JHR 82: 253-283 (2021) er, JOURNAL OF eet nnscnn ni

doi: 10.3897/jhr.82.65760 RESEARCH ARTICLE () I Tymenopter a
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https://jhr.pensoft.net Theleternaonl Society of Hymenopexriss, RESEARCH

Cladistic analysis of Zethus Fabricius, 1804
(Hymenoptera, Vespidae): a new subgeneric classification

Rogério Botion Lopes', James M. Carpenter’, Fernando Barabosa Noll!

| Laboratério de Aculeata. Departamento de Zoologia e Botinica. Instituto de Biociéncias, Letras e Ciéncias
Exatas. Universidade Estadual Paulista “Julio de Mesquita Filho”. Sao José do Rio Preto, Brazil 2 Division of
Invertebrate Zoology. American Museum of Natural History. New York, USA

Corresponding author: Rogério Botion Lopes (rbotlopes@gmail.com)

Academic editor: Michael Ohl | Received 10 March 2021 | Accepted 1 April 202 | Published 29 April 2021
Attp://zoobank. org/47 FBDO8B-BO6AE-4004-A25 F-CB7F3FB8D13F

Citation: Lopes RB, Carpenter JM, Noll FB (2021) Cladistic analysis of Zethus Fabricius, 1804 (Hymenoptera,
Vespidae): a new subgeneric classification. Journal of Hymenoptera Research 82: 253-283. https://doi.org/10.3897/
jhr.82.65760

Abstract

Zethus is the largest genus in Vespidae with over 270 species. It is currently divided into four subgenera:
Z. (Zethus), Z. (Zethoides), Z. (Zethusculus) and Z. (Madecazethus). While the last three are restricted to
certain biogeographic areas, the first is spread through western and eastern hemispheres. Studies have
shown possible phylogenetic incongruence regarding this current division and even raised the possibility
of paraphyly in the genus. To evaluate this classification, morphological pasimony analyses under implied
weights was carried out, examining external morphology and male genitalia. Analyses showed paraphyly
of the genus under various “k” values and paraphyly of two subgenera. [schnocoelia and Ctenochilus are
lowered to subgenera of Zethus. Zethus (Madecazethus) is no longer restricted to Malagasy species and
now includes those of the African continent as well. Zethus (Zethastrum) subg. nov. is defined for Ori-
ental representatives. Z. (Zethus) is subdivided into three subgenera: Z. (Zethus), Z. (Didymogastra) and
Z. (Wettsteinia). Zethus (Zethusculus) and Z. (Zethoides) are monophyletic and hold their status as subgen-
era. Three species-groups are Jncertae sedis: Z. albopictus, Z. pallidus and Z. spinosus.

Keywords
Phylogeny, taxonomy, paraphyly, sensitivity analysis, Zethini

Copyright Rogério Botion Lopes 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.

254 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

Introduction

Zethus is the most species diverse genus in Vespidae and represents 279 out of the 363
species of Zethini, a group of Eumeninae whose status as tribe or subfamily is still in
debate (Carpenter 1982; Pickett and Carpenter 2010; Hines et al. 2007; Hermes et al.
2014; Bank et al. 2017; Piekarski et al. 2018). The genus’ distribution is mainly Gond-
wanian excluding the Australian region (Stange 1979). Still, a few species may reach
into the Nearctic (Bohart and Stange 1965) or into Palearctic region in areas bordering
the Afrotropical (Giordani Soika 1979) or the Oriental Regions (Tan et al. 2018).

The genus is currently divided into four subgenera: Z. (Zethus) Fabricius, 1804;
Z. (Zethusculus) de Saussure, 1855; Z. (Zethoides) Fox, 1899; and Z. (Madecazethus)
Giordani Soika, 1979. While the last subgenus is restricted to Madagascar and the sec-
ond and third to the Neotropics and parts of the Nearctic, the nominotypical subgenus
has species in the New World as well as the Old.

The problematic history of subgeneric divisions in Zethus, from de Saussure (1852,
1855, 1875) to Bohart and Stange (1965), has been summarized by Lopes and Noll
(2018), whose study revealed possible incongruences in the current classification,
where some subgenera, and even the genus Zethus itself, may be unnatural groups as
they are currently construed. Their study, although focused on Z. (Zethoides), which
was retrieved as monophyletic, revealed the following features that discord with the
current taxonomy: Zethus is paraphyletic in relation to Ctenochilus; Z. (Zethusculus) is
paraphyletic in relation to the remaining Zethus (contradicted by Golfetti et al. (2020),
who recovered the monophyly of this subgenus); and Z. (Zethus) is paraphyletic in
relation to Z. (Madecazethus) and Z. (Zethoides). Although obtaining these results, the
authors refrained from making taxonomic changes since the taxon sampling in these
groups was poor. Carpenter and Cumming (1985) had already noted not only the pos-
sibility of Ctenochilus being a derived lineage of Zethus, but also Ischnocoelia since these
genera are diagnosed based mainly on characters of the palpi. The first genus presents
modifications on the labial palpi, with reduced segmentation and dense long pilosity,
while the second presents only the reduced segmentation, but of both maxillary and
labial palpi. Further, Lopes and Noll (2018) speculated that Z. (Zethus) may actually be
a number of different lineages that might deserve their own subgeneric status.

Thus, taking such inconsistencies into account, a phylogenetic analysis of Zethus
was carried out, attempting to verify the validity of the genus as a natural group as well
as of its subgenera and to propose taxonomic changes according to the results.

Methods

Taxon sampling

A total of 48 representatives of Zethus species were examined (Table 1). Since the genus
has subdivisions of species-groups, which are comprised of morphologically similar

Subgenera of Zethus 255

Table |. Number of valid species and the corresponding amount examined of each subgenus of Zethus

according to biogeographic region.

Subgenus Biogeographic region Number of valid species Number of terminals
Z. (Zethus) Mainly Neotropical 162 19
Z. (Zethus) Mainly Afrotropical 15 7
Z. (Zethus) Mainly Oriental 29 9
Z. (Zethusculus) Mainly Neotropical 27. 3
Z. (Zethoides) Mainly Neotropical 43 vi
Z. (Madecazethus) Malagasy y) 2.
TOTAL 279 48

species (Bohart and Stange 1965), the sampling targeted having one species of each
of these groups in the case of the Neotropical representatives. Oriental and African
Zethus were sampled as widely as possible and the Neotropical Z. discoelioides group
had two species sampled due to its high diversity and large number of acknowledged
undescribed species (Bohart and Stange 1965).

No representatives from the Neotropical Z. stangei and Z. magretti groups nor
from the Oriental Z. trimaculatus group were examined.

Additionally, 24 terminals were used as outgroups representing twelve other Zethi-
ni genera. [schnocoelia and Ctenochilus were sampled as widely as possible, the former
by nine species and the later by all five species, while the remaining genera were repre-
sented by a single species. The two genera were better represented due to the possibility
of being placed within Zethus. Protodiscoelius merula was used for rooting the tree.

The following institutions provided material for this study:

AMS Australian Museum, Sydney, Australia;

ANIC Australian National Insect Collection, Canberra, Australia;
ANMH American Museum of Natural History, New York, USA;
FSCA Florida State Collection of Arthropods, Gainesville, US;.

HYMSJRP = Colecao de Hymenoptera, Depto. de Zoologia e Botanica, Instituto de
Biociéncias, Letras e Ciéncias Exatas, Universidade Estadual Paulista
“Julio de Mesquita Filho”, Sao José do Rio Preto, Brazil;

OLML Oberoésterreichisches Landesmuseum, Linz, Austria;

MMML Municipal Museum, Marianske Lazne, Czech Repuclic;

MNHN Muséum National d’Histoire Naturelle. Paris, France;

MPEG Museu Paraense Emilio Goeldi, Belém, Brazil;

MSNVE Museo Civico do Storia Naturale di Venezia, Venice, Italy;

MZUSP Museu de Zoologia da Universidade de Sao Paulo, Sao Paulo, Brazil;

NBCN Naturalis Biodiversity Center, Leiden, Netherlands;

NHM Natural History Museum, London, England;

RPSP Faculdade de Filosofia, Ciéncias e Letras de Ribeirao Preto, Universida-
de de Sao Paulo, Ribeirao Preto, Brazil;

UCD University of California, Davis-Bohart Museum of Entomology, Davis,

USA;

256 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

USNM National Museum of Natural History, Smithsonian Institution, Wash-
ington DC, USA;
CCT-UFMG Centro de Colecées Taxonémicas da Universidade Federal de Minas

Gerais, Belo Horizonte, Brazil;

VAST Vietnam Academy of Science and Technology, Cau Giay Hanoi,
Vietnam;
ZMHB Zoologisches Museum und der Humboldt-Universitat zu Berlin, Ber-

lin, Germany;

ZMUC Zoological Museum, University of Copenhagen, Copenhagen, Denmark.

Obtained material had their identification checked by RBL by using identifica-
tion keys in Bohart and Stange (1965) for New World specimens and Giordani Soika
(1958, 1969, 1979) for Oriental, Australian and Afrotropical specimens respectively.
Any specimen belonging to a species described after these studies were compared to its
original description.

Character circumscription

The analysis was based on morphological characters from both external morpholo-
gy and male genitalia. For the examination of the latter, insects were relaxed (when
pinned) for extraction of the genital capsule, which was submitted to one of the fol-
lowing processes for dissolution of soft tissues and clarification: a) immersion in 10%
KOH solution for approximately 24 hours, followed by neutralization of the base with
10% acetic acid solution, rinsed and stored in glycerin; b) immersion in lactophenol
heated in a Thermolyne HP-A1G18B hot plate in the 200 potency for approximaetly
five minutes and, after cooling down, stored in glycerin.

The structures were examined through a Leica Stereoscope Microscope MZ16 and
pictures taken with a MZ16 Leica Stereoscope with an attached DFC295 camera.
Pictures were taken with the Leica Application Suite software and image stacking per-
formed with Combine ZP or Helicon Focus.

Phylogenetic analysis

Following circumscription, characters were coded and inserted into a matrix using the
Winclada software (Nixon 2015) and exported for TNT (Goloboff et al. 2016).

An implied weighting (Goloboff 1993) scheme was carried in order to down-
weight homoplastic characters and the script “setk” by Salvador Arias (based on one
of the equations in Goloboff et al. 2008) was used to determine a reference value of k.
The determination of the constant & has been controversial as to what value should be
used and no objective method has yet been set for this matter. For this reason, a series
of values were tested based on the provided reference by the script in order to test nodal
stability (Giribet 2003) across different concavities of weights through a sensitivity
analysis (Wheeler 1995). The script suggested k=14.067383 and from this point, seven

Subgenera of Zethus 257

k values of whole numbers below and seven above the reference were taken (8 < &< 21;
k © Z), as well as the minimum value of 1 and an extremely high value of 500.

New technology search algorithms were used with the default settings, except for
the following differences: Maximum trees held in memory: 10000; random seed 0;
number of hits 100; Ratchet 200 iterations, with up-down perturbation 15; Drift 20
iterations; tree fusing 10 rounds.

After the search was complete, the resulting tree was opened in Winclada and ex-
ported for editing in Adobe Illustrator CS5.

Support was calculated through symmetric resampling (Goloboff et al. 2003) with
10.000 replications.

Terminology follows Carpenter and Garcete-Barrett (2002), Bohart and Stange
(1965), Bitsch (2012), Lopes and Noll (2014) and Lopes and Noll (2018). The follow-

ing abbreviations were used: T, for tergum and S, for sternum.

Results and discussion

A total of 168 characters were circumscribed, 32 being from the head, 69 the meso-
soma, 46 the metasoma and 21 from the male genitalia (the character list is provided in
Suppl. material 1, while the matrix is provided in the Suppl material 4 in “.tnt” format
— both available in OSE, under https://doi.org/10.17605/OSEIO/FJV32). Characters
based on previous studies (Garcete-Barrett 2014; Hermes et al. 2014; Lopes and Noll
2018) were indicated as such in Suppl. material 1.

The script suggested a k = 14.067383, for which only one tree was recovered
(Fig. 1), which shows Zethus as paraphyletic in relation to Ctenochilus and Ischnocoelia.
‘The first was shown previously by Lopes and Noll (2018), who refrained from making
taxonomic changes due to poor sampling and both cases were suspected by Carpenter
and Cumming (1985). In this manner, both genera should be synonymized under Ze-
thus. The clade comprised of Zethus, Ischnocoelia and Ctenochilus (herein recognized as
Zethus), is supported by two homoplastic synapomorphies: the presence of a posterior
proepisternal lamella (Fig. 2A) and developed stem of T2 (Fig. 2B). The only tested
k value that did not recover this clade was k = 1, probably due the strong weighting
function, which discards homoplasies.

Out of the four subgenera of Zethus, only Z. (Zethoides) and Z. (Zethusculus) were
recovered as monophyletic, while Z. (Zethus) and Z. (Madecazethus) were recovered as
paraphyletic, what agrees in part with the results of Lopes and Noll (2018). Taxonomic
changes proposed herein are based on these results. The genus has a long history of
synonyms and subgeneric divisions and if a representative of a lineage deserving of its
own subgenus was once affiliated to one of these names, the group or synonym is at-
tributed a new status.

First, although Z. (Zethus) is indeed paraphyletic in relation to Z. (Madecazethus), it
is regarding only the African representatives of the nominotypical subgenus (dark blue,
Fig. 1), diverging from Lopes and Noll (2018) where the Malagasy subgenus is more

258 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82

Protodiscoelius merula
Australozethus tasmaniensis
Discoelius zonalis
100 Argentozethus willinkt
Calligaster cyanoptera
13 Elimus australis
Paramischocyttarus buyssoni
Macrocalymma smithianum
59 Pachycoelius brevicornis
68 Deuterodiscoelius varreauxii
LZ Maz) seyrigi
Z(Mdz) madecassus

: 253-283 (2021)

71

23 53

14 97

98

14

18

ZZ) aethiop
92 ZZ) yarrowi
XZ) rotschi
HQ) en

25

38
98

22) mandibular is
LZ) fulgens
“(Z) planiclypeus
42) celebensis
ZZ) varipunctatus
AZ) ceylonicus
\4 95 ZZ) dolosus
8 AZ) bakeri
99 &(Z) malayanus
Ischnocoelia occidentalis
3 Ischnocoelia elongata
17 Ischnocoelia integra
Ischnocoelia fulva
Ischnocoelia xanthochroma
Ischnocoelia polychroma
94 Ischnocoelia robusta
Ischnocoelia exigua
28 Ischnocoelia ferruginea
Ctenochilus argentinus
Ctenochilus bimaculatus
79 Ctenochilus cuyanus
Ctenochilus chilensis
Ctenochilus pilipalpus
Z(Z) cerceroides
42) cylindricus
LZ) cubensis
“(Z) montezuma
“(Z) adonis
16 AZ) harlequinus
Z(Zds) minimus
Z(Zds) binodis
91 UTds) catecus
12 Z(Zds) diminutus
12 06 Z(Zds) guerreroi
73 Z(Zds) carinatus
as Z(Zds) olmecus

26

Z. (Ischnocoelia)
Australian

Z. (Ctenochilus)
Neotropical

Z. (Wettsteinia)
Neotropical

4]

42) productus Incertae sedis

UD) fuscus
35 ZZ) smithii
AZ) spinosus
ZZ) albopictus
18 Z(Zcl) imperfectus
93 LZ(Zel) mexicanus
98 Z(Zcl) romandinus
AZ) wileyi
ZZ) sessilis
ZZ) spinipes
L(Z) discoelioides
LZ) infundibuliformis
ZZ) coeruleopennis
I 2(Z) prominens
38 U2) wagneri 7

Incertae sedis

Z. (Zethusculus)
Neotropical

18 31

Figure |. Most parsimonious tree for subgeneric relationships of Zethus recovered from New Technology
Searches using Implied Weights with k = 14.067383. Numbers below nodes indicate GC values of Symet-
ric Resampling. Terminals labeled in current classification. Z. (Z) = Z. (Zethus); Z. (Zds) = Z. (Zethoides);
Z (Zel) = Z. (Zethusculus). Shaded clades indicate newly proposed classification.

Subgenera of Zethus 259

Figure 2. Synapomorphies supporting Zethus and relationships between its lineages A proepisternum of

Z. spinipes, ventral view; arrowheads indicate lamellae B second metasomal tergum of Z. yarrowi, dorsal
view; arrow indicates stem C pronotum of Z. rodhaini, lateral view D pronotum of Z. planiclypeus, lateral
view E pronotum of Z. robustus, lateral view; arrow indicates dorsal suture F ocelli of Z. mandibularis
G pronotal carina of Z smithii, postero-dorsal view; arrowhead indicates notch H latero-posterior region
of the pronotum of Z. rodhaini; arrow indicates pre-tegular carina I lateral portion of mesoscutum of Z.
spinipes; arrow indicates discoid puncture J mesepisternum of Z. jurinei; arrows indicate dorsal (upper ar-
row) and mid (lower arrow) sections of epicnemial carina K third metasomal tergum of Z. fraternus; arrow
indicates gradulus L second metasomal tergum of Z. aztecus; arrow indicates lamella. M third metasomal
sternum of Z. fraternus; arrow indicates gradulus N tegula of Z. aztecus O ocelli of Z. spinipes P third
metasomal tergum of Z. spinipes; arrow indicates interruption of gradulus. Scale bars: 1.0 mm.

closely related to some Neotropical lineages, while Z. (Zethusculus) occupies a more
basal position on the tree topology. Also, vice-versa occurs, as Z. (Madecazethus) is para-
phyletic in relation to Zethus, but only the African representatives. ‘Thus, the Malagasy
and African representatives belong to the earliest (extant) lineage of Zethus, and due to

260 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

the relationship between them, this group, in its entirety, shall be included in Z. (Ma-
decazethus). This lineage shares with most of the other zethines the laterally straight
pronotal carina (Fig. 2C), while most other Zethus present some sinuosity (Fig. 2D, E).

The redefined Zethus (Madecazethus) (dark blue, Fig. 1) is sister group to the re-
maining Zethus. This larger clade including Oriental and Neotropical representatives
of the genus along with Jschnocoelia and Ctenochilus is supported by the narrower dis-
position of the ocelli, forming an equilateral triangle (Fig. 2F), the presence of the
aforementioned sinuosity of the lateral portion of the pronotal carina (Fig. 2D, E) and
wider gonocoxite.

The second robust lineage found in Zethus is that of the Oriental species (light
blue, Fig. 1). Although no terminal from the Z. trimaculatus group was examined, the
similarity of the species, based on literature (Giordani Soika 1958, 1995), reveal them
to belong to this lineage. No genus group name was ever used to refer to this group,
and thus, a new subgenus is proposed, Z. (Zethastrum).

The following lineage is the clade where the former genus /schnocoelia is placed
(light red, Fig. 1), and it is sister group to the Neotropical clade (tones of dark red,
yellow, green and brown, Fig. 1). Four characters set this relationship: the pronotal
carina dorsally lamellar with a medial notch (Fig. 2G) and with its lateral portion
strongly sinuous (Fig. 2E) and the T1 strongly constricted apically. The presence of the
dorsal suture in the mesepisternum (Fig. 2E) with only few reversions and is poten-
tially a synapomorphy but its optimization is ambiguous due to outgroup sampling.
Still, Lschnocoelia is well supported and will be lowered to subgenus. Following recom-
mendation of the International Code of Zoological Nomenclature for species-group
names, an adaptation of the gender of the specific epithets will also have to be done
and for the same reason.

All Neotropical species of Zethus, along with Ctenochilus, belong to one single
clade (although there are representatives from the Nearctic, these are more derived and
the stem lineages, therefore the origin of the group, Neotropical), supported by six ho-
moplastic conditions: presence of a pretegular carina, which is incomplete( Fig. 2H);
discoid puncture, when present, beveled with the rest of the mesoscutum (Fig. 21);
epicnemial carina with developed dorsal portion (Fig. 2J); T1 expansion of medium
length; presence of gradulus on T3 (Fig. 2K); and gonostylus glabrous.

In summary, Zethus presents now a complete Gondwanian distribution, in a man-
ner that the lineages are related as African + (Oriental + (Australian + Neotropical)).
This finding would suggest that the Zethus lineage probably already existed around 160
million years ago, with its lineages following the same separation sequence as Gond-
wana. However, Perrard et al. (2017) state that the major groups of Vespidae originated
in the early Cretaceous (approx. 100 mya), using, among others, an Eumenine fossil of
89.6 million-years-old that calibrated the divergence of Zethus-Odynerus to that date.
The fossil Symmorphus senex, used in calibration, belongs to a genus that is not among
the stem lineage in Eumenine (Piekarski et al. 2018), meaning that Zethini, and there-
fore probably Zethus, could have derived much earlier and follow the vicariance pattern
described above.

Subgenera of Zethus 261

On the other hand, should we take into account the dating provided by Perrard
et al. (2017), Zethus, a derived group, would have evolved later than 89 mya. In this
sense, this would be a case of pseudocongruence, where the distribution pattern of
species does not reflect the geographical history, despite appearences. Amorim et al.
(2018) refer to this as a pseudogondwanian distribution, and explains as faunal ex-
change between Laurasia and Africa, the Nearctic and Neotropics and Oriental and
Australasia Regions followed by the extinction of the representatives from the Holarc-
tic. Since both hypotheses seem viable, more studies have to be carried out in order to
come to a conclusion for the earlier biogeography of Zethus lineages.

Although there is poor support to properly establish a relationship between some
Neotropical lineages, these lineages themselves are recovered at least moderately sup-
ported. The first identified lineage to diverge is Ctenochilus, the second genus to be in-
cluded in Zethus (Fig. 1). All five species are included in the clade and will be placed in
the subgenus Z. (Ctenochilus). This subgenus is sister group to a clade containing all the
Neotropical Zethus, which is supported by three homoplasies: short galea; developed
lamella of T2 (Fig. 2L) and presence of gradulus in $3 (Fig. 2M).

The Neotropical Zethus clade reveals further paraphyly in the nominotypical
subgenus, as Z. (Zethoides) and Z. (Zethusculus) are nested in this clade but derived
from different points in the topology. The first clade to appear among the Neotropical
group, which consists of two well defined lineages, is supported by the absence of the
transverse interantennal carina and the outer margin of the tegula raised in its entirety
(Fig. 2N). The first group is the already established Z. (Zethoides), whose monophyly
had been recovered by Lopes and Noll (2018) and therefore, will matintain its status
as subgenus.

Sister group to Z. (Zethoides) is a clade that consists of representatives from six
species-groups: Z. cubensis, Z. heydeni (represented by Z. cerceroides), Z. montezuma,
Z. sichelianus (represented by Z. cylindricus), Z. strigosus (represented by Z. adonis)
and Z. sulcatus (represented by Z. harlequinus) groups (Fig. 1). Dalla Torre (1904)
described Wettsteinia sicheliana (= Z. sichelianus) and W. brasiliensis (= Z. adonis), but
Bréthes (1906) rejected it as a distinct genus from Zethus. Since this was a distinct
name for an assemblage that included representatives from two species-groups that are
in the clade, the name will be carried to subgenus as Z. ( Wettsteinia).

The second large clade of Neotropical Zethus consists of the remaining Z. (Zethus-
culus) and Z. (Zethus) and is supported by a wider disposition of the ocelli as an isosce-
les triangle (Fig. 2O), the absence of the apical propodeal lamella and the gradulus of
T3 medially interrupted (Fig. 2P). Only three robust lineages can be identified within
it (Z. (Didymogastra), Z. (Zethusculus) and Z. (Zethus)-see below) and there are some
assemblages that lack strong support to establish a subgenus. ‘Therefore, three species-
groups will be dealt with as /ncertae sedis: Z. pallidus (represented by Z. productus),
Z. spinosus and Z. albopictus groups. ‘The latter has controversial group taxonomy as it
was once assigned to the Z. cubensis group only to be relocated into a group of its own
(Stange, 2003). While there is moderate support for Z. albopictus + Z. (Zethusculus),

only the male has been examined. A closer inspection of the female is desired and if

262 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

more characters appear to corroborate this relationship, the inclusion of Z. albopictus
in Z. (Zethusculus) could be supported.

The clade comprised of Z. fuscus and Z. smithii defines another new subgenus, which
belongs to the Z. fuscus and Z. hilarianus species-groups, respectively. Perty (1833) de-
scribed the genus Didymogastra. De Saussure (1855, 1875) later used the name as divi-
sion of Zethus to allocate species which had an elongated stem of T2 and Dalla Torre
(1892) later raised the status to subgenus. Since the name has been long since used, and
the analysis supports this lineage as a subgenus, its status should be revised.

Despite Z. (Zethusculus) being recovered as paraphyletic by Lopes and Noll
(2018), this subgenus was recovered here as monophyletic and with high support
(Fig. 1). New characters now help support the monophyly of the subgenus, with
lesser emphasis given to the aspect of sutures and grooves in the mesopleura and
wider sampling of other genera of Zethini. Thus, Z. (Zethusculus) will keep its status
as subgenus.

Finally, the last clade which consists of representatives from seven species-
groups: Z. chalybeus (represented by Z. wagneri), Z. coeruleopennis, Z. discoelioides,
Z. infundibuliformis, Z. prominens, Z. spinipes and Z. wileyi groups. The latter is
a novelty, as upon the description of this monotypic group, Lopes et al. (2017)
regarded it as being closely related to Z. hilarianus group and thus, would be ex-
pected to be part of Z. (Didymogastra). Since this large assemblage includes the
type species of the genus, Z. coeruleopennis, the species in this clade will be kept in
the subgenus Z. (Zethus). Although not examined, according to descriptions (Bo-
hart and Stange 1965; Porter 2008; Carpenter 2011), Z. magretti, Z. stangei and
Z. josefi fit best this subgenus.

The topology described above presented presented high nodal stability, except for
the extreme values of 1 and 500 for k (the topologies for each k value can be seen in
Suppl. material 2 — available in OSE, under https://doi.org/10.17605/OSEIO/FJV32)
used in the sensibility analysis, relationships and subgenera (Fig. 3).

Zethus Fabricius, 1804

Zethus Fabricius, 1804: 282 (genus). Giordani Soika 1958: 75 (revision of Oriental
species). Bohart and Stange 1965 (subgenera, revision new world species). Giorda-
ni Soika 1979: 20 (revision African species). Carpenter 1986: 88 (cat.). Vecht and
Carpenter 1990: 60 (cat.). Carpenter et al. 2010 (cat. African species).

Type species: Zethus coeruleopennis (Fabricius, 1798) (= Vespa coerulepennis Fab-
ricius, 1798).

Lethus Say, 1837: 387 (misspelling).

Heros de Saussure, 1856: 115 (division of Zethus).

Euzethus Dalla Torre, 1904: 14 (name for division I of Zethus in de Saussure 1852).
Type species: Vespa coeruleopennis (Fabricius, 1798).

Subgenera of Zethus 263

Ml

aN

t
fon 15 10 53 6 88 sOSIaDIABSISHERES ;
14 nxn Caan One Z, (Zethastrum) ad

000121011111 ~ \
Pe |

80 $6.96 116145145161 f, =

OnO=O Z. (Ischnacoelia) ’
oo112014 ] ati

A
16 18 47 65 81 143 a _
Cuan Z, Como EH ed
101110
PH 2 50 55 e127 151 22 84 108154 :
‘6.6.66 6 ts J
401110 Z. (Wettsteinia)

FS 131117 143144 165, .
Onn CaCeO vA (Zethoides) :
111121010 =

Z. productus

8 GT 165 er 3 :
OO Z. (Didymogastra) FH ‘auite-@.

Z. spinosus

BS 16
Ones i,
ooo== Z. albopictus

ED ee. (Zethusculus) FH EES
1111

Figure 3. Simplified phylogeny of Zethus. Square plots indicate distinct recovery status of clades under

k values
fi] 8 [9 [10] |_| paraphyletic
ju [r2|s [a] [__]monophytetic

15] 16] 17] 18]
| 19 | 20 | 21 {500} | | unresolved

different & values.

Description. Frons projected over antennal socket. Gena angled. Occipital carina
ventrally complete, with small branch or completely absent. Pronotal carina short or
lamellar. Proepisternum with posterior margin lamellar (Fig. 2A), rarely blunt. Metano-
tum bent, rarely flat. Mid tibia with one or two spurs. Propodeum without apical rim.
Propodeum with or without apical lamella, orifice slit like. Valvula projected, with
superior margin free, infero-posterior angle straight. T1 variable. 72 with evident stem
(Fig. 2C), occasionally absent.

Observations. The large diversity included in Zethus reflects diagnostic features, of
which few encompass the entirety of the genus, only the projected frons, angled gena,
absence of the apical rim in the propodeum, orifice slit like and traits of the valvula
being constant within the group. Also, the absence of the apical rim in propodeum is
constant throughout the entire genus while it is present in most of the other Zethini.
The subgenera are more defined in more detail.

Distribution. Cosmopolitan (specified under each subgenus)

Included species. 298 (listed under each subgenus in Suppl. material 3)

264 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

Identification key to subgenera of Zethus Fabricius

1 Pronotal carina short, not lamellar, and at most slightly sinuous laterally
5s Coa Co ed er a Rr A ENV FW HWE MOR A re PR 2
- Pronotal carina usually lamellar and strongly sinuous laterally (Fig. 2E); if
short or regular, then vertex is raised after ocelli or lamella of T3 laterally

tapered aielscconcatyalanvella presetibet.. ete. ACS teed Aan .h a ie dan Peer sa at ca 3
2 T1 with lateral margins touching ventrally (Fig. 7B). Apical lamella of T3
WAC OUT AY ADCEM ES ole. eons xeonsstioones st venny tees apeoneeceytevvens ot Z. (Madecazethus)
- T1 with lateral margins clearly separated from each other. Apical lamella of
T3 with a:contiaent lareralandent( Pig. 9D): ...dceeiesecenta: Z. (Zethastrum)
) Labial palpi3-seomented (igs 4B OB ie vcatis edsepcns nhecerrmaaeaunsobtasnpovnenreste 4
= Labial palpi usually 4-segmented, if 3-segmented, stem of T2 elongated.....5
4 Labial palpi psamophore with numerous long and thick setae (Fig. 4B); max-

illary palpi 6-segmented; apical propodeal lamella triangular and isolated;
posterior face of metanotum flat (Fig. 4C); dorsal aperture of propodeum
PDEOSE TT sa MR acs Cte cee te tense hens errr iA rence eM Soci ie Meme at Z. (Ctenochilus)
- Labial palpi regular, with no outstanding setae; maxillary palpi 3-segment-
ed (Fig. 6B); apical propodeal lamella rounded and contiguous (Fig. 6C);
metanotum flat or more evenly convex; dorsal aperture of propodeum ab-
So ea Ronda a ee ert ia cat ee Ae ee er Z. UIschnocoelia)
5 Male antennae rolled (Fig. 12D); females with clypeus microstriate (Fig. 12B);
tegula with outer margin raised and only medially interrupted (Fig. 12C) ....
RAT Bh Si ls Ny dN Be NR dy ate NG ONS. 4 uN, Bs Z. (Zethusculus)
= Male antennae hook-like; female clypeus without microstriae; outer margin
of tegula either completely raised or limited to posterior half... 6
6 T3 posterior margin projected, with apical lamella tapered laterally with in-
dented secondary lamella present (Fig. 10B, C); $3 with apical lamella re-
duced and a medial lamellar lobe projecting subapically from sclerite (Fig.
|KO {20 i werk Sh eri. etre ener emeran Weve tiey Arnel Meek) Wetarer We Tes Z. (Zethoides)
= T3 not projected, with apical lamella of regular length throughout and no sec-
ondary lamella; $3 without medial lamellar lobe and apical lamella regular.....7
4 Propodeum with apical lamella developed... eee eee Z. (Wettsteinia)
i Propodeum without apical lamella, if developed, then vertex is raised after

8 Notauli absent; vertex of head flat; pre-tegular carina present... cece
PSN Man era eth aS ROME Da Slt Se ee A a Z. (Didymogastra)
= Notauli present; vertex usually raised after ocelli; pre-tegular carina absent ...

Seer nee rene ees, een, eae Spee ene reo. ee) 2 eee eee. seen sen Z. (Zethus)

A synopsis of each taxon in the key will follow, in alphabetical order, with a taxo-
nomic catalog, description, observations, distribution and included species number. A

Subgenera of Zethus 265

list of species in each subgenus is provided in Suppl. material 3 (available in OSE un-
der https://doi.org/10.17605/OSEIO/FJV32). The description will consist of a core
description, where general characters are cited and the synapomorphies, which will be
in bold. Unique synapomorphies will be in bold italic.

Zethus (Ctenochilus) de Saussure, 1856, stat. nov.
Fig. 4

Ctenochilus de Saussure, 1856: 323 (name for division III of Pterocheilus in de Saussure
1852); 1875: 372 (genus). Bequaert and Ruiz 1942: 220. Giordani Soika 1962
(treatment of three species).

Type species: Epipona pilipalpa Spinola, 1851.

Description. Male antennae hooked. Interantennal carinas present. Clypeus of female
short or long, with or without apical teeth, always without microstriae. Male mandible
4-toothed. Galea reaching fore coxae. Labial palpi with psamophore aspect, 3-segment-
ed (Fig. 4B) and palpomere I straight. Only small branch of occipital carina ventrally.
Vertex flat. Gena evenly convex. Pronotal carina lamellar with lateral portion strongly sin-
uous. Pre-tegular carina present, incomplete. Welts present (Fig. 4C) or absent. Notau-
lices present, complete or incomplete. Tegula evenly convex with outer margin raised only
on posterior half. Epicnemial carina usually complete. Posterior carina of mesepimeron
absent. Iwo midtibial spurs. Metanotum anteriorly margined, with lateral carina re-
stricted to anterior half and posterior face flat (Fig. 4D). Posterior tibia of females with
spines in one line. Marginal cell with obtuse apex. Propodeum with dorsal aperture, lateral
carina on dorsal half and sublateral carina present. Dorsal margin of dorsal aperture
present. Apical lamella of propodeum present. T2 with short stem. T3 lamella simple, no
indents. $3 lamella reduced, no medial lobe. $5 and 6 of males without carinas.

Observations. Due to the lowered status of Ctenochilus to subgenus, the species
belonging to this group require new combinations. ‘These are given in Suppl. material 3.

Distribution. Neotropical (Argentina and Chile).

Included species. 5

Figure 4. Synapomorphic characters of Zethus (Ctenochilus) indicated in Z. pilipalpus A habitus B labial
palpi C mesoscutum, dorsal view; arrow indicates welt D metanotum, oblique view; arrow indicates flat

surface. Scale bars: 1.0 mm.

266 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

Zethus (Didymogastra) Perty, 1833 stat. rev.
Fig.,5

Didymogastra Perty, 1833: 144 (genus). Bohart and Stange 1965: 25 (jr. syn. of Zethus).
Type species: Didymogastra fusca Perty, 1833.
Zethus (Didymogastra) Dalla Torre, 1892: 9 (subgenus of Zethus).

Description. Interantennal carinas present. Clypeus of female short, without micro-
striae. Clypeal teeth absent or present. Male mandible 4-toothed. Galea length vari-
able. Labial palpi segmentation variable. Occipital carina ventrally complete, occasion-
ally incomplete. Vertex flat. Genal margin evenly convex. Pronotal carina lamellar with
lateral portion strongly sinuous. Pre-tegular carina present, incomplete. Welts present
or absent. Notaulices absent. ‘Tegula evenly convex with outer margin raised only on
posterior half. Epicnemial carina variable. Posterior carina of mesepimeron present
(Fig. 5B). Two midtibial spurs. Metanotum anteriorly margined. Lateral carina of
metanotum absent. Posterior tibiae of females with one row of spines. Marginal cell
apically obtuse. Dorsal aperture of propodeum present, varying from slit, to wide ori-
fice, to two orifices. Propodeum presenting only lateral carina, resistricted to dorsal
half, and without apical lamella. Propodeal orifice with rounded dorsal margin. T1
with long stem and medium expansion. Anterior margin of S1 elliptical or quadrate.
Stem of T2 elongated (Fig. 5C). Lamella of T2 well developed, sometimes reflexed.
Lamellas of T3 and S3 developed and simple, without indents. $5 and 6 of males

without carinas.

Observations. Although here the very long stem of T2 is marked as a synapomor-
phy, it is not constant throughout the entire subgenus. Some representatives from the
hilarianus group have a medium-sized stem. Part of the Ailarianus group (former Z.
smithii group) has been revised and phylogenetically analysed by Lopes et al. (2015).

Distribution. Nearctic and Neotropical.

Included species-groups: fuscus and hilarianus.

Included species. 25.

a
Figure 5. Synapomorphic characters of Zethus (Didymogastra) indicated in Z. fuscus A habitus B mese-
pimeron, posterior view; arrow indicates posterior carina C second metasomal tergum; arrow indicates
stem. Scale bars: 1.0 mm.

Subgenera of Zethus 267

Zethus Ischnocoelia) Perkins, 1908 stat. nov.
Fig. 6

Ischnocoelia Perkins, 1908: 28, 32 (genus). Perkins 1912: 118 (distinct from Elimus).
Meade-Waldo 1913: 44; 1914: 459 (note on synonymy). Bohart and Stange 1965:
11. Giordani Soika 1969: 66 (key to species). Cardale 1985: 177-179 (cat.).
Type species: Ischnocoelia xanthochroma Perkins, 1908.

Stenolabus von Schulthess, 1910: 189 (genus). Meade-Waldo 1914: 459 (jr. syn. of
Ischnocoelia).
Type species: Stenolabus fulvus von Schulthess, 1910.

Description. Male antennae as a hook. Interantennal carinas variable. Clypeus of fe-
male long, considerably passing acetabulum with convex apical margin, without
microstriae nor apical teeth. Maxillary and labial palpi 3-segmented (Fig. 6B). Galea
reaching first pair of coxae. Male mandible 4-toothed. Small ventral branch of occipi-
tal carina ventrally. Vertex flat. Genal margin evenly convex. Pronotal carina lamellar,
strongly sinuous laterally. Pretegular carina absent. Welts variable. Notaulices present,
incomplete. Tegula evenly convex, with outer margin raised only on posterior half. Epic-
nemial carina variable. Mesepimeron without carina. Mid tibia with two spurs. Metano-
tum not anteriorly margined with lateral carina reaching posterior half of sclerite. Pos-
terior tibiae of females with one row of spines. Apical angle of marginal cell variable.
Dorsal aperture of propodeum absent. Propodeum only with lateral carina. Dorsal
margin of propodeal origice rounded. Apical lamella of propodeum rounded and con-
tiguous (Fig. GC). T1 with short or long stem and medium expansion. Anterior margin
of S1 quadrate. Apical lamellae of T2 and T3 and S3 developed and simple, without
lateral indents. S5 and S6 in males with transverse carina. Volselar crest axe-like.
Observations. The ICZN stablishes that a species’ epithet should agree with the
gender of the genus. Since Ischnocoelia is female and Zethus, male, there is a manda-
tory spelling change (Art. 34.2, ICNZ) for names that are female. While most of the

specific epithets could simply be converted into masculine form due to the new com-

Figure 6. Synapomorphic characters of Zethus (Ischnocoelia) A habitus of Z. xanthocrhomus B labila
palpus of Z. elongatus C propodeum of Z. integrus, oblique view; arrow indicates continuity between both

apical lamellae. Scale bars: 1.0 mm.

268 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

bination under Zethus and kept similar to the current valid one, a new name had to
be given to Ischnocoelia ferruginea due to homonomy. ‘The new combinations of other
species are given in the Suppl. material 3.

Distribution. Australian.

Included species. 14.

Zethus Ischnocoelia) rutilus Lopes, nom. nov.

Elimus ferrugineus Meade-Waldo, 1910: 38 (male, “S. Australia” — London, no.
18.129). 1913: 45 (not Elimus, assigned to Ischnocoelia).

Ischnocoelia ferruginea Bequaert, 1928: 151 (cat.). Bohart and Stange 1965, 40: 11
(note). Giordani Soika 1969: 71 (key), 76 (fig, Victoria: Melbourne, Broad Mead-
ows). Cardale 1985: 178 (cat.). Borsato 2003: 511 (female); 517 (figs, syn. sr. of
D. ecclesiasticus Rayment, Western Australia: Fremantle, New South Wales: Syd-
ney, Victoria: 3 localities, Australian Capital Territory: Canberra). Carpenter and
Brown 2021: 12 (cat.).

Discoelius ecclesiasticus Rayment, 1954 (female, male, nest). Borsato 2003: 511, 517
(syn. jr. of 1 ferruginea (Meade-Waldo)).

Ischnocoelia ecclesiastica; van der Vecht, 1981: 443, 456 (not Discoelius, assigned to
Ischnocoelia, probable syn. of other species). Cardale 1985: 177 (cat.).

Observations. [he new combination for /. ferruginea would be Zethus ferrugineus, which
is a secondary junior homonym of Zethus ferrugineus de Saussure, 1852, which is a junior
synonym of Zethus biglumis Spinola, 1841. Therefore, a new name has to be proposed.

Etymology. The new name follows the intention of the name it is replacing, an
epithet referring to color, which translates to a yellowish red.

Zethus (Madecazethus) Giordani Soika, 1979
Fig. 7

Zethus (Madecazethus) Giordani Soika, 1979: 20 (key to subgenus), 53 (subgenus, key
to species).
Type species: Labus madecassus Schulthess, 1907

Description. Male antennae as a hook. Interantennal carinas present. Clypeus
of female short without microstriae, apical teeth present or absent. Male mandible
4-toothed. Labium with short to medium galea, palpi 4-segmented with first segment
curved. Occipital carina ventrally complete. Vertex flat. Genal margin evenly convex.
Pronotal carina short, straight laterally. Pre-tegular carina, when present, incomplete.
Welts and notaulices absent. Tegula evenly convex or posteriorly angled, with outer
margin raised completely or restricted to posterior half. Dorsal portion of epicnemial

Subgenera of Zethus 269

Figure 7. Synapomorphic characters of Zethus (Madecazethus) A habitus of Z. madecassus B petiole of

Z. rhodesianus; arrow indicates point where the two sides of the first terfum meet. Scale bars: 1.0 mm.

carina present, sometimes absent. Mesepimeron without carina. Two midtibial spurs.
Metanotum usually not anteriorly margined. Lateral carina of metanotum usu-
ally absent. Posterior tibiae of females with spines restricted to basal portion or as a
row along entire tibia. Apical angle of marginal cell obtuse. Dorsal propodeal aperture
present. Propodeum with lateral carina always present, submedian rarely and sublateral
variable, but incomplete when present. Dorsal margin of propodeal orifice acute,
rarely rounded. Apical propodeal lamella triangular. T1 with short stem, lateral mar-
gins of sclerite touching ventrally (Fig. 7B) and narrow expansion. Anterior margin
of S1 variable in shape. Stem of T2 developed. Apical lamella of T2 present, reduced in
Malagasy species. Lamellae of T3 and S3 developed and simple, without lateral indent.
S5 and 6 of male withour carinas. Aedeagus with apically flattened apodemes.

Observations. Although Z. madecassus and Z. seyrigi were the only representatives
of Z. (Madecazethus) they are not sister groups and thus, should not be placed in a spe-
cies group of their own. A wider analysis of the African Zethus is needed to verify the
validity of the already proposed pubescens group (represented by Z. empeyi, Z. rhodani
and Z. rotschildianus), since it may also be paraphyletic.

Distribution. Palearctic and Afrotropical

Included species-groups. delagoensis, favillaceus, pubescens.

Included species. 17

Zethus ( Wettsteinia) Dalla Torre, 1904 stat. nov.
Fig. 8

Wettsteinia Dalla Torre, 1904: 10 (genus). Bohart and Stange 1965: 25 (jr. syn. of
Zethus).
Type species: Labus sichelianus de Saussure, 1875 (= Zethus sichelianus (de Saus-
sure, 1875)).

Laboides Zavattari, 1912: 65 (division of Zethus). Bohart and Stange 1965: 25 (jr. syn.
of Wettsteinia).

270 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

Figure 8. Synapomorphic characters of Zethus ( Wettsteinia) A habitus of Z. sichelianus B forewing of Z.
adonis; arrow indicates acute apex of marginal cell. Scale bars: 1.0 mm.

Type species: Labus sichelianus de Saussure, 1875 (= Zethus sichelianus (de Saus-
sure 1875)).

Description. Male antennae hook-like. Interantennal carinas present or absent. Cl-
ypeus of female short, without microstriae, with or without apical teeth. Number of
teeth in male mandible variable. Galea length at most short. Labial palpi 4-segmented.
Occipital carina ventrally complete. Vertex flat. Genal margin sinuous. Pronotal ca-
rina lamellar, strongly sinuous laterally. Pre-tegular carina present, incomplete. Welts
and notaulices variable. Tegula evenly convex with outer margin usually raisen along
entire margin, occarsionally restricted to posterior half. Epicnemial carina dorsally
complete or incomplete. Mesepimeron without carina. Mid tibia with one or two api-
cal spurs. Metanotum anteriorly margined. Lateral carina of metanotum reaching at
most half of sclerite. Spines of posterior tibiae of females, when present, scattered or
distributed in a row. Apex of marginal cell usually acute. Dorsal propodeal aperture
present. Propodeal submedian carina complete, when present. Propodeal lateral ca-
rina limited to dorsal half and sublateral carina absent. Dorsal margin of propodeal
orifice rounded. Apical lamella of propodeum present. Apex of marginal cell acute
(Fig. 8B). T1 with long or short stem and narrow expansion. Anterior margin of S1
elliptical or quadrate. Lamellae of T2 and 3 and S3 well developed and simple, without
indents. S5 and 6 of male without carinas. Basal plate of aedeagus short.

Observations. Bohart and Stange (1965) already suspected a close relationship
between the species-groups in this subgenus but left it as part of Z. (Zethus). A curious
trait of females of many species here present is the three-spotted clypeus (on apical spot
and a pair of lateral spots). Although it is not constant along the entire group, it is a
pattern rarely seen outside this clade.

Distribution. Nearctic and Neotropical.

Included species-groups. cubensis, heydeni, montezuma, sichelianus, sulcatus and
SUI gOSUS.

Included species. 58

Subgenera of Zethus 271

Zethus (Zethastrum) Lopes, subg. nov.
http://zoobank.org/07FE7FD8-2D DE-4603-8622-F32BEBD8DF5C
Fig. 9

Type species. Zethus ceylonicus de Saussure, 1867.

Description. Male antennae hook-like. Interantennal carinas present or absent.
Clypeus of female withour microstriae, short, usually with apical teeth. Male mandible
with three or four teeth. Galea stub-like. Labial palpi 4-segmented with palpomere I
straight (Fig. 9B). Occipital carina ventrally complete. Vertex flat. Genal margin evenly
convex. Pronotal carina short, slightly sinuous laterally. Pre-tegular carina absent. Welts
absent. Notaulices complete. Tegula evenly convex with outer margin completely
raised. Epicnemial carina variable. Mesepimeron without carina. Mid tibia with two
spurs. Metanotum usually anteriorly margined, with lateral carina of variable length.
Spines in posterior tibiae of females, when present, restricted to basal portion. Apical
angle of marginal cell obtuse. Dorsal aperture of propodeum present. Submedian ca-
rina present (Fig. 9C), but variable in the group; lateral carina present, with variable
length; sublateral carina complete. Dorsal margin of propodeal orifice rounded or
acute. Apical propodeal lamella triangular. T1 with short stem and long expansion
with semi-parallel sides, with basal dorsal carina (Fig. 9C). S1 with elliptical anterior
margin. Lamella of T2 well developed. T3 with depression and lamella with conflu-
ent indent (Fig. 9D). Lamella of T3 and S3 simple. S5 and 6 of males without carinas.
Aedeagus with short basal plate. Digitus with basal projection and basal tuft.

Observations. Only three of four species-groups from the Oriental region were sam-
pled: Z. quadridentatus group (represented by Z. varipunctatus); Z. luzonensis group (rep-
resented by Z. fulgens); and Z. dolosus group (all the other Oriental Zethus). Although the

present analysis shows the basal longitudinal carina and weak apical constriction of T1 as

x | i Al \v _
Figure 9. Synapomorphic characters of Zethus (Zethastrum) indicated in Z. ceylonicus A habitus B labial
palpus C propodeum and basal portion of petiole, posterior view; arrowhead indicates submedian carina;
arrow indicates basal longitudinal carina in first tergum D third metasomal tergum, lateral view; arrow

indicates confluent indent. Scale bars: 1.0 mm.

272 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

synapomorphies for the subgenus and constant throut the clade, the sampling may not be
as optimal as presumed, leaving out species with different traits than what was portrayed.

Wang et al. (2019) recently published three new species and a key to the Oriental
species. The constriction of T1 is occasionally used in their key, highlighting the exist-
ence of specimens with a stronger constriction. However, this is not illustrated, making
it impossible to determine to what degree the sclerite narrows. Still, clearly strong con-
strictions are illustrated for the newly described species Z. asperipunctatus Wang and
Li and Z. nullimarginatus Wang and Li. The basal longitudinal carine of T1 was not
used in the key, but in the two aforementioned species, the structure was not observed.

The Z. dolosus species group appears to be paraphyletic in relation to the Z. guadri-
dentatus group. A thorough analysis is needed of Z. (Zethastrum) including representa-
tives from the trimaculatus species group to verify the validity of the assemblages.

Although Gusenleitner (2007) described Z. fulgens comparing it to Z. nigerrimus, a
species in the ¢rimaculatus group, the type was examined, and it fits more properly the
Z. luzonensis group. Selis (2017) recently revised this group, but left Z. fulgens out, just
as Wang et al. (2019) did not key it in couplets along with the group. However, in its
description (Gusenleitner, 2007), more emphasis is given to punctation and color and
little attention is given to the pilosity, an outstanding and diagnostic trait of the group
and so, it is no surprise Selis did not consider examining this species.

Distribution. Palearctic and Oriental.

Included species-groups. dolosus, luzonensis, quadridentatus, trimaculatus.

Etymology. The subgeneric name comes from the radical Zethus accompanied by
the suffix -astrum which stands for incomplete resemblance.

Included species. 29.

Zethus (Zethoides) Fox, 1899
Fig. 10

Zethoides Fox, 1899: 436 (genus). Bréthes 1903: 249 (questions as distinct genus);
Zavattari 1912: 6 (key), 76 (questions distinct genus).
Type species: Zethoides smithii Fox, 1899 (= Zethus (Zethoides) chapadensis Bohart
and Stange 1965).

Baeoprymna Cameron, 1912: 224 (genus). Bohart and Stange 1965: 150 (jr. syn. of
Zethus (Zethoides))
Type species: Baeoprymna rufoornata Cameron, 1912 (= Zethus miniatus de Saus-
sure, 1858).

Protozethus Bertoni, 1925: 75 (genus). Bohart and Stange 1965: 150 (jr. syn. of Zethus
(Zethoides)).
Type species: Zethus olmecus de Saussure, 1875 by monotypy.

Zethus (Zethoides) Bohart & Stange, 1965: 20 (dendrogram), 25 (key to subgenera),
150 (subgenus of Zethus, sr. syn. of Baeoprymna and Protozethus), 203, 204 (figs).
Lopes and Noll 2018 (phylogenetic analysis).

Subgenera of Zethus 273

Figure 10. Synapomorphic characters of Zethus (Zethoides) A habitus of Z. miniatus B end-on view

of primary (lower) and secondary (upper) lamellae of the third tergum; arrowheads delimimt extent of
primary lamella C third metasomal tergum and sternum, lateral view; arrowhead indicates perpendicular

indent; arrow indicates medial lamellar lobe. Scale bars: 1.0 mm.

Description. Male antennae hook-like. Longitudinal interantennal carin present,
transversal may be absent. Female clypeus short, not microstriate, usually with api-
cal teeth. Male mandible with three to four teeth. Galea length variable. Labial palpi
4-segmented, with palpomere one curved or straight. Occipital carina ventrally com-
plete. Vertex flat. Genal margin rarely evenly convex, sinuous in more derived groups.
Pronotal carina lamellar with lateral portion strongly sinuous, rarely straight (in o/-
mecus group). Pre-tegular carina usually incomplete, sometimes absent. Welts absent.
Notaulices rarely present. Tegula angled or evenly convex, with outer margin usually
completely raised. Epicnemial carina complete. Posterior carina of mesepimeron usu-
ally absent, present only in Z. binodis group. Two or one midtibial spur. Metanotum
anteriorly margin. Lateral carina of metanotum variable, from very short to extending
as a transverse carina. Coxa usually with reflexed socket margin. Spines in posterior
tibiae of females in one row, when present. Apical angle of marginal cell variable. Dor-
sal aperture of propodeum present. Propodeum with submedian carina usually present
(absent only in azgtecus and minimus groups); lateral carina present of variable length;
sublateral usually absent. Apical propodeal lamella present or absent. T1 variable. Mar-
gin of S1 variable. Stem of T2 variable (especially elongated in binodis group). Lamella
of T2 well developed. T3 tuberculate and apical margin posteriorly projected. Api-
cal lamella of T3 tapered laterally (Fig. 10B). Secondary lamella present on T3
(Fig. 10B) with perpendicular lateral indent (Fig. 10C). Lamella of $3 reduced.
Medial lamellar lobe on S3 present (Fig. 10C). S5 and 6 of males without carinas.
Basoventral projection of cuspis absent.

Observations. Zethus (Zethoides) stands out among all the other subgenera of Ze-
thus. While its synapomorphies are concentrated in the third metasomal segment, its
representatives do not share a similar body plan and show the greatest morphological
variation within one subgenus. The species-groups here present may show similarity to
other lineages (or subgenera) of Zethus and may mislead one into supposing a closer

274 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

relationship to others than Z. (Zethoides) (e.g.: Z. aztecus to some Z. (Zethusculus); Z.
binodis group to Z. (Didymogastra); Z. biglumis group to the Z. pallidus group). This
may suggest a faster diversification in the lineages of Z. (Zethoides) when compared to
other subgenera.

Distribution. Nearctic and Neotropical.

Included species-groups. aztecus, biglumis, binodis, carinatus, olmecus, parvulus.

Included species. 43

Zethus (Zethus) Fabricius, 1804
Fie: 2 cl

Zethus Fabricius, 1804: 282 (genus). Giordani Soika 1958: 75 (revision of Oriental
species). Bohart and Stange 1965 (revision new world species). Giordani Soika
1979: 20 (revision African species). Carpenter, 1986
Type species: Zethus coeruleopennis (Fabricius, 1798) (= Vespa coerulepennis Fab-
ricius, 1798).

Lethus Say, 1837: 387 (misspelling).

Heros de Saussure, 1856: 115 (division of Zethus).

Euzethus Dalla Torre, 1904: 14 (name for division I of Zethus in de Saussure 1852).
Type species: Vespa coeruleopennis (Fabricius, 1798)

Zethus (Zethus) Bohart & Stange, 1965: 20 (dendrogram), 25 (key to subgenera, sub-
genus of Zethus), 197-201 (figs). Lopes and Noll 2018 (paraphyletic).

Description. Male antennae hook-like. Interantennal longitudinal and transversal
carinas absent. Clypeus of females short, without microstriae and with or without
apical teeth. Male mandible with two to four teeth. Galea short. Labial palpi usually
4-segmented with first palpomere curved. Occipital carina ventrally present or absent
(Fig. 11B). Vertex generally raised behind ocelli. Genal margin evenly convex. Pronotal
carina lamellar or short with lateral portion straight or sinuous. Pre-tegular carina
absent. Welts absent. Notaulices present, incomplete (Fig. 11C) or complete in more
derived groups. Tegula evenly convex or posteriorly angled, with outer margin beveled
or raised on posterior half. Dorsal carina usually complete, sometimes dorsally incom-
plete. Mesepimeron without carina. Usually two tibial spurs, rarely one. Metanotum
anteriorly margined, usually without lateral carina. Spines of hind tibia scattered. Mar-
ginal cell apically obtuse. Dorsal aperture of propodeum mostly present. Propodeum
with submedian carina absent (present only in Z. wileyi), lateral and sublateral carinas
present. Apical lamella of propodeum absent (present only in Z. prominens). T1 vari-
able. S1 with anterior margin elliptical or quadrate. Lamellae of T3 and S3 usually
developed. S5 and 6 of males without carinas.

Observations. The inclusion of Z. wileyi in this clade was unexpected. As observed
by Lopes et al. (2017), this taxon ran in Bohart and Stange’s (1965) key as closely re-
lated to the species-groups within Z. (Didymogastra), but in the present analysis it is

Subgenera of Zethus 275

Figure I 1. Synapomorphic characters of Zethus (Zethus) A habitus of Z. coeruleopennis B head of Z.
infundibuliformis, oblique posterior view. 42. Mesoscutum of Z. discoelioides, dorsal view; arrowhead in-

dicates incomplete notaulus. Scale bars: 1.0 mm.

recovered in Z. (Zethus). The former relationship may have been an artifact due to poor
sampling of representatives in the nominotypical subgenus.

Distribution. Nearctic and Neotropical.

Included species-groups. chalybeus, coeruleopennis, discoelioides, infundibuliformis,
magrettl, prominens, spinipes, stanget, wileyi.

Included species. 52

Zethus (Zethusculus) de Saussure, 1855
Fig. 12

Zethusculus de Saussure, 1855: 118 (division of genus Zethus); 1875: 18 (division of
Zethus).
Type species: Zethus jurinei de Saussure.

Zethucculus Howes, 1917: 407 (misspelling).

Zethus (Zethusculus) Bohart & Stange, 1965: 20 (dendrogram), 25 (key to subgenera),
125 (subgenus of Zethus, key to species), 202 (figs). Lopes and Noll 2018 (para-
phyletic).

Description. Interantennal longitudinal and transversal carinas absent. Male fla-
gellum rolled (Fig. 12D). Female clypeus microstriate (Fig. 12B), short and without
apical teeth. Male mandible 3-toothed. Galea short. Labial palpi 4-segmented with
first palpomere curved. Occipital carina ventrally complete or as small branch. Vertex
usually raised (flat only in the imperfectus group). Genal margin mostly evenly con-
vex (sinuous in the imperfectus group). Pronotal carina lamellar with lateral portion
strongly sinuous. Pre-tegular carina incomplete. Welts and notalulices absent. Tegula
with outer margin usually angled, raised except for medial interruption (Fig. 12C).
Epicnemial carina complete. Mesepimeron without carina. Mid tibia with one apical
spur. Metanotum anteriorly margined with lateral carina extending at most to anterior
half of the sclerite. Spines in posterior tibia scattered. Apical angle of marginal cell
variable. Dorsal aperture of propodeum only present in imperfectus group. Propodeum

276 Rogério Botion Lopes et al. / Journal of Hymenoptera Research 82: 253-283 (2021)

Figure 12. Synapomorphic characters of Zethus (Zethusculus) A& habitus of Z. jurinei B close-up of
female clypeus of Z. mexicanus C tegula of Z. mexicanus; arrowheads indicate length of interruprion on

raised margin D male flagellum of Z. mexicanus. Scale bars: 1.0 mm.

with lateral carinas and without submedian and sublateral carinas. Apical lamella of
propodeum only present in imperfectus group. T1 with short stem and medium ex-
pansion. S1 with elliptical anterior margin. S2 with apicall lamellae. T3 with apical
lamella only in imperfectus group. S3 without lamellae only in mexicanus group. S5 and
6 without carinas. Anterior margin of ventral lobe of aedeagus reflexed outward.
Cuspis with apical tuft.

Observations. While Lopes and Noll (2018) recovered this subgenus as paraphy-
letic, the results here present support the wider analysis of the group (Golfetti et al.
2020) where it is recovered as monophyletic.

Distribution. Nearctic and Neotropical.

Included species-groups. arietis, imperfectus, mexicanus.

Included species. 27.

Nomen dubium

These taxa of doubtful application lack evidence that allows a proper afhliation to
species-groups or subgenera, thus considering them incertae sedis as well. Three of the
taxa are already cited in Bohart and Stange (1965): Z. assimilis (Bréthes), Z. holmbergii
Bréthes and Z. medius Bréthes. Three species are added to this list: Z. didymogastra
Spinola, Z. rufipes Fox and Z. scandens Zavattari.

Zethus didymogastra Spinola, 1841 — After its description, de Saussure (1852)
synonymized it under Z. binodis Fabricius, only to go back and validate
Z. didymogastra again after two decades (de Saussure, 1875). The last mention
of this species was by Cameron (1912) when he synonymized it once again also
under Z.binodis. Nevertheless, the taxonomic catalog of Z. binodis in Bohart
and Stange (1965) does not bring the synonym nor is the species brought up
anywhere else in their study.

Subgenera of Zethus 277

Zethus rufipes Fox, 1899 — This taxon makes a rather curious case, where Bohart and
Stange (1962) desginated a lectotype, but never mentioned it in their great revision
of 1965. The fact that this species was omitted in Bohart and Stange (1965) was
noted by Carpenter and Vecht (1991).

Zethus scandens Zavattari, 1913 — This species was described by Zavattari and only
again cited by Rasmussen and Asenjo’s (2009) catalog for Peruvian fauna. No re-
marks or lists were made by any other authors, not even Bohart and Stange (1965).

Concluding remarks

This is the first broad phylogenetic analysis of Zethus and corroborates an already pre-
dicted paraphyly of the genus in relation to Ischnocoelia and Ctenochilus. Still, the study
suggests an expansion regarding the subgeneric classification, as nine robust lineages
were recovered and labeled as subgenera. Despite the fact that the clades comprising
each subgenus are at least moderately supported, their relationships are not, and there
are also three species-groups (albopictus, pallidus and spinosus) that require deeper in-
vestigation in order to assign them to a subgenus or create one of their own. Thus, this
study reveals an incongruence with traditional classification, proposes a new one and
forms a base for more specific approaches on the genus.

Acknowledgements

We thank all who supported the completion of this study, especially all collections and
curators who provided loans that allowed wide sampling. We also thank Dr. Cintia Lopes,
Dr. Dalton Amorim, Dr. Marcel Hermes and Dr. Yuri Grandinete for insights on early
versions of the manuscript. We also thank Coordenacao de Aperfeicoamento de Pessoal
de Nivel Superior (CAPES) for providing scholarships for RBUs doctorate in the Univer-
sidade de Sao Paulo and research internship at the American Museum of Natural History.

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Supplementary material |

List of characters and states used in the study

Authors: Rogério Botion Lopes, James M. Carpenter, Fernando Barabosa Noll

Data type: morphological characters

Copyright notice: This dataset is made available under the Open Database License
(http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License
(ODDbL) is a license agreement intended to allow users to freely share, modify, and
use this Dataset while maintaining this same freedom for others, provided that the
original source and author(s) are credited.

Link: https://doi.org/10.3897/jhr.82.65760.suppl1

Supplementary material 2

Topologies recovered from using distinct & values for implied weighting in parsi-

mony searches

Authors: Rogério Botion Lopes, James M. Carpenter, Fernando Barabosa Noll

Data type: phylogenetic analysis

Copyright notice: This dataset is made available under the Open Database License
(http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License
(ODbL) is a license agreement intended to allow users to freely share, modify, and
use this Dataset while maintaining this same freedom for others, provided that the
original source and author(s) are credited.

Link: https://doi.org/10.3897/jhr.82.65760.suppl2

Supplementary material 3

List of all Zethus species according to the new proposed subgeneric division

Authors: Rogério Botion Lopes, James M. Carpenter, Fernando Barabosa Noll

Data type: species data

Copyright notice: This dataset is made available under the Open Database License
(http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License
(ODbL) is a license agreement intended to allow users to freely share, modify, and
use this Dataset while maintaining this same freedom for others, provided that the
original source and author(s) are credited.

Link: https://doi.org/10.3897/jhr.82.65760.suppl3

Subgenera of Zethus 283

Supplementary material 4

Matrix used in the searches included in this studie's phylogenetic analysis

Authors: Rogério Botion Lopes, James M. Carpenter, Fernando Barabosa Noll

Data type: morphological matrix

Copyright notice: This dataset is made available under the Open Database License
(http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License
(ODDbL) is a license agreement intended to allow users to freely share, modify, and
use this Dataset while maintaining this same freedom for others, provided that the
original source and author(s) are credited.

Link: https://doi.org/10.3897/jhr.82.65760.suppl4