A new species of Atanatolica Mosely 1936 (Trichoptera: Leptoceridae) from Serra Bonita, Bahia, Brazil
Author
Costa, Anne M.
Author
Calor, Adolfo R.
text
Zootaxa
2014
3790
1
194
200
journal article
45963
10.11646/zootaxa.3790.1.10
efe22771-183b-4459-bb4d-1b9baa339b28
1175-5326
230188
B808291C-8450-43A8-904D-192C24C494C5
Atanatolica bonita
new species
(
Figs. 1–2
)
Diagnostic characters.
The male can be easily distinguished from its congeners by possessing two apicomesal and two long, digitate, subequal apicolateral processes on segment X and a well-developed, long, thumb-shaped second article of each inferior appendage. The female can be diagnosed by the presence of a funnel-shaped vaginal apparatus.
Adult:
Forewing length
7–9 mm
; hind wing length
5–7 mm
(n = 10).
Head brown (in alcohol) with white and brown setae (pinned). Frontal setal wart oval; malar space on each side narrow. Antennae long, with white setae at the base of each flagellomere; brown, about twice body length. Maxillary palps brownish, covered by brown setae, 5-segmented.
Thorax brown with many white setae. Wings brownish with brown and golden setae. Vein pattern typical of genus: Forewing forks I and V present in male (
Fig. 1
A); forewing forks I, III and V present in female.
Hind
wing forks III and V present in both sexes (
Fig. 1
B). Tibial spur formula 0,2,2.
Male:
Mean forewing length
9.1 mm
(
8.5–9.2 mm
); mean hind wing length
6.6 mm
(
6.4–6.8 mm
) (
Fig. 1
). Mean body length 6.5 (6.1–7.0 mm) (n = 15).
Genitalia having abdominal segment IX, in lateral view, narrow, sutures separating each side of segment in 3 parts and posterior margin projected medialy. Preanal appendages shorter than segment X, with several setae (
Figs. 1
C, 1E). Tergum X with 1 pair of apicomesal processes and 1 pair of apicolateral processes long and digitate with subequal lengths (
Figs. 1
E, 1F). Inferior appendages densely covered by setae; basal portion of each inferior appendage with apicomesal process best seen in lateral view (
Fig. 1
C); second article of each inferior appendage prominent, broad, thumb-shaped (
Figs. 1
C, 1F). Phallic apparatus narrow gradually curved ventrad in apical half, with sclerite (
Fig. 1
D).
Female:
Mean forewing length
6.9 mm
(
6.9–7.9 mm
); mean hind wing length
4.8 mm
(
4.8–6.5 mm
). Mean body length 5.2 (
5.2–5.6 mm
) (n = 6).
FIGURE 1.
Atanatolica bonita
,
new species
. 1A–1B, male right wings, dorsal: 1A, forewing; 1B, hind wing; 1C–1F, male genitalia: 1C, lateral; 1D, phallic apparatus, 1E, dorsal; 1F, ventral.
FIGURE 2.
Atanatolica bonita
,
new species
, female genitalia. 2A, lateral; 2B, ventral.
Genitalia having abdominal segment IX broad, U-shaped and grooved. Appendages of segment X short, slender, with setae; segment X bearing thin, transverse sclerotized plate, projecting below appendages X and dorsal of valves and sternum IX. Valves small, with pair spine-like processes above them (
Fig. 2
A). Vaginal apparatus funnel-shaped (
Fig. 2
B).
Egg, Larva and Pupa:
Unknown.
Material examined.
Holotype
♂ (alcohol):
Brazil
:
Bahia, Camacan,
RPPN
Serra
Bonita
, stream 3,
15°23’02”S
,
39°34’10”W
,
806 m
,
01.viii.2008
, A. Calor, L. Lecci, L.C. Pinho & R. Moretto leg. (
MZUSP
).
Paratypes
: same as
holotype
, 0
2 ♂
(pinned) and 0 1 ♀ (
MZUSP
); same, except aerial entomological net, 0
3 ♂
(pinned); same, except
14.iv.2008
, 0
3 ♂
; same, except
02.viii.2008
, 0
2 ♂
and 0 1 ♀; same, except
15°23’10”S
,
39°34’03”W
,
819 m
, aerial entomological net, 0 2 ♀; same, except
04.viii.2008
, 0
3 ♂
(
UFBA
); same, except
25.ix.2008
, 0
1 ♂
and 0 1 ♀; same, except
19°22’57”S
,
39°33’21”W
,
04.viii.2008
, 0
1 ♂
(pinned) (
UMSP
).
Supplementary material: same as
holotype
,
20 ♂
and 0 5 ♀; same, except
01.x.2008
,
13 ♂
and 01♀; same, except
01.xi.2008
,
10 ♂
; same, except
01.xii.2008
, 0
8 ♂
; same, except
01.i.2009
, 0
2 ♂
and 0 2 ♀; same, except
01.ii.2009
,
11 ♂
and 0 1 ♀; same, except
01.iii.2009
, 0
2 ♂
and 0 1 ♀; same, except
01.iv.2009
, 0
2 ♂
; same, except
01.vi.2009
, 0
2 ♂
and 0 2 ♀; same, except
01.vii.2009
, 0
5 ♂
and 0 5 ♀; same, except
01.viii.2009
,
16 ♂
and 0 4 ♀; same, except
01.ix.2009
,
22 ♂
and 0 2 ♀; same, except
01.x.2009
,
15 ♂
and 0 6 ♀; same, except
01.xi.2009
,
20 ♂
and 0 3 ♀; same, except
01.xii.2009
,
24 ♂
and 0 2 ♀; same, except
01.iii.2010
, 0
3 ♂
; same, except
01.i.2011
, 0
1 ♂
; same, except
01.iii.2011
,
12 ♂
and 0 4 ♀; same, except
01.iv.2011
,
24 ♂
, 0 6 ♀; same, except
01.vi.2011
,
11 ♂
and 0 2 ♀; same, except
01.vii.2011
, 0
5 ♂
, 0 2 ♀; same, except
01.viii.2011
,
26 ♂
, 0 6 ♀; same, except
01.x.2011
, 0
8 ♂
, 0 4 ♀; same, except
15º23’1.4’’S
,
39º34’10’’W
,
25.xi.2011
, U.V./White light, R. Mariano, F. Quinteiro, T. Duarte, & E. Silva, E. legs., 0
2 ♂
.
Distribution.
Brazil
(BA).
Etymology.
The specific epithet,
bonita
, refers to the
type
locality of the species, RPPN Serra
Bonita
. Additionally, the word “
bonita
” is the Portuguese adjectival equivalent to good-looking, which is indeed an attribute of both the reserve and the species.
Taxonomical remarks.
According to
Holzenthal (1988)
the genus can be subdivided in two groups: The
A
.
dominicana
Group with forewing fork I petiolate, and the
A
.
brasiliana
Group with forewing fork I sessile. This latter character is shared among all members of the
A
.
brasiliana
Group, including
A. bonita
n. sp.
. Concerning the hind wings,
A. bonita
n. sp.
is very similar to
A. brasiliana
, but differs from
A. flinti
(
A. brasiliana
Group).
Atanatolica flinti
has an open discoidal cell (
rs
crossvein absent) and fork I is present (
Holzenthal 1988
).
In general,
A. bonita
n. sp.
is more similar to
A. brasiliana
than to
A. flinti
, considering the wings patterns and morphology of genitalia. The new species and
A. brasiliana
share the following characters: Preanal appendages shorter than segment X, segment X with apicomesal processes, and similar shapes of the second article of each inferior appendage. However,
A. bonita
n. sp.
can be distinguished from
A. brasiliana
based on the long apicolateral processes X, the long second article of each inferior appendage, and the broad phallic apparatus gradually curved ventrad in its apical half (versus short apicolateral processes X, short second article of each inferior appendage, and more slender phallic apparatus in
A
.
brasiliana
).
Biological remarks.
Malaise traps were positioned near streams in four localities:
15°23’28”S
,
39°33’56”W
,
830 m
(stream 1, tributary of Panelão River);
15°23’26”S
,
39°33’58”W
,
828 m
(stream 1, tributary of Panelão River);
15°23’37.3”S
,
39°33’51.4”W
,
814 m
(stream 1, tributary of Panelão River), and
15°23’03”S
,
39°34’00.1”W
,
806 m
(stream 3, first order tributary of Braço do Sul River). The majority of the specimens of
A. bonita
n. sp.
were collected from stream 3 between
August 2008
and
December 2011
. Only seven specimens were collected in light traps, probably because of their diurnal activity (
Flint
et al
. 1999
).
Considering the specimens collected from Malaise traps (n = 343), we observed a trend for adults to occur in specific periods of the year. A scarcity of published phenological data, especially for Neotropical caddisflies, makes these data for the new species especially interesting.
During these years, 2009 was the year in which the largest number of specimens was collected, reaching almost 50% of all the material sampled. In 2009 the species is more abundant in the second semester, numbers collected increased in August with a gradual decrease from October onwards (
Fig. 3
). This pattern was not observed in 2011, with a high number of specimens collected in April, also.
FIGURE 3.
Abundance of
Atanatolica bonita
,
new species
, collected by Malaise trap from August 2008 to December 2011 from Serra
Bonita
Private Natural Heritage Reserve, Bahia, Brazil.
In the Neotropical Region,
Wolf
et al
. (1988)
proposed a negative relationship between emergence of aquatic insects and periods with high precipitation; temperature and rainfall seem to be the main regulatory factors. In this case, the high emergence of the new species (as indicated by the number of collected specimens) in the second semester, especially from July to August can be explained by lower temperature and precipitation. On the other hand, the decrease in abundance can be understood by higher temperature and precipitation with the onset of the wetter season. According to
Liuth
et al
. (2013)
, these two seasons can be defined in the study area: A wetter season (from November to April) with high temperatures and elevated precipitation, and a drier season (from May to October) with low temperatures and light precipitation.
Flint and Masteller (1993)
observed that increase in water volume interferes with
Trichoptera
emergence, as the immatures may be killed. In this context, the reduction in abundance during the rainy season is a well documented phenomenon (
Bispo & Oliveira 1998
;
Diniz-Filho
et al
. 1998
;
Bispo
et al
. 2001
;
2004
;
2006
), especially in first order streams. Rainfall interacts with local factors such as topography and riparian characteristics (e.g., with or without vegetative cover); and variations of current speed, water volume, and dissolved oxygen, among other factors, to cause dramatic impacts on the aquatic insect fauna (
Yokoyama
et al
. 2012
). Thus, seasonal variation in the precipitation regime could possibly be responsible for demographic differences during the year.