Isalomyia irwini Stuckenberg

Stuckenberg, Brian R., 2003, A redescription of Isalomyia irwini Stuckenberg, the wormlion fly of Madagascar, related to an Arabian species for which the new genus Alhajarmyia is erected (Diptera: Vermileonidae), African Invertebrates 44 (2), pp. 191-201 : 193-200

publication ID

https://doi.org/ 10.5281/zenodo.7917439

persistent identifier

https://treatment.plazi.org/id/03D69E1A-FF90-0E34-FE43-FAEA6F5AFCEB

treatment provided by

Felipe

scientific name

Isalomyia irwini Stuckenberg
status

 

Isalomyia irwini Stuckenberg View in CoL

Isalomyia irwini Stuckenberg, 2002: 3 View in CoL .

The original description was based on a moderately teneral female in ethanol. Pinned, more mature specimens of both sexes now enable a better description to be given. These are quite small vermileonids, slender, with elongate proboscis, large and prominent antennae, and strongly projecting clypeus. They are not pale yellowish as originally described, but glossy yellowish­orange or orange­brown, patterned on mesonotum and abdomen with dark spots.

Male: Mesonotum patterned as in female (Stuckenberg 2002, Fig. 2 View Figs 1–3 ), pronotum with two longitudinal stripes, sternopleuron and mesopleuron shining brown; abdomen yellowish­orange, T1 with two widely separated dark marks, other tergites extensively blackish laterally, with subtriangular markings narrowing towards midline where they join in poorly defined dark areas; shining white pruinescence anterior to dark markings on each tergite, most visible in oblique frontal view; T8 mostly shining blackish, T9 blackish centrally.

Both sexes: Exposed paragular sclerites ( Fig.1 View Figs 1–3 , arrowed) glossy brown, contrasting with ashy­grey occipital pruinosity; parocciput present, exposed in dorsal view as a short, brownish, transverse flange above occipital foramen; wing shining, unpatterned except cell sc slightly brown; veins mostly dark brown; crossvein sc­r variably positioned, in most specimens about midway between humeral crossvein and origin of radial­sector (normal position in Vermileonidae ), nearer to humeral crossvein in holotype and a few other specimens; cell m3 narrowly open to closed; crossvein m­cu present; radial­sector and basal section of R 4 +5 about equal in length .

Wing length: Male 6.5 mm, female 9.3 mm.

Material examined: 1 male, 1 female pinned, 2 females in ethanol: MADAGASCAR: Fianarantsoa / Prov. nr Isalo Nat’l Park/ Dry Ravine S. of Interpret. Ctr./ 22.56254’ S 45.38411 ’E 825m / Date 8/ 15.ix.2001 / coll. ME Irwin, FD Parker. Collected as larvae, reared by BRS at Merrivale; emergence dates ­ 2 females 25.09.2002; female 29.05.2002, male 27.04.2002; in Natal Museum. 22 males, 2 females, in ethanol, same locality data, removed from Malaise trap that operated during 7–22.ix.2002. In Natal Museum .

MOUTHPART MODIFICATIONS OF ISALOMYIA

The unique head form in Isalomyia —involving extension in the longitudinal axis and rounding of the occiput, with associated displacement of the paragular sclerites, posterior coalescence of the elongate stipital sclerites, and pronounced anterior protrusion of the clypeus—is part of a suite of modifications associated with adaptations of the proboscis. The remarkable form of the basal part of the labium, which recurves posteriorly within the head behind the attachment of the syntrophium and commencement of the pharynx, has the effect of preventing the entire proboscis from being extended forwards. Flexing of the proboscis obliquely backwards between the legs is structurally still possible, and is seen in many of the fluid­preserved specimens from the trap collection. Why the additional rigidity given to the proboscis by its basal curvature should be advantageous is unknown; it is also uncertain why the single pseudotrachea in each labellum has lost the apical bifurcation common in afrotropical vermileonids. Perhaps irwini has a close association with a plant having flowers of an unusual form, such as a particularly confined nectary. The plesiomorphic wing form suggests association with a floral biome in which no advantage lay in developing a capacity for hovering flight at flowers for nectar extraction (Stuckenberg 2000 b, Fig. 22).

RELATIONSHIPS OF ISALOMYIA

In the original description of this genus it was recorded that its type species shares certain antennal and wing features with the Arabian species Lampromyia umbraticola Stuckenberg & Fisher, 1999 . New information reported above suggests that these two species are sister­groups. The evidence is as follows:

1. Marked sexual dimorphism in antennal form ( Figs 4–7 View Figs 4–7 ). Although differing greatly in segmentation of the antenna, both species have the male antenna laterally flattened; this affects stylomeres 1–6 in irwini ( Fig. 4 View Figs 4–7 ) and the large postpedicel formed by fusion of stylomeres 1–6 in umbraticola ( Fig. 6 View Figs 4–7 ).

2. Development of only a very short terminal antennal mechanoreceptor in both sexes, despite large antennal size. In irwini ( Figs 4, 5 View Figs 4–7 ) the apex of the antenna is plesiomorphic, the apical segment being only moderately modified by apical narrowing. In umbraticola ( Figs 6, 7 View Figs 4–7 ) the postpedicel carries an apical style composed as usual of the two terminal stylomeres, of which the penultimate one is much the shorter, and the apical segment is narrow and tapers to a point. Normally in vermileonids, the two terminal stylomeres are coadapted to form an elongate, slender mechanoreceptor, nearly always longer than the preceding flagellar components combined.

3. Development of two forms of sensory vestiture, with clearly separated distribution of these forms on the flagellar components; the dorsal vestiture is a dense layer of proclinate, setiform sensilla, lying as a continuous covering as shown schematically in Figs 4–7 View Figs 4–7 , more restricted to the dorsal surface in males. The lateral and ventral surfaces bear short, stout sensilla coeloconica that curve distally.

4. Spermatheca with a circular aperture centrally on distal surface, through which a subovoid membranous sac is extrudable.

Characters 1–4 above are synapomorphies; the following additional characters are shared by irwini and umbraticola .

5. Male T8 unmodified, exposed and setose across its entire width, not withdrawn beneath T7. This is the plesiomorphic condition, but it is uncommon in the afrotropical genera, many of which have T8 exposed only as small posterolateral lobes.

6. Dististyle short, stout, with deflexed apical point; this form is uncommon.

7. Wing form and venation very alike in the two species; petiole short, anal lobe not narrowed basally, crossvein m­cu present, radial­sector short. Probably these resemblances are plesiomorphies.

The original classification of umbraticola in Lampromyia was based on the presence of a bifid pseudotrachea in each labellum, but it was established subsequently

(Stuckenberg 2000 b) that this condition is not unique to Lampromyia . Erection of the following new genus for umbraticola is consequently required.

Genus Alhajarmyia gen. nov.

Type species: Lampromyia umbraticola Stuckenberg & Fisher, 1999: 129 , by present designation.

Etymology: A combination of Al Hajar, the Arabic name for the Omani mountains where the type species occurs, with myia (G.) a fly; gender feminine.

A genus in the afrotropical monophylum of Vermileonidae , which is characterised by having an elongate, slender proboscis, a protruding clypeus, the maxillary palpi slender, clavate and straight with apical sensory pit, and the aedeagus as a sclerotised tube formed by fusion of paraphyses, with ejaculatory apodeme in the form of a slender, irregularly curved rod situated within this tube.

Description: With the characters 1–7 described above.Amber­yellow or orange­brown, slender flies with unpatterned wings and banded abdomen. Distinctive in form, segmentation and sensory vestiture of antennae ( Figs 6, 7 View Figs 4–7 ). Distinguished from Isalomyia Stuckenberg as follows: hind tibia thickened apically and wider than hind femur; the single pseudotrachea in each labellum is apically bifid; labium straight over its entire length; stipital sclerites subparallel to one another; aedeagus lacking lateral extensions; spermatheca subovoid (not mushroom­shaped); paragular sclerites not exposed in lateral view of head, but lying normally on each side of occipital foramen and confluent with adjoining surface of occiput.

Comparative notes: The thickened hind tibia occurs also in Leptynoma Westwood, 1876 , Perianthomyia Stuckenberg, 1996 , and Vermilynx Stuckenberg, 1995 of Southern Africa, but these three distinctive genera all have a trifid aedeagus and other strong apomorphies absent in Alhajarmyia . The monotypic South African genus Namaquamyia Stuckenberg, 2000 also lacks lateral extensions to the aedeagus, but shares no other significant features with Alhajarmyia .

BIOGEOGRAPHICAL IMPLICATIONS

It was unexpected that the only known Madagascan vermileonid should be related to a species confined to the upper reaches of the Hajar Mountains of Oman. That part of Arabia is an easternmost outlier of the Afrotropics, where palaearctic and oriental elements also occur ( Larsen 1984; Holzel 1998). The Omani species is probably a relict, restricted by the aridity and high temperatures of the adjacent desert to a mesic zone in the altitude range of about 1800–2500 m, where a regular rainfall of about 150–350 mm p.a. occurs.A similar relict species occurs in the upper part of the isolated, prominent Brandberg massif of Namibia, which is surrounded by the arid gravel plains of the Namib Desert (Stuckenberg 2000 a); the endemic Perianthomyia monticola Stuckenberg, 2000 is confined to a mesic zone at 1200–2000 m. Isolation of this species on the Brandberg would have resulted from Namibian desertification which began at the end of the Early Miocene ( Pickford & Senut 1999).

To interpret the isolation of umbraticola in the Hajar Mountains, the period has to be identified when the ecological conditions that currently maintain its survival there occurred at much lower altitudes, allowing dispersal within Arabia. Range extension in Arabia appears not to have given afrotropical vermileonids entry to adjacent Levantine and Middle Eastern regions that came to unite with the Arabian sector of the African plate when continental drift closed the eastern Mediterranean in the terminal Miocene. This suggests that entry into Arabia might have been via a southern route, perhaps before opening of the relatively young Red Sea rift. Undiscovered species of Alhajarmyia may occur in the mountains of Yemen and in the Somali Peninsula.

The review by Maley (1996) of the vegetation history of the Saharan and Arabian areas since the Upper Cretaceous reveals this huge area to have been humid and well vegetated, with high rainfall in north­eastern Africa derived from the warm Tethys Sea. These conditions favoured the long­term presence of forests in which early angiosperms rapidly diversified and came to be dominant. Such conditions persisted through the Early Tertiary. In the Saharan region by the Middle Miocene there were lakes, swamps, permanent rivers, and a vast mosaic of forest patches and gallery forests intermixed with savanna. Environmental change in response to progressive aridification then began and intensified through the Late Miocene, leading to the Saharan and Arabian deserts developing from the Early Pliocene. Range restriction of vermileonids in Arabia could thus have commenced in the Late Miocene.

How the ancestral form of Isalomyia arrived in Madagascar is unknown. The summary by de Wit (2003) of geomorphological opportunities for vertebrates to gain access to Madagascar, emphasised that no land bridges or close proximity to other landmasses existed since the Late Cretaceous. De Wit considered that the perplexing problem of explaining the origin of enigmatic Madagascan vertebrates such as its lemurs, iguanas and primitive boid snakes, is still unsolved. For winged insects the explanation need not depend on continuous land connections: aerial dispersal may have occurred. The vermileonid fauna of the Canary Islands suggests this possibility: there are three endemic, allopatric species of Lampromyia Macquart , evidently derived from ancestral congeners in NW Africa ( Stuckenberg 1971). These islands are volcanoes emerging from the sea; they have never been connected to one another by dry land, so aerial dispersal of vermileonid flies between them must have occurred over distances of 70 kms or more, depending on directions in which dispersal occurred.

The ancestor of the Isalomyia lineage may have been derived from East Africa, possibly from old fault­block mountains in Tanzania. Dispersal from an East African ancestor could also have produced the Alhajarmyia lineage in Arabia. How the sea gap between Africa and Madagascar could have been crossed, other than by extended aerial dispersal over at least 400 kms, is uncertain, but could have involved oceanic island chains such as the Comores which are of Late Cenozoic volcanic origin (10–15 Ma; de Wit 2003). There are also chains of small islands to the north of Madagascar, which are associated with submarine ridges and rises whose elevations may have varied through tectonic activity or changes of sea­level. A more complex scenario could involve the Seychelles islands which are vestiges of a microplate that separated from India in the Late Cretaceous ( de Wit 2003). A study by Johanson (2002) of the caddisfly genus Helicopsyche ( Trichoptera , Helicopsychidae ) shows that the two most primitive species occur in Madagascar and are the sister­group of two other relatively primitive species in the Seychelles. In turn, the sister­group of these four island species is constituted by more apomorphic species in East Africa, particularly in the Eastern Arc Mountains of Tanzania. In view of the wealth of endemism known to occur among invertebrates in those mountains, the presence of vermileonids there would be no surprise.

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Diptera

Family

Vermileonidae

Genus

Isalomyia

Loc

Isalomyia irwini Stuckenberg

Stuckenberg, Brian R. 2003
2003
Loc

Isalomyia irwini

Stuckenberg 2002: 3
2002
Darwin Core Archive (for parent article) View in SIBiLS Plain XML RDF