A revision of Nearctic species of the genus Tropimenelytron Pace, 1983 (Coleoptera: Staphylinidae: Aleocharinae), a new genus for North America
Author
Gusarov, Vladimir I.
text
Zootaxa
2002
114
1
24
journal article
10.5281/zenodo.155753
591f48a8-6ce9-453f-83c4-2e939759c052
11755326
155753
Tropimenelytron
Pace, 1983
(
Figs. 121
,
3564
)
Tropimenelytron
:
Scheerpeltz, 1955
: 171
(first record but unavailable name).
Tropimenelytron
Pace, 1983
: 187
.
Pelioptera
(
Tropimenelytron
)
:
Pace, 1991
: 839
.
Pelioptera
(
Tropimenelytron
)
:
Assing, 2000
: 1000
.
Tropimenelytron
:
Assing, 2001
: 168
.
FIGURES 15.
Mouthparts of
Tropimenelytron tuberiventre
(Eppelsheim)
(Polikesh, Azerbaijan). 1 – labrum; 2 – epipharynx; 3 – left mandible, dorsal view; 4 – left mandible, ventral view; 5 – right mandible, dorsal view. Scale bar 0.1 mm.
Diagnosis.
Tropimenelytron
can be distinguished from other aleocharine genera by the combination of the following characters: parallelsided body; ligula with wide base, split apically (
Fig. 9
); pronotum subquadrate, with microsetae directed posteriorly along the midline of the disc (
Type
V,
Benick & Lohse 1974
) (
Fig. 12
); pronotal macrosetae moderately long; pronotal hypomera fully visible in lateral view; mesocoxae separated; medial macroseta of mesotibia as long as tibial width; tarsal formula 455; metatarsal segment 1 about as long as segment 2; one empodial seta; apical process of median lobe of aedeagus straight or slightly bent ventrally at the very apex (in lateral view;
Figs. 41
,
51
,
61
); spermatheca without umbiculus (
Figs. 39
,
49
,
59
).
FIGURES 611.
Mouthparts of
Tropimenelytron americanum
Gusarov
,
sp. n.
(paratype from Eau Claire, Wisconsin (68, 1011) and
T. tuberiventre
(Eppelsheim)
(Polikesh, Azerbaijan (9)). 6 – right maxilla, ventral view; 7 – right lacinia, dorsal view; 8 – right galea, dorsal view; 9 – prementum; 10 – hypopharynx; 11 – mentum. Scale bar 0.1 mm.
Tropimenelytron
differs from
Geostiba
Thomson,
1858
in having ligula with wide base, separated mesocoxae and different shape of aedeagus and spermatheca.
Tropimenelytron
differs from
Pelioptera micans
Kraatz, 1857
(the
type
species of
Pelioptera
Kraatz, 1857
) in the following characters: first segment of labial palpus with seta absent (present in
P. m i c a n s
); prementum with three asetose pores (two in
P. micans
), spermatheca without umbiculus; copulatory piece with short apical process (with very long flagellumlike apical process in
P. m i c a n s
) (see discussion below).
Tropimenelytron
differs from
Earota
Mulsant & Rey, 1874
by smaller and narrower body; first segment of labial palpus lacking seta; shorter mesosternal process; incomplete infraorbital carina, less transverse pronotum and different shape of aedeagus and spermatheca.
Tropimenelytron
differs from
Seeversiella
Ashe,
1986
in having pronotal pubescence of
type
V (
Benick & Lohse 1974
); ligula with wide base; separated mesocoxae; posterior angles of male tergum 3 not extended as spines, and copulatory piece of aedeagus without long flagellum.
Description.
Length
2.53.7 mm
. Body parallelsided, from uniformly brownish yellow to reddish brown with dark brown head and abdominal segment 6, and brown appendages.
Head slightly longer than wide; eyes small, temples 1.53 times as long as eyes; infraorbital carina short, not reaching posterior margin of eye. Antennal article 2 longer than article 3, articles 410 transverse (
Fig. 14
). Labrum (
Fig. 1
) transverse, anterior margin concave. Adoral surface of labrum (epipharynx) as in
Fig. 2
. Mandibles (
Figs. 3 5
) broad, right mandible with very small medial tooth; dorsal molar area with velvety patch consisting of tiny denticles (visible at 400x). Maxilla (
Figs. 68
) with galea extending slightly beyond apex of lacinia; apical lobe of galea covered with numerous fine and short setae; apex of lacinia with row of closely spaced spines, middle portion covered with numerous setae. Maxillary palpus with four segments (
Fig. 6
). Labium as in
Figs. 9 11
; labial palpi with three segments (
Fig. 9
), first segment of labial palpus lacking seta (
Fig. 9
); ligula with wide base, split apically; medial area of prementum without pores or pseudopores, lateral areas with 3 asetose pores and single setose pore. Hypopharyngeal lobes as in
Fig. 10
. Mentum (
Fig. 11
) with slightly concave anterior margin, medial area with numerous pores.
Pronotum (
Fig. 12
) subquadrate, broadest at apical third, narrows posteriorly or with subparallel lateral margins; anterior margin straight, posterior margin convex; surface covered with microsetae directed posteriorly in midline, posteriorly and obliquely laterally in lateral areas (
Type
V,
Benick & Lohse 1974
); macrosetae moderately long; hypomera fully visible in lateral view. Meso and metasternum as in
Fig. 13
, mesosternal process short and wide, extended about 1/4 length of mesocoxal cavities, metasternal process about 1/3 length of mesocoxal cavities; mesosternum and mesosternal process not carinate medially; relative lengths of mesosternal process: isthmus: metasternal process in ratio of about 3:4:4; mesocoxal cavities margined posteriorly; mesocoxae separated. Medial macroseta of mesotibia as long as tibial width. Tarsal segmentation 455; metatarsal segment 1 about as long as segment 2 (
Fig. 15
). One empodial seta present. Wings fully developed (in Nearctic species). Posterior margin of elytra straight.
FIGURES 1215.
Details of
Tropimenelytron americanum
Gusarov
,
sp. n.
(paratype from Eau Claire, Wisconsin). 12 – pronotum; 13 – mesometathorax, ventral view; 14 – right antenna; 15 – right metatarsus. Scale bar 0.4 mm (1214), 0.2 mm (15).
Abdominal terga 35 with moderately transverse basal impression. Tergum 7 1.1 times as long as tergum 6. Punctation on terga 67 slightly sparser than on terga 35. Tergum 7 with white palisade fringe.
Male secondary sexual characters include longitudinal carina along anterior half of sutural margin of each elytron, tiny medial knob at posterior margin of tergum 3, small medial knob at apical third of tergum 4, short medial carina in front of anterior margin of tergum 7 and uneven posterior margin of tergum 8 (
Fig. 35
). Some (smaller) males may lack these features altogether and externally look like females. Median lobe of aedeagus narrows apically (in parameral view;
Figs. 40
,
50
,
60
), apex straight or slightly bent ventrally (in lateral view;
Figs. 41
,
51
,
61
). Parameres with two long and two short macrosetae (
Figs. 44
,
54
,
64
). Copulatory piece of internal sac with short apical process and lateral denticles near the base of process (CP;
Figs. 18, 20
). Medial lamellae (in parameral view) broad (ML;
Figs. 17, 2021
). Spermatheca without umbiculus, with thick Cshaped distal portion and thin proximal portion which may form 12 coils (
Figs. 39
,
49
,
59
)
FIGURES 1621
. Male genitalia of
Tropimenelytron americanum
Gusarov
,
sp. n.
(paratypes from Rensselaerville, New York (1618) and Morgan Monroe State Park, Indiana (21)) and
T
.
tuberiventre
(Eppelsheim)
(Polikesh, Azerbaijan (1920)). 16 – everted internal sac of aedeagus, lateral view; 17 – medial lamellae, parameral view; 18 – copulatory piece, parameral view; 19 – apex of everted internal sac, lateral view; 20 – apex of everted internal sac, parameral view; 21 – internal sac retracted in median lobe, parameral view. CP copulatory piece; ML medial lamellae. Scale bar 0.1 mm.
FIGURES 2226.
Details of
Pelioptera testaceipennis
(Motschulsky)
(syntype of
P. longicornis
Cameron
from Sumatra, Indonesia (22, 25)),
P. m i c a n s
Kraatz (Sri Lanka (2324)) and
P. exasperata
(Kraatz)
(Dehra Dun, India (26)). 2223 – prementum, ventral view; 2426 – mesometathorax, ventral view. Scale bar 0.15 mm (23), 0.2 mm (22), 0.4 mm (24, 26), 0.8 mm (25).
Type
species.
Geostiba tuberiventris
Eppelsheim
in
Leder, 1879
by original designation.
Gender.
The name
Tropimenelytron
ends in a Greek word “ ” transliterated into Latin without other changes and therefore takes the neutral gender (Article 30.1.2 of the Code;
ICZN
1999
). Because a species name must agree in gender with the generic name with which it is combined (Article 31.2.1) when
G. tuberiventris
is placed in
Tropimenelytron
the correct spelling is
T. tuberiventre
.
Discussion
. Although originally described as a separate genus (
Pace 1983
)
Tropimenelytron
was subsequently (
Pace 1991
) downgraded to subgeneric rank within the genus
Pelioptera
.
Pace (1991)
argued that
Pelioptera
,
Tropimenelytron
and
Geostibida
have “almost identical” ligula, but in
Pelioptera
mesocoxae are more widely separated. Pace considered this similarity in ligula sufficient to include
Tropimenelytron
and
Geostibida
in
Pelioptera
as subgenera.
Pelioptera micans
Kraatz, 1857
(
Figs. 2324
,
2729
;
Fig.
9
in
Sawada 1980
), the
type
species of
Pelioptera
, differs from
T. tuberiventre
and
T. americanum
Gusarov
,
sp. n.
in the following characters: first segment of labial palpus with seta present (
Fig. 23
) (absent in
Tropimenelytron
:
Fig. 9
) and equidistant from setae b and; prementum with two asetose pores (
Fig. 23
) (three in
Tropimenelytron
:
Fig. 9
), spermatheca with umbiculus (
Fig. 9
, O in
Sawada 1980
) (without umbiculus in
Tropimenelytron
:
Figs. 39
,
49
,
59
), copulatory piece with very long apical process (flagellumlike;
Fig. 29
) (with short apical process in
Tropimenelytron
:
Figs. 16, 18, 1920
). Considering the above differences between the examined species of
Tropimenelytron
(including the
type
species of the genus) and the
type
species of
Pelioptera
I do not regard their similarity in the shape of ligula to be sufficient to include
Tropimenelytron
in
Pelioptera
. In this paper I consider
Tropimenelytron
to represent a genus separate from
Pelioptera
, pending a detailed examination of related genera and subgenera and analysis of their relationships.
My examination of three species of
Pelioptera
(
Figs. 2234
) and comparison of the drawings and descriptions published by
Sawada (1977
,
1980
,
1982
,
1987
,
1989
) demonstrate that the species currently assigned to
Pelioptera
often have very different structures of internal sac (cf.
Figs. 29, 32, 34
and
Figs. 10
, K; 11, I; 12, J in
Sawada 1980
) and mesometathorax (
Figs. 2426
). This may indicate that some species currently assigned to
Pelioptera
are not related and should not be congeneric with the
type
species of the genus. This problem requires further study and it is briefly discussed at the end of this paper.
In his key to subgenera of
Pelioptera
,
Pace (1991)
listed two characters to allow separation between
Tropimenelytron
and
Geostibida
: the difference in the shape of spermatheca (Sshaped in
Geostibida
and semicircular in
Tropimenelytron
) and the length of elytra (shorter than pronotum in
Geostibida
and longer than pronotum in
Tropimenelytron
). Unfortunately, these characters are not reliable. The shape of the proximal portion of spermatheca varies even among closely related species. For example, in
T. americanum
(
Fig. 39
) this portion is longer than in two other Nearctic species (
Figs. 49
,
59
) and the spermatheca can be described as Sshaped. In many groups of
Aleocharinae
the length of elytra may be subject to variation even within the same species (see for example
Muona 1991
;
Assing 1999
). The specimens with well developed wings have longer elytra, while in wingless specimens the elytra are shorter. In many groups of aleocharines the species or populations restricted in their distribution to limited areas in the mountains often loose the ability to fly, have reduced wings and shorter elytra in comparison to their more widespread relatives in the plain. Clearly the length of elytra alone is not a sufficient character to separate subgenera of
Pelioptera
.
FIGURES 2734.
Male genitalia of
Pelioptera micans
Kraatz
(syntype from Sri Lanka (2729)),
P. exasperata
(Kraatz)
(Dehra Dun, India (3032)) and
P. testaceipennis
(Motschulsky)
(Java, Indonesia (3334)). 27, 30, 33 – median lobe of aedeagus, parameral view; 28 – apex of median lobe, parameral view; 29 – copulatory piece of internal sac, lateral view; 31, 34 – median lobe of aedeagus, lateral view; 32 – copulatory piece of internal sac, parameral view. Scale bar 0.2 mm (2829, 32), 0.4 mm (27, 3031, 3334).
Pace himself is not consistent in applying these two characters to separate
Tropimenelytron
and
Geostibida
. For example, in
T. nepalense
Pace, 1985
a (
Fig.
45
in
Pace 1985a
) and
T. parbatense
Pace,1987
a (
Fig.
47
in
Pace 1987a
) (both assigned to
Pelioptera
(
Tropimenelytron
)
in
Pace 1991
) the spermatheca is no less Sshaped than in
G. himalayiensis
Pace, 1984
(Fig.
108 in
Pace 1991
; assigned to
Pelioptera
(
Geostibida
)
in
Pace 1991
). In
P.
(
G.
)
problematica
Pace, 1991
the elytra are both described (p.
849 in
Pace 1991
) and illustrated (Fig.
113 in
Pace 1991
) as being longer than pronotum, but nevertheless the species is placed in the subgenus
Geostibida
and not
Tropimenelytron
. In
T. parbatense
(
Fig.
46
in
Pace 1987a
) elytra are illustrated as being shorter than pronotum, but in
Pace 1991
this species is placed in the subgenus
Tropimenelytron
and not
Geostibida
. Some species assigned by Pace to
Geostibida
lack both diagnostic characters of
Geostibida
. For example, in
P.
(
G.
)
eremita
Pace, 1998
elytra are longer than pronotum (Fig.
133 in
Pace 1998
) and spermatheca is not Sshaped (Fig.
134 in
Pace 1998
).
Examination of Pace’s description of
G. himalayiensis
Pace, 1984
(
type
species of
Geostibida
) and description of additional species included by Pace in
Geostibida
(
Pace 1984
,
1985a
,
1991
,
1998
) demonstrates that
Geostibida
is an artificial group which includes those species of
Tropimenelytron
(
G. himalayiensis
Pace, 1984
;
G. major
Pace, 1984
;
G. annapurnensis
Pace, 1985
a) which have short elytra, and some unrelated species (which should be reassigned to other genera) with the same
type
of pronotal pubescence (
P.
(
G.
)
lii
Pace, 1998
;
P.
(
G.
)
kowloonensis
Pace, 1998
;
P.
(
G.
)
eremita
Pace, 1998
and probably
P.
(
G.
)
problematica
Pace, 1991
). A revision of the
type
of
Geostibida
is necessary to formally synonymize the name with
Tropimenelytron
.
The genus
Tropimenelytron
is being reported from North
America
for the first time.