium species are based on similarities in worker morphology.

hanneli species group
Diagnosis
 * Monomorium guineense
 * Monomorium hanneli
 * Monomorium invidium
 * Monomorium jacksoni

latinode species group
What was given as the lone member of this group, Monomorium latinode, is now know to be the lone representative of the genus Erromyrma.

monomorium species group
Diagnosis
 * Monomorium affabile
 * Monomorium altinode
 * Monomorium angustinode
 * Monomorium arboreum
 * Monomorium arnoldi
 * Monomorium balathir
 * Monomorium bequaerti
 * Monomorium bevisi
 * Monomorium binatu
 * Monomorium boerorum
 * Monomorium borlei
 * Monomorium braunsi
 * Monomorium captator
 * Monomorium crawleyi
 * Monomorium disoriente
 * Monomorium dolatu
 * Monomorium draxocum
 * Monomorium egens
 * Monomorium excensurae
 * Monomorium exchao
 * Monomorium exiguum
 * Monomorium fasciatum
 * Monomorium fastidium
 * Monomorium firmum
 * Monomorium floricola
 * Monomorium fugelanum
 * Monomorium gabrielense
 * Monomorium guillarmodi
 * Monomorium holothir
 * Monomorium inquietum
 * Monomorium iyenasu
 * Monomorium katir
 * Monomorium kelapre
 * Monomorium kineti
 * Monomorium lene
 * Monomorium lubricum
 * Monomorium madecassum
 * Monomorium malatu
 * Monomorium manir
 * Monomorium mavide
 * Monomorium mictilis
 * Monomorium mirandum
 * Monomorium musicum
 * Monomorium noxitum
 * Monomorium nuptualis
 * Monomorium occidentale
 * Monomorium pacis
 * Monomorium pallidipes
 * Monomorium paternum
 * Monomorium pulchrum
 * Monomorium rastractum
 * Monomorium rhopalocerum
 * Monomorium rosae
 * Monomorium rotundatum
 * Monomorium schultzei
 * Monomorium shilohense
 * Monomorium spectrum
 * Monomorium speluncarum
 * Monomorium springvalense
 * Monomorium sryetum
 * Monomorium strangulatum
 * Monomorium symmotu
 * Monomorium tablense
 * Monomorium taedium
 * Monomorium tanysum
 * Monomorium torvicte
 * Monomorium trake
 * Monomorium tynsorum
 * Monomorium vaguum
 * Monomorium vecte
 * Monomorium vonatu

rothsteini species complex
based on Sparks et. al. (2015)


 * Monomorium bogischi
 * Monomorium broschorum
 * Monomorium capeyork
 * Monomorium eremoides
 * Monomorium eremum
 * Monomorium geminum
 * Monomorium hertogi
 * Monomorium hoffmanni
 * Monomorium humilior
 * Monomorium kidman
 * Monomorium leda
 * Monomorium maryannae
 * Monomorium merepah
 * Monomorium mitchell
 * Monomorium oodnadatta
 * Monomorium pilbara
 * Monomorium rothsteini
 * Monomorium speculum
 * Monomorium stagnum
 * Monomorium subapterum
 * Monomorium tenebrosum
 * Monomorium topend
 * Monomorium torrens

Species in the M. rothsteini species complex are a common and abundant component of the ant fauna throughout most of the Australian mainland outside mesic forests. They are predominantly seed harvesters and the nests of many of the species described here, particular the larger species that occur in the arid and northern monsoonal zones, are easily recognised by the dense middens of mostly grass seed husks that have been discarded to one side of the nest entrance (Fig. 2a). Worker ants carrying a variety of seeds and arthropod material can be observed foraging in long columns that radiate out from these nest entrances. The nests of smaller species that occur both in the northern monsoonal zone and the central and southern arid zones are less distinctive, with smaller nest middens or no obvious midden at all and with fewer workers (Fig. 2b, 2c). In many areas, the nest of one species with a large midden occurs within metres of another species with no nest midden. Although seeds appear to make up the bulk of the diet of the complex generally, species are opportunistic feeders on other food sources, and it is possible that seeds are only a minor component of the diets of some species. For example, one of us (KSS) has observed several colonies of M. speculum in a dry lake bed. There was very little vegetation within foraging distance and all workers moving around the nest entrance were carrying minute gastropod shells. Workers of M. subapterum have been observed feeding on the nectar of Melaleuca flowers (Fig. 2d).

Queens and males are rarely seen. Both are rare in collections and during two extensive field trips and several shorter excursions queens and males were each observed on only one occasion. There are published accounts of species in the M. rothsteini complex having brachypterous queens. Briese (1983) observed 63 queens with poorly developed wings and orange gasters emerging from a colony that subsequently underwent colony fission. The colony was within 5 m of another colony that later produced queens described as fully winged with dark brown gasters. Wheeler’s (1917) erection of M. subapterum and M. subapterum var. bogischi is based on queens he received from the South Australian Museum that had been collected from Harding River in northwest Western Australia and Port Wakefield in southern South Australia. He described these specimens as being smaller than the queens of M. rothsteini var. humilior and having very small wings. He alluded to other specific differences but did not discuss them. The lead author has examined queens from both these series in the South Australian Museum that were dealate, having just the remains of both pairs of wings and resembling fully developed queens in all other aspects. Queens that were excavated from a nest in Birdsville in southwest Queensland and here attributed to M. bogischi were all dealate with obvious wing remnants (Fig. 9d). Wheeler may have had access to other specimens than those currently available at the South Australian Museum, but based on our observations of specimens collected in the field and examined in collections, we cannot confirm brachyptery exists in this group. Larger workers that appeared to bear some aberrant characteristics (overall larger size, well defined promesonotal suture and coarser sculpture) were found foraging with other workers from a colony of M. pilbara and small, black, heavily sculptured workers have been observed foraging alongside workers of M. topend that are typically large and amber orange in colour.

Whether these aberrant forms represent an intercaste, a developmental anomaly or an apterous female is unknown.

A number of morphospecies within the M. rothsteini species complex have been the subject of ecological studies. Table 1 provides a list of these publications, the morphospecies codes that were used and the corresponding species name as per this study.

Diagnosis of the M. rothsteini species complex

Members of the M. rothsteini species complex can be distinguished from all other species in the genus by the presence of a 12 segmented antenna, mandible with three teeth, mildly to deeply concave anterodorsal clypeal margin and alveolate sculpture on the meso- and metapleuron. Members of the M. rothsteini species complex bear a close morphological relationship to M. sordidum but can be easily distinguished by the shape of the anterior clypeal margin, which is rounded in the latter (Monomorium sordidum is not granivorous).

Description of the M. rothsteini species complex

Worker measurements (n=201). HW 0.62–1.05, HL 0.68–1.03, EL 0.14–0.22, PMH 0.23–0.49, PH 0.21–0.41, PNH 0.14–0.35, LHW 0.39–0.62, EW 0.1–0.14, PML 0.66–0.7, ML 0.64–1.17, PL 0.27–0.55, PNWdv 0.16–0.35. Head: Shape appearing square or rectangular but always longer than wide; posterior cephalic margin in full face view straight to mildly concave or broadly v-shaped, antennae 12-segmented with a well differentiated 3- segmented club; scape reaching approximately three quarters of the way to vertexal margin of head; mandible with three teeth; anterior margin of clypeus mildly to deeply concave; coarse strigae present laterally between mandibular articulation and eye; strigae may be present on frons above antennal lobes or restricted to antennal lobes or area in between; eye oval in shape, ventral margin flattened.

Mesosoma: Pronotum rounded in lateral profile, promesonotal suture clearly present, faint, or absent, posterior mesonotum slightly raised or flat; metanotal groove shallow or deeply impressed, porcate; mesonotum coarsely strigate, punctuate, both, or smooth. Propodeum with or without a raised anterodorsal transverse carina, dorsal margin in lateral view rounded, flat or sloping posteriorly, dorsal surface concave or flat to slightly rounded, with or without longitudinal carinae and transverse strigae, posterior surface near vertical or sloping. Petiole node broad to narrow and rounded dorsally, postpetiole rounded, approximately three quarters the height of the petiole. Mesopleuron and propodeum coarsely alveolate with fine to coarse striations; metanotal groove always with numerous transverse ridges; petiole without sculpture or with fine reticulation, postpetiole almost always finely reticulate; very fine reticulation present or absent on first metasomal segment.

Pilosity sparse with long and short erect or appressed white or yellow setae on head; always with one pair of elongate, inwardly curved setae arising from centre of clypeal lateral carinae, and one pair of elongate erect setae arising from antennal lobes; erect setae on vertex curved anteriorly, setae on dorsal surface of pronotum inwardly curved, elongate erect setae on propodeum curved anteriorly, erect setae on petiole and postpetiole curved posteriorly.

Colour variable; head and mesosoma amber orange, dark orange brown, dark brown or almost black; metasoma almost always dark brown to black, rarely light brown or amber, cuticle with a high gloss on non-sculptured areas.

Additional Resources

 * Monomorium
 * Erromyrma