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A new species of Pseudancistrus from the Río Caroní, Venezuela (Siluriformes: Loricariidae)

Authors:
Jonathan Armbruster at Auburn University
Jonathan Armbruster
Donald Charles Taphorn at Royal Ontario Museum
Donald Charles Taphorn
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Abstract and Figures

Pseudancistrus reus is a new species from the Río Caroní (Río Orinoco drainage) of Venezuela known from two individ- uals. It differs from all other Pseudancistrus by having a color pattern consisting of alternating dark and light bars. In addition, it differs from all except P. genisetiger and P. papariae by having an incomplete mid-dorsal plate row and from P. genisetiger and P. papariae by having 18 contiguous mid-dorsal plates vs. 14 plates, a plateless break and then two more plates at the end of the caudal peduncle. The type locality of P. reus was submerged by the construction of the Caru- achi dam, and is also the only known locality of the gymnotiform Sternarchorhynchus gnomus, making it imperative that the conservation status of these and other potential Caroní endemics be assessed. Pseudancistrus reus is the first species of Pseudancistrus sensu stricto from the Orinoco. Although the relationship of the species to other Pseudancistrus is unknown, P. reus may have gained access to the Orinoco either via stream capture between the Caroní and the Rio Urar- icoera (Rio Branco - Rio Negro drainage) or via stream capture between the Caroní and either the Cuyuní or Mazaruni Rivers (Essequibo River drainage).
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Accepted by M. R. de Carvalho: 19 Feb. 2008; published: 25 Mar. 2008
33
ZOOTAXA
ISSN 1175-5326 (print edition)
ISSN
1175-5334 (online edition)
Copyright © 2008 · Magnolia Press
Zootaxa 1731: 3341 (2008)
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A new species of Pseudancistrus from the Río Caroní, Venezuela
(Siluriformes: Loricariidae)
JONATHAN W. ARMBRUSTER
1
& DONALD C. TAPHORN
2
1
Department of Biological Sciences, Auburn University, 331 Funchess, Auburn, AL 36849, USA. E-mail: armbrjw@auburn.edu
2
UNELLEZ, BioCentro, Museo de Zoología, Guanare, estado Portuguesa, 3310 Venezuela. E-mail: taphorn@gmail.com
Abstract
Pseudancistrus reus is a new species from the Río Caroní (Río Orinoco drainage) of Venezuela known from two individ-
uals. It differs from all other Pseudancistrus by having a color pattern consisting of alternating dark and light bars. In
addition, it differs from all except P. genisetiger and P. papariae by having an incomplete mid-dorsal plate row and from
P. genisetiger and P. papariae by having 18 contiguous mid-dorsal plates vs. 14 plates, a plateless break and then two
more plates at the end of the caudal peduncle. The type locality of P. reus was submerged by the construction of the Caru-
achi dam, and is also the only known locality of the gymnotiform Sternarchorhynchus gnomus, making it imperative that
the conservation status of these and other potential Caroní endemics be assessed. Pseudancistrus reus is the first species
of Pseudancistrus sensu stricto from the Orinoco. Although the relationship of the species to other Pseudancistrus is
unknown, P. reus may have gained access to the Orinoco either via stream capture between the Caroní and the Rio Urar-
icoera (Rio Branco Rio Negro drainage) or via stream capture between the Caroní and either the Cuyuní or Mazaruni
Rivers (Essequibo River drainage).
key word: Siluriformes, Loricariidae, taxonomy
Resumen
Se describe como especie nueva Pseudancistrus reus del río Caroní (cuenca del río Orinoco) en Venezuela, basada en
dos ejemplares. Difiere de todas los demás Pseudancistrus en tener un patrón de pigmentación que consiste de barras
claras alternando con oscuras. Además, difiere de todas los demás, menos P. genisetiger y P. papariae en tener la fila
medio-dorsal de placas incompleta, y de P. genisetiger y P. papariae difiere en tener 18 placas medio-dorsales contiguas
vs. 14 placas seguidas por una zona sin placas y luego dos placas más en el pedúnculo caudal). La localidad típica de P.
reus fue sumergida por las aguas del embalse Caruachi. Ese sitio es también la localidad típica de Sternarchorhynchus
gnomus, haciéndolo imprescindible evaluar el estado de conservación de estas dos especies más las otras endémicas del
bajo Caroní. Pseudancistrus reus es la primera especies de Pseudancistrus sensu stricto de la cuenca del río Orinoco.
Aunque desconocemos las relaciones con otras Pseudancistrus, P. reus puede haber ganado acceso al Caroní vía la cap-
tura de caños en las cabeceras del río Uraricoera-Branco-Negro o del río Cuyuní o Mazaruni, afluentes del río Essequibo.
Introduction
In the early history of loricariid taxonomy (suckermouth armored catfishes of the neotropics), Pseudancistrus
was a genus in which many species of the current Hypostominae (as well as the Neoplecostominae) were
placed solely based on the presence of hypertrophied odontodes along the snout. By the time of Isbrücker
(2001), Pseudancistrus had largely been whittled down to those species of the Ancistrinae (now Ancistrini)
ARMBRUSTER & TAPHORN
34 · Zootaxa 1731 © 2008 Magnolia Press
that have hypertrophied cheek odontodes, but little ability to evert those plates (this group, with the addition
of P. genisetiger and P. papariae, is referred to as Pseudancistrus sensu stricto here). Armbruster (2004a, b)
found that there was good support for an expanded, monophyletic Pseudancistrus that included Lithoxancis-
trus, Guyanancistrus, Hemiancistrus megacephalus, and a species described in Armbruster (2004b) as Pseu-
dancistrus sidereus. Although Pseudancistrus sensu stricto and Lithoxancistrus were found to be
monophyletic (see also Lujan et al., 2007), Guyanancistrus did not have any synapomorphies to unite the spe-
cies, the diagnoses of Pseudancistrus and Lithoxancistrus were weak, and several more poorly diagnosed gen-
era would have to be described to preserve Guyanancistrus as a valid taxon.
Pseudancistrus sensu stricto are those species that have only a modest ability to evert the cheek plates.
They can evert the plates to about 30° from the head, a condition similar to Hypostomus (Armbruster, 2004a).
Pseudancistrus s.s. has six described, accepted species: P. barbatus, P. depressus, P. genisetiger, P. guentheri,
P. nigrescens, and P. papariae. Pseudancistrus guttatus is considered a synonym of P. barbatus (Fisch-Muller,
2003). The species are found mostly in Guyana, Suriname, and French Guiana, but P. genisetiger and P.
papariae are found in coastal drainages in northeastern Brazil. In addition, undescribed species of Pseudan-
cistrus s.s. are known from middle and lower Amazonian tributaries (O. Ribeiro, pers. comm.). Although
other members of Pseudancistrus have been described from the Orinoco (Isbrücker et al., 1988; Armbruster,
2004; Lujan et al., 2007), no members of Pseudancistrus s.s. had previously been collected in the Orinoco
basin.
We discovered two specimens of a clearly new species of Pseudancistrus s.s. at MCNG that were col-
lected from a rocky side channel of the Río Caroní in eastern Venezuela that is now part of the Caruachi reser-
voir. The species is quite different from any described Pseudancistrus (alternating dark and light bars vs. spots
or mottling or solid coloration) and it differs from all except P. genisetiger and P. papariae in having the mid-
dorsal plate row incomplete. We describe the species here as P. reus and discuss its biogeography.
Methods
Counts and measurements follow Armbruster (2003). Institutional abbreviations are as in Leviton et al.
(1985). Dentary papillae are defined as a simple papilla or clusters of papillae located proximally along each
dentary, internal to the tooth cup (Lujan et al., 2007). For other species of Pseudancistrus examined, we pro-
vide the catalog number, number of specimens measured, type status, and size range of the examined speci-
mens. The species description follows the format of Armbruster (2004b) and Lujan et al. (2007). Names of
plate rows follow Schaefer (1997). Tentacules are the fleshy sheaths of odontodes that form in some ancistrins
when the odontodes erupt from the anterior of the odontode sheath (Sabaj et al., 1998). The following abbre-
viations are used in the text: D. = distance, Dia. = diameter, Dp. = depth, dr. = drainage, L. = length, premax.
= premaxillary, W = width.
Pseudancistrus reus, new species
(Fig. 1, Table 1)
Holotype: MCNG 18447, 72.2 mm SL, Venezuela, Estado Bolivar, Río Caroní in a small side channel very
close to the confluence of the Río Claro, 07°54'30"N, 063°02'50"W, D.C. Taphorn, O. León M., L. Balbás, R.
Smith, J. García T. and A. Barbarino, 6 March 1988.
Paratype: AUM 47152, 1, 76.5 mm SL, same locality data as holotype.
Diagnosis: Pseudancistrus reus can be separated from all other described Pseudancistrus by the presence
of bars on the body (vs. spots, mottling, or entirely dark coloration), and from all examined Pseudancistrus
Zootaxa 1731 © 2008 Magnolia Press · 35
A NEW SPECIES OF PSEUDANCISTRUS
except P. genisetiger and P. papariae by having an incomplete mid-dorsal plate row with 18 plates (vs. a com-
plete mid-dorsal row with 21–25 plates). In the one specimen of P. genisetiger examined and the holotype of
P. papariae, the mid-dorsal row has 14 plates, then a break around the adipose fin and then two more plates at
the posterior end of the caudal peduncle (vs. 18 continuous plates in P. reus). The other specimen of P. papar-
iae (AUM 20768) examined had a complete mid-dorsal row (the plate rows were not examined on the
paratypes).
FIGURE 1. Dorsal, lateral and ventral views of holotype of Pseudancistrus reus, MCNG 18447, 72.2 mm SL. Photos by
N.K. Lujan.
Description: Morphometrics presented in Table 1. Meristics based on two individuals. Largest specimen
76.5 mm SL. Body very dorsoventrally flattened and fairly narrow. Head and nape gently convex to maximum
depth at insertion of dorsal fin, then very gradually decreasing to dorsal procurrent caudal-fin spines, then
ARMBRUSTER & TAPHORN
36 · Zootaxa 1731 © 2008 Magnolia Press
angled dorsally ~4to caudal fin. Ventral surface flat to ventral procurrent caudal fin rays, then angled ven-
trally ~30° to caudal fin. Eyes set fairly close together, almost completely dorsally oriented. In dorsal profile,
head broadly triangular, body widest at pectoral-fin insertions, then narrowing slightly to dorsal-fin origin,
then expanding to about middle of dorsal fin before tapering to end of caudal peduncle.
TABLE 1. Selected morphometrics of Pseudancistrus reus (n=2). Landmarks represent the two landmarks the measure-
ment is between (see Armbruster 2003). Measurements are ratios of SL (predorsal l. to pelvic-dorsal l.) or head l. (head-
eye l. to premaxillary tooth cup l.).
Landmarks Measurement Average Holotype Paratype
1–20 SL 74.3 72.2 76.5
1–10 Predorsal L. 44.1 43.2 45.0
1–7 Head L. 33.9 33.2 34.6
7–10 Head-dorsal L. 10.0 9.8 10.2
8–9 Cleithral W. 33.0 32.2 33.8
1–12 Head-pectoral L. 30.0 28.8 31.2
12–13 Thorax L. 23.1 23.1 23.2
12–29 Pectoral-spine L. 25.5 25.0 26.0
13–14 Abdominal L. 24.5 24.7 24.3
13–30 Pelvic-spine L. 23.8 23.6 24.0
14–15 Postanal L. 28.1 29.5 26.7
14–31 Anal-fin spine L. 11.1 10.7 11.5
10–12 Dorsal-pectoral D. 26.0 26.3 25.6
10–11 Dorsal spine L. 26.3 25.1 27.4
10–13 Dorsal-pelvic D. 22.0 21.4 22.6
10–16 Dorsal-fin base L. 29.2 30.6 27.8
16–17 Dorsal-adipose D. 15.3 14.6 16.0
17–18 Adipose-spine L. 5.6 6.1 5.2
17–19 Adipose-up. caudal D. 11.9 12.3 11.4
15–19 Caudal peduncle Dp. 10.9 10.6 11.1
15–17 Adipose-low. caudal D. 18.4 18.9 18.0
14–17 Adipose-anal D. 19.4 18.3 20.5
14–16 Dorsal-anal D. 13.1 12.8 13.4
13–16 Pelvic-dorsal D. 27.2 25.9 28.5
5–7 Head-eye L. 30.2 31.6 28.7
4–5 Orbit Dia. 19.3 19.5 19.1
1–4 Snout L. 65.8 65.9 65.8
2–3 Internares W. 8.5 9.5 7.5
5–6 Interorbital W. 52.2 56.7 47.8
7–12 Head Dp. 62.4 63.7 61.2
1–24 Mouth L. 60.5 61.1 59.9
21–22 Mouth W. 63.1 69.2 57.0
22–23 Barbel L. 7.6 5.6 9.6
25–26 Dentary tooth cup L. 18.3 18.3 18.3
27–28 Premaxillary tooth cup L. 17.4 19.0 15.7
Zootaxa 1731 © 2008 Magnolia Press · 37
A NEW SPECIES OF PSEUDANCISTRUS
Anterior margin of snout with small to medium-sized hypertrophied odontodes; tentacules of snout odon-
todes not longer than odontodes, unbranched. Evertible cheek plates not strongly evertible (to ~30° from
head), with relatively short hypertrophied odontodes that reach maximally to posterior edge of pectoral-fin
spine. Head contours smooth with slightly raised supraorbital crest from anterolateral corner of nares to poste-
rior edge of pterotic.
Mouth relatively small with premaxillary and dentary tooth cups forming gentle arcs. Premaxillary teeth
62–77; dentary teeth 68. Teeth viliform and bicuspid with very short cusps (medial cusp longer than lateral
cusp). Lateral edge of oral disk not extending beyond lateral margins of head. Maxillary barbels short, not
reaching base of evertible cheek plates. Ventral surface of lips papillose. Papillae increasing in size distally.
Dentary papillae absent. Buccal papilla absent in one individual and barely present in other. Buccal valve
fairly unusual, with median, ridge-like, thickened region, and very thin, transluscent lateral wings (usually in
loricariids lateral wings are fairly thick and only slightly thinner than median ridge).
Dorsal fin II,7; dorsal-fin spinelet short and V-shaped; dorsal-fin lock functional. Dorsal fin short, reach-
ing preadipose plate when adpressed. First dorsal-fin ray longer than dorsal-fin spine. Pectoral fin I,6; pectoral
spine short (just slightly longer than pelvic spine) extending to middle of pelvic fin when adpressed. Pectoral-
fin spine fairly weak with odontodes that increase in size and density distally; tentacules of pectoral-fin spine
not longer than odontodes, unbranched. Distal odontodes slightly elongated. Anterior pectoral-fin rays longer
than pectoral-fin spine, decreasing to about half of length of spine posteriorly. Pelvic fin I,5; pelvic-fin spine
weak, reaching middle of base of anal fin when adpressed; anterior pelvic-fin rays longer than pelvic-fin spine
with posterior margin of fin curving out beyond posterior tip of spine. Anal fin I,5; anterior anal-fin rays
slightly longer than unbranched anal-fin ray, posterior anal-fin rays slightly shorter than unbranched anal-fin
ray. First anal-fin pterygiophore not exposed to form a plate-like structure. Adipose-fin spine straight with adi-
pose membrane extending beyond posterior extent of spine. Caudal fin I,14,I; at least upper caudal-fin spines
longer than caudal-fin rays (lower spines broken on both specimens). Dorsal procurrent caudal-fin rays four or
five, ventral procurrent caudal-fin rays three. Posterior caudal-fin margin slightly concave. Rays of all fins
supporting small odontodes.
Median plate series with 20–22 plates. Ventral plates forming gentle arc on caudal peduncle and not form-
ing strong rounded keel. Plates in mid-dorsal row weakly arched submedially forming low ridge from clei-
thrum to posterior insertion of pelvic fin. Four rows of plates on caudal peduncle (mid-dorsal plate series
ending at level of adipose fin). Abdomen naked.
Color: Alcohol preserved specimens mostly brown on head and sides, lighter tan spots on nose and top of
head, as well as below and behind eye. On dorsum of body of paratype, three lighter tan saddles, first from
middle of dorsal fin base to end of dorsal fin base, next begins just behind the dorsal fin base and extends pos-
terior to about one plate before adipose insertion, last begins just anterior to adipose insertion and continues to
caudal base. No saddles in smaller specimen (holotype), vertical bars extend up from sides to unite at midline.
Sides brown with darker brown oblique narrow vertical bars; six bars in paratype, stronger posteriorly; nine
bars in holotype that begin under middle of dorsal-fin base. Undersurfaces lighter, creamy white on unplated
breast and abdomen, tan on plated caudal peduncle. Oral disk with inner papillated surfaces pale tan but
brown on outer anterior margin. All fin spines and rays with alternating wide dark and narrow light bands
(pattern most evident in caudal and dorsal fin, least evident in pectorals); fin membranes hyaline or dusky
with melanophores. Small but distinct black spot present at base of anteriormost dorsal-fin membrane in both
specimens.
Range: Known only from the type locality in the Río Caroní, Bolivar, Venezuela (Fig. 5). The type local-
ity is now part of the Caruachi Reservoir. Therefore, a status survey of the species should be performed to
determine the extent of its range.
Water conditions: The following water conditions were recorded at the time of capture: water tea-col-
ored, low conductivity (12 µmho/cm), visibility ~2m, moderate current, pH 6.6, temperature 28°C.
ARMBRUSTER & TAPHORN
38 · Zootaxa 1731 © 2008 Magnolia Press
FIGURE 2. Type locality of Pseudancistrus reus and important rivers mentioned in the text.
Etymology: From the Latin reus, meaning one who is accused or arraigned like a defendant, prisoner,
criminal, or culprit; in reference to the barred pattern that looks like the stripes of the stereotypical prisoners
uniform. Treated as a noun in apposition.
Discussion
Only two specimens of Pseudancistrus reus were available, so we did not clear and stain any; however, the
species clearly is a member of Pseudancistrus sensu stricto because it lacks evertible cheek plates, has a
sickle-shaped opercle, and has hypertrophied odontodes along the snout, no other hypostomines have those
three characteristics (Armbruster, 2004a, b). Despite having only two specimens, we considered it imperative
to describe this species at this time because the type locality was submerged with the recent construction of
dams on the Río Caroní further downstream from the Guri reservoir. The type locality is currently part of the
Caruachi Reservoir, and the same collection produced the only known locality for the gymnotiform Sternar-
chorhynchus gnomus (de Santana and Taphorn, 2006). With the Río Caroní largely impounded from its mouth
to the confluence of the Río Paragua, it is imperative that remaining free-flowing stretches of the Caroní
below Guri Reservoir and the main channel of the Caroní and Paragua upstream of Guri be surveyed for these
and other potentially unique species.
Despite fairly heavily sampling in the upper Orinoco, no members of Pseudancistrus s.s. have been col-
lected there. The upper Orinoco and upper Negro of Venezuela has been a treasure trove of undescribed lori-
cariid species, so the fact that no Pseudancistrus s.s. have been collected in that region may still be a sampling
artifact; however, if it is a real pattern, it begs an explanation.
Zootaxa 1731 © 2008 Magnolia Press · 39
A NEW SPECIES OF PSEUDANCISTRUS
Given that all other species of Pseudancistrus s.s. are located in the Branco and lower Negro and rivers to
the east, presence of the Caroní Pseudancistrus can be explained by stream capture events either between the
Caroní and the Negro or the lower Essequibo (most river names in this discussion are in figure 2). Evidence
could be mustered to support either hypothesis. Chaetostoma vasquezi is known from the Ríos Caura and
Paragua and lower Río Caroní (Orinoco drainage; Lasso and Provenzano, 1998), and its potential sister spe-
cies (C. jegui) is located in the Rio Uraricoera (Rio Negro drainage; Rapp Py-Daniel, 1991). The upper
Caroní, Caura, and Uraricoera are physically close, and there is the potential for the Orinoco, as it shifted west
(Lundberg, 1998), to have captured the Caura and Caroní and their faunas from the Negro. The Caroní also
has tributaries that interdigitate with the Cuyuní and Mazaruni rivers (Essequibo River drainage) offering
other modes of entry into the lower Orinoco. Given that the closest relative of P. reus is unknown, a fully
developed hypothesis of the biogeography of Pseudancistrus s.s. is impossible at this moment, but it does rep-
resent a species that would be interesting to better study in the future. It also suggests that the Uraricoera,
Cuyuní, and Mazaruni should be much better sampled.
The only other described species of Pseudancistrus in the Caroní drainage is P. coquenani, which is indis-
tinguishable at this time from P. orinoco (Lujan et al., 2007). Pseudancistrus coquenani has fully evertible
cheek plates, dentary papillae, and a complete mid-dorsal row of plates. An undescribed species of Pseudan-
cistrus is known from the Río Paragua, but this species has a deeper body, longer odontodes along the snout,
fully evertible cheek plates, and a complete mid-dorsal row of plates. Neither P. coquenani nor the unde-
scribed species has the banded pattern of P. reus. Ancistrus yaravi was described from the upper Caroní
(Steindachner, 1915), but its type is lost (E. Mikschi, pers. comm.), and the species is currently listed as a
Neblinichthys (Ferraris, 2007). The description of the A. yaravi is excellent, and the color pattern described
(violet brown) and other elements of the description do not fit with P. reus; however, P. reus shares with the
former type of A. yaravi the presence of pectoral and pelvic-fin spines of about the same length (this is also
present in species of Neblinichthys, JWA, pers. obs.).
Specimens examined
Pseudancistrus barbatus—ANSP 167365, 2, 81.4–106.5; ANSP 167366, 2, 77.8–102.9; AUM 39002, 38,
78.4–154.7; CAS 56702, 1, 92.0; FMNH 35617, 1, 96.6; FMNH 53099, 1, 104.5, FMNH 53100, 2, 43.0–
85.4; FMNH 53101, 2, 59.3–105.5; MNHN A-9564, holotype, 204.0; USNM 226181, 4, 116.4–161.6;
USNM 226182, 1, 177.0.
Pseudancistrus brevispinnis—ANSP 152115, 2, paratypes, 52.0–92.3; BMNH 1982.9.30:1-2, 2, paratypes,
88.5–106.8; FMNH 94506, 2, paratypes, 68.9–103.7; MNHN 1994-0783, 1, 126.1; MNHN 1994-0784, 1,
131.0; MNHN 1995-1935, 2, 69.5–106.9; MNHN 1998-1859, 1, 80.8; MNHN 1998-1982, 1, 81.7;
MNHN 2001-0845, 1, 77.2; MNHN 2001-2242, 1, 68.5; MNHN 2003-0065, 2, 76.3–80.1; MNRJ 12199,
2, 56.8–90.9; NRM 12199, 2, 56.8–90.9; NRM 32374, 3, 42.6–56.8.
Pseudancistrus coquenani—AMNH 91023, 6, 44.8–64.5; NMW, 48023, 2, syntypes, 75.5–78.6.
Pseudancistrus depressus—BMNH 1866.14.139, holotype, 105.4.
Pseudancistrus genisetiger— MNRJ, 1, 127.6.
Pseudancistrus guentheri—BMNH 1978.3.2.1, holotype, examined, but not measured.
Pseudancistrus longispinnis—MNHN 1979-158, 1, paratype, 94.0; MNHN 1979-159, 1, paratype, 99.3;
MNHN 1979-160, 1, paratype, 80.9; MNHN 1979-161, 1, paratype, 76.5; MNHN 1979-162, 1, paratype,
80.6; MNHN 1979-163, 1, paratype, 80.6; MNHN 1982-851, 1, paratype, 81.9; MNHN 1982-852, 1,
paratype, 75.2; MNHN 1982-854, 1, 111.63.
Pseudancistrus megacephalus—BMNH 1978.9.12:3, holotype, 122.8; CAS 56703, 1, 99.7; FMNH 7414, 1,
74.2; FMNH 53103, 1, 78.5; FMNH 53104, 1, 66.9.
ARMBRUSTER & TAPHORN
40 · Zootaxa 1731 © 2008 Magnolia Press
Pseudancistrus niger—BMNH 1926.3.2:756, lectotype, 157.8; BMNH 1926.3.2:757-760, 4, paralectotypes,
81.8–129.8; MNHN 1900-0157, 1, 130.1; MNHN 1981-0500, 1, 91.2; MNHN 1981-0501, 1,74.5; MNHN
1982-0852, 1, 113.1; MNHN 1982-0855, 1, 117.7; MNHN 1982-0856, 1, 49.3.
Pseudancistrus nigrescens—AMNH 54950, 5, 117.6–149.9; ANSP 175914, 1, 113.4; ANSP 175915, 1,
114.0; ANSP 177378, 5, 82.8–134.4; ANSP 177379, 4, 96.4–135.6; ANSP 177380, 1, 67.3; ANSP
177383, 5, 119.7–139.3; ANSP 177383, 1, 75.7; AUM 35743, 2, 46.4–66.9; AUM 53102, 2, 77.3–140.9;
FMNH 53105, holotype, 131.8; INHS 31684, 1, 59.9; MCNG 17525, 2, 64.6–94.2; MCNG 29524, 2,
62.8–83.8.
Pseudancistrus orinoco—ANSP 160600, 5, 79.5–79.0; ANSP 165824, 1, 78.1; AUM 39479, 5, 56.7–82.4;
AUM 39542, 5, 67.5–105.8; AUM 42179, 1, 93.1; AUM 42184, 1, 80.6; MCNG 17525, 2, 64.6–94.4;
MCNG 18339, 5, 58.8–68.4; MCNG 18410, 6, 52.0–62.9; MCNG 20204, 1, 61.0; MCNG 21631, 1, 70.7;
MCNG 25794, 1, 48.2; MCNG 25924, 2, 62.7–82.6; MCNG 30407, 2, 45.5–58.4.
Pseudancistrus papariae—ANSP 69398, holotype, 104.4; ANSP 69399, 1, 106.6; ANSP 49400-401, 2,
paratypes, 98.5–115.7 (lots once separate, but now mixed); AUM 20768, 1, 173.6. All characteristics were
not examined on ANSP specimens; photographs of holotype examined on All Catfish Species Inventory
web page, photos provided by F. Mendonça.
Pseudancistrus pectegenitor—AUM 42202, 1, paratype, 227.0; AUM 43192, 1, paratype, 173.6; ANSP
182801, 1, paratype, 225.1; MCNG, holotype, 241.6;.
Pseudancistrus sidereus—AUM 37562, 1, 148.7; AUM 42180, 1, 110.7; AUM 42185, 3, 141.3–180.0; AUM
43443, 5, 141.8–164.8; FMNH 105294, 4, 149.5–176.7; MCNG 26125, 1, 175.6, holotype; MCNG
48261, 1, 149.8.
Pseudancistrus yekuanaAUM 39473, 2, paratypes, 35.0–40.5; ANSP 182802, 1, 32.7; MCNG 54798, holo-
type, 42.7.
Acknowledgements
This project was funded by Planetary Biodiversity Inventory: All Catfish Species (Siluriformes) — Phase I of
an Inventory of the Otophysi, a 5 year grant through the US National Science Foundation to describe all spe-
cies of catfishes (NSF DEB-0315963) and NSF grant DEB-0107751 to JWA. Base map for figure 2 provided
by M. Weitzman. We would like to express our deepest appreciation to the following for providing loans of
specimens: R. Arrindell, S. Schaefer, and M. Stiasny (AMNH), J. Lundberg and M. Sabaj (ANSP), O. Crim-
men and D. Siebert (BMNH), D. Catania (CAS), M. Rogers, K. Swagel, M. Westneat and P. Willink (FMNH),
M. Retzer (INHS), K. Marchetto and L. Martínez (MCNG), M. Jegu and P. Keith (MNHN), P. Buckup
(MNRJ), E. Mikschi and H. Wellendorf (NMW), S. Kullander (NRM), L. Page and R. Robbins (UF), S.
Raredon, R. Vari, and J. Williams (USNM). We thank INAPESCA for providing scientific fishing permits.
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... Since 2000, many new loricariid taxa have been described from rivers draining the Guiana Shield in Venezuela and Guyana (Armbruster, 2004;Armbruster & Taphorn, 2008;Lujan & Armbruster, 2011b;Lujan, Arce, & Armbruster, 2009). Of the five Pseudolithoxus described from this region, three (P. ...
Biogeography and species delimitation of the rheophilic suckermouth catfish genus Pseudolithoxus (Siluriformes: Loricariidae), with the description of a new species from the Brazilian Amazon
Article
  • May 2018
The rapids-dwelling suckermouth catfish genus Pseudolithoxus was previously only known from the Guiana-Shield-draining Orinoco and Casiquiare river systems of Colombia and Venezuela, but new records have expanded this range considerably further into the Amazon basin of Brazil, and include occurrences from rivers draining the northern Brazilian Shield. These highly disjunct records are now placed in an evolutionary and phylogeographic context using a dated species tree constructed from mitochondrial (Cytb) and nuclear (RAG1) gene sequence data. Due to mito-nuclear discordance, we also delimit the putative species using statistical coalescent models and a range of additional metrics. We infer that at least two species of Pseudolithoxus are present in the Amazon basin: P. nicoi, previously only recorded from the río Casiquiare, but now also reported from the upper rio Negro, and a new species, which we describe herein from south-draining Guiana Shield and north-draining Brazilian Shield. Our data reject a simple model of Miocene vicariance in the group following uplift of the Uaupés Arch separating the Orinoco and Amazon systems, and instead suggest more complex dispersal scenarios through palaeo-connections in the Pliocene and also via the contemporary rio Negro and rio Madeira in the late Pleistocene. www.zoobank.org/urn:lsid:zoobank.org:pub:46A6BEC1-1A1B-4244-80-A6-FD9CF8DA0384.
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... With the exception of Hemigrammus rodwayi, the other typically Amazonian species have been collected mainly in small coastal basins of the MNCE, which can also be explained by the preterit connections of the Atlantic Forest with the Amazon reported by authors such as Menezes et al. (2007). The presence of Pseudancistrus species in the major drainages of the MNCE (Jaguaribe and Piranhas-Açu rivers) also indicates a relationship with the Amazon-Orinoco-Guiana Core (Armbruster and Tafforn 2008), although some studies suggest that P. genisetiger is the sister group of Hemipsilichthys gobio from the Paraiba do Sul river basin, and may belong to an undescribed genus within the Delturinae (Covain and Fisch-Muller 2012). ...
Diversity, Distribution, and Conservation of the Caatinga Fishes: Advances and Challenges
Chapter
Full-text available
  • Jan 2017
The Caatinga, located in the semiarid region of northeastern Brazil, is dominated by a seasonally dry tropical forest and encompasses a relatively modest hydrographic network, characterized by intermittent water courses. Even the major rivers which are perennial, such as the São Francisco and Parnaíba, have mostly intermittent tributaries within the Caatinga. Despite some early explorations dating back to sixteenth century and the systematic compilation of fish species which started in the beginning of the nineteenth century, until recently the fish fauna of the Caatinga biome has been considered poorly known due to the lack of adequate sampling. The present study assessed the current state of knowledge on this fish fauna, in terms of species richness, endemism, and conservation status, based on a literature review, recent field work, and collection records. Our major result was finding a considerable increment in the species richness in the biome when compared with previous estimates, totaling 386 fish species, 371 of which are native freshwater species, 203 are considered endemic to the hydrographic ecoregions where the Caatinga occurs, 15 are introduced from other basins, and 15 listed species have doubtful taxonomic status. Additionally, 32 species are currently recognized as undescribed. We also highlight that the 33 endangered fish species in the Caatinga are possibly not included in protected areas, and that the conservation units in the biome are not enough to ensure protection for endemic and endangered fish species.
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... zawadzkii Silva, Roxo, Britzke &Oliveira, 2014, the latter being the only species described to date from rivers flowing from the Brazilian Shield into the Amazon. Other species not included in these works were considered to possibly belong to Pseudancistrus: P. guentheri (Regan, 1904) P. kwinti Willink, Mol &Chernoff, 2010 (Covain andFisch-Muller 2012), and P. reus Armbruster & Taphorn, 2008(Lujan et al. 2015. This last work retained P. reus as the only species belonging to this group from the eastern Orinoco basin. ...
Two new species of Pseudancistrus (Siluriformes, Loricariidae) from the Amazon basin, northern Brazil
Article
Full-text available
  • Feb 2015
Two new species of Pseudancistrus, a genus diagnosed by non-evertible cheek plates and hypertrophied odontodes along the snout margin, are described from two drainages of the Brazilian Shield: P. kayabi from the rio Teles Pires (rio Tapajós basin) and P. asurini from the rio Xingu. The new species are distinguished from congeners (P. barbatus, P. corantijniensis, P. depressus, P. nigrescens, P. reus, and P. zawadzkii) by the coloration pattern. Pseudancistrus kayabi has dark bars on the dorsal and caudal fins which are similar to that of P. reus from the Caroní River, Venezuela. Pseudancistrus asurini is unique among Pseudancistrus in having whitish tips of the dorsal and caudal fins in juveniles to medium-sized adults.
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... The Pseudancistrus Clade is generally distinguished by being dorsoventrally depressed, by having hypertrophied odontodes along the lateral margins of the snout (regardless of sex or season), and by having hypertrophied cheek odontodes that are evertible to less than 45°from the body (Isbrücker et al., 1988;Armbruster, 2004bArmbruster, , 2008. The Pseudancistrus Clade in this study differs from Armbruster's (2004aArmbruster's ( ,b, 2008Armbruster and Taphorn, 2008) 'Pseudancistrus sensu stricto' clade by excluding 'Pseudancistrus' genisetiger and 'Ps.' papariae, but is consistent with the composition and relationships of the Pseudancistrus barbatus clade as revealed by Covain and Fisch-Muller (2012) and Silva et al. (2014). ...
Multilocus molecular phylogeny of the suckermouth armored catfishes (Siluriformes: Loricariidae) with a focus on subfamily Hypostominae
Article
Full-text available
  • Sep 2014
The Neotropical catfish family Loricariidae is the fifth most species-rich vertebrate family on Earth, with over 800 valid species. The Hypostominae is its most species-rich, geographically widespread, and ecomorphologically diverse subfamily. Here, we provide a comprehensive molecular phylogenetic reappraisal of genus-level relationships in the Hypostominae, based on our sequencing and analysis of two mitochondrial and three nuclear loci (4293 bp total). Our most striking large-scale systematic discovery was that the tribe Hypostomini, which has traditionally been recognized as sister to tribe Ancistrini based on morphological data, was nested within Ancistrini. This required recognition of seven additional tribe-level clades: the Chaetostoma Clade, the Pseudancistrus Clade, the Lithoxus Clade, the 'Pseudancistrus' Clade, the Acanthicus Clade, the Hemiancistrus Clade, and the Peckoltia Clade. Results of our analysis, which included type- and non-type species for every valid genus in Hypostominae, support the reevaluation and restriction of several historically problematic genera, including Baryancistrus, Cordylancistrus, Hemiancistrus, and Peckoltia. Much of the deep lineage diversity in Hypostominae is restricted to Guiana Shield and northern Andean drainages, with three tribe-level clades still largely restricted to the Guiana Shield. Of the six geographically widespread clades, a paraphyletic assemblage of three contain lineages restricted to drainages west of the Andes Mountains, suggesting that early diversification of the Hypostominae predated the late Miocene surge in Andean uplift. Our results also highlight examples of trophic ecological diversification and convergence in the Loricariidae, including support for three independent origins of highly similar and globally unique morphological specializations for eating wood.
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... The enforced monophyly of the genus following Armbruster (2004a, 2008) is here significantly rejected, except by the very conservative SH test (see above for an explanation). Monophyly of Pseudancistrus sensu stricto (Armbruster and Taphorn, 2008), including, among others, P. barbatus, P. depressus, P. nigrescens, but also P. genisetiger, was also significantly rejected. On the contrary, monophyly of the Pseu­ dancistrus barbatus group (the true Pseudancistrus) formed by the type species, P. corantijniensis, P. depressus and P. nigrescens (de Chambrier and Montoya-Burgos, 2008) is confirmed, with the addition of an undescribed species from the Rio Xingú (Pseudancistrus sp. ...
Molecular evidence for the paraphyly of Pseudancistrus sensu lato (Siluriformes, Loricariidae), with revalidation of several genera
Article
Full-text available
  • Mar 2012
  • CYBIUM
The genus Pseudancistrus is widely distributed in rocky, fast-flowing habitats of rivers draining all sides of the Guiana Shield and the northern slope of the Brazilian Shield. Initially diagnosed as having an "interoperculum" weakly evertible and lacking elongate odontodes, the definition of Pseudancistrus was subsequently expanded to include species with long, evertible cheek odontodes. Within Pseudancistrus sensu lato were included the already available genera Guyanancistrus and Lithoxancistrus. To evaluate the relevance of such a grouping, and particularly the morphology-based hypotheses of Armbruster (2004a, 2008), we reconstructed a phylogeny using mitochondrial and nuclear data and samples from 13 species currently included in Pseudancistrus sensu lato. All phylogenetic reconstructions recovered Pseudancistrus sensu lato as a paraphyletic assemblage of five unrelated lineages, and most of the alternative hypotheses evaluating monophyly of the genus were significantly rejected. Two of the recovered lineages were consistent with the genera Guyanancistrus and Lithoxancistrus, which are accordingly revalidated. A fourth lineage consisted of Pseudancistrus pectegenitor and P. sidereus, which may represent an undescribed genus. However their placement within Lithoxancistrus cannot be excluded. The fifth lineage consisted only of P. genisetiger, which was recovered as sister to Hemipsilichthys gobio and may represent an undescribed genus within the Delturinae.
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New tribe-level classification of Hypostominae (Loricariidae) based on optimization of morphological states on DNA-based relationships, with descriptions of three new tribes and two new genera
Article
Full-text available
  • Jan 2025
  • NEOTROP ICHTHYOL
Hypostominae tribe-level taxonomy is revised with new recognition and cladistic diagnoses of previously proposed family-level names for the Acanthicus (Acanthicini), Chaetostoma (Chaetostomatini), and Hemiancistrus (Spectracanthicini) clades. Three new tribes are described for the Peckoltia, Pseudancistrus,and ‘Pseudancistrus’ clades, with a new tribe erected for two new monotypic genera containing the sister species ‘Pseudancistrus’ sidereus and ‘P.’ pectegenitor. This third new tribe is known only from the upper Orinoco and Negro Rivers and is identifiable by having an accentuated keel on the caudal peduncle formed by dorsal laminae of the ventral plate series being strongly concave. The new genera are distinguishable by ‘P.’ pectegenitor having extremely long cheek odontodes reaching to the third plate of midventral plate series (vs. anterior to opercular opening in ‘P.’ sidereus) and 10 (vs. 7) branched dorsal-fin rays. We re-optimized morphological character-state change by mapping states previously used to infer evolutionary history onto a composite phylogenetic tree inferred from DNA-sequence data. This revealed the strong influence on morphology-based phylogenies of a correlated suite of opercular character states related to the mechanism for cheek odontode eversion. These states appear to be plesiomorphic within Hypostominae and to have been independently lost or reduced multiple times.
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Pseudacanthicus major: Description of one of the largest known Loricariidae (Hypostominae: Ancistrini), a species from rio Tocantins basin, Brazil
Article
Full-text available
  • Feb 2018
The genus Pseudacanthicus currently comprises the following six species distributed in the Amazon and Tocantins basins, and coastal drainages from Guyana to French Guyana: P. serratus, P. fordii, P. histrix, P. spinosus, P. leopardus, P. pitanga, and P. pirarara. Herein we describe P. major, from rio Tocantins basin, one of the largest loricariid species known. The new species is distinguished from its congeners by the following combination of characters: having body color pattern with dark brown background without spots or blotches and dorsal and caudal fins with transversal white bands; anterior process of compound pterotic with no contacting with the posterior margin of the orbit and by the absence of a conspicuous crest on the posterior edge of parieto-supraocciptal. Other osteological characteristics are further used to diagnose P. major from others congeners. A discussion on gigantism and miniaturization in freshwater fish, ornamental fisheries activities, threats and conservation of the new species are also provided.
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A New Species Of Suckermouth Armored Catfish, Pseudancistrus Kwinti (Siluriformes: Loricariidae) From The Coppename River Drainage, Central Suriname Nature Reserve, Suriname
Article
  • Jan 2010
  • ZOOTAXA
A new species of suckermouth armored catfish, Pseudancistrus kwinti, is described from the Coppename River, Suriname. It can be diagnosed from all other described Pseudancistrus by the following combination of characters: dentary papillae absent, mid-dorsal plate row complete, coloration mottled or with bars, hypertrophied odontodes along edge of snout, and weakly evertible cheek plates. It is only known from the Coppename River drainage within the Central Suriname Nature Reserve, a United Nations World Heritage Site, and one of the most pristine environments remaining on the planet. Mining, increased fishing pressure, and tourism threaten to change the region.
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Historical Biogeography of Neotropical Freshwater Fishes
Book
Full-text available
  • Mar 2011
The fish faunas of continental South and Central America constitute one of the greatest concentrations of aquatic diversity on Earth, consisting of about 10 percent of all living vertebrate species. Historical Biogeography of Neotropical Freshwater Fishes explores the evolutionary origins of this unique ecosystem. The chapters address central themes in the study of tropical biodiversity: why is the Amazon basin home to so many distinct evolutionary lineages? What roles do ecological specialization, speciation, and extinction play in the formation of regional assemblages? How do dispersal barriers contribute to isolation and diversification? Focusing on whole faunas rather than individual taxonomic groups, this volume shows that the area's high regional diversity is not the result of recent diversification in lowland tropical rainforests. Rather, it is the product of species accumulating over tens of millions of years and across a continental arena.
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Spawning in Ancistrus (Siluriformes: Loricariidae) with comments on the evolution of snout tentacles as a novel reproductive strategy: Larval mimicry
Article
Full-text available
  • Jan 1999
  • ICHTHYOL EXPLOR FRES
Most species of Ancistrus exhibit a striking sexual dimorphism, mature males having an elaborate complex of enlarged fleshy tentacles on the snouts. Snout tentacles appear to be modifications of the fleshy cutaneous sheath that surrounds the base of an odontode (integumentary tooth) and are best developed in breeding males. The tentacles are thought to serve as accessory sensory structures because they are covered with taste buds. We propose an additional function related to reproductive biology. Male Ancistrus guard eggs and larvae for up to 10 days after hatching in a cavity nest. In several cavity-nesting fishes with paternal care, females preferentially spawn with males guarding eggs over males in empty nests, and this preference has led to the evolution of deceptive mating strategies whereby males with empty nests can compete successfully with males guarding eggs. We hypothesize that female Ancistrus preferentially spawn with males guarding larvae, and that the male's snout tentacles stimulate this bias by mimicking the presence of larvae in an otherwise empty nest. We also provide information on our field observations of Ancistrus spawning in the rio Aguaro, a tributary of the rio Orinoco in central Venezuela.
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Checklist of catfishes, recent and fossil (Osteichthyes: Siluriformes), and catalogue of siluriform primary types
Article
Full-text available
  • Jan 2000
  • ZOOTAXA
A checklist of Recent and fossil catfishes (Order Siluriformes) is presented, summarizing taxonomic literature published through 2005. From 4624 nominal species group names and 810 genus group names, 3093 species are recognized as valid, and are distributed among 478 genera and 36 families. Distributional summaries are provided for each species, and nomenclatural synonymies, including relevant information on all name-bearing types, are included for all taxa. One new name is proposed herein: Clariallabes teugelsi, as a replacement for Clarias (Allabenchelys) dumerili longibarbis David & Poll, 1937, which is preoccupied by Clarias longibarbis Worthington, 1933, but has been treated as a valid species of Clariallabes by Teugels. Acrochordonichthys melanogaster Bleeker, 1854, is designated as type species of Acrochordonichthys Bleeker, 1857, inasmuch as no earlier valid designation has been found. A new genus Pseudobagarius, is proposed for the "pseudobagarius group" of species formerly placed in Akysis. The status of 228 species group names remains unresolved and 31 names based on otoliths ascribed to catfishes are listed but not placed into the checklist. The current emphasis given to catfish taxonomy at present is likely to result in a dramatic increase in the total number of valid taxa as well as major changes in the membership of some of the higher level taxa recognized here.
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Sternarchorhynchus gnomus, a new species of electric knifefish from the Lower Rio Caroni, Venezuela (Gymnotiformes: Apteronotidae)
Article
Full-text available
  • Mar 2006
  • ICHTHYOL EXPLOR FRES
Sternarchorhynchus gnomus, new species, the smallest member of the genus Sternarchorhynchus, is described from the lower Río Caroní in Venezuela. It is diagnosed from congeners on the basis of body coloration, meristic and morphometric characters, such as color pattern of pectoral and anal fins, number of scales above lateral line at mid-body, and relative body proportions.
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Phylogenetic relationships of the suckermouth armoured catfishes (Loricariidae) with emphasis on the Hypostominae and the Ancistrinae
Article
Full-text available
  • May 2004
  • ZOOL J LINN SOC-LOND
A phylogenetic analysis of nearly all genera of the Hypostominae and the Ancistrinae is provided based on osteology, external anatomy, and digestive tract anatomy. The results suggest that the Hypostominae is a paraphyletic assemblage. Delturus and Upsilodus form a monophyletic group sister to all other loricariids. Hemipsilichthys, Isbrueckerichthys, Kronichthys, and Pareiorhina form a monophyletic group with Neoplecostomus and the Hypoptopomatinae and are transferred to the Neoplecostominae. The remainder of the Hypostominae is made paraphyletic by the continuing recognition of the Ancistrinae. Ancistrinae is returned to the Hypostominae and recognized as a tribe, Ancistrini. In addition, four new tribes (Corymbophanini, Hypostomini, Pterygoplichthini, and Rhinelepini) are described. Hypostomus is also paraphyletic, the bulk of it forming a monophyletic clade with Aphanotorulus, Cochliodon, and Isorineloricaria. All of the potential monophyletic groups within Hypostomus grade into one another; therefore, Aphanotorulus, Cochliodon, and Isorineloricaria are placed in the synonymy of Hypostomus. Pterygoplichthys and Glyptoperichthys are also polyphyletic, and Liposarcus and Glyptoperichthys are recognized as synonyms of Pterygoplichthys. Sister to Pterygoplichthys is the Hemiancistrus annectens group (including Hypostomus panamensis) which represents an undescribed genus. The phylogeny presented is compared with previous hypotheses. © 2004 The Linnean Society of London, Zoological Journal of the Linnean Society, 2004, 141, 1−80.
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Peckoltia sabaji, a new species from the Guyana Shield (Siluriformes: Loricariidae)
Article
Full-text available
  • Nov 2003
  • ZOOTAXA
Peckoltia sabaji is described based on specimens from the Guyana Shield regions of the Essequibo, Negro, and Orinoco River drainages of Guyana and Venezuela. Peckoltia sabaji is a member of the loricariid subfamily Hypostominae, tribe Ancistrini. The species differs from nearly all other mem-bers of the Hypostominae based on coloration — small spots on the head with spots becoming very large on the posterior part of the body. Those species with a similar coloration either do not have elongated bodies (vs. body very elongate) or have odontodes on the opercle as adults (vs. odontodes on opercle absent, rarely with one or two odontodes in adults).
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The Neotropical cascudinhos: Systematics and biogeography of the Otocinclus catfishes (Siluriformes: Loricariidae)
Article
  • Oct 1997
  • P ACAD NAT SCI PHILA
The genus Otocinclus Cope (1872) of the siluriform family Loricariidae is diagnosed as monophyletic on the basis of shared derived characters of the cranial and hyobranchial skeleton, dorsal gill arch musculature, and gut. Otocinclus are relatively small herbivorous catfishes restricted to small streams and quiet slow-flowing margins of larger rivers, most frequently living in close association with aquatic macrophytes and terrestrial marginal grasses extending into the water column. Otocinclus species share a novel modification of the distal esophageal wall which is developed into an accessory blind diverticulum that may function in aerial respiration and for providing additional modulatory positive buoyancy for remaining in the upper water column at stream margins. Otocinclus has no junior synonyms, however several nominal species originally described in Otocinclus are here formally re-assigned to other genera in the subfamily Hypoptopomatinae. Otocinclus cephalacanthus Ribeiro 1911, O. depressicauda Ribeiro 1918, O. francirochai Ihering 1928, O. laevior Cope 1894, O. leptochilus Cope 1894, O. maculipinnis Regan 1904, O. nigricauda Boulenger 1891, and O. paulinus Regan 1908 are all placed in the genus Microlepidogaster Eigenmann & Eigenmann 1889; O. obtusos Ribeiro 1911 was placed in Pseudotothyris Britski & Garavello 1984; the genus Nannoptopoma Schaefer 1996 was erected for O. spectabilis Eigenmann 1914 in the tribe Hypoptopomatini; O. gibbosus Ribeiro 1908 is removed from Otocinclus, yet remains of undetermined generic status. Thirteen species are recognized in Otocinclus: O. affinis Steindachner 1877 of the lower Paraná/Paraguay and Uruguay basins and coastal streams of southeastern Brazil; O. bororo n. sp. of the upper Río Paraguay; O. caxarari n. sp. of the middle Río Guaporé/Mamoré system; O. flexilis Cope 1894 of the lower Paraná/Paraguay and Uruguay basins and coastal streams of southeastern Brazil; O. hasemani Steindachner 1915 of northern Brazil; O. hoppei Ribeiro 1939 of the upper Amazon, Tocantins and Paraguay basins and coastal streams of northeastern Brazil; O. huaorani n. sp. of the upper Amazon and Orinoco basins; O. macrospilus Eigenmann & Allen 1942 of the upper Amazon basin of Colombia, Ecuador, and Peru; O. mariae Fowler 1940 of the lower Amazon, upper Madeira and Paraguay basins; O. mura n. sp. of the middle Amazon River; O. vestitus Cope 1872 of the upper Amazon and lower Paraná basins; O. vittatus Regan 1904 of the Amazon, Orinoco, Paraná/Paraguay, and Tocantins basins; and O. xakriaba n. sp. of the rio São Fransisco basin. Two species are placed in synonymy: Otocinclus arnoldi Regan 1909 and O. fimbriatus Cope 1894 are junior synonyms of O. flexilis. Keys to the species of Otocinclus and genera of the Hypoptopomatinae are provided. A descriptive treatment of the osteology and cranial myology is provided for O. vittatus. Detailed analysis of meristic and morphometric variation based on geometric morphometric procedures is provided for the phenetically similar species pairs O. mariae and O. vittatus, O. bororo and O. huaorani in an a posteriori evaluation of separate species status. The phylogenetic relationships among Otocinclus species, and the phylogenetic position of Otocinclus among genera of the Hypoptopomatinae, are determined based on analysis of 27 morphological features using cladistic parsimony. Monophyly of Otocinclus was confirmed; within Otocinclus, a clade comprised of O. affinis and O. flexilis is the sister-group to the remainder of the genus. Within that latter clade, O. hasemani and O. xakriaba are the first and second-level sister-groups to the remainder of the genus, within which relationships among species are not fully resolved with available data. The phylogenetic biogeography of Otocinclus is informative regarding the historical relationships among major river drainage basins, particularly of those river systems of the Brazilian Shield. A biogeographic hypothesis is proposed based on the area cladogram derived from the species-level phylogenetic relationships, which suggests successive vicariance and speciation in the non-Amazonian regions of endemism of southeastern and eastern South America, followed by speciation and dispersal within the Amazon, Orinoco and upper Paraguay basins. The pattern of vicariance revealed by the Otocinclus species-level phylogeny is congruent with the geologic history of the major river drainage basins of the Brazilian Shield. This result suggests that, for Otocinclus and perhaps other loricariid catfishes, much of their generic and species-level diversification occurred prior to the formation of the Amazon basin.
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