Alloeomimella Yasunaga & Duwal, 2019

Yasunaga, Tomohide, Tamada, Yui, Hinami, Haruka, Miyazaki, Ayana, Duwal, Ram Keshari & Nagashima, Tetsuya, 2019, Taxonomic review for the Asian taxa of plant bug tribe Hallodapini, with emphasis on stridulatory mechanism (Hemiptera: Heteroptera: Miridae), Acta Entomologica Musei Nationalis Pragae (Acta. Ent. Mus. Natl. Pragae) 59 (1), pp. 71-99 : 77-79

publication ID

https://doi.org/ 10.2478/aemnp-2019-0007

publication LSID

lsid:zoobank.org:pub:027CE86F-9E75-44C3-A35E-E0C20BA4B693

DOI

https://doi.org/10.5281/zenodo.5062796

persistent identifier

https://treatment.plazi.org/id/03CDBD54-EC59-FFF4-FCF1-FC00FC48FEE3

treatment provided by

Felipe

scientific name

Alloeomimella Yasunaga & Duwal
status

gen. nov.

Alloeomimella Yasunaga & Duwal gen. nov.

Type species. Alloeomimus muiri Schuh, 1984 View in CoL , present designation.

Diagnosis. Distinguished from the most closely related genus, Alloeomimus Reuter, 1910 , by the following combination of characters: Body generally slender, constricted at middle of hemelytron, myrmecomorphic ( Figs 9–10 View Figs 9–18 ); female sometimes brachypterous ( Fig. 59 View Figs 56–70 ); dorsum dark gray, generally matte; head bulbous, rounded, with eye removed from pronotal collar ( Figs 9 View Figs 9–18 , 62 View Figs 56–70 ); pronotum trapezoidal, weakly constricted anteriorly ( Fig. 62 View Figs 56–70 ); scutellum weakly swollen, without any projection; metathoracic scent efferent system reduced, small ( Figs 59–60 View Figs 56–70 ); hemelytron with a large, white triangular macula on middle corium across embolium and a wedge-shaped macula at apex of corium across embolium along anterior margin of cuneus ( Fig. 9 View Figs 9–18 ); forewing margin and metafemur equipped with a distinct stridulatory device ( Figs 54 View Figs 40–55 , 63–64 View Figs 56–70 ); endosoma slender, C-shaped, similar in overall appearance to that of Hallodapus (cf. SCHUH 1984, YASUNAGA et al. 2013a); bursa copulatrix and ovipositors rather toughened ( Fig. 210–211 View Figs 201–217 ), with sclerotized rings small, ovoid ( Fig. 210 View Figs 201–217 ). Description. Male. Macropterous; body small, slender, myrmecomorphic ( Figs 9–10 View Figs 9–18 ); dorsum dark gray, matte, with uniformly distributed, short, reclining setae and sparsely distributed, stiff, erect setae ( Fig. 62 View Figs 56–70 ); head bulbous, rounded, less prognathous ( Fig. 56 View Figs 56–70 ); eye removed from pronotal collar but diameter of neck shorter than length of an eye in dorsal view ( Figs 9 View Figs 9–18 , 62 View Figs 56–70 ). Antenna generally slender, slightly longer than body; segment I short, about as long as height of an eye; segment II longer than III; segment IV about 3 times as long as I. Labium long, exceeding apex of metacoxa, reaching abdominal sternum IV. Pronotum matte, trapeziform, weakly constricted anteriorly ( Fig. 62 View Figs 56–70 ); metathoracic scent efferent system reduced, narrower than each coxa ( Fig. 56 View Figs 56–70 ); hemelytron with a large, white triangular macula on middle corium across embolium and a wedge-shaped macula at apex of corium across embolium along anterior margin of cuneus ( Fig. 9 View Figs 9–18 ); embolium with distinct FWS ( Fig. 60 View Figs 56–70 ). Legs long; metafemur equipped with distinct MFP; total length of metafemur+metatibia longer than body; parempodia setiform ( Fig. 58 View Figs 56–70 ). Male genitalia ( Fig. 61 View Figs 56–70 ): Pygophore smooth, narrow, with the apically tapered phallotheca; left paramere with stout sensory lobe; endosoma slender, C-shaped (cf. YASUNAGA et al. 2013a).

Macropterous female. Almost similar to male ( Fig. 10 View Figs 9–18 ). Stridulatory device as in male. Female genitalia ( Figs 210−211 View Figs 201–217 ): Bursa copulatrix relatively narrow, widely spinulate, with small, ovoid sclerotized rings ( Fig. 210 View Figs 201–217 ); ovipositors (gonapophyses) rather short; gonapophysis II sword-like, not expanded subapically ( Fig. 211 View Figs 201–217 ).

Brachypterous female. As in Fig. 59 View Figs 56–70 . Apex of forewing reaching anterior margin of abdominal tergum VI. Stridulatory device present ( Figs 63−64 View Figs 56–70 ).

Etymology. From the hallodapine generic name Alloeomimus combined with a diminutive suffix (-ella); gender feminine.

Distribution. Oriental Region: Indonesia (Java, Lombok), Laos and Thailand ( SCHUH 1984, YASUNAGA 2013a); new record from Lombok Island, or Wallacea, based on two female specimens collected at Dasambaru, Lombok on 5 Mar 2005 by Ishikawa (deposited in TUAK).

Discussion. SCHUH (1984) described Alloeomimus muiri , based on Indochinese and Indonesian specimens. Alloeomimus is an Old World genus, currently composed of six species (including A. muiri ) but five congeners (incl. type species of the genus) are restricted to the western Palearctic and Ethiopian Regions (Mediterranean, Middle East and Africa, cf. SCHUH 2013). Our present examination suggested that the Schuh’s species ( muiri ) can be evidently separated from the members of Alloeomimus in having some different characters mentioned above as well as disjunct distribution in the Oriental Region. We therefore propose a new genus Alloeomimella for it, and a new combination is accordingly established: Alloeomimella muiri ( Schuh, 1984) comb. nov. (see SCHUH 1984 and YASUNAGA et al. 2013a for detailed diagnostic characters of this species).

Alloeomimella muiri was confirmed to be epigeic; several individuals including brachypterous females were found from the ground at tropical grasslands (cf. Fig. 2 View Figs 1–8 ). On the other hand, Alloeomimus unifasciatus (Reuter, 1879) was reported to be associated with Ononis natrix L. ( Fabaceae ) (SCHUH 2013). In addition, a congener from the Middle East, A. kurdus Hoberlandt, 1953 , was reported to occasionally inhabit galls of aphids ( WAGNER 1974), which implies that Alloeomimus members may be associated with aerial parts of plants and may not prefer an epigeic habitat. Color habitus images of the five Alloeomimus species are available on a website (https://www.discoverlife.org/ mp/20q?search= Alloeomimus ).

Based on the developed stridulatory device ( Figs 63−64 View Figs 56–70 ), reduced scent efferent system ( Figs 59−60 View Figs 56–70 ), setiform parempodia, similar male and female genitalic structures and habitat preference, Alloeomimella is assumed to be most closely allied to Hallodapus rather than Alloeomimus .

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Hemiptera

Family

Miridae

Tribe

Hallodapini

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