A new species of Ituglanis Costa & Bockmann, 1993 (Siluriformes: Trichomycteridae) from Rio Ribeira de Iguape and upper Rio Tietê basins, southeastern Brazil
Author
Mendonça, Marina Barreira
Author
Oyakawa, Osvaldo Takeshi
Author
Wosiacki, Wolmar Benjamin
text
Zootaxa
2018
2018-10-26
4504
4
473
488
journal article
28068
10.11646/zootaxa.4504.4.2
c64b2b9e-2b56-453f-8391-ca6b87bee8da
1175-5326
2606585
7DA695AE-9360-4D13-BE2B-18A2E42C9DF3
Ituglanis amphipotamus
,
new species
(
Figures 1
,
2A
,
3A
,
4A
,
5
,
6
A-C,
Table 1
)
Ituglanis
sp. D. Datovo 2014: 467 (comparative material).
Ituglanis
sp. D. Datovo & de
Pinna 2014
: 3
(comparative material), 11 (remarks on the phylogeny of
Ituglanis
)
Ituglanis
sp. D. Datovo, de
Aquino & Langeani 2016
: 452
(discussion), 454 (comparative material).
Ituglanis proops
.
Castro & Wosiacki 2017
: 216
(comparative material).
Holotype
.
MZUSP 69393
,
70.3
mm
SL;
Brazil
:
São Paulo
State
,
Rio Ribeira de Iguape
drainage,
Rio Ipiranga
, tributary of
Rio Juquiá
,
Fazenda Brasban
, mun.
Sete Barras
;
24°12'19"S
47°53'51"W
,
18 May 2001
,
O. Oyakawa
,
A. Akama
,
J. Nolasco
&
M. de Pinna.
Paratypes
.
Brazil
,
São Paulo
State
:
MCP
54010,
4
,
44
–
66.6
mm
SL,
MPEG 37305
,
4
(2 c&s),
33.1–63.3 mm
SL, collected with holotype.
MZUSP 52861
,
3
,
35.7
–49.0 mm SL, affluent of
Rio Juquiá
,
Ribeira
de Iguape
drainage, at
Fazenda Poço Grande
, mun.
Juquiá
,
24°20'0.0"S
47°38'0.0"W
,
12 October 1974
,
J. Garavello
&
A. Abe.
MZUSP 52862
,
1
,
61.2
mm
SL,
Ribeirão Palhau
,
Ribeira
de Iguape
drainage, mun.
Juquiá
,
24°20'0.0"S
47°38'0.0"W
,
25 January 1975
,
J. Garavello
&
A. Abe.
MZUSP 53496
,
3
,
33.5
–
40.3
mm
SL, tributary of
Rio Jacupiranga
,
Ribeira
de Iguape
drainage, mun.
Jacupiranga
,
24°39'00"S
47°58'00"W
,
19 April 1998
,
O. Oyakawa
,
V. Garutti
,
M. Toledo-Piza
&
C. Ragazzo.
MZUSP 65747
,
1
,
53.2
mm
SL,
Rio Preto
,
Ribeira
de Iguape
drainage, outside of the limits of
Parque Estadual Carlos Botelho
, mun.
Sete Barras
,
24°11'33"S
47°53'25"W
,
29 November 2000
,
O. Oyakawa
,
A. Akama
,
J. Nolasco
,
K. Mautari
&
A. Paixão.
MZUSP 65748
,
1
,
57.1
mm
SL, same data as
MZUSP 65747
.
MZUSP 65749
,
3
,
45.5
–
57.5
mm
SL, same data as
MZUSP 65747
.
MZUSP 65750
,
4
(2 c&s),
44.9–60.7 mm
SL,
Rio Quiolombo
,
Ribeira
de Iguape
drainage, mun.
Sete Barras
,
24°14'14"S
48°33'09"W
,
30 November 2000
,
O. Oyakawa
,
A. Akama
,
J. Nolasco
&
A. Paixão.
MZUSP 65751
,
2
,
45.1
–
63.6
mm
SL,
Rio Ipiranga
,
Ribeira
de Iguape
drainage at
Fazenda Brasban
, mun.
Sete Barras
,
24°10'47"S
47°51'27"W
,
28 November 2000
,
O. Oyakawa
,
A. Akama
,
J. Nolasco
,
K. Mautari
&
A. Paixão.
MZUSP 65752
,
1
,
63.9
mm
SL, same data as
MZUSP 65751
.
MZUSP 65753
,
2
,
66.9
–
76.5
mm
SL, same data as
MZUSP 65751
.
MZUSP 84330
,
3
,
30.9
–
35.3
mm
SL, same data as
MZUSP 65751
.
MZUSP 84618
,
5
,
37.5
–
49.7
mm
SL, tributary of
Rio Jacupiranga
,
Ribeira
de Iguape
drainage, mun.
Jacupiranga
,
24°37'25"S
48°33'21"W
,
29 May 2003
,
O. Oyakawa.
MZUSP 109131
,
3
,
40.5
–
42.5
mm
SL,
Ribeirão Itaquaxiara
, tributary of
Rio Embu-Mirim
,
Rio Tietê
drainage, mun.
Itapecerica
da Serra
,
23°43'56"S
46°48'35"W
,
13 April 2010
,
O. Oyakawa
,
I. Fichberg
&
J. Muriel-Cunha.
MZUSP
121037
,
4
,
53.4
–
70.8
mm
SL, tributary of
Rio Pinheiros
,
Rio Tietê
drainage, at
Represa Billings
, mun.
Mauá
,
23°42'44"S
46°27'36"W
,
10 May 2014
,
R. Imoto
.
TABLE 1.
Morphometrics of
Ituglanis amphipotamus
. Minimum value (Min), maximum value (Max), mean (M) and standard deviation (SD). Number of specimens = 35.
| Holotype |
Min |
Max |
M |
SD |
| Total length (mm) |
82.2 |
30.9 |
82.2 |
| Standard length (mm) |
70.3 |
26.3 |
70.3 |
| Head length (mm) |
9.9 |
4.4 |
10.1 |
| % SL |
| Predorsal length |
74.5 |
67.3 |
76.0 |
73.4 |
1.8 |
| Preanal length |
75.5 |
70.3 |
76.2 |
74.0 |
1.4 |
| Prepelvic length |
62.9 |
58.6 |
66.3 |
63.4 |
1.7 |
| Caudal peduncle length |
15.7 |
14.0 |
18.2 |
15.8 |
1.0 |
| Caudal peduncle length II |
17.5 |
17.4 |
20.1 |
18.4 |
0.7 |
| Caudal peduncle depth |
11.2 |
8.8 |
12.1 |
10.5 |
0.9 |
| Body depth |
16.9 |
11.5 |
16.9 |
14.5 |
1.3 |
| Dorsal-fin base |
10.9 |
9.0 |
12.7 |
11.1 |
0.8 |
| Pelvic-fin base to anus |
5.2 |
3.5 |
6.2 |
4.8 |
0.7 |
| Pelvic-fin base to anal-fin base |
11.3 |
8.3 |
11.8 |
10.0 |
0.9 |
| Anus to anal-fin base |
6.0 |
3.3 |
6.8 |
4.8 |
0.9 |
| Anal-fin base |
10.1 |
8.3 |
11.1 |
9.7 |
0.7 |
| Head length |
14.1 |
13.4 |
19.2 |
15.6 |
1,4 |
| % HL |
| Body width |
96.8 |
78.8 |
106.5 |
93.0 |
7.8 |
| Interorbital width |
26.6 |
23.2 |
35.0 |
29.1 |
3.2 |
| Orbital diameter |
12.2 |
8.3 |
14.8 |
12.1 |
1.7 |
| Snout length |
36.7 |
29.3 |
41.0 |
34.4 |
2.9 |
| Maxillary barbel length |
126.4 |
79.4 |
136.2 |
101.7 |
14.4 |
| Rictal barbel length |
93.8 |
70.1 |
116.1 |
90.2 |
11.4 |
| Nasal barbel length |
108.9 |
80.6 |
129.9 |
98.6 |
12.5 |
| First pectoral ray |
92.8 |
69.9 |
109.0 |
93.8 |
10.6 |
Diagnosis.
Ituglanis amphipotamus
can be distinguished from all congeners, except
I. paraguassuensis
Campos-Paiva & Costa, 2007
,
I. cahyensis
Sarmento-Soares, Martins-Pinheiro, Arnada &
Chamon 2006
,
I. parkoi
(
Miranda
Ribeiro 1944
) and
I. apteryx
, by the presence of an anterior fontanel. It can be further distinguished from its congeners by a combination of the following characters: the presence of i,5 pectoral-fin rays,
vs.
i,
4 in
I. apteryx
,
I. cahyensis
I. macunaima
, and
I. parahybae
(
Eigenmann 1918
)
; i,
6 in
I. agreste
,
I. guayaberensis
(
Dahl 1960
)
,
I. herberti
(
Miranda
Ribeiro 1940
),
I. inusitatus
,
I. laticeps
(
Kner 1863
)
,
I. paraguassuensis
Campos-Paiva & Costa 2007
, and
I. proops
; i,
7 in
I. bambui
,
I. epikarsticus
,
I. mambai
, and
I. passensis
; i,
7–i
,
8 in
I. boticario
and
I. ramiroi
. The presence of five or six pairs of ribs,
vs.
two in
I. compactus
and
I. eichhorniarum
(
Miranda
Ribeiro 1912
), two to three in
I. amazonicus
(
Steindachner 1882
)
,
I. ina
Wosiacki, Dutra & Mendonça 2012
,
I. inusitatus
,
I. gracilior
(
Eigenmann 1912
)
,
I. metae
(
Eigenmann 1917
)
,
I. nebulosus
de
Pinna & Keith 2003
, and
I. parkoi
(
Miranda
Ribeiro 1944
). The absence of the antorbital segment of the infraorbital canal (pores
i1 and i3
absent),
vs
. presence in
I. agreste
,
I. boitata
,
I. compactus
,
I. paraguassuensis
and,
I. proops
; the pores
i1 and i3
are variable in
I. australis
,
but the new species can also be distinguished from
I. australis
by the color pattern, with rounded blotches similar in size to orbital diameter and sparse dots on dorsal and lateral surface of head and body, decreasing in size towards the caudal fin
vs.
defined stripes on flank.
Ituglanis amphipotamus
is further distinguished from
I. goya
by the color pattern (scattered brown blotches on dorsal and lateral surface of head and body, decreasing in size towards the caudal fin,
vs.
brown blotches on inner skin layer forming two to five stripes on trunk), by the number of post-Weberian vertebrae (39
vs.
41or 42), and by the absence of the nasal canal (pores s1 and s2 absent,
vs.
pore s1 present). The color pattern of
Ituglanis amphipotamus
is similar to
I. boitata
and
I. proops
, the latter occurring in the same drainage of
Itugalis
amphipotamus
, but the new species is readily distinguished from both
I. boitata
and
I. proops
by the absence of the nasal canal and the antorbital portion of infraorbital canal (pores
i1
,
i3
, s1 and s2 absent,
vs
. present; figure 2).
Ituglanis amphipotamus
is further distinguished from
I. proops
by the size and position of the interopercular patch of odontodes in relation to the opercular patch of odontodes (similar in size, distal end of interopercular patch of odontodes does not reach a transverse line through the anterior margin of opercular patch of odontodes
vs
. almost the double the size, passing to the middle of the opercular patch of odontodes; figures 3 and 4).
FIGURE 1.
Ituglanis amphipotamus
, MZUSP 69393, holotype, 70.3 mm SL; Brazil: São Paulo: Sete Barras, Rio Ipiranga, tributary of Rio Juquiá, Fazenda Brasban, Ribeira de Iguape drainage. Left lateral, dorsal and ventral views. Scale bars = 10 mm.
FIGURE 2.
Dorsal view of head. A)
Ituglanis amphipotamus
, paratype, MZUSP 65753, 66.9 mm SL. Nasal canal of supraorbital line (pores s1 and s2) and antorbital portion of infraorbital line (pores i1 and i3) absent; B)
I. proops
,
MZUSP 79576, 55.1 mm SL. Nasal canal of supraorbital line (pores s1 and s2, black arrows) and antorbital portion of infraorbital line (pores i1 and i3, white arrows) present. Scale bars = 2mm.
FIGURE 3.
Left lateral view of head illustrating differences in the opercular and interopercular patches of odontodes. A)
Ituglanis amphipotamus
, paratype, MZUSP 65753, 66.9 mm SL. The posterior margin of the interopercular patch reaches the base of the opercular patch of odontodes, and the distance between the posterior margin of the interopercular patch of odontodes and the pectoral-fin base is similar to the size of the opercular patch of odontodes. B)
I. proops
,
MZUSP 79576, 58.9 mm SL. The posterior margin of the interopercular patch reaches half length of the opercular patch of odontodes, and the distance between the posterior margin of the interopercular patch of odontodes and the pectoral-fin base, is about one third the size of the opercular patch of odontodes. IPO, interopercular patch of odontodes; OPO, opercular patch of odontodes. Scale bars = 5mm.
Description.
Morphometric data in
Table 1
; see figures 1–2 for general external aspect. Body elongate, slightly cylindrical on trunk, becoming compressed at caudal peduncle. Head depressed, anterior margin straight; dorsal and ventral profile straight. Eye on anterior half of head, close to posterior nostril; orbit rim not free. Anterior nostril surrounded by tubular flap continuous with base of nasal barbel; posterior nostril larger than anterior nostril, with thin crescent flap along anterior border. Mouth subterminal. Lower lip with lateral fleshy folds continuous with base of rictal barbel. Nasal barbel surpassing pectoral-fin base. Maxilary and rictal barbels surpassing posterior end of trunk canal (pore ll2).
FIGURE 4.
Lateral view of right suspensorium (lower jaw removed) and opercular series. A)
Ituglanis amphipotamus
, paratype, MZUSP 65750, 49.2 mm SL, showing the posterior margin of interopercular patch of odontodes in a vertical through the middle of the opercle, not reaching the opercular patch of odontodes. B)
Ituglanis proops
MZUSP 60255, 57.1 mm mm SL, showing the posterior margin of interopercular patch of odontodes in a vertical through the middle of opercular patch of odontodes. HY, hyomandibula; IO, interopercle; MT, metapterygoid; OP, opercle; PO, preopercle; QU, quadrate. Scale bars = 2mm.
Maxilla slightly longer than premaxilla. Premaxilla with 19–22 conical teeth. Dentary with 24–28 conical teeth. Medial margin of autopalatine with shallow concavity. Anterior fontanel oval, anterior and posterior rims tapered, similar in size to postorbital process of sphenotic+prootic+pterosphenoid. Posterior cranial fontanel reduced to a rounded orifice at posterior half of parieto-supraoccipital. Branchiostegal rays seven (3) or eight (1), fourth, fifth and sixth expanded distally; three (4) attached to cartilage between anterior and posterior ceratohyals; two (3) or three (1) on anterior ceratohyal; two (4) on posterior ceratohyal, lateral most ray free. Opercular patch of odontodes rounded, 18–20 conical odontodes. Interopercular patch of odontodes elongate, 18–28 conical and slightly curved odontodes.
Laterosensory canals with simple tubes ending in single pores. In all examined specimens, the infraorbital line is represented solely by the sphenotic canal (pores
i10 and i11
) and the supraorbital line is represented solely by the frontal canal (pores s3 and s6). The otic, postotic and scapular canals are continuous to each other (forming pores po1 and po2, located anterodorsal to opercular patch of odontodes) and to a short trunk canal bearing only two pores (ll1 and ll2).
Five pairs of ribs (4), two specimens with six ribs on one side. Post-Weberian vertebrae 39 (4); post-Weberian precaudal vertebrae 12 (2), 13 (1) or 14 (1); post-Weberian caudal vertebrae 25 (1), 26 (1) or 27 (2); post-Weberian abdominal vertebrae seven (2), eight (1) or nine (1); first complete hemal arch on fifth (1), sixth (1) or seventh (2) post-Weberian vertebrae; post-Weberian vertebrae between insertion of first pterygiophore of dorsal and anal fins one (3) or two (1).
Pectoral-fin rays i,5* (36), one c&s specimen with i,4 on left side; first ray twice longer than first branched ray; anterior portion of pectoral-fin base covered by branchial membrane. Pelvic-fin rays i,4* (36), one c&s specimen with i,2 on left side; splint present. Distal margin of pelvic fin surpassing the anus in some specimens. Basipterygium with two anterior processes longer than the main body of bone. Dorsal-fin rays i,7 (2), ii,5 (3), ii,6* (24) or iii,5 (1); in c&s specimens iii
p
,iii,5 (1), iii,6 (1) or iv
p
,ii,6 (2); located at posterior half of body. Dorsal-fin pterygiophores seven (1) or eight (3); first pterygiophore posterior to neural spine of 22
nd
(2), 23
rd
(1) or 24
th
(1) post-Weberian vertebra. Anal-fin rays i,5 (10), i,6 (1), ii,4 (13) or ii,5* (6); in c&s specimens iii
p
,ii,5 (1), iii,4 (2) or iv
p
,ii,4 (1); located right behind dorsal-fin origin. Anal pterygiophores six (3) or seven (1); first pterygiophore posterior to hemal spine of 24
th
(2), 25
th
(1) or 27
th
(1) post-Weberian vertebra. Caudal-fin rays i,11,i* (33), i,5 (36) on dorsal lobe and i,6 (36) on ventral lobe, one specimen with i,10,i with i,
5 in
each lobe. Procurrent caudal-fin rays xvi
p
(1), xvii
p
(2) or xviii
p
(1) on dorsal lobe, distributed across five (1) or six (3) neural spines of posteriormost vertebrae, and xiv
p
(3) or xvi
p
(1) on ventral lobe, along five (4) hemal spines of posteriormost vertebrae. Two upper hypural plates present, presumably hypural 3 (ventral) and compound hypural 4+5 (dorsal); single lower hypural plate (compound hypural 1+2) fused to parhypural. Caudal fin rounded.
Coloration in alcohol.
Background pale yellow, ventral surface lighter. Rounded blotches similar to orbital diameter, light brown, sparse on dorsal and lateral surface of head and body, decreasing in size towards caudal fin. Scattered small brown blotches on ventral surface of head. Ventral surface from pectoral girdle to pelvic-fin insertion lacking blotches. Area from pelvic fin to caudal-fin with tiny, light brown, rounded blotches. Maxillary, nasal and rictal barbels with small brown rounded blotches. All fins irregularly pigmented with light brown blotches.
Distribution.
The new species is known from Rio Ipiranga, Rio Jacupiranga, Rio Juquiá, Rio Preto, Rio Quilombo, Ribeirão Palhau and an unnamed stream, all from Ribeira de Iguape drainage, and from Ribeirão Itaquaxiara, a tributary of Rio Embu-Mirim, and an unnamed tributary of Rio Pinheiros, all from upper Tietê drainage (figure 5).
Etymology.
The specific name
amphipotamus
comes from the Greek
amphi
meaning double, on both sides, and
potamus
from the Greek, river, stream, in reference to the presence of the species in two adjacent river basins. A noun in apposition.
Ecological notes.
The
type
locality of
Ituglanis amphipotamus
is a medium-size river, running over rocky and sandy bottoms at
ca
.
40 m
above sea level. The river is about one meter deep,
20 m
wide, clear, oxygenated and fast-flowing (figure 6; a). In all sites where
Ituglanis amphipotamus
was collected, except for those in the Parque Estadual Carlos Botelho conservation unit, the riparian vegetation was replaced by banana plantation, which is the main economic activity in the Ribeira de Iguape valley. At the
type
locality,
I. amphipotamus
occurs syntopically with
Acentronichthys leptos
Eigenmann & Eigenmann 1889
,
Astyanax ribeirae
Eigenmann 1911
,
Atlantirivulus santensis
(
Köhler 1906
),
Characidium lanei
Travassos 1967
,
Geophagus brasiliensis
(
Quoy & Gaimard 1824
)
,
Gymnotus carapo
Linnaeus 1758
,
Hoplias malabaricus
(
Bloch 1794
)
,
Microglanis cottoides
(
Boulenger 1891
),
Mimagoniates microlepis
(
Steindachner 1877
)
,
Pseudotothyris obtusa
(
Miranda
Ribeiro 1911
), and
Rhamdia quelen
(
Quoy & Gaimard 1824
)
.
The new species was also collected in the Ribeirão Itaquaxiara, a small tributary of Rio Embu-Mirim at Represa de Guarapiranga, and in a small unnamed tributary of Rio Grande at Represa Billings, both in the Rio Pinheiros drainage. For decades both streams were heavily impacted by deforestation and pollution from several irregular human settlements and industries, which persist. As a result of decades of impacts on the enviroments in the Ribeirão Itaquaxiara only four species were collected with
I. amphipotamus
:
Astyanax fasciatus
(
Cuvier 1819
)
,
Astyanax paranae
Eigenmann 1914
,
Mimagoniates microlepis
and
Piabina argentea
Reinhardt 1867
; and in the small tributary to Rio Grande at Represa Billings,
Australoheros
sp.,
Hyphessobrycon bifasciatus
Ellis 1911
, and
Piabina argentea
. In the years of
2008 and 2009
, the Rio Pinheiros basin suffered another great impact during the construction of Governador Mário Covas Beltway that increased soil erosion and the consequent siltation of the aquatic environments (figure 6; b–c).
Conservation status.
Ituglanis amphipotamus
is known from several localities in the Rio Ribeira de Iguape and only two localities in the upper Rio Tietê. In the Ribeira de Iguape the species also occurs in two protect areas, the Parque Estadual Carlos Botelho and Parque Estadual e Turístico do Alto Ribeira (PETAR) conservation units and, at least in these areas, no threats to the species were detected so far. Unfortunately, the same is not true for the populations of the upper Rio Tietê, where it is known from only two localities (see Ecological notes). Considering that today, apparently, there are no threats that may endanger the species in its entire distribution, we suggest that
I. amphipotamus
should be classified as Least Concern (LC) according to the International Union for Conservation of Nature (IUCN) categories and criteria (IUCN Standards and Petitions Subcommittee, 2017).