ore

JHR 76: 127-152 (2020) JOURNAL OF *rvteved cvenace ior
doi: 10.3897/jhr.76.50193 RESEARCH ARTICLE (ME Hymenoptera

http://jhr.pensoft.net The Inarational Society of Hymenopterists. RESEARCH

The genus Lepisiota Santschi, 1926 of the Arabian
Peninsula with the description of a new species,
Lepisiota elbazi sp. nov. from Oman, an updated

species identification key, and assessment of
zoogeographic affinities

Mostafa R. Sharaf'*, Abdulrahman S. Aldawood!,
Amr A. Mohamed?, Francisco Hita Garcia*

| Department of Plant Protection, College of Food and Agriculture Sciences, King Saud University, Riyadh,
Kingdom of Saudi Arabia 2 Division of Invertebrate Zoology, American Museum of Natural History, New
York, USA 3 Department of Entomology, Faculty of Science, Cairo University, PO Box 12613, Giza, Egypt
4 Biodiversity and Biocomplexity Unit, Okinawa Institute of Science and Technology Graduate University,
Onna-son, Okinawa, Japan

Corresponding author: Mostafa R. Sharaf (antsharaf@gmail.com, mosharaf@ksu.edu.sa)

Academic editor: P. Klime§ | Received 16 January 2020 | Accepted 17 March 2020 | Published 27 April 2020
Attp://z00bank.org/4D85CF52-8E50-4D9D-A0E 1-38F5E26B6561

Citation: Sharaf MR, Aldawood AS, Mohamed AA, Hita Garcia F (2020) The genus Lepisiota Santschi, 1926 of
the Arabian Peninsula with the description of a new species, Lepisiota elbazi sp. nov. from Oman, an updated species
identification key, and assessment of zoogeographic affinities. Journal of Hymenoptera Research 76: 127-152. https://
doi.org/10.3897/jhr.76.50193

Abstract

This study updates and summarizes information on the taxonomy and status of the Arabian Lepisiota
fauna. We describe and illustrate the new species Lepisiota elbazi sp. nov. from the Dhofar Governorate,
Oman based on the worker caste. The new species is closest to the Arabian species, L. arabica Colling-
wood, 1985 from the southwestern mountains of the Kingdom of Saudi Arabia (KSA) and can be sepa-
rated by having fewer body hairs (two pairs on the posterior margin of the head, two or three pairs on the
promesonotum and, one or two pairs on the first gastral tergite), the longer head, scapes, and propodeal
spines, and the shorter mesosoma. We present the first illustrated key to the worker caste of the Arabian
species of Lepisiota using stacked digital color images to facilitate species determination. The new species is
probably endemic to the Dhofar Governorate and seems rare. An up-to-date synoptic checklist of 21 spe-

Copyright Mostafa R. Sharaf et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC
BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

128 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

cies representing the Arabian Lepisiota Santschi, 1926 is emended based upon the most recent literature
in ant systematics. Five species are excluded from the Arabian Lepisiota fauna, L. arenaria (Arnold, 1920),
L. erythraea (Forel, 1910), L. incisa (Forel, 1913), L. sericea (Forel, 1892a), and L. simplex (Forel, 1892)
for issues related to previous species misidentification. Lepisiota carbonaria (Emery, 1892) is proposed
as a senior synonym of L. depilis (Emery, 1897) syn. nov. The faunal composition of Lepisiota species
recorded from the Arabian Peninsula can be divided/delineated into two main groups according to their
zoogeographical relationships; (1) Afrotropical (11 species-~52.38%); (2) Palearctic (10 species-~47.62%)

elements whereas eight species (~38%) are Arabian endemics.

Keywords
Afrotropical Region, Arabian Peninsula, endemism, Formicinae, key, Middle East, new species, Palearctic

Region, zoogeography

Introduction

With 135 described species and subspecies, the ant genus Lepisiota Santschi, 1926 is
one of the most diverse genera of the subfamily Formicinae (Bolton 2020). Most spe-
cies are broadly spread worldwide in the grasslands, savannahs or woodlands of the
Afrotropical, Indomalayan, and Palearctic regions (Brown 2000; Hita Garcia et al.
2013), where they are found nesting directly into the ground, under stones, or in rot-
ten wood while numerous species attend aphids and coccids (Bolton 1973; Hita Gar-
cia et al. 2013). The genus is diagnosed in the worker caste by the following character
states (Bolton 1994): antennae 11-segmented; eyes well-developed, ocelli frequently
present but sometimes reduced; propodeum armed with a pair of spines, teeth, or tu-
bercles; petiole a scale-like with the dorsal margin bispinose, bidentate or emarginated;
acidopore well-developed.

With the lack of revisionary studies for most of the zoogeographical regions of the
World, the taxonomic status of the genus is dreadful. Most contributions are restricted
to few treatments including to a limited number of papers including faunal lists, de-
scriptions of new species or taxonomic keys for some regions and countries, such as for
the Arabian Peninsula (Collingwood and Agosti 1996; Sharaf et al. 2016), Armenia
(Arakelian 1994), the Balkans (Agosti and Collingwood 1987), Bulgaria (Atanassov and
Dlussky 1992), China (Wu and Wang 1995; Zhou 2001), Egypt (Finzi 1936), Europe
and Algeria (André 1882), India, Sri Lanka and Burma (Bingham 1903), Kingdom of
Saudi Arabia (KSA) (Collingwood 1985), and Turkestan (Kuznetsov-Ugamsky 1929).

The Lepisiota fauna of Oman is poorly known due to a lack of appropriate special-
ized research, and the few available records are scattered through the literature or have
been gleaned from few field surveys only accidentally or incidentally. Lepisiota arenaria
(Arnold, 1920) and L. spinisquama (Kuznetsov-Ugamsky, 1929) were the first species
to be recorded from Oman (Collingwood 1985). However, L. arenaria is now excluded
from the fauna of the Arabian Peninsula due to misidentification. In their treatment of
the ant fauna of the Arabian Peninsula, Collingwood and Agosti (1996) reported 20
species from the region, with ten from Oman, including a description of a new species

L. dhofara Collingwood and Agosti from the Dhofar Governorate. Sharaf et al. (2016)

On the Arabian Lepisiota 129

described L. omanensis Sharaf and Monks from Oman and the United Arab Emirates
(UAE) and presented a key to the Arabian Lepisiota species.

The Arabian Peninsula, including Oman, sits as a semi-isolated block between
Eurasia and Africa that overlaps three of the world’s key zoogeographical regions;
the Afrotropical (Ethiopian), the Oriental and the Palearctic (Larsen 1984; Delany
1989). It is, certainly, the only area where three such regions intersect. Through the
Miocene to the Pliocene, it formed a land bridge between the Afrotropical and Ori-
ental regions, allowing the interchange between the two faunas with a far stronger
Afrotropical influence. The Afrotropical forms would have been forced out by invad-
ing Palearctic species following the severance of the land bridges and the lowering of
temperatures during the Pleistocene glaciations, contracted into relict distributions,
or evolved to become what are now southern Arabian endemics. The Palearctic species
would have been forced northwards or into mountain refugia through the post-glacial
increase in aridity and temperature and the remaining Afro-tropical species would
have expanded their ranges.

Across through the Bab el Mandeb straits, further invasions from Africa may have
been occurred, perhaps swamping such endemics, but invasions from the Oriental
region seem have not occurred (Larsen 1980; Delany 1989). Land features affect spe-
cies distribution and richness (Bestelmeyer and Schooley 1999; Boulton et al. 2005).
Geographically, highlighting Oman, Al-Hajar mountains extended in Northeastern
part. While, the Dhofar mountain range extend in the South East to Hadhramaut
in Yemen. A large stretch of barren desert, acting as a zoogeographical barrier, lies
between them. Boundaries among zoogeographical realms in the Arabian Peninsula
is continuously a trending controversial topic (Larsen 1984; Rueda et al. 2013; El-
Hawagry and Al Dhafer 2015; Ficetola et al. 2017; El-Hawagry et al. 2019).

Essentially, we describe and illustrate a new Lepisiota species from the Dhofar Gov-
ernorate, Oman based on the worker caste. The data reported herein represents the
first real insight into this less studied genus and its assemblages in this nearly isolated
region. Besides, a short zoogeographical analysis of Lepisiota species from the Arabian
Peninsula in relation to the classic zoogeographical realms is given. Such an overview of
the zoogeographical affinities of this genus in the region may contribute to the some-
how confused issue of the boundaries among the main zoogeographical regions in the
Arabian Peninsula. Reasons for the observed spatiotemporal variation in community
composition are remarked and notes on species habitat preferences are included.

Material and methods

Measurements
The following measurements and indices follow Sharaf et al. (2016).

EL. Eye length; maximum diameter of compound eye measured in oblique lateral
view.

130 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

HL ~— Head length; maximum distance from the midpoint of anterior clypeal margin
to midpoint of posterior margin of head, measured in full-face view.

HW — Head width; maximum width of head behind eyes in full-face view.

ML ~~ Mesonotum length; maximum length of mesonotum in dorsal view.

PH Petiole height; measured from petiole sternum to apex in profile.

PRW Pronotal width; maximum pronotal width in dorsal view.

PSL _ Propodeal spine length; in dorsocaudal view the tip of the measured spine, its
base, and centre of propodeal concavity between spines must all be in focus.
Using a dual-axis micrometre the spine length is measured from tip of spine to
a virtual point at its base where spine axis meets orthogonally with a line lead-
ing to median point of concavity.

Si Scape length; maximum scape length excluding basal condyle and neck.
TL Total length; outstretched body length from mandibular apex to gastral apex
in profile.

WL ~~ Weber's length; diagonal length of mesosoma in profile from posteroventral mar-
gin of propodeal lobe to anterior most point of pronotal slope, excluding neck.

Indices

Ol Ocular index: EL / HW x 100

Cl Cephalic index: HW / HL x 100

St Scape index: SL / HW x 100

PSLI Propodeal spine index: PSL / HL x 100

Species names and zoogeographical boundaries in this work follow the online cata-
logue of Bolton (2020). In the present work the term southern Arabian Peninsula re-
fers to the Al Sarawat and the Asir Mountains (KSA), the Hajar Mountains stretching
along the northern coast of Oman to the United Arab Emirates (UAE), the Dhofar

Governorate (Oman), and Yemen.

Institutional abbreviations

BMNH. The Natural History Museum (British Museum, Natural History), London, UK.

KSMA_ King Saud University Museum of Arthropods, Plant Protection Department,
College of Food and Agriculture Sciences, King Saud University, Riyadh,
Kingdom of Saudi Arabia.

MSNG Museo Civico di Storia Naturale “Giacomo Doria’, Genova, Italy.

OUMC Oxford University Museum, Oxford, UK.

On the Arabian Lepisiota 131

Results

Synoptic species list of the Arabian species of Lepisiota Santschi, 1926

Lepisiota arabica (Collingwood, 1985)

Lepisiota bipartita (Smith, 1861)

Lepisiota canescens (Emery, 1897)

Lepisiota carbonaria (Emery, 1892)

== Lepisiota depilis (Emery, 1897) syn. nov.
Lepisiota dammama Collingwood & Agosti, 1996
Lepisiota dhofara Collingwood & Agosti, 1996
Lepisiota dolabellae (Forel, 1911)

Lepisiota elbazi sp. nov.

Lepisiota elegantissima Collingwood & van Harten, 2011
Lepisiota frauenfeldi (Mayr, 1855)

Lepisiota gracilicornis (Forel, 1892)

Lepisiota harteni Collingwood & Agosti, 1996
Lepisiota karawaiewi (Kuznetsov-Ugamsky, 1929)
Lepisiota nigra (Dalla Torre, 1893)

Lepisiota nigrescens (Karavaiev, 1912)

Lepisiota obtusa (Emery, 1901)

Lepisiota omanensis Sharaf & Monks, 2016
Lepisiota opaciventris (Finzi, 1936)

Lepisiota riyadha Collingwood & Agosti, 1996
Lepisiota spinisquama (Kuznetsov-Ugamsky, 1929)
Lepisiota validiuscula (Emery, 1897)

For zoogeographical afhnities analysis, all the listed species were assigned to a zooge-
ographical realm and analyzed altogether. While some relevant notes and suggestions
are given, no systematic attempt has been made to place the current zoogeographical
patterns in their historical context.

Key to the Arabian species of the genus Lepisiota Santschi
The following illustrated key is based on Collingwood and Agosti (1996) and Sharaf
et al. (2016):

1 Posterior margin of head distinctly compressed in profile (Fig. 1A)............ 2
= Posterior margin of head convex in profile (Fig. 1B)... eeeeeesecseeeeseeees 3

132

10

Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

Body pilosity abundant, seven pairs of hairs on posterior margin of head,
underside of head and petiole each with two pairs, several pairs on mesosomal
dorsum (six on promesonotum, four on mesonotum, and two on propodeal
dorsum);-fenaur with hairs (Figi PO)cAKSA)s. vec sececeesontonsosndeeresces L. arabica
Body pilosity less abundant, one or two pairs of hairs on posterior margin
of head, underside of head and petiole each without hairs, one to three pairs
on promesonotum, and one to two pairs on first gastral tergite; femur bare

Geir WB bt Vantaa we BN eR SY VER MRR Teed ERT L. elbazi sp. nov.
Antennal scape long, surpassing the posterior margin of head by half its
Ve ripelar Or WOES cee. sc cots Sec Atncene Aude aon e cats ca Lad ssu dds seaiha setae peaiae salts eteslseds 4

Antennal scape shorter, surpassing the posterior margin of head by a third of
dics METVOC ln OE ESSE, wstees o-sherosernacotssrion eb neaeds vndnmettesmesseden nets mets ainmaseneaweseaiove tit 17
Dorsum of mesosoma and the first and second gastral tergites without stand-
ing hairs (Fig. 1E); antennal scape exceptionally long; SI > 200... 5
Dorsum of mesosoma with at least one or two pairs of long hairs on pro-
notum (Fig. 1F); gaster always with some projecting hairs; antennal scape

GIO ECE SSO scak ct Ncae Dh nest hs tReet Renee eh amiatceants Fudenn sa Benue Mvsees heures a ame bliss 6
Uniform dark brown or black-brown species; body parts of moderate lengths
(STp20022 0.55 WELT S00) CRS ANE 20 Sea ca Rie eancice eee tus eat lens L. riyadha

Bicolored species, head and gaster dark brown or black-brown, mesosoma,
petiole, antennae and legs orange; body exceptionally long and slender (SI >
STO Ww, TO Fig a2 As By (Olina CAEN o, csoxweteeta stor teses L. elegantissima
Bicolored, mesosoma paler than gaster, mainly or entirely reddish .............. vf
Whole body dark except a small area of the mesonotum more or less red in a
FEW SPECIES Re ane Eh ees ete, ae ROE a 9. SE a 9
Body sculpture coarse, general appearance opaque (Fig. 2C) (Greece, India,
IiratasslsraelsSeb atten) ts. =P chou recone Dt lege asec eens ee eremeem bee L. bipartita
All parts of the body shining with superficial reticulate sculpture at most

Uniform light brown, appendages yellow; mesonotum distinctly narrower
anteriorly than posteriorly in dorsal view (Fig. 2E); propodeal and petiolar
Spines:aetite: (Pie 2B) SAY: a Rast oichsten due uceddenve hcaeontiauide, Adan L. dammama
Head, petiole and gaster dark brown contrasting with the red mesosoma;
mesonotum characteristically rectangular in dorsal view (Fig. 3A); propodeal
and petiolar spines blunt (Fig. 3B) (Greece, Iran, Israel, KSA, Turkey)..........
Pit sthoeliuchetnarettua tidtacananneure te eine Manus hunts tant atte ataeaets L. dolabellae
Mesosoma-densely'sculptureds Hor shinin gn. wisccrtocwstoeds cute. eects decsbonentals 10
Mesosoma superficially sculptured; at least partially shining, in some species
COMI PISCE VAS IMTM IU or aatt area teed lan ceeuteh vem ea inod ee Dann itis nulbnad lagged se 11
Head and mesosoma densely sculptured and completely opaque; propodeal
spines long andteurved (Pig tS @) (Oman a4 ce persue ct reece ateenctereces L. dhofara
Head and mesosoma superficially sculptured and slightly shining; propodeal
armature short and blunt (Fig. 3D) (Balkan Peninsula, Central Asia, Iran,
Kazakhstan, Ktiwaits WAB) cc. ccssessscoovdscevsvesdeesvecessenscdersvecsycons L. karawaiewi

11]

Aly

13

14

15

16

On the Arabian Lepisiota 1:33

Body entirely black, with slight reticulate sculpture at most and shining...12
Mesosoma usually with small area of mesonotum red; head and mesosoma
distinctly sculptured and not shining 0... cece eeeeeeseeseeseceseeseeeeeeseeaeeeees 16
Propodeal and petiolar spines reduced (Fig. 3E), petiole dorsum narrow and
rounded, with reduced armature; antennal scapes shorter, SI 150-155 (Croa-
tia, Egypt, Greece, Iberian Peninsula, Italy, Kyrgyzstan, Macedonia, Monte-

Heeroma OME i tes) seh hoch ea Merch nc na drcn tart Rt eae niet L. nigra
Propodeal and petiolar armature both well-developed with long curved spines
(Fic SP) sancennial’scape lorie Sel G5=200 «2. tacsteeensereveons tape seneeuoenr Recon: 13

Propodeum and first gastral tergite with some fine surface sculpture; first gas-
tral tergite with characteristic violet reflection; $1 195—200 (Egypt, Israel,

ROSAS WIRES. waaay seeks emanation sounds aunds yeavaies wnkixouvensdionmksedins L. opaciventris
Whole body smooth; first gastral tergite without reflection of any type; SI
NGS WSS Missed tr, Ae Se cs ORs We sa Mth ea 14
Propodeal short, less than 0.10 mm, moderately curved; antennal scape long,
SI 175-195: (WemenssEritrea, Irael WA BE ), Pasd sce tcwwevatancseces L. gracilicornis
Propodeal spines long, more than 0.12 mm, and distinctly curved; antennal
SCA PE GORE OI VO S UPON LGA nd. tet oa Stent aah cael silane uti msec 15

Body dark brown; propodeal spines slightly curved, in profile appearing at
level of the petiolar spines; body slightly shining; scape shorter (SI 170), ce-
phalic index smaller (CI 79), petiolar height lower in profile (0.41); appressed
pubescence abundant on body (Iran, Kazakhstan, KSA, Oman, Socotra)......
Ls teehee id ated unas antes dene Shab pc ctaune hu Te aang ued we L. spinisquama
Body black, propodeal spines strongly curved (Fig. 4A), in profile appearing
much higher than level of petiolar spines; body more strongly shining; scape
longer (SI 230-233), cephalic index greater (CI 86-88), petiolar height larger
in profile (0.25—-0.37); pubescence on body scattered (Oman, UAE)............
a el Ae Mace ue eee ra ttt seca e Oe U binge teed ud Jee uate we ee Aree ak L. omanensis
Paler species, mesosoma, legs and antennae orange, distinctly contrasting the
brown head and gaster; pronotum with one pair of hairs (Fig. 4B) (wide-
Spread iy Palearcric TECIOIN). excsicunesucaunds vnoerseigheeneteamnteselan cls sameate L. frauenfeldi
Uniform black or black-brown; pronotum without hairs (Fig. 4C) (Tunisia,

NRE Ras thes ctnoure say ee nbaesirses ody Mbgddota beds dae susisahlhedastha tutsta ba stan benttioa L. nigrescens
Head and mesosoma densely punctate and dull... eee eeeeeeeeceeeeneeenees 18
Head and mesosoma smooth or superficially sculptured rugulose, and shin-
{ay Ses PRIN bn Ore Ace Der Sea eA: AOR SUO RD MER Pb H Cr STUDER NIT A 20
Bicolored species, with mesosoma reddish, head, petiole, and gaster brown
Clan tel at Be Rte eee SR CNet Rs Saree AL See Tos Ress es ED L. harteni
Waiter brown or black-biown: species: 250.5210)... Ieee eee ee. 19

Propodeal spines reduced or indistinct (Fig. 4D); whole gastral dorsum coy-
ered with abundant pale hairs (Fig. 5A) (Ethiopia, Eritrea, Israel, KSA..........
ePib React ek setae ti teeta ie Agathe RARE Ae a Bae Soca Cen raan L. obtusa
Propodeal spines well-developed in the form of two broadly-based blunt tu-
bercles in profile (Fig. 5B); gastral pilosity restricted to few pairs on the poste-

134 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

rior margin of tergites (Fig. 5B) (Djibouti, KSA, Oman, Somalia, Yemen)....
bee, ae oe dee ee, ee L. carbonaria (=L. depilis syn. nov.)
20 Posterior margin of head in full-face view fringed with about seven pairs of
stiff hairs (Fig. 5C); body pilosity brown (Namibia, Somalia, Yemen, Zimba-
vent 21. Pe, Oe ete come Re tn eee Age Le L. validiuscula
- Posterior margin of head in full-face view with only two to three of stiff hairs
(Fig. 5D); body pilosity yellow (Guinea, Israel, Kenya, KSA, Somalia, Oman,
Seria Yaya EN Rael en OT LEI A EE, ake NE RP 8 A L. canescens

Lepisiota elbazi Sharaf & Hita Garcia, sp. nov.
http://zoobank.org/218E57C6-A0CA-4C9D-B4E3-EC9IEBF83 1AEC
Figs 1A, D, 6A—C

Type material. Holotype: pinned worker from Oman: Duorar: Ayn Razat,
17.12443N, 54.23832E, 98 m, 20.xi.2017, CASENT0872069, SE (M. R. Sharaf).
Paratype: one pinned worker with same data as holotype, CASENT0922860, (King
Saud University Museum of Arthropods (KSMA), Plant Protection Department, Col-
lege of Food and Agriculture Sciences, King Saud University, Riyadh, KSA).

Holotype worker. Measurements (paratype in parentheses): EL 0.17 (0.20); HL
0.82 (0.87); HW 0.57 (0.62); ML 0.50 (0.57); PH 0.30 (0.32); PRW 0.45 (0.50);
PSL:0512(0:15); SET 070.15) E322043.50) WE 40 61.50). Indices: €I-7.0:(7 1):
OI 30 (32); PSLI 15 (17); SI 188 (185).

Diagnosis. This new species can be distinguished from its regional congeners by
the following combination of characters: in profile, posterior margin of head anter-
oposteriorly compressed; limited number of hair pairs on body: two pairs on posterior
margin of head, two to three pairs on promesonotum, and one to two pairs on first
gastral tergite.

Description. Worker. Head. Elongate, distinctly more than 1.3-1.6 x longer
than broad, with straight posterior margin and feebly convex lateral margins; posterior
margin of head, in profile, anteroposteriorly compressed; antennal scapes when laid
back from their insertions surpassing posterior margin of head by more than one third
of length (SI 185-188); eyes of moderate size (OI 30-32), with the anteriormost point
of the eye lies touching the midlength of head in full-face view; anterior clypeal margin
strongly convex anteriorly and dorsally, and with raised lateral margins; frontal trian-
gle opened posteriorly; masticatory margin of mandibles armed with four teeth, the
first tooth being longest, the third being smallest, the second and fourth teeth are of
moderate size and subequal (counting from apex). Mesosoma. Promesonotum convex
in profile; first half of mesonotal outline descending posteriorly into a concave curve
then elevated and descending posteriorly in a straight line to an impressed metanotal
groove; propodeal spines long and acute in profile (PSLI 15-17), propodeal spines
in profile rising slightly to the rear from the level of the propodeal dorsum. Petiole.
Acutely dorsally bispinose. Pilosity. First two-thirds of scape without hairs, distal quar-
ter with a few stiff hairs, funiculus with dense appressed pubescence; cephalic dorsum

On the Arabian Lepisiota S55

Figure |. A head of L. e/bazi sp. nov. in profile, CASENT0922860 (Michele Esposito) B head of L. gra-
cilicornis in profile, CASENT0906458 (Cerise Chen) C body of L. arabica in profile, CASENT0906264
(Estella Ortega) D body of L. elbazi sp. nov. in profile, CASENT0922860 (Michele Esposito) E body
of L. elegantissima in profile, CASENT0922860 (Michele Esposito) F body of L. gracilicornis in profile,
CASENT0906458 (Cerise Chen), www.AntWeb.org.

with several pairs of stiff, black, long, blunt hairs (hair length 0.10—0.12) arranged as
follow: two on anterior clypeal margin, one on posterior clypeal margin, one at end
of frontal carinae; one close to level of anterior margins of eyes; one behind level of

136 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

Figure 2A-F. A body of L. elegantissima in profile, CASENT0922860 (Michele Esposito) B head of
L. elegantissima in full-face view, CASENT0922860 (Michele Esposito) € body of L. bipartita in profile,
CASENT0903167 (Zach Lieberman) D body of L. dolabellae in profile, CASENT0249883 (Shannon
Hartman) E mesosoma of L. dammama in dorsal view showing mesonotun, CASENT0906337 (Estella
Ortega) F body of L. dammama in profile showing propodeal and petiolar spines, CASENT0906337
(Estella Ortega), www.AntWeb.org.

mid-length of eyes; two at posterior margin of head; promesonotum with one to three
pairs of hairs; mandibular surfaces with fine long pale hairs; gaster with several scat-
tered hairs. Sculpture. Cephalic, clypeal surfaces, and promesonotal dorsum faintly

On the Arabian Lepisiota 137

Bip
propodeal 2am
spines

_, opaque
\surface

Propodeal
spines

petiolar 7% petiolar

\ VA Ca es spines

a i ie \

Figure 3A-F. A mesosoma of L. dolabellae in dorsal view showing mesonotun, CASENT0909887
(Zach Lieberman) B body of L. dolabellae in profile propodeal and petiolar spines, CASENT0909887
(Zach Lieberman) C body of L. dhofara in profile showing surface sculpture and propodeal spines,
CASENT0906340 (Estella Ortega) D mesosoma of L. karawaiewi in profile showing propodeal
spines, CASENT0912405 (Will Ericson) E body of L. nigra in profile showing propodeal and petiolar
spines, CASENT0179896 (Erin Prado) F Body of L. spinisquama in profile showing petiolar spines,
CASENT0922270 (Michele Esposito), www.Ant Web.org.

138 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

A

Figure 4A-D. A mesosoma of L. omanensis in profile showing propodeal spines, CASENT0922278
(Michele Esposito) B body of L. frauenfeldi in profile propodeal and petiolar spines, CASENT0909884
(Zach Lieberman) C body of L. nigrescens in profile, CASENT0912400 (Will Ericson) D body of L. obtu-
sa in profile showing reduced petiolar spines, CASENT0280477 (Shannon Hartman), www.AntWeb.org.

but finely reticulate-rugulose, moderately shiny, mandibular surface smooth and shin-
ing; mesonotum, propodeum, and petiole distinctly reticulate-punctate; first gastral
tergite smooth and shining. Color. Bicolored species, head, mesosoma, petiole yellow
or red-yellow, distal end of scapes, first funicular segment and mandibular teeth darker;
gaster mostly dark brown to black with first tergite of slightly lighter brown.

Etymology. The patronymic name honors Prof. Farouk El-Baz, the Egyptian
space scientist, Boston University, USA in recognition of his distinguished scien-
tific achievements.

Remarks. The occurrence of hairs and their distribution on the surface of the body
are diagnostic characters for the recognition of species in many ant genera, notably
used in the taxonomy of the genus Lepisiota (Collingwood 1985; Collingwood and
Agosti 1996). Lepisiota elbazi is not similar to any of the known Arabian Lepisiota,
except the Arabian endemic species L. arabica (Collingwood, 1985) described from the

On the Arabian Lepisiota 139

_ reduced propodeal spine

broadly-based
__ blunt tubercles

A-

gastral pilosity

" fs me 2 : i
Pa? . ad Ki. fe ie
- gue 7 ,

Se ‘s

Figure 5A-D. A body of L. obtusa in profile showing propodeum and gastral pilosity, CASENT0905150
(Zach Lieberman) B body of L. carbonaria in profile showing propodeal spines and gastral pilosity,
CASENT0906261 (Estella Ortega) C head of L. validiuscula in full-face view showing pilosity on pos-
terior margin, CASENT0280473 (Shannon Hartman) D head of L. canescens in full-face view showing
pilosity on posterior margin, CASENT0905153 (Zach Lieberman), www.AntWeb.org.

southwestern Asir Mountains, KSA. Both species are bicolored and have a compressed
posterior margin of the head when seen in profile, acute and long propodeal spines,
stiff and blunt hairs, impressed metanotal groove, characteristically paler first gastral
tergite and similar body sculpture. The compressed profile of the posterior margin of
the head sets the two species apart from any of the Arabian Lepisiota, as those all have
a rounded profile to the posterior margin of the head.

The two species can be separated by the number of body hairs and dimensions.
Lepisiota elbazi has fewer hairs on the posterior margin of the head (two pairs), on
the mesosoma (two to three pairs on promesonotum), and on the first gastral tergite
(one to two pairs). Lepisiota arabica has more than seven pairs of hairs on the poste-
rior margin of the head, many pairs scattered on the mesosomal dorsum (six pairs on
promesonotum, four pairs on mesonotum, and two pairs on the propodeal dorsum),
and several pairs on the first gastral tergite. Additionally, L. e/bazi has a greater head
length (HL 0.82—0.87 vs. HL 0.72-0.77 in L. arabica), longer scapes (SL 1.07-1.15,
SI 185-188 vs. SL 0.87—0.89, SI 155-159), and relatively longer head (HL 0.82—0.87
vs. HL 0.73-0.75).

Ecological and biological notes. Both workers of the new species were collected at
Ayn Razat (Fig. 7) and were foraging in leaf litter covering dry soil under an Acacia tree.

140 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

Figure 6A-C. Lepisiota elbazi sp. nov. A body in profile B body in dorsal view C head in full-face view,
CASENT0922860, (Michele Esposito), www.AntWeb.org.

On the Arabian Lepisiota 141

Figure 7. Ayn Razat, the type locality of Lepisiota elbazi sp. nov. (Mostafa Sharaf).

Geographic range. Oman.

Queen and male. Not known.

Newly proposed synonymy
Lepisiota carbonaria (Emery, 1892)

Acantholepis carbonaria Emery, 1892 [Combination in Lepisiota by Bolton, 1995]
Acantholepis capensis subsp. depilis Emery, 1897 [Raised to species by Collingwood,
1985; Combination in Lepisiota by Bolton, 1995] syn. nov.

Material examined of L. carbonaria. Somauia: 1 syntype worker, Obbia,
CASENT0905149, (MSNG); 1 w, Sheikh, 1939, (the Governor), (Pres. By Imp. Inst.
Ent.), (B. M. 1946-273), (BMNH, E, 1018291), CASENT0906261; Eruiopta: 1 w,
Turmi, 04°58'N, 36°29'E, 21.1.2010, (Serge Guiraud), (Hand collecting) (B. Taylor
det.) (OUMC); OMAN: 5 w, Dhofar, Ayn Razat, 17.12443N, 54.23832E, 98 m,
20.xi.2017, (M. R. Sharaf), (MRS0399), CASENT0922845 (KSMA).

142 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

Material examined of L. depilis. Somatia: 1 syntype worker, Bricchetti,
CASENT0905154, (MSNG).

Remarks. Lepisiota carbonaria was originally described by Emery (1892) from
Somalia and in 1897 he described L. depilis as a subspecies of Acantholepis capensis
from the same country. Collingwood (1985) was the first to draw the attention of
the difference between L. depilis and L. capensis based on the reduced mesosomal
pilosity and the dense mesosomal sculpture of the former which make it sufficiently
distinguishable from the later species that has abundant mesosomal pilosity and shin-
ing body appearance. However, in his original description of depilis, Emery pointed
out the remarkable similarities between depilis and carbonaria which are mainly the
dense sculpture on head and mesosoma and dull appearance of these two body parts,
and the gastral pilosity which in the form of a row of setae on the posterior margins
of the gastral tergites. Emery was correct and our examination of the type material
of the two taxa confirms his notes and reals a straightforward synonymy. The two
species have the same body color, dense sculpture, reduced blunt propodeal spines,
dull head and mesosoma, and shining gastral tergites with few hairs on margins of
tergites. We consider L. carbonaria a senior synonym of L. depilis.

Species excluded from the Arabian fauna

The following species are excluded from the Arabian Lepisiota fauna and are considered
as misidentification.

Lepisiota arenaria (Arnold, 1920)

Collingwood and Agosti (1996) wrote “this elegant species with red head and meso-
soma’ but the type material (CASENT0903150) is no more than uniform dull yellow.

Lepisiota erythraea (Forel, 1910)

Collingwood (1985) stated that this species has a rounded petiole with very shal-
low emargination, and mesosoma entirely without dorsal hairs. The type material
(CASENT0909880) has one pair of long, sharp, triangular petiolar spines and meso-

soma with some pairs of hairs.
Lepisiota incisa (Forel, 1913)

This is an eastern African species that seems unlikely to be found in Arabia. Colling-
wood (1985)’s key mentioned that the mesosomal pilosity is restricted to the prono-
tum or nil but examination of the type material (CASENT0909876) reveals abundant
mesosomal and body pilosity.

On the Arabian Lepisiota 143

Lepisiota sericea (Forel, 1892a)

In their key, Collingwood and Agosti (1996) stated that “this species appeared bicolor-
ed with reddish mesosoma lighter than gaster, or entirely reddish. The type material
(CASENT0909885) is uniformly dark brown”.

Lepisiota simplex (Forel, 1892)
Collingwood and Agosti (1996) had “mesosoma with pale, thin hairs, that are re-

stricted to pronotum’. The type material (CASENT0909878) has several pairs of hairs

scattered on the mesosoma including the propodeum.

Zoogeography of the Arabian Lepisiota:

Table |. Zoogeographic affinities of the Arabian Lepisiota (Bolton 2020).

Species Type locality Zoogeography Afrotropical species References
recorded from southern
Arabian Peninsula
Lepisiota arabica Saudi Arabia | (Endemic) Afrotropical affinity Collingwood 1985
Lepisiota bipartita Lebanon Palearctic Collingwood and Agosti 1996
Lepisiota canescens Somalia Afrotropical + Collingwood 1985;
Collingwood and Agosti 1996
Lepisiota carbonaria Somalia Afrotropical + Collingwood 1985;
Collingwood and Agosti 1996
Lepisiota dammama Saudi Arabia | (Endemic) Palearctic affinity Collingwood and Agosti 1996
Lepisiota dhofara Oman (Endemic) Afrotropical affinity + Collingwood and Agosti 1996
Lepisiota dolabellae Turkey Palearctic Collingwood 1985; Colling-
wood and Agosti 1996
Lepisiota elbazi sp. nov. Oman (Endemic) Afrotropical affinity
Lepisiota elegantissima United Arab | (Endemic) Afrotropical affinity + Collingwood et al. 2011
Emirates
Lepisiota frauenfeldi Yugoslavia Palearctic Collingwood 1985; Colling-
wood and Agosti 1996
Lepisiota gracilicornis Yemen Afrotropical + Collingwood 1985;
Collingwood and Agosti 1996
Lepisiota harteni Yemen (Endemic) Afrotropical affinity Collingwood and Agosti 1996
Lepisiota karawaiewi Kazakhstan Palearctic Collingwood and Agosti 1996
Lepisiota nigra Italy Palearctic Collingwood and Agosti 1996
Lepisiota nigrescens Tunisia Palearctic Collingwood 1985; Colling-
wood and Agosti 1996
Lepisiota obtusa Ethiopia Afrotropical + Collingwood 1985;
Collingwood and Agosti 1996
Lepisiota omanensis Oman (Endemic) Afrotropical affinity Sharaf et al. 2016
Lepisiota opaciventris Egypt Palearctic Collingwood 1985; Colling-
wood and Agosti 1996
Lepisiota riyadha Saudi Arabia | (Endemic) Palearctic affinity Collingwood and Agosti 1996
Lepisiota spinisquama Kazakhstan Palearctic Collingwood 1985; Colling-
wood and Agosti 1996
Lepisiota validiuscula Somalia Afrotropical Collingwood and Agosti 1996

144 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

Discussion

The biogeography of the Arabian Peninsula has always been a subject of interest and some-
times controversial by researchers, and this is undoubtedly due to its geographic location
at the interchange of three major zoogeographical realms, the Afrotropical, the Palearctic,
and the Oriental regions. ‘This pivotal geographical location has made the Arabian Penin-
sula harbor elements of all zoogeographic regions with a notable influence of the Afrotrop-
ical species documented for the southwestern mountains of the Arabian Peninsula, Yemen,
the Dhofar Governorate, and Jabal Al Akhdar in Oman (e.g. Guichard 1980; Larsen and
Larsen 1980; Larsen 1984; Collingwood 1985; Cowie 1989; Collingwood and Agosti
1996; Pesenko and Pauly 2009; Sharaf and Aldawood 2011, 2012, 2019; Sharaf et al.
201 2a, b, c; El-Hawagry et al. 2013, 2016a, b, 2017; Abdel-Dayem et al. 2019).

Our new collections and previous literature records (Collingwood 1985; Colling-
wood and Agosti 1996; Collingwood et al. 2011) indicate that the Lepisiota fauna
of the Arabian Peninsula includes 21 species, which is clearly represented by taxa of
the Afrotropical and the Palearctic regions (Table 1, Fig. 8). About 53% of these spe-
cies have strong afhnities with the Afrotropical Region (11 species), followed by the
Palearctic elements (including western and eastern boundaries of the Palearctic region)
with about 48% (10 species). This Afrotropical preponderance has been previously
recognized by numerous studies (e.g. Guichard 1980; Larsen and Larsen 1980; Larsen
1984; Collingwood 1985; Cowie 1989; Waterston and Pittaway 1991; Schneider and
Krupp 1993; Collingwood and Agosti 1996; Taiti et al. 2000; Hausmann 2009; Pe-
senko and Pauly 2009; Sharaf and Aldawood 2011, 2012, 2019; Neubert and van
Damme 2012; Sharaf et al. 2012a, b, c; El-Hawagry et al. 2013, 2016a, b, 2017; Hajek
and Reiter 2014; Ball et al. 2015; Abdel-Dayem et al. 2019). The close Afrotropical
affinity of the taxa mentioned in the above studies supports the direct linkage of Afro-
tropical lineages with the Arabian Peninsula. However, the Oriental influence is absent
but it is anticipated some taxa from the region might be exist with extensive collecting.
The minor Oriental influence is documented by some studies as Larsen (1984) on the
Arabian fauna of the butterflies (Larsen 1984), Penati and Vienna (2006) on the Ara-
bian Histeridae, and Abdel-Dayem et al. (2019) on the Carabidae of Shada Al-A’Ala
Nature Reserve, Southwestern KSA. Obviously much more collecting efforts must be
done to allow an in-depth zoogeographical treatment for confirming speculation.

These distributional patterns indicate that zoogeographically the area of the Arabian
Peninsula is not a homogeneous unit. Our analysis of Lepisiota zoogeographic affini-
ties generally supports Larsen and Larsen (1980), Larsen (1984), Abdel-Dayem et al.
(2019), Cowie (1989), Penati and Vienna (2006), Rueda et al. (2013), Sharaf et al.
(2014), Ficetola et al. (2017), Delany (1989), El-Hawagry et al. (2019) arguments that
a major zoogeographic discontinuity exists within the region. Despite this, as mentioned
above about 38% (8 out of 21 spp.) of the species appear to be endemic to the region.

The geographic location of the Arabian Peninsula at the conjunction of three zo-
ogeographical regions make the delineation of the borders among these three biore-
gions is a difficult task and this subject is often pay the attention of biogeographers.

On the Arabian Lepisiota 145

Afrotropical

11 species

(~52.38%*)

*Afrotropical species in southern Arabian Peninsula

Endemic species are representing ~38.10% of total species
(8 of 21 species)
Figure 8. Zoogeographic analysis of the Arabian Lepisiota.

Numerous studies have considered that the southwestern Arabian Peninsula, which in-
cludes the Al Sarawat Mountain and the Asir Mountains (KSA) and Yemen, with clear
Afrotropical affinities (e.g. Larsen and Larsen 1980; Collingwood 1985; Collingwood
and Agosti 1996; Taiti et al. 2000; Hausmann 2009; Pesenko and Pauly 2009; Sharaf
and Aldawood 2011, 2012, 2019; Sharaf et al. 2012a, b, c; El-Hawagry et al. 2013,
2016a, b, 2017; Hajek and Reiter 2014; Ball et al. 2015; Abdel-Dayem et al. 2019).
Some studies conjoin the Dhofar Governorate, Jebel Akhdar (Oman) and the Hajar
Mountains that extend between Oman and the UAE to the Arabian areas of Afrotropi-
cal elements but with relatively lesser degrees of Afrotropical affinities (Larsen 1984;
Cowie 1989; Delany 1989; Penati and Vienna 2006).

Our available data of the distribution of the Arabian fauna of Lepisiota clearly show
a confined distribution of all the Afrotropical species and the endemic species to the
southern Arabian Peninsula, whereas those Afrotropical species are not represented
in the arid regions of the Arabian deserts and obviously are replaced by taxa of the
Palearctic region. These data fully coincide with the findings of several studies that
draw the boundaries between the Afrotropical and the Palearctic regions of the Arabian
Peninsula as a line connecting the mountainous coastal strip that is parallel to the Red
Sea in the western Arabian Peninsula starting from Taif and southwards to Yemen,
parts of Oman (Dhofar, Jebel Akhdar) and the UAE) (the Hajar Mountains) (Fig. 9)
(Larsen 1984; Cowie 1989; Delany 1989; Penati and Vienna 2006).

146 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

Figure 9. Zoogeographic boundaries between the Afrotropical and the Palearctic regions of the Arabian
Peninsula, AE: United Arab Emirates, BH: Bahrain, KW: Kuwait, OM: Oman, QA: Qatar, SA: Saudi
Arabia, YE: Yemen.

The distribution pattern of the Arabian Lepisiota is restricted to two major regions
of the Arabian Peninsula: the forests of the southwestern mountains and the vast sur-
rounding deserts. The distribution of the Afrotropical species is obviously confined
to forests of the southern Arabian Peninsula of the KSA, Yemen, and Oman, whereas
the Palearctic species are mainly represented outside this geographic range and pre-
cisely correlated to the desert ecosystems of the Arabian Peninsula. Hence, while the
Afrotropical influence decreases towards the north and east, the Palearctic influence
increases correspondingly. ‘This geographic correlation is likely related to habitat avail-
ability, soil nature, and vegetation cover in the two ecosystems. Environmental impact
obviously favors the spread and maintenance of a species over another and can result
in a vast distribution (Larsen 1984; Cowie 1989).

The Arabian Lepisiota fauna, however, includes a noteworthy proportion of appar-
ently endemic species (38.10%) represented by eight species, L. arabica, L. dammama, L.
dhofara, L. elbazi sp. nov., L. elegantissima, L. harteni, L. omanensis, and L. riyadha. This
high degree of endemism for the Arabian Peninsula is documented for several groups of
animals including amphibians (Arnold 1980), reptiles (Smid 2010; Melnikov and Pierson
2012), birds (Ball et al. 2015), arthropods of different groups including Isopoda (Taiti
et al. 2000), Lepidoptera (Larsen and Larsen 1980; Hausmann 2009), Isoptera (Cowie
1989), Odonata (Waterston and Pittaway 1991; Schneider and Krupp 1993), Coleop-

On the Arabian Lepisiota 147

tera (Hajek and Reiter 2014), and Hymenoptera (Collingwood 1985; Collingwood and
Agosti 1996; Pesenko and Pauly 2009; Sharaf and Aldawood 2019).

Our analysis of species endemism is distinctly higher than the degree of endemism
of numerous animal groups which include the works of Cowie (1989) for the Ara-
bian Isoptera (24%), Abdel-Dayem et al. (2018) for the Carabidae of Garf Raydah
(southern KSA) (19.3%), Larsen (1984) for the Rhopalocera (15.5%), Collingwood
(1985) for the Formicidae of the KSA (11%), Collingwood and Agosti (1996) for the
Formicidae of the Arabian Peninsula (25%), Abdel-Dayem et al. (2019) for the Car-
abidae of Shada Al-A’Ala Nature Reserve (KSA) (5.3%), Abdel-Dayem et al. (2017) for
the Carabidae of the beetle fauna of Rawdhat Khorim National Park (KSA) (6.0 %),
Penati and Vienna (2006) for the Histeridae (7.5%).

The ant genus Lepisiota along with two other genera (Camponotus Mayr, 1861 and
Cataglyphis Foerster, 1850) are the most diverse and abundant genera of the subfam-
ily Formicine both in Oman and in the entire Arabian Peninsula (Collingwood 1985;
Collingwood and Agosti 1996; Sharaf et al. 2018). They are represented in Oman by
the following number of species; Camponotus (18), Cataglyphis (15) and Lepisiota (15).
In the Arabian Peninsula the number is as follows; Camponotus (25), Cataglyphis (28)
and Lepisiota (26). An inventory in the southwestern mountains of the KSA using sev-
eral collecting techniques (Pitfall, Malaise, and light traps) revealed a similar pattern of
abundance and diversity of the three genera (Sharaf et al. unpublished data).

Among this remarkable abundance and diversity of many species of Lepisiota,
however, there are some rare species known only from a few specimens, e.g. Lepisiota
arabica Collingwood, 1985 (5), L. dhofara Collingwood & Agosti (1), L. dammama
Collingwood & Agosti (5), L. elbazi sp. nov. (2), and L. omanensis Sharaf & Monks,
2016 (5). Not only are there morphological similarities between L. e/bazi and
its congener L. arabica but they have similar habitat preferences with both species
appearing to prefer the mountainous territories of the Dhofar Governorate for L. elbazi
and the southwestern mountains of the KSA for L. arabica.

The taxonomic keys for the Lepisiota fauna of the KSA (Collingwood 1985) and the
Arabian Peninsula (Collingwood and Agosti 1996) have some degree of apparent ambi-
guity in some of their parts, which results in the difficulty of species identification. There-
fore, interested workers in the region must be careful when dealing with these two keys.

Acknowledgments

We thank the following colleagues: Barry Bolton for suggestions that improved the
work; Brian Taylor, Xavier Espadaler, Boris Kondratieff, and Georg Fischer for valu-
able comments; Brian Fisher, Michele Esposito (California Academy of Sciences, San
Francisco) for imaging the species; Annette Patzelt for appreciated permission to use
image of Ayn Sahlanot, Saif Al-Hatmi (Oman Botanic Garden) for support during
the field work in Oman, and A. Shams Al Ola for technical assistance. Mostafa Sharaf
thanks the following colleagues for making material available for the study and ap-

148 Mostafa R. Sharaf et al. / Journal of Hymenoptera Research 76: 127-152 (2020)

preciated hospitality in the UK.: James Hogan (OQUMC), Andrew Polaszek (BMNH),
Stephen Judd, and Tony Hunter (World Museum Liverpool, Liverpool, U.K.). This
work was supported by the Deanship of Scientific Research at King Saud University
[RG-1438-010].

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