Morphological revision of the hyperdiverse Brueelia - complex (Insecta: Phthiraptera: Ischnocera: Philopteridae) with new taxa, checklists and generic key
Author
Bush, Sarah E.
text
Zootaxa
2017
2017-08-31
4313
1
1
443
journal article
32249
10.11646/zootaxa.4313.1.1
d8cc2cd8-8410-49aa-a75d-7a41d9f52b26
1175-5326
883161
A5Fdfba5-F992-44A8-84C2-1756C943C19B
Rostrinirmus ruficeps
(Nitzsch [in
Giebel], 1866
)
(
Figs 437–440
,
445–450
)
Nirmus ruficeps
Nitzsch
[in
Giebel], 1866
: 367
.
Degeeriella ruficeps
Nitzsch in
Giebel, 1866
;
Harrison, 1916
: 122
.
Degeeriella ruficeps
(Nitzsch)
;
Séguy, 1944
: 323
.
Philopterus suzume
Uchida, 1949
: 548
.
Sturnidoecus ruficeps
(
Nitzsch), 1866
;
Hopkins & Clay, 1952
: 345
.
Sturnidoecus suzume
(
Uchida), 1949
;
Hopkins & Clay, 1952
: 345
.
Penenirmus ruficeps
(
Nitzsch, 1866
)
;
Balát, 1981b
: 46
.
Rostrinirmus refractoriolus
Złotorzycka, 1964a
: 277
.
Sturnidoecus refractoriolus
Złotorzycka, 1964a
;
Ledger, 1980
: 145
.
Rostrinirmus ruficeps
(
Nitzsch, 1866
)
;
Złotorzycka, 1997
: 215
.
Type
host.
Passer montanus montanus
(
Linnaeus, 1758
)
—Eurasian tree sparrow.
Type locality.
None given in original description, possibly Germany.
Other hosts.
Passer montanus saturatus
Stejneger, 1885
—tree sparrow.
Passer montanus malaccensis
Dubois, 1887
—tree sparrow
new host record
.
Passer montanus obscuratus
Jacobi, 1923
—tree sparrow
new host record
.
Passer domesticus domesticus
(
Linnaeus, 1758
)
—house sparrow.
FIGURES 437–438.
Rostrinirmus ruficeps
(Nitzsch [in Giebel], 1866) ex
Passer montanus malaccensis
:
437,
male habitus, dorsal and ventral views.
438,
female habitus, dorsal and ventral views.
Description.
Both sexes
. Head shape, structure, and chaetotaxy as in genus description and
Fig. 439
;
pns
and
pts
very small, not visible in most specimens examined;
dsms
longer than in most other species of genus;
os
macroseta. Thoracic and abdominal segments as in genus description and
Figs 437–438
.
Male
. Abdominal chaetotaxy as in
Table 2
and
Fig. 437
. Basal apodeme (
Figs 445, 448
) largely rectangular, widening distally. Proximal mesosome wide, rectangular. Mesosomal lobes wide, irregular, with moderate ventral rugose nodi near distal margin; 2
ames
microsetae sublaterally on each side of anterior half of mesosome; 1
pmes
sensillus on each side of mesosomal lobes median to rugose nodi. Gonopore small, not visible in European material (
Fig. 446
), but trifid, and attached to an asymmetrically bending tube-like structure in Asian material (
Fig. 449
). Parameral heads uniquely shaped(
Figs 447, 450
), much elongated. Parameral blades crooked, tapering distally;
pst1–2
as in genus description. Measurements ex
Passer montanus montanus
(n = 11 except n = 10 for TL): TL = 1.21–1.33 (1.27); HL = 0.38–0.42 (0.40); HW = 0.41–0.45 (0.42); PRW = 0.23–0.25 (0.24); PTW = 0.36–0.40 (0.37); AW = 0.55–0.61 (0.58). Ex
P
.
m
.
malaccensis
(n = 15 except n = 14 for AW and n = 12 for TL): TL = 1.15– 1.40 (1.29); HL = 0.38–0.41 (0.39); HW = 0.40–0.46 (0.42); PRW = 0.23–0.26 (0.25); PTW = 0.35–0.41 (0.37); AW = 0.53–0.58 (0.56). Ex.
P
.
m
.
obscuratus
(n = 2): TL = 1.24–1.28; HL = 0.39–0.40; HW = 0.41–0.43; PRW = 0.24–0.25; PTW = 0.37; AW = 0.58.
Female
. Abdominal chaetotaxy as in
Table 2
and
Fig. 438
. Subgenital plate broadly triangular (
Fig. 440
), reaching or approaching vulval margin but not flaring into cross-piece. Vulval margin (
Fig. 440
) gently rounded, with 5–6 short, slender
vms
on each side (median
vms
often displaced proximally), and 7–9 short, thorn-like
vss
on each side; 7–8 long, slender
vos
on each side; distal 2–3
vos
just proximal or median to
vss
. Measurements ex
Passer montanus montanus
(n = 19): TL = 1.36–1.57 (1.48); HL = 0.42–0.47 (0.44); HW = 0.42–0.49 (0.46); PRW = 0.24–0.28 (0.26); PTW = 0.37–0.44 (0.40); AW = 0.54–0.72 (0.64). Ex
P
.
m
.
malaccensis
(n = 18 except n = 17 for TL): TL = 1.41–1.67 (1.53); HL = 0.42–0.46 (0.44); HW = 0.44–0.51 (0.47); PRW = 0.24–0.29 (0.27); PTW = 0.37–0.43 (0.41); AW = 0.59–0.71 (0.65). Ex.
P
.
m
.
obscuratus
(n = 2): TL = 1.55; HL = 0.42–0.45; HW = 0.46– 0.48; PRW = 0.26; PTW = 0.40; AW = 0.68–0.69.
Material
examined
(non-types).
Ex
Passer montanus montanus
:
1♀
,
Stozice
,
Ljubljana
,
Slovenia
,
10 Mar. 1958
,
S. Brelih
, 6197 (
NHML
)
;
3♀
, same locality, date, and collector as previous, 6192, 6195–6, 6198 (
PMSL
)
;
1♂
, same locality and collector as previous,
29 Jan. 1962
, 6568 (
PMSL
)
;
1♂
, same locality as previous,
21 Jan. 1975
,
D. Sere
, 12662 (
PMSL
)
;
1♂
,
2♀
, same locality and collector as previous,
30 Jan. 1975
, 12712–4 (
PMSL
)
;
1♀
, same locality and collector as previous,
9 Oct. 1975
, 12833 (
PMSL
)
;
2♂
,
2♀
,
Verje
,
Medvode
,
Slovenia
,
14 Feb. 1954
,
S. Brelih
, 124, 1812–4, 4056–7 (
PMSL
)
;
3♂
,
5♀
, same locality and collector as previous,
10 Mar. 1958
, 4058–65 (
PMSL
)
;
1♂
,
3♀
,
Tomacevo
,
Ljubljana
,
Slovenia
,
30 Apr. 1969
,
J. Dovic
, 11416–7 (
PMSL
)
;
2♀
, same locality and collector as previous,
8 Nov. 1965
, 10861–2 (
PMSL
)
;
1♀
,
Bácsalmás
,
Bács-Kiskun County
,
Hungary
,
5 Nov. 1971
,
J. Rékási
, 12041 (
PMSL
)
;
1♀
, same locality and collector as previous,
17 Apr. 1969
, 12061 (
PMSL
)
;
1♂
,
Bácsszőlős
,
Bács-Kiskun County
,
Hungary
,
15
Mar. 1969
,
J. Rékási
, 12066–7 (
PMSL
)
; 3♂, 3♀, Eichler collection, 3758 (MFNB);
1♀
,
Halle
,
Germany
,
4 Mar. 1948
,
Kleine, ZM
1233/2 (
MFNB
)
.
Ex
Passer montanus malaccensis
[
some as
Passer montanus
]:
2♂, 2♀, Bharatpur, Rajputana State, India,
13 Jan. 1962
, R. Meinertzhagen, 19170, BM 1952-143 (NHML); 2♀, “Chrui ChgW’, Cambodia,
12 Dec. 1966
, J. Klein, Brit. Mus.1968-482 (NHML); 1♂, 1♀, Ban Chang Khian, Chiang Mai Province, Thailand,
11 Jul. 1962
, K. Thonglongya, SEATO-1274 (NHML); 1♂, 1♀, same data as previous, 8187–8 on reverse (OSUS); 1♂, 1♀, same locality and collector as previous,
6 Aug. 1962
, SEATO-1356 (NHML); 2♂, 2♀, same locality and collector as previous,
4 May 1962
, SEATO-940 (NHML); 1♂, 1♀, same data as previous (UMSP); 1♂, 1♀, same locality and collector as previous,
4 Apr. 1962
, K. Thonglongya, 702 (UMSP); 1♀, same locality and collector as holotype,
5 Apr. 1962
, 711 (PMSL); 1♂, Ban Pong, San Sai District, Chiang Mai Province, Thailand,
16 Feb. 1962
, K. Thonglongya, 510 (UMSP); 1♂, 1♀, same data as previous (PIPeR); 2♂, 2♀, same locality and collector as previous,
15 Feb. 1962
, 506 (PIPeR); 1♂, 1♀, Ban Chiang Khian, Chiang Mai Province, Thailand,
5 Apr. 1962
, K. Thonglongya, 710 (PIPeR); 2♂, Khlong Khlung, Kamphaeng Phet Province, Thailand,
15 Apr. 1953
, R.E. Elbel & H.G. Deignan, RE-2435, RT-B-17908 (PIPeR); 2♀, same locality and collector as previous,
24 Apr. 1953
, RE- 2482, RT-B-21046 (PIPeR).
Ex
P
.
m
.
saturatus
[
some as
P
.
montanus
]:
2♂, 2♀, Ping Tung, [Ping Tung County,] Taiwan,
21 Feb. 1959
, R.E. Kuntz, PF-5688 or BF-337, 8192–3 on reverse (OSUS).
Ex
P
.
domesticus
:
1♂
,
1♀
,
Reúnion
Island (
France
),
30 Sep. 1980
,
N. Barre
, 21447–8 on reverse (
OSUS
)
;
1♀
,
Abu Rawash
,
Egypt
,
7 Oct. 1966
, 1427 (
NMNH
)
.
Remarks.
The species limits of
Rostrinirmus ruficeps
are complicated by a morphological diversity between the material from both host species in different geographical regions. The only available illustrations of the male genitalia of
Ro. ruficeps
are those of
Złotorzycka (1964a
,
1997
), from European
Passer montanus montanus
. In these illustrations, the parameral heads are indistinguishable from those of lice from
P. monatnus malaccensis
. However, specimens from
P. m. malaccensis
have asymmetrical mesosomes (
Figs 448–449
). This feature appears in specimens from different collection localities, mounted by different people; thus it is unlikely an artifact of mounting.
FIGURES 439–440.
Rostrinirmus ruficeps
(Nitzsch [in Giebel], 1866) ex
Passer montanus malaccensis
:
439,
male head, dorsal and ventral views.
440,
female subgenital plate and vulval margin, ventral view.
The hosts
Passer montanus
and
P. domesticus
also appear to be parasitised by other species of
Rostrinirmus
. For example, a male
Rostrinirmus
from
P. domesticus
from
Réunion
, where the host is introduced from Europe, has
os
as microsetae and male genitalia that are very dissimilar to those of
Ro. ruficeps
from European populations of
P. montanus
. Individuals of
Rostrinirmus
with very different male genitalia even appear to be living in sympatry. For example, in a collection of two male specimens from Rajputana,
India
(ex
P. montanus obscuratus
) from the same host individual, one has asymmetrical genitalia but the other has symmetrical genitalia. Both specimens have
os
as macrosetae, but the male with symmetrical genitalia has leg chaetotaxy similar to
Ro ruficeps
from Southeast Asia, whereas the male with asymmetrical genitalia has leg chaetotaxy that is intermediate between the two species groups (
i.e. fIII-v2
absent but
fII-v2
present). In addition, some male
Rostrinirmus
collected from
P
.
domesticus indicus
in Rajputana
appear to belong to
Rostrinirmus boevi
, or are at least identical to males from
P
asser
hispaniolensis
transcaspicus
collected at the same locality.
In summary, it appears that European
Passer montanus
and
P. domesticus
are both parasitised by
Rostrinirmus ruficeps
with symmetrical male genitalia, but outside Europe the situation is more complicated.
Passer montanus
in Southeast Asia are parasitised by
Ro. ruficeps
with asymmetrical male genitalia, and
Ro. ruficeps
with both asymmetrical and symmetrical male genitalia occur on
P. montanus
in
India
.
Passer domesticus
outside Europe are parasitised by different species in different geographical areas, including
Ro. boevi
in
India
and unidentified species of
Rostrinirmus
in
Egypt
and on
Réunion
. Our understanding of the distribution and relationships of these forms of
Rostrinirmus
are hampered by the scarce material available from Asia, and further collections are urgently needed for a genetic analysis of
Ro. ruficeps
.
Philopterus suzume
was described from
P
.
montanus saturatus
by
Uchida (1949)
, and the illustration shows the ocular macrosetae typical of
Rostrinirmus ruficeps
, which is not found in other
Rostrinirmus
(or other species of the
Brueelia
-complex).
Uchida (1949: 548)
also mentions having collected the same species of louse from
Emberiza cioides ciopsis
Bonaparte, 1850
, but it was supposedly mixed with “
Bitrabeculus subflavescens
”, a name used by early authors for a large number of
Philopterus
populations (see
Ansari 1947
: 268) and now considered unavailable (
Clay & Hopkins 1950
). As we cannot confirm whether Uchida’s material from
E. cioides ciopsis
is
Ro. ruficeps
or another
Rostrinirmus
species, we do not list this host under
Ro. ruficeps
.