Bombus handlirschianus Vogt

Williams, Paul H., Huang, Jiaxing, Rasmont, Pierre & An, Jiandong, 2016, Early-diverging bumblebees from across the roof of the world: the high-mountain subgenus Mendacibombus revised from species’ gene coalescents and morphology (Hymenoptera, Apidae), Zootaxa 4204 (1), pp. 1-72 : 52-55

publication ID

https://doi.org/ 10.11646/zootaxa.4204.1.1

publication LSID

lsid:zoobank.org:pub:C050058A-774D-49C0-93F9-7A055B51C2A0

DOI

https://doi.org/10.5281/zenodo.5625305

persistent identifier

https://treatment.plazi.org/id/03AE6754-7C5E-333A-B090-A6E1A19BFE2C

treatment provided by

Plazi

scientific name

Bombus handlirschianus Vogt
status

 

11. Bombus handlirschianus Vogt View in CoL

( Figs 34 View FIGURES 24 ‒ 35 , 50 View FIGURES 36 ‒ 55 , 66 View FIGURES 56 ‒ 67 )

[ Bombus mendax Gerstaecker View in CoL ; Morawitz 1881:243, in part, misidentification.]

< Bombus mendax View in CoL > var. Handlirschianus Vogt 1909:49 , type-locality citation ‘kaukasischen’. Lectotype queen by present designation RMNH examined, ‘ Mamisson Pass’ ( Caucasus , Georgia / Russian border). Note 1.

[ Bombus mendax subsp. caucasicus Skorikov 1910a:78 View in CoL , 81, published without description. Note 2.]

< Bombus mendax View in CoL > subsp. shaposhnikovi Skorikov 1910b:329 View in CoL , type-locality citation (Cyrillic) ‘[Caucasus]’. Lectotype male by present designation ZISP examined, ( Cyrillic ) ‘[ Kubanskoy Oblast ]’ ( Caucasus , Russia). Note 3. Regarded as conspecific with Bombus handlirschianus Vogt View in CoL by DeMeulemeester et al. (2010), supported here.

Mendacibombus handlirschianus (Vogt) ; Skorikov 1923:149.

Mendacibombus shaposhnikovi ( Skorikov); Skorikov 1923 :149.

Bombias (Mendacibombus) handlirschianus (Vogt) ; Rasmont 1983:10.

Bombias (Mendacibombus) shaposhnikovi (Skorikov) ; Rasmont 1983:10.

Bombus (Mendacibombus) handlirschianus Vogt View in CoL ; P.H. Williams 1998:100.

Bombus (Mendacibombus) shaposhnikovi Skorikov View in CoL ; P.H. Williams 1998:100.

Note 1 ( handlirschianus ). Vogt described his var. handlirschianus referring to a part of the population with both a particular area of distribution and a particular colour pattern, showing no evident intention of infrasubspecific status (e.g. without mentioning a higher rank subspecific taxon), so the taxon is deemed to be of subspecific rank ( ICZN 1999: Article 45.6.4).

Vogt’s original description of the taxon handlirschianus cites the type locality as ‘kaukasischen’. The RMNH collection studied by Vogt contains a queen (and other specimens) that agrees with the original description but also carries the labels: (1) white, handwritten ‘Mamisson / Pass ca 2750 / 21 VIII 03; (2) white, printed ‘Collectie / C. et O. Vogt / Acq. 1960’; (3) red, printed ‘ Bombus / mendax Handlirschianus / Vogt 1909 / ZMAN type HYME.0112.4’; (4) red, handwritten ‘ B. MENDAX var. HANDLIRSCHIANUS / VOGT, 1909:43 / LECTOTYPE [female] / P. RASMONT DES. 2008’ (P. Rasmont, unpublished); (5) green, printed ‘ Mendacibombus / MD# 1271 det. PHW’; (6) red, printed ‘LECTOTYPE [female] / Bombus mendax var. / handlirschianus / Vogt, 1909 / det. PH Williams 2012’; (7) white, printed ‘[female] Bombus / ( Mendacibombus ) / handlirschianus / Vogt / det. PH Williams 2012’. This queen, which lacks the right midleg, is regarded as a syntype and is designated here as the lectotype in order to reduce uncertainty in the identity and application of the name.

Note 2 (caucasicus). Skorikov’s attribution of the name caucasicus to a subspecies of B. mendax , supposedly described by Vogt from the Caucasus, may have arisen from confusion with the name B. lapidarius ‘Form (caucasicus RAD.)’ that also appears on Vogt’s (1909) page 49, in a paragraph above his description of B. mendax var. handlirschianus from the Caucasus.

Note 3 ( shaposhnikovi ). Skorikov’s original description of the taxon shaposhnikovi , which does not specify the sex of the specimens examined, cites the type locality as the Caucasus. The ZISP collection studied by Skorikov contains a male that agrees with the original description and carries the labels: (1) white, printed ( Cyrillic ) ‘[gora Loganaky / Kubanskoy obl. / Shaposhnik] VII08 ’; (2) white, handwritten in pencil ‘[illegible] / N 8’; (3) white, printed ‘ k. Skorikova’; (4) red, printed ‘ Lectotypus Bombus / mendax subsp. / shaposhnikovi Skor / design. Podbolotsk. ’ (M. Podbolotskaya, unpublished); (5) green, printed ‘ Mendacibombus / MD# 3522 det. PHW’; (6) red, printed ‘ LECTOTYPE [male] / Bombus mendax ssp. / shaposhnikovi / Skorikov, 1910 / det. PH Williams 2012’; (7) white, printed ‘[male] Bombus / ( Mendacibombus ) / handlirschianus / Vogt / det . PH Williams 2012’. This male, which is complete, is regarded as a syntype and is designated here as the lectotype in order to reduce uncertainty in the identity and application of the name.

A second male collected at Mt Loganaky by Shaposhnikov in 1908 (MD#835, NHM, sent by Skorikov as part of an exchange with the NHM in 1934), closely similar in morphology, is designated here as a paralectotype and is interpreted as conspecific.

Etymology. The species is named after A. Handlirsch, who in 1909 was an entomologist (and later Director) at the Natural History Museum of Vienna.

Taxonomy and variation. The interpretation of this species is based here on DNA and the form of the male genitalia. This disagrees with earlier concepts ( Skorikov, 1923, 1931), diagnosed originally in terms of the hair colour pattern ( Skorikov, 1910b), because the species appears to be much more variable in colour pattern than was originally understood.

All samples Pale hair hue Observed Expected

(n=634) males females females females

(haploid) (diploid) - no dominance - simple dominance

Number yellow 28 136 241 102 white 38 432 327 466

Frequency yellow 0.424 (recessive) Chi-square 1-sample test (df = 1) 79 13.8 Probability that deviation of observation from << 0.0001 <0.001 expectation is due to chance

NE Turkey Pale hair hue Observed Expected

(n= 485) males females females - no females - simple dominance

(haploid) (diploid) dominance

Number yellow 24 104 242.5 121 white 24 381 242.5 364 Frequency yellow 0.500 (recessive) Chi-square 1-sample test (df = 1) 158 3.18 Probability that deviation of observation from << 0.0001> 0.07 not significant expectation is due to chance

Vogt (1909) described females (e.g. MD#1271) of the taxon handlirschianus s. str. briefly as having the pale bands white and Skorikov (1910b) described in more detail females (e.g. MD#3522) of the taxon shaposhnikovi as having the pale bands yellow, the corbicula framed with rusty hairs, and T3 entirely black. Our COI tree shows that specimens of these taxa can be indistinguishable in the available sequences ( Fig. 13 View FIGURE 13 : the white-banded taxon handlirschianus s. str. MD#427 and the yellow-banded taxon shaposhnikovi MD#3859) and are interpreted as conspecific, as parts of the species B. handlirschianus s. l.. Males with both colour patterns share the same diagnostic form of the male genitalia, supporting the white/yellow dimorphism in the pale bands of the females suggested for Turkish specimens from four genes by Cameron et al. (2007), and adding to the evidence of De Meulemeester et al. (2010). Both colour patterns of this species occur in Turkey, the Caucasus, and as far east as the Alborz mountains of Iran ( Pittioni 1937b). Throughout this region, other species also show a similar yellow/ white dimorphism ( Rasmont et al. 2005; P.H. Williams, Byvaltsev, et al. 2012). The white-banded female colour pattern (taxon handlirschianus s. str.) is a particularly characteristic and frequent convergent colour pattern in this region (P.H. Williams 2007).

Because a relatively large sample is available, we can compare the observed yellow/white dimorphism for this species with a simple genetic model in which we assume that the two pale hue states are each determined by one of two alleles at a single gene locus ( P.H. Williams 1991). We assume that there is a single homogeneous population with random interbreeding, unselective predation or other loss, and that this population has been sampled at random. Because males can be assumed usually to be haploid ( Plowright & Pallett 1979), we can estimate the frequency of each allele within the population from the frequency of each colour state among the males. If the observed frequency of one colour state were much higher among the haploid males than among the diploid females, then this colour state might be coded for by a recessive allele. We could then estimate the expected frequency of the colour states among the females from the observed frequency of the alleles among the males using the Hardy-Weinberg equilibrium model. When this expected frequency is tested within the entire sample in our database, the observed frequency of colour states among the females is confirmed to differ from the frequency among the males, although it also differs from the frequency predicted among the females by the model of simple dominance at one locus, so we must reject the model ( Table 8). However, we know that sampling intensity was not uniform across the entire range, and the frequency of alleles or the selectivity of sampling may also have varied geographically. Therefore we repeated the test, but restricting the sample used to the region of north-eastern Turkey around Erzurum, a small fraction of the total extent of occurrence, but reducing the sample size by only about one quarter (from 634 to 485 specimens). When the test was repeated for the geographically restricted subsample, the observed frequency of colour states among the females still differs from the frequency among the males, but the frequency predicted among the females no longer differs significantly from the model of simple dominance at one locus ( Table 9). Confirmation of this model would require breeding experiments to test the pattern of inheritance (cf. Owen & Plowright 1980). Nonetheless, this result is consistent with both the yellow-banded and the whitebanded bees being parts of a single species, B. handlirschianus s. l., supporting the synonymisation of the taxon shaposhnikovi as part of this species.

Diagnostic description. Wings nearly clear. Female hair colour pattern: generally black, but with pale hair (yellow or grey-white) in a small patch ventral to the base of the antenna, usually absent from the vertex of the head, in a transverse band anteriorly on the thoracic dorsum and extending laterally and ventrally to from half to two-thirds the way down the side of the thorax, in a transverse band posteriorly on the thoracic dorsum (scutellum; so that the thoracic dorsum between the wing bases has the hair entirely black), on T1‒2, although T2 has a few black hairs intermixed along the posterior margin, T3 with orange hair only as a very few hairs posteriorly, T4‒6 always orange except T6 medially with a few short unobtrusive black hairs. Hindleg tibia with the corbicular fringes with a mixture of orange and black hairs. Female morphology: labrum with the basal depression narrow, the transverse ridge broad and low, in the median third subsiding only slightly and uninterrupted, with only a few scattered punctures, lateral tubercles almost without punctures. Male morphology: genitalia ( Fig. 34 View FIGURES 24 ‒ 35 ) with the volsella distally rounded (finger-shaped) and curled back dorsally but not anteriorly; volsella at its broadest near the midpoint of its length, the dorsal surface just distal to this point without a raised curved ridge just inside the inner margin. Penis-valve inner shoulder located at Ĺ 0.5× the length of the penis valve from the distal end to the broadest point of the spatha; penis valve proximal to the outer shoulder <2× as broad as the penis-valve head; penis-valve breadth just proximal to the penis-valve head 0.06× the length of the penis valve distal to the broadest point of the spatha.

Material examined. 128 queens 454 workers 67 males (plus 14 with sex/caste undetermined), from Armenia, Azerbaijan, Georgia, Iran, Iraq, Russia, and Turkey ( Fig. 66 View FIGURES 56 ‒ 67 : AM, HH, HO, MS, NHM, OLL, PW, RMNH, UMONS, ZISP, ZSM; specimens in the UMONS database do not have individual MD# labels), with 5 specimens sequenced (interpretable sequences listed in Figs. 11–13 View FIGURES 11 ‒ 12 View FIGURE 13 ).

Habitat and distribution. Flower-rich alpine and subalpine grassland, at elevations 472‒(2338)‒ 3982 m a.s.l.. A species of the Alborz, Caucasus, and Turkish mountains. There is no overlap in distribution with any other Mendacibombus species. Regional distribution maps are available for Turkey ( Rasmont & Flagothier 1996; Özbek 1997) and for western Asia ( Rasmont & Iserbyt 2012). Özbek (1997) reported that the species has been in decline in Turkey, although evidence for this is not apparent now (M. Aytekin, pers. com.).

Food plants. Özbek (1997).

Behaviour. De Meulemeester et al. (2010).

RMNH

National Museum of Natural History, Naturalis

ZISP

Zoological Institute, Russian Academy of Sciences

NHM

University of Nottingham

ZSM

Bavarian State Collection of Zoology

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Hymenoptera

Family

Apidae

Genus

Bombus

Loc

Bombus handlirschianus Vogt

Williams, Paul H., Huang, Jiaxing, Rasmont, Pierre & An, Jiandong 2016
2016
Loc

Bombus (Mendacibombus) handlirschianus

Williams 1998: 100
1998
Loc

Bombus (Mendacibombus) shaposhnikovi

Williams 1998: 100
1998
Loc

Bombias (Mendacibombus) handlirschianus

Rasmont 1983: 10
1983
Loc

Bombias (Mendacibombus) shaposhnikovi

Rasmont 1983: 10
1983
Loc

Mendacibombus handlirschianus

Skorikov 1923: 149
1923
Loc

Mendacibombus shaposhnikovi (

Skorikov 1923: 149
1923
Loc

Bombus mendax subsp. caucasicus

Skorikov 1910: 78
1910
Loc

Bombus mendax

Skorikov 1910: 329
1910
Loc

Bombus mendax

Vogt 1909: 49
1909
Loc

Bombus mendax

Morawitz 1881: 243
1881
GBIF Dataset (for parent article) Darwin Core Archive (for parent article) View in SIBiLS Plain XML RDF