Characidium samurai, Zanata & Camelier, 2014
Zanata, Angela M. & Camelier, Priscila, 2014, A new species of Characidium (Characiformes: Crenuchidae) from small coastal drainages in northeastern Brazil, with remarks on the pseudotympanum of some species of the genus, Neotropical Ichthyology 12 (2), pp. 333-342 : 334-340
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Characidium samurai , new species
Fig. 1 View Fig
Holotype. MZUSP 108188 View Materials , 46.6 mm SL, Brazil, Bahia, Piraí do Norte, rio do Peixe , tributary of rio das Almas, 13°46’35”S 39°23’40”W, 177 m a.s.l., 13 Aug 2012, O. T. Oyakawa, A. M. Zanata, P. Camelier & T. F. Teixeira. GoogleMaps
Paratypes. All from Brazil, Bahia, rio das Almas basin: MZUSP 112385 View Materials , 9 View Materials , 1 View Materials mol, 25.4-42.7 mm SL, UFBA 7259 , 7 , 20.8-42.6 mm SL, collected with holotype. MNRJ 40727 View Materials , 4 View Materials , 31.6-39.2 mm SL, UFBA 5971 , 9 , 2 c&s, 29.3-40.9 mm SL, Piraí do Norte, rio do Peixe , a tributary of rio das Almas, 13°46’35”S 39°23’40”W, 177 m a.s.l., 8 Oct 2009, A. M. Zanata, P. Camelier, R. Burger & A. B. A. Góes. GoogleMaps MZUSP 111239 View Materials , 5 View Materials , 1 View Materials c&s, 1 mol, 28.1-42.6 mm SL, Nilo Peçanha, rio das Almas, about 10 km of Nilo Peçanha, 13°36’27.8”S 39°08’38.8”W, 17 m a.s.l., 12 Aug 2012, J. L. Birindelli, F. C. Dagosta & M. V. Loeb. GoogleMaps UFBA 5726 , 3 , 26.4-31.3 mm SL, Piraí do Norte , small stream under bridge between Piraí do Norte and Gandú, 13°43’59”S 39°24’20”W, 157 m a.s.l., 8 Oct 2009, A. M. Zanata, P. Camelier, R. Burger & A. B. A. Góes. Rio Vermelho basin: GoogleMaps UFBA 7258 , 5 , 27.9 -34.0 mm SL, Taperoá, rio Sarapuí , at Pousada Paraíso das Ilhas, 13°30’05.2”S 39°05’50.4”W, 24 m a.s.l., 12 Aug 2012, J. L. Birindelli, F. C. Dagosta & M. V. Loeb GoogleMaps .
Diagnosis. Characidium samurai can be distinguished from its congeners, except C. lanei Travassos , by the presence of a dark lateral band along the head and body that is particularly broad (1.5 or 2 scales wide) from the rear of head to the end of the caudal peduncle and by the absence of dark bars or blotches on the ventral half of the body. The new species differs from C. lanei by having the lateral band with straight borders overall (vs. lateral band with somewhat irregular borders due to blotches slightly extending dorsally or ventrally), absence of dark pigmentation around the insertion of the dorsal-fin rays (vs. presence), anal fin ii,7-8 (vs. ii,6), and 4 horizontal scale rows above the lateral line and 4 below (vs. 5/3). Characidium samurai further differs from congeners that occur in Brazilian rivers by having a complete lateral line (vs. incomplete in C. bahiense , C. interruptum Pellegrin , C. laterale (Boulenger) , C. mirim Netto-Ferreira, Birindelli & Buckup , C. nupelia Graça, Pavanelli & Buckup , C. rachovii Regan , C. stigmosum Melo & Buckup , and C. xavante Graça, Pavanelli & Buckup ), isthmus completely covered by scales (vs. isthmus naked or partially covered by scales in C. alipioi Travassos , C. boavistae Steindachner , C. crandellii Steindachner , C. declivirostre Steindachner , C. fasciatum , C. gomesi Travassos , C. grajahuensis Travassos , C. japuhybense Travassos , C. lauroi Travassos , C. macrolepidotum (Peters) , C. oiticicai Travassos , C. schubarti Travassos , C. timbuiense , and C. vidali Travassos ), 14 scales around the caudal peduncle (vs. 10 or 12 in C. bahiense , C. brevirostre Pellegrin , C. gomesi , C. heirmostigmata Graça & Pavanelli , C. lagosantense , C. macrolepidotum , C. mirim , C. nupelia , C. occidentale Buckup & Reis , C. orientale Buckup & Reis , C. papachibe Peixoto & Wosiacki , C. rachovii , C. serrano Buckup & Reis , C. tenue (Cope) , C. xanthopterum Silveira, Langeani, da Graça, Pavanelli & Buckup , C. xavante , and C. zebra Eigenmann ), and presence of adipose fin (vs. absent in C. mirim , C. nupelia , C. stigmosum , C. xavante and absent or reduced in C. vestigipinne Buckup & Hahn ). Characidium samurai can be further distinguished from congeners by the absence of dark bars or spots on the fins, except for a faded dorsal-fin bar (vs. presence of conspicuous dark bars or spots at least on one fin in C. alipioi , C. brevirostre , C. declivirostre , C. gomesi , C. grajahuensis , C. hasemani Steindachner , C. japuhybense , C. lauroi , C. macrolepidotum , C. occidentale , C. oiticicai , C. orientale , C. papachibe , C. pterostictum Gomes, C. rachovii¸ C. serrano , C. schubarti , C. steindachneri Cope , C. timbuiense , C. vestigipinne , C. vidali , and C. zebra ), and analfin rays ii,7-8 (vs. ii, 6 in C. brevirostre and C. roesseli Géry ).
Concerning congeners known to occur in northeastern Brazilian rivers, C. samurai further differs from C. bahiense by having the aperture of the pseudotympanum enclosed between ribs of the fifth and sixth vertebrae (vs. aperture surpassing the ribs of the fifth vertebra anteriorly and/or sixth vertebra posteriorly), presence of the parietal branch of the supraorbital canal (vs. absence), two series of teeth on the dentary (vs. one), and 7-11 premaxillary teeth (vs. 5-8); from C. bimaculatum by having 7-8 branched anal-fin rays (vs. 5-6), usually a higher number of lateral-line scales (34-37 vs. 32-34), one faded dark bar on the proximal half of the dorsalfin rays (vs. a conspicuous black bar at the proximal portion of the rays and a second faded bar on the distal portion), and absence of a blotch on the caudal peduncle, or blotch merged to the longitudinal bar (vs. a conspicuous elongated caudal blotch); from C. fasciatum and C. lagosantense by having ii,7-8 anal-fin rays (vs. iii,5-6).
Description. Morphometric data of the holotype and paratypes presented in Table 1 View Table 1 . Body elongate and moderately compressed. Greatest body depth at vertical through dorsalfin origin. Dorsal profile convex from upper lip to vertical through nares, slightly convex from this point to end of occipital process, slightly convex or straight from this point to origin of dorsal-fin base, convex along dorsal-fin base, almost straight between end of dorsal-fin base and adipose fin, slightly concave from this point to origin of anteriormost dorsal procurrent caudal-fin ray. Ventral profile of head straight, except for the convex portion close to dentary symphysis, slightly convex from isthmus to pelvic-fin origin, straight from latter point to anal-fin origin, slightly concave from this point to origin of anteriormost ventral procurrent caudal-fin ray. Snout triangular in lateral view. Mouth subterminal, aligned or slightly lower than ventral edge of the orbit. Distal tip of maxilla barely reaching the vertical through anterior margin of orbit. Orbit approximately round, larger than snout length. Cheek thin, its depth approximately one third to one quarter of orbit diameter. Nares separated; anterior naris with raised margins; posterior naris considerably closer to orbit than to anterior naris and without skin flaps. Supraorbital elongated in dorsal view, medial margin slightly convex, abutting the frontal, and lateral margin straight; anterior and posterior tip similarly pointed. Parietal fontanel limited anteriorly by frontals. Parietal branch of supraorbital canal present, slightly surpassing frontal-parietal border or extending to one third of parietal. Orbithosfenoid slightly rectangular in lateral view, connected anteriorly to rhinosphenoid. Pterosphenoid foramen for ophthalmic nerve relatively small, formed by tunnel crossing pterosphenoid diagonally, bordered by bony crest that prevents direct lateral view of brain cavity through foramen.
Dentary teeth in two rows; outer series with 10(5), 11*(5), 12(4), or 13(1) teeth; anterior two to four teeth from symphysis usually tricuspid, posterior conical; teeth decreasing in size from symphysis; inner series with several minute conical teeth inserted on edge of replacement tooth trench. Premaxilla with single series of 7*(4), 8(21), 9(11), or 10(1) conical teeth, decreasing in size from symphysis. Maxillary edentulous. Ectopterygoid with a single series of 7(1) or 10(2) conical teeth. Mesopterygoid teeth absent.
Scales cycloid; circulii absent on posterior field of scales located immediately below 10 th scale of lateral line, 6 to 12 radii present. Lateral line complete, perforated scales 34(6), 35(28), 36*(5), or 37(2); horizontal scale rows above lateral line 4*(40); horizontal scale rows below lateral line 4*(40). Scales along middorsal line between supraoccipital and origin of dorsal fin 9(2), 10(16), 11*(7) or 12(2) in single row or irregularly arranged (8). Scale rows around caudal peduncle 14*(38). Isthmus completely scaled. Pseudotympanum present, represented by muscular hiatus at vertical through anterior portion of swimbladder and situated between ribs of the fifth and sixth vertebrae (see ‘Remarks’ for details).
Dorsal-fin rays ii,9(1), ii,9,i(2), iii,9(3) or ii,10*(33); distal margin of dorsal fin rounded.Adipose fin present. Pectoral-fin rays highly variable, ii,9,i(2), iii,5,iii(4), iii,6,ii(1), iii,7,ii(3), iii,8,i*(19), iii,8ii,(1), or iii,9,i(2); first and second branched pectoral-fin rays longest; posterior tip of pectoral fin not reaching pelvic-fin insertion. Pelvic-fin rays i,7,i*(40); second to fourth branched pelvic-fin rays longest; posterior tip of pelvic fin not reaching anal-fin origin. Anal-fin rays ii,7*(39) or ii,8(1); posterior margin of anal fin varying from rounded to straight; fin elements (i.e., adnate rays) on last pterygiophore 2*(16). Caudal-fin rays i,8,8,i*(2), i,9,8,i*(35), or i,9,9,i(1). Dorsal procurrent caudal-fin rays 8(3); ventral procurrent caudal-fin rays 7(1) or 8(2).
Total number of vertebrae 34(1) or 35(2); precaudal vertebrae 18(1) or 19(2); caudal vertebrae 15(2) or 17(1). Supraneural bones 5(1) or 6(2), anterior to neural spine of fifth centrum. Epural bones 2(3). Uroneural bones 1(3). Branchiostegal rays 4(3); 2 or 3 connected to anterior ceratohyal, 1 connected to the cartilage between anterior and posterior ceratohyals, none or 1 connected to posterior ceratohyal.
Color in alcohol. Ground color of head and body pale yellow, with dorsum darker ( Fig. 1a View Fig ). Small melanophores concentrated over dorsal and anterior portion of head; superior half of maxilla, upper and lower lip distinctly darker. Dark band extending from snout to posterior margin of opercle. Ventral half of head clear, with sparse small melanophores, except by the dark lower lip. Scales of dorsal half of body with melanophores concentrated on posterior margin of scales, resulting in somewhat reticulated aspect. Dorsal half of body with 8 to 10 inconspicuous dark vertical bars, broader dorsally (usually 3 scales wide), merged ventrally with dark longitudinal band. Most specimens with vertical bars inconspicuous and merged to one another resulting in dark and somewhat homogeneous dorsal half of body. Broad dark band (1.5 or 2 scales wide) with straight borders extending from rear of opercle to end of caudal peduncle. Dark humeral blotch on rear of opercle merged to longitudinal band and somewhat inconspicuous; in some specimens visible as a rounded or somewhat triangular and vertically elongated blotch. Ventral half of body yellowish, without dark bars or spots. Some specimens with concentrations of dark chromatophores on posterior border of scales situated on the row immediately below dark longitudinal stripe but not forming stripes or blotches. Ventral area located between pelvic and anal fin origins with dark narrow stripe, usually conspicuous on specimens of 30 mm SL or smaller and faded on larger specimens. Fins with melanophores sparsely distributed on border of rays, more concentrated on distal half. Dorsal fin with faded dark band below midlength of rays. Small dark round spot near base of middle caudal-fin rays. Adipose fin somewhat dark, with sparse melanophores.
Color in life. Ground color of dorsal half of body grayish and ventral half whitish ( Fig. 1b View Fig ). Dark lateral band extending from snout tip to end of caudal peduncle; band usually poorly visible immediately after the fish capture but clearly conspicuous if the specimen is allowed to stay a few minutes alive in a container such as a plastic bag. Approximately ten inconspicuous dark vertical bars over dorsal half of body; bars larger dorsally and not extending beyond ventral border of dark longitudinal band. Ventral half of body without dark bars or spots. Yellow chromatophores sparsely distributed over opercle, infraorbitals, ventral half of iris, and area posterior to opercle. Fins yellowish.
Etymology. The name samurai is given to honor the Japanese warrior caste that provided the administrative and fighting aristocracy from the 11 th to the 19 th centuries. The samurais are known by their expertise in several kinds of martial arts.Currently, expertise in martial art is attested by the term “black belt”, a condition inherent to that warrior caste. The name samurai was used herein in allusion to the conspicuous midlateral black band present in the new species. A noun in apposition.
Sexual dimorphism. No hooks on fins or other sexually dimorphic features were observed externally on the specimens that were examined.
Distribution. Characidium samurai is known from the rio das Almas and rio Vermelho basins, two small coastal river systems at the central coastal area of Bahia State, eastern Brazil ( Fig. 2a View Fig ). Extensive ichthyological collecting efforts in the main coastal rivers across Bahia in the last eight years have failed to yield samples of C. samurai from another river drainages, making it possible that the species is endemic to rio das Almas ( Figs. 2 View Fig b-c) and rio Vermelho basins ( Fig. 2d View Fig ).
Habitat and ecological notes. Characidium samurai was collected in clear water streams with water running over rocks, pebbles, sand and/or muddy bottoms, at altitudes ranging from 17 to 177 m a.s.l. in habitats characterized mainly by moderate water current. The riparian vegetation mainly comprises remnants of the Atlantic Forest, cocoa trees or cattle pasture. The rio do Peixe (a tributary of rio das Almas basin), the type locality and where most specimens were collected, is approximately 2 m wide, 1-2 m deep, and has a medium to fast water current, muddy substrate and grassy river borders ( Fig. 2b View Fig ). Characidium samurai was collected syntopically with Characidium aff. timbuiense , Awaous tajasica (Lichtenstein) , Astyanax aff. bimaculatus (Linnaeus) , Astyanax sp., Dormitator maculatus (Bloch) , Geophagus sp., Gymnotus carapo Linnaeus , Hoplias malabaricus (Bloch) , Leporinus bahiensis Steindachner , L. melanopleurodes Birindelli, Britski & Garavello , Hypostomus sp., Parotocinclus sp., Poecilia reticulata Peters , Sycidium punctatum (Perugia) , and Synbranchus marmoratus Bloch. The analysis of stomach contents of the three c&s specimens revealed the presence of vascular plant fragments, Trichoptera ( Hydroptilidae ) larvae, adults of terrestrial insects ( Hymenoptera : Formicidae and Orthoptera), and fragments of unidentified arthropods.
Remarks. The new species described herein apparently does not fit in any group of Characidium that has been previously proposed in the literature (e.g., Buckup & Reis, 1997; Buckup & Hahn, 2000; Graça & Pavanelli, 2008) and does not share any synapomorphy that was hypothesized by Buckup (1993a) to any particular subgroup of Clade C. Although C. samurai externally resembles C. lanei , a member of clade C4 of Buckup (1993a), particularly by sharing a broad dark longitudinal band, the new species has the parietal branch of the supraorbital canal, the absence of which is a diagnostic feature of clade C4. Characidium samurai also does not share the two synapomorphies of the species included in the C4 clade that were previously proposed by Buckup & Reis (1997) and Buckup & Hahn (2000): an increased number of vertical bars on the sides of the body and an absence of the inner row of dentary teeth.
Various populations of Characidium that have been sampled in rivers draining Bahia State are usually left unidentified or are tentatively identified as species described to nearby drainages, accompanied by the terms “ affinis ” or “ confer ”( Characidium sp., C. cf. bahiense , C. cf. bimaculatum , and C. aff. timbuiense , e.g., Santos & Caramaschi, 2007, 2011; Sarmento-Soares et al., 2008, 2009; Cetra et al., 2010; Burger et al., 2011). These tentative identifications are actually indicative of the current poor taxonomical knowledge about the Characidium species in that region, which very likely, harbors several undescribed species of the genus. Thus, the only Characidium species that can be considered to be reliably documented for the coastal river drainages of Bahia State is C. bahiense , described from Arembepe, at the northern coastal area of the state. Furthermore, examination of museum specimens that were previously identified as C. bimaculatum from Bahia State led to doubts about the occurrence of that species in those rivers (see ‘Comparative material’). Considerable further taxonomical work is necessary to unveil the diversity of the genus Characidium occurring at the rivers from northeastern Brazil.
Géry (1977: 127) called attention to the absence of a humeral spot in C. bahiense , being replaced by a humeral hiatus. The presence of a hiatus within the muscles in the region over the anterior chamber of the swimbladder (the pseudotympanum) is well known in diverse groups of Characiformes (e.g., Cheirodontinae: see Malabarba, 1998; Characinae: see Mattox & Toledo-Piza, 2012). Although some authors questioned the homology of the pseudotympanum in different lineages of Characiformes ( Böhlke, 1953; Malabarba, 1998), recent studies revealed that the structure occurs in many species of the remaining orders of the Otophysi ( Moreira et al. 2007) and is possibly plesiomorphic within the Characiformes (Mattox & Toledo- Piza, 2012). Details of the pseudotympanum form and position have been used to diagnose species ( Menezes, 2006) and define evolutionary lineages among South American characiforms ( Malabarba, 1998). Particularly in Characidium , in addition to C. bahiense , the presence of the pseudotympanum was reported in the description of some species and in phylogenies that included a few species of the
genus (e.g., Graça et al., 2008; Silveira et al. 2008; Mirande, 2010; Peixoto & Wosiacki, 2013).
The pseudotympanum of three species of Characidium that occur in the northeastern Brazilian drainages ( C. bahiense , C. bimaculatum , and C. samurai ), in addition to C. timbuiense was examined herein. The muscular hiatus in these species is mainly situated between ribs of the fifth and sixth vertebrae. However, these hiatuses are somewhat variable regarding their positions in relation to the cited ribs, size, form, and extension of the apertures ( Fig. 3 View Fig ). The pseudotympanum of C. bahiense is usually easily observed without skin removal and appears as a dark area corresponding to the muscular hiatus on the humeral region (see Géry 1977: figs. 4a-b). The species possesses a well-developed pseudotympanum, with most of the hiatus situated between ribs of the fifth and sixth vertebrae, but with small opening anterior to rib of fifth ( Fig. 3a View Fig ) or small openings anterior to rib of fifth and posterior to rib of sixth vertebra ( Fig. 3b View Fig ). Thus, part of the fifth and sixth vertebrae ribs are usually completely embedded within the aperture and the overall structure of C. bahiense is comparatively larger than in the other species cited. The presence of a small muscle hiatus anterior to the fifth vertebra was previously cited for various taxa ( Malabarba, 1998; Mattox & Toledo-Piza, 2012). More recently, a pseudotympanum with aperture extending both anterior to the fifth and posterior to the sixth vertebrae was described by Jerep & Vari (2013) for the African distichodontid Hemigrammocharax rubensteini Jerep & Vari. These features represent an obvious convergence given the phylogenetic distance between Characidium and the cited species.
Distinct from C. bahiense , the pseudotympanum of C. samurai and C. bimaculatum has a unique rounded aperture, completely inserted between the ribs of the fifth and sixth vertebrae ( Figs. 3 View Fig c-d, respectively). Reduction of musculature that is anterior to the fifth vertebra is observed in some specimens of the latter two species, but the area is not completely naked, and the swimbladder is not visible through it. In turn, the pseudotympanum of C. timbuiense is distinctly narrower compared to the structures described above and is represented by an elongated hiatus with pointed anterior and posterior margins ( Fig. 3e View Fig ). In fact, the aperture of the pseudotympanum in C. timbuiense , slightly surpass the rib of the fifth vertebra anteriorly, resulting in a small opening anterior to that rib. Furthermore, the orientation of the rib of the fifth vertebra relative to the opening is distinctly inclined, in contrast to the more vertical orientation in the cited congeners. Characidium timbuiense also have a thicker hypaxial musculature around the pseudotympanum, resulting in apertures somewhat deeper than that of the congeners examined. The opposite condition is observed in C. bahiense , with a thin hypaxial musculature and a pseudotympanum apparently shallowly situated. Commonly, taxonomic studies including Characidium provide no information about the pseudotympana except in a few cases, which usually only discuss the presence or absence of the structure. The study performed here, although including only four species, revealed interesting variation regarding the size, shape, number of apertures, and degree of rib exposure.
Comparative material examined. All from Brazil and specimens alcohol-preserved (except when noted). Characidium alipioi: MNRJ 5550, holotype, 50.0 mm SL, Rio de Janeiro, rio Paraíba do Sul basin; MNRJ 5551, paratype, 51.0 mm SL; MNRJ 5552, paratype, 48.3 mm SL; MNRJ 5553, paratype, 45.0 mm SL. MZUSP 112331, 6, 50.3-72.3 mm SL, São Paulo, rio Paraíba do Sul basin. Characidium bahiense: MZUSP 8940, holotype, 16.0 mm SL, Bahia, Arembepe; MZUSP 8923, paratype, 18.7 mm SL; MZUSP 8924, paratype, 21.5 mm SL. UFBA 2882, 6, 18.4-24.0 mm SL; UFBA 2886, 4, 19.1-22.0 mm SL, Bahia, rio Inhambupe basin. UFBA 4348, 18, 18.0- 24.1 mm SL, Bahia, rio Paraguaçu basin. UFBA 4685, 20, 17.2-22.2 mm SL, Bahia, rio Capivara basin. UFBA 7167, 23, 3 c&s, 21.1-26.0 mm SL, Bahia, rio Itapicuru basin. Characidium bimaculatum: MNRJ 21249, 14, 20.5-41.4 mm SL, Ceará, rio Curu basin. MNRJ 4925, 1, 25.5 mm SL; MNRJ 4928, 1, 28.7 mm SL, Ceará, rio Salgado basin. MNRJ 4959, 1, 23.2 mm SL; MNRJ 4964, 1, 28.8 mm SL. MNRJ 4975, 1, 29.4 mm SL, Ceará, rio Cotuí. MZUSP 1107779, 8, 29.4- 24.3 mm SL, Paraíba, rio Acaraú basin. UFBA 3829, 6, 1 c&s, 22.5-30.8 mm SL, Paraíba rio Piranhas basin. Characidium cf. declivirostre: MZUSP 97137, 1, 35.4 mm SL, Pará, rio Xingu basin. MZUSP 82084, 2, 44.5-46.5 mm SL, Mato Grosso, rio Juruena basin. Characidium fasciatum: MZUSP 39676, 15, 32.7-36.4 mm SL, Minas Gerais, rio São Francisco basin. MZUSP 49261, 6, 22.2-35.0 mm SL, Bahia, rio Paraguaçu basin. Characidium gomesi: MZUSP 73193, 47, 25.8-32.0 mm SL, Minas Gerais, rio Paranaíba basin. MZUSP 88440, 3, 29.5- 42.8 mm SL, São Paulo, rio Corumbataí. Characidium grajahuensis: MNRJ 3855, holotype (snout damaged, precise measurement currently not possible), Rio de Janeiro, Grajaú. Characidium hasemani: MZUSP 91785, 4, 44.0-58.0 mm SL, Mato Grosso, rio Xingu basin. Characidium heirmostigmata: MZUSP 97738, holotype, 34.6 mm SL, Paraná, rio Paraná basin. Characidium interruptum: MZUSP 58992, 1, 30.9 mm SL, Rio de Janeiro, rio São João basin. Characidium japuhybense: MNRJ 5194, holotype (snout damaged, precise measurement currently not possible), Rio de Janeiro, Angra dos Reis. Characidium lagosantense: MNRJ 3852, holotype (snout damaged, precise measurement currently not possible), Minas Gerais, rio São Francisco basin. MNRJ 18108, 71, 11.2-31.2 mm SL, Minas Gerais, rio São Francisco basin. C haracidium lanei: MNRJ 6185, holotype, 40.8 mm SL, São Paulo, rio Ribeira do Iguape basin; MNRJ 9766, paratype, 36.2 mm SL. MNRJ 32884, 38, 20.9-36.4, São Paulo, rio Lajeado. MZUSP 69585, 7, 25.2-31.0 mm SL, São Paulo, rio Ribeira do Iguape basin. Characidium laterale: MZUSP 90204, 2, 20.6-25.1 mm SL, Mato Grosso, rio Paraguai basin. MZUSP 96687, 80, 15.7-24.0 mm SL, Mato Grosso, rio Paraguai basin. Characidium lauroi: MNRJ 5529, holotype, 60.4 mm SL, Rio de Janeiro, rio Paraíba do Sul basin; MNRJ 5530, paratype, 56.8 mm SL. MZUSP 110359, 5, 31.1-45.9 mm SL, São Paulo, rio Paraíba do Sul basin. Characidium nupelia: MZUSP 87743, holotype, 29.0 mm SL, Mato Grosso, rio Paraguai basin. Characidium oiticicai: MNRJ 9480, holotype, 35.3 mm SL, São Paulo, rio Tietê basin. MZUSP 108640, 2, 37.4-38.1 mm SL, São Paulo, rio Tietê basin. Characidium cf. pteroides: MZUSP 85653, 81, 16.3-28.7 mm SL, Amazonas, rio Negro basin. Characidium pterostictum: MZUSP 43547, 15, 28.7- 37.8 mm SL, Rio Grande do Sul, Mampituba system. Characidium rachovii: MZUSP 49163, 8, 25.9-34.2 mm SL, Rio Grande do Sul Lagoa dos Patos drainage. Characidium stigmosum: MZUSP 40804, holotype, 33.5 mm SL, Goiás, rio Tocantins basin. Characidium tenue: MZUSP 63803, 6, 31.0- 42.2 mm SL, Rio Grande do Sul, rio Jacuí basin. Characidium timbuiense: MNRJ 4285, holotype, 51.8 mm SL, Espírito Santo, rio Timbuí basin. MNRJ 4284, paratype, 56.9 mm SL; MNRJ 4292, paratype, 53.1 mm SL; MNRJ 4315, paratype, 48.8 mm SL. UFBA 6506, 6, 1 c&s, 27.9-44.0 mm SL, Espírito Santo, rio Timbuí basin. Characidium vidali: MNRJ 9757, holotype, 47.8 mm SL, Rio de Janeiro, rio Soberbo. Characidium xavante: MZUSP 87745, paratypes, 20, 13.9-22.7 mm SL, Mato Grosso, rio Xingu basin. Characidium cf. zebra: MZUSP 92910, 7, 26.5-29.0 mm SL, Amazonas, rio Negro basin. MZUSP 98203, 11, 26.5-31.4 mm SL, Mato Grosso, rio Xingu basin. Characidium sp.: MNRJ 22424, 21, 27.8-42.3 mm SL; MNRJ 23756, 2, 22.2-25.6 mm SL; MNRJ 23758, 1, 30.1 mm SL, Bahia, rio Jequiriçá basin. MNRJ 23752, 3, 22.2-24.1 mm SL; MNRJ 23755, 1, 24.6 mm SL; MNRJ 23757, 2, 21.2-22.5 mm SL; MNRJ 23764, 1, 20.3 mm SL, Bahia, rio Paraguaçu basin. MZUSP 100772, 11, 23.4-34.4 mm SL, Bahia, rio Paraguaçu basin. MZUSP 112697, 3, 42.6-52.6, Bahia, rio Pardo basin. MZUSP 112736, 18, 26.3-48.8 mm SL; MZUSP 112738, 19, 28.1-53.9 mm SL, Bahia, rio Almada basin.
Tavera, Department of Geology and Geophysics
Departamento de Geologia, Universidad de Chile
Royal British Columbia Museum - Herbarium
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