Research Article

Journal of Orthoptera Research 2023, 32(2): 115-117

Acrida bara, synomymous with A. sulphuripennis

(Orthoptera, Acrididae, Acridinae)

CLAUDIA Hemp!

1 University of Bayreuth, Dept. Dept. Plant Systematics, Germany, and Senckenberg Biodiversity and Climate Research Centre, Frankfurt, Germany.

Corresponding author: Claudia Hemp (claudia.hemp @uni-bayreuth.de)

Academic editor: Daniel Petit | Received 14 August 2022 | Accepted 24 September 2022 | Published 5 June 2023

https://zoobank. org/EE1018E4-3C75-41 FF-8AB7-549BDD3FCB5A

Citation: Hemp C (2023) Acrida bara, synomymous with A. sulphuripennis (Orthoptera, Acrididae, Acridinae). Journal of Orthoptera Research 32(2):

115-117. https://doi.org/10.3897/jor.32.93481

Abstract

The male holotype of Acrida bara Steinmann, 1963 from the Buda-
pest collection (HNHM) was studied and found to be identical to Acrida
sulphuripennis (Gerstaecker, 1869). Consequently, Acrida bara syn. nov. is
synonymized with A. sulphuripennis.

Keywords

East Africa, taxonomy, Tanzania

Introduction

The genus Acrida Linnaeus, 1758 is a species-rich genus of
Acridinae widespread in the Mediterranean region, Africa, and Asia.
In Africa, A. turrita (Linnaeus, 1758), A. sulphuripennis, and A. bicolor
(Thunberg, 1815) are widely distributed, the latter two belonging to
the most common species in East Africa. Acrida species are dwellers
of grasslands, preferring disturbed habitats and very common in
ruderal vegetation. Acrida sulphuripennis is a pioneer species that
colonizes fallow lands and opened-up areas along roadsides. It is
found from sea level up to the lower border of the montane forest
at 1800 m on Mt. Kilimanjaro (Hemp 2009). A. sulphuripennis
often occurs syntopically with A. bicolor. Both species are easily
distinguished on the basis of wing color, with a matte yellow color
in A. bicolor and vivid yellow to orange color in the hind wings in
A. sulphuripennis. Gerstaecker (1869) described A. sulphuripennis
from Zanzibar, giving only a very short description. Gerstaecker
(1873) published a more detailed description of this species and
compared it with A. bicolor. Acrida bara was described by Steinmann
(1963) after a single male from Lushoto (Lushato in Steinmann
1963) in the West Usambara Mountains. The holotype is deposited
in the Natural History Museum Budapest in Hungary (HNHM).
Since its description, no further specimens have been reported.

The male holotype of A. bara from the Natural History Museum
Budapest was studied and compared with a series of specimens
of A. sulphuripennis from Zanzibar, the Tanzanian mainland, and
some other African countries.

Material and methods

The type of A. bara was morphologically compared with speci-
mens of A. sulphuripennis from eastern and southern Africa (from
the Natural History Museum London, UK). Morphological char-
acters compared include the shape and color of the wings, overall
habitus, the shape of the head and the pronotum, and the shape
of the last abdominal tergites in males.

Results

Steinmann did not directly compare his A. bara with
A. sulphuripennis or, indeed, with any other species. The only
reference to A. sulphuripennis in his paper is found in his key to
species. He defines it there on the basis of three sets of characters:
a) tip of tegmen straight and pointed, b) dorsal process of
subgenital plate as large as the apex of that plate, and c) hind
wing a matte yellow in color. In his description of A. bara, he
states that its tegmen tip is parabolic, not straight and pointed,
and he describes the dorsal projection of the subgenital plate as
being “2.5 times shorter than then the length of the apex of the
plate.” The photos of the holotype presented in this paper show
that neither statement is correct. Steinmann gives no information
about the color of the hind wing of A. bara—it is likely that he
never examined it, as the holotype has folded wings and the hind
wing is not visible.

Comparing the holotype with specimens coming from
Zanzibar (type locality of A. sulphuripennis, Fig. 2C), the East and
West Usambaras (the latter the type locality of A. bara; Fig. 1D),
the vicinity of Kilimanjaro (Fig. 2A, B), and the foothills of
the East Usambara Mountains (Fig. 2D), no differences in the
morphology of the male apex (compare Fig. 1C and Fig. 2C-E),
the shape of the wings, the pronotum (Fig. 1B), or coloration and
venation could be detected. Additionally, A. sulphuripennis from
other African countries, e.g., Zambia or KwaZulu Natal (Fig. 2E),
were studied at the Natural History Museum in London, and no
differences—besides some variation in size and coloration—could
be detected.

Copyright Claudia Hemp. 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.

JOURNAL OF ORTHOPTERA RESEARCH 2023, 32(2)

116

C. HEMP

Fig. 1. Male holotype of Acrida bara (A-C) and male specimen of Acrida sulphuripennis (D) photographed near the type locality in the
West Usambara Mountains of Tanzania A. Lateral habitus; B. Head and pronotum; C. Lateral view of apex. Scale bars 5 mm.

Discussion

In widespread species, variation in external morphology, col-
oration, and body size is common (e.g., Ibrahim 1974; Bai et al.
2016; Rosetti and Remis 2018), and if the species are only known
from a few widely separated localities, this could well lead to the
description of separate taxa. When more specimens are collected

from intermediate localities, taxa described from widely separated
localities often turn out to be identical. In various Oedipodinae,
such as Acrotylus Fieber, 1853 or Gastrimargus Saussure, 1884, dif-
ferences in color or body size were found to be simply variations
of populations from different localities (Cigliano et al. 2022).

In the genus Acrida, a number of widespread species were
described as different taxa but later united under a single taxon,

JOURNAL OF ORTHOPTERA RESEARCH 2023, 32(2)

C. HEMP

117

Fig. 2. Male Acrida sulphuripennis. A, B. Habitus (Kilimanjaro) C-D. Lateral view on male apex of specimens from Zanzibar near Jozani
(C), from Muhesa at the foothills of the East Usambara Mountains (D), and from KwaZulu Natal (E). Scale bars: 5 mm.

e.g., A. bicolor (8 synonyms), A. cinerea (Thunberg, 1815) (6
synonyms), A. exaltata (Walker, 1859) (4 synonyms), and A. turrita
(7 synonyms) (Cigliano et al. 2022). Museum collections serve
as an indispensable base for understanding the biogeography
of species, enabling taxonomists to compare larger series of any
given species and to decide on its species status.

Acknowledgments

I gratefully acknowledge grants from the Deutsche Forschungs-
gemeinschaft. Part of this research received support from the Syn-
thesys Project (http://www.synthesys.info/), which is financed by the
European Community Research Infrastructure Action under the FP6
“Structuring the European Research Area Programme” and enabled
me to visit the Natural History Museum Budapest, Hungary. Thanks
also to the curator of the Orthoptera collection of the Natural His-
tory Museum in Budapest, Gellért Puskas, for his kind support and
for hosting me during my Synthesys stay in 2019. My thanks go to
Hugh Rowell for improving the text and to Luc Willemse and Josip
Skejo for valuable comments and corrections. I also thank the Com-
mission for Science and Technology, Tanzania, and the Tanzania
Wildlife Research Institute, Tanzania, for granting research permits.
The publisher's costs were paid by the Orthopterists’ Society.

References

Bai Y, Dong JJ, Guan DeL, Xie JY, Xu S-Q (2016) Geographic variation
in wing size and shape of the grasshopper Trilophidia annulata
(Orthoptera: Oedipodidae): Morphological trait variations follow
an ecogeographical rule. Scientific Reports 6: 32680. https://doi.
org/10.1038/srep32680

Cigliano MM, Braun H, Eades DC, Otte D (2022) Orthoptera Species File.
Version 5.0/5.0. [24.9.2022]. http://Orthoptera.SpeciesFile.org

Fieber FX (1853) Synopsis der europdischen Orthoptera mit besonderer
Ricksicht auf die in Bohmen vorkommenden Arten. Lotos, Zeitschrift
fiir Naturwissenschaften. Herausgegeben vom _ naturhistorischen
Vereine Lotos in Prag 3, 90-104, 115-129, 138-154, 168-176, 184-
188, 201-207, 232-238, 252-261.

Gerstaecker A (1869) Beitrag zur Insektenfauna von Zanzibar. II. Ar-
chiv fir Naturgeschichte 35: 201-223. https://doi.org/10.5962/bhl.
part.12294

Gerstaecker A (1873) Die Gliederthier-Fauna des Sansibar-Gebietes.
1-452.

Hemp C (2009) Annotated list of Caelifera (Orthoptera) of Mt. Kili-
manjaro, Tanzania. Journal of Orthoptera Research 18: 183-214.
https://doi.org/10.1665/034.018.0207

Ibrahim MM (1974) Environmental effects on colour variation in Acrida
pellucida Klug Zeitschrift fiir Angewandte Entomologie 77: 133-136.
https://doi.org/10.1111/j.1439-0418.1974.tb03240.x

Linnaeus C (1758) Systema naturae per regna tria naturae, secundum
classes, ordines, genera, species, cum characteribus, differentiis,
synonymis, locis. Tomus I. Editio decima, reformata. Holmiae
[= Stockholm]: L. Salvii, 824 pp. https://doi.org/10.5962/bh1L.ti-
tle.542

Rosetti N, Remis MI (2018) Spatial variation in body size and wing
dimorphism correlates with environmental conditions in the grass-
hopper Dichroplus vittatus (Orthoptera: Acrididae). Environmental
Entomology 47: 519-526. https://doi.org/10.1093/ee/nvy025

Steinmann H (1963) New species of the genus Acrida L. (Orthoptera) from
Africa and Asia. Acta Zoologica Academiae Scientiarum Hungaricae
9: 403-427.

Thunberg CP (1815) Hemipterorum maxillosorum genera illustrata pluri-
misque novis speciebus ditata ac descripta. Mémoires de l'Académie
Impériale des Sciences de St. Pétersbourg 5: 211-301.

JOURNAL OF ORTHOPTERA RESEARCH 2023, 32(2)