A new species of Boehlkea (Characiformes: Characidae: Stevardiinae) from the rio Japurá, Amazon basin, Brazil

Soares, Isabel M.; Bertaco, Vinicius A.; Ito, Priscila Madoka M.; Zuanon, Jansen

doi:10.1590/1982-0224-20170026

ABSTRACT

A new species of Boehlkea is described from rio Japurá, Amazon basin. The new species differs from B. fredcochui by the presence of a vertically elongate humeral spot (vs. absence), complete lateral line (vs. incomplete), four rows of scales below lateral line (vs. three), and lower number of branched anal-fin rays (17-21 vs. 22-25), and from B. orcesi by the higher number of maxillary teeth (13-14 vs. 5-12), greater head length (27.9-29.9% vs. 24.3-27.5% of SL), and by the color pattern (basal half of dorsal-fin, distal portion of pelvic-fin, lower caudal-fin lobe and anal-fin with black chromatophores vs. absence of black chromatophores in the fins).

Keywords:
Characidae “Clade A”; Color pattern; Hemibrycon; Lateral line length; Taxonomy

RESUMO

Uma nova espécie de Boehlkea é descrita do rio Japurá, bacia Amazônica. A espécie nova difere de B. fredcochui pela presença de uma mancha umeral verticalmente alongada (vs. ausência), linha lateral completa (vs. incompleta), quatro séries de escamas abaixo da linha lateral (vs. três), e menor número de raios ramificados na nadadeira anal (17-21 vs. 22-25), e de B. orcesi pelo maior número de dentes no maxilar (13-14 vs. 5-12), maior comprimento da cabeça (27,9-29,9% vs. 24,3-27,5% do CP), e pelo padrão de colorido (porção inferior da nadadeira dorsal, porção distal da nadadeira pélvica, lobo inferior das nadadeiras caudal e anal com cromatóforos pretos vs. ausência de cromatóforos pretos nas nadadeiras).

Palavras-chave:
Characidae “Clado A”; Comprimento da linha lateral; Hemibrycon; Padrão de colorido; Taxonomia

Introduction

The genus Boehlkea was proposed by Géry (1966Géry J. A review of certain Tetragonopterinae (Characoidei), with the description of two new genera. Ichthyologica. 1966; 37:211-36.) and considered to be similar to HemibryconGünther, 1864Günther A. Catalogue of the fishes in the British Museum: Catalogue of the Physostomi, containing the families Siluridae, Characinidae, Haplochitonidae, Sternoptychidae, Scopelidae, Stomiatidae in the collection of the British Museum. London: British Museum Trustees; 1864. vol. 5. but differing by its smaller size (about 40 mm SL) and by the regression of the lateral line and scales on caudal-fin base. The type-species of the genus, Boehlkea fredcochui Géry was described from 19 specimens from Paramount Aquarium fish importers with uncertain type-locality; “…it is probable that the species occurs along the Upper Amazon (or Marañon) from Iquitos to Leticia downstreams”, according to Géry (1966Géry J. A review of certain Tetragonopterinae (Characoidei), with the description of two new genera. Ichthyologica. 1966; 37:211-36.: 213).

Géry (1966Géry J. A review of certain Tetragonopterinae (Characoidei), with the description of two new genera. Ichthyologica. 1966; 37:211-36.) grouped Boehlkea along with Bryconacidnus Myers, Bryconamericus Eigenmann, Ceratobranchia Eigenmann, Coptobrycon Ellis, Hemibrycon, Knodus Eigenmann, Microgenys Eigenmann, Nematobrycon Eigenmann, Piabarchus Myers, Rhinobrycon Myers, and Rhinopetitia Géry, in a new subtribe, Hemibryconini, which consists of a group of Tetragonopterinae (sensuGéry, 1977Géry J. Characoids of the world. Neptune City: T. F. H. Publications; 1977.) with four inner premaxillary teeth, frequently having a greatly developed third infraorbital, and, quite often, an irregular implantation of the outer premaxillary row of teeth.

Malabarba, Weitzman (2003Malabarba LR, Weitzman SH. Description of a new genus with six new species from Southern Brazil, Uruguay and Argentina, with a discussion of a putative characid clade (Teleostei: Characiformes: Characidae). Comun Mus Ciênc Tecnol PUCRS, Sér Zool. 2003; 16(1):67-151.) assigned Boehlkea to a large clade inside Characidae (“Clade A”), based on the putative derived presence of four teeth in the inner row of the premaxilla and reduced number of dorsal-fin rays (ii,8). Since no specializations related to insemination, development of glands along fins, or modifications on teeth and jaw related to a ventral mouth, which are features found in the majority genera of Clade A, Malabarba, Weitzman (2003Malabarba LR, Weitzman SH. Description of a new genus with six new species from Southern Brazil, Uruguay and Argentina, with a discussion of a putative characid clade (Teleostei: Characiformes: Characidae). Comun Mus Ciênc Tecnol PUCRS, Sér Zool. 2003; 16(1):67-151.) considered Boehlkea and Hemibrycon as the most basal genera in that clade.

Mirande (2010Mirande JM. Phylogeny of the family Characidae (Teleostei: Characiformes): from characters to taxonomy. Neotrop Ichthyol . 2010; 8(3):385-568.) elevated the rank of Stevardiinae to include the members of the Clade A, with the addition of Aulixidens Böhlke and Nantis Mirande, Aguilera & Azpelicueta. Although Mirande (2010Mirande JM. Phylogeny of the family Characidae (Teleostei: Characiformes): from characters to taxonomy. Neotrop Ichthyol . 2010; 8(3):385-568.) did not analyze specimens of Boehlkea in his phylogenetic matrix of Characidae, he pointed out that the genus can be related to Hemibrycon but differing from it by the presence of scales on caudal-fin base. Based mainly on this character, Bertaco, Malabarba (2010Bertaco VA, Malabarba LR. A review of the Cis-Andean species of Hemibrycon Günther (Teleostei: Characiformes: Characidae: Stevardiinae), with description of two new species. Neotrop Ichthyol . 2010; 8(4):737-70.) transferred Hemibrycon orcesi Böhlke, 1958 to Boehlkea. In a comparative study of the spermiogenesis and sperm ultrastructure of some stevardiine genera including Boehlkea, Baicere-Silva et al. (2011Baicere-Silva CM, Ferreira KM, Malabarba LR, Benine RC, Quagio-Grassiotto I. Spermatic characteristics and sperm evolution on the subfamily Stevardiinae (Ostariophysi: Characiformes: Characidae). Neotrop Ichthyol. 2011; 9(2):377-92.) concluded that the stevardiines share homologous sperm characteristics, which was considered as an additional evidence supporting the monophyly of the subfamily.

Recently, as part of a molecular-based phylogenetic study of the Stevardiinae, Thomaz et al. (2015Thomaz AT, Arcila D, Ortí G, Malabarba LR. Molecular phylogeny of the subfamily Stevardiinae Gill, 1858 (Characiformes: Characidae): classification and the evolution of reproductive traits. BMC Evol Biol. 2015; 15:146.) recognized Hemibryconini as a monophyletic group consisting of Acrobrycon Eigenmann & Pearson, Boehlkea, and Hemibrycon, which restricted the tribe to these three genera instead of the 12 that had been proposed by Géry (1966Géry J. A review of certain Tetragonopterinae (Characoidei), with the description of two new genera. Ichthyologica. 1966; 37:211-36.). Despite not including samples of Boehlkea in the study, Thomaz et al. (2015Thomaz AT, Arcila D, Ortí G, Malabarba LR. Molecular phylogeny of the subfamily Stevardiinae Gill, 1858 (Characiformes: Characidae): classification and the evolution of reproductive traits. BMC Evol Biol. 2015; 15:146.) tentatively classified the genus in the Hemibryconini based on its morphological resemblance with Acrobrycon and Hemibrycon, especially the shared presence of teeth along more than one-half the length of the toothed margin of the maxilla.

The rio Japurá, which drains the northwestern portion of the Amazon basin (near the supposed type-locality of B. fredcochui), is one of the largest rivers in the world regarding water discharge (Latrubesse et al., 2005Latrubesse EM, Stevaux JC, Sinha R. Tropical rivers. Geomorphology. 2005; 70(3-4):187-206.) and is the fourth major tributary of the rio Amazonas (McClain, Naiman, 2008McClain ME, Naiman RJ. Andean influences on the biogeochemistry and ecology of the Amazon River. BioScience . 2008; 58(4):325-38.). The rio Japurá has its headwaters in the Cordillera Oriental of Colombia, where is called as the río Caquetá and lies around two thirds of the Caquetá-Japurá basin; the other one third lies in Brazil (Goulding et al., 2003Goulding M, Barthem R, Ferreira EJG. The Smithsonian: Atlas of the Amazon. Washington: Smithsonian Books; 2003.). Due to the difficulty of access to the rio Japurá, its ichthyofauna is scarcely known, with large sampling gaps mainly on the Brazilian side. Here we describe a new species of Boehlkea based on numerous specimens collected during a recent expedition to the Brazilian stretch of that river, close to the Brazil-Colombia border.

Material and Methods

Counts and measurements were taken as described by Fink, Weitzman (1974Fink WL, Weitzman SH. The so-called Cheirodontin fishes of Central America with description of two new species (Pisces: Characidae). Washington (DC): Smithsonian Institution Press; 1974. (Smithsonian Contributions to Zoology; No. 172).), with the exception of the number of scale rows below lateral line, which were counted from the scale row ventral to lateral line to the scale row nearest the first pelvic-fin ray. Measurements were taken point-to-point with an electronic caliper with 0.1 mm of precision on the left side of specimens whenever possible. In the description, counts are followed by the number of specimens examined in parentheses; holotype is indicated by an asterisk. Measurements are given as percent of standard length (SL), except subunits of the head, which are given as percent of head length (HL).

Vertebrae, supraneurals, and procurrent caudal-fin rays counts were taken from cleared and stained specimens (c&s) prepared according to the method of Taylor, Van Dyke (1985Taylor WR, Van Dyke GC. Revised procedures for staining and clearing small fishes and other vertebrates for bone and cartilage study. Cybium. 1985; 9(2):107-19.). Total vertebral counts include Weberian apparatus, which was counted as four elements, and fused preural centrum 1 plus ural centrum 1 (PU1+U1) counted as a single vertebral element. Teeth and gill-rakers counts included all type-specimens. The gill-raker at the junction of the ceratobranchial and the epibranchial is included in the counting of gill-rakes of lower limb. Scanning electron micrographs (SEM) of teeth and jaws were taken from c&s dissected specimens.

The collected material was preserved in 10% formalin and further stored in ethanol 70%; some specimens were preserved in 95% ethanol for molecular analyses. Examined specimens are deposited in the following institutions: ANSP, Academy of Natural Sciences of Drexel University, Philadelphia, USA; INPA, Instituto Nacional de Pesquisas da Amazônia, Manaus, Brazil; MCN, Museu de Ciências Naturais da Fundação Zoobotânica do Rio Grande do Sul, Porto Alegre, Brazil; MZUSP, Museu de Zoologia da Universidade de São Paulo, São Paulo, and USNM, National Museum of Natural History, Smithsonian Institution, Washington D.C., USA.

Results

Boehlkea weitzmani, new species

urn:lsid:zoobank.org:act:244C2480-D4CE-4046-9B78-4B87C8F3995B

Figs. 1 - 4 , Tabs. 1 and 2

Holotype. INPA 53202, male, 33.7 mm SL, Brazil, Amazonas State, rio Japurá, stream at 500 m of the left margin of the river, 01°42’52”S 69°07’41”W, 8 Sep 2014, P. M. Ito & R. Collins.

Paratypes. Brazil, Amazonas State, rio Japurá: ANSP 203166, 2, 25.4-31.2 mm SL, collected with the holotye; INPA 48539, 1, 27.1 mm SL, stream on left margin of the river, 01°43’8”S 69°07’38”W, 1 Sep 2014, J. Zuanon, I. M. Soares, P. M. Ito; INPA 48540, 9, 16.6-30.2 mm SL (2, 23.4-30.2 mm SL), collected with the holotype; INPA 48541, 7, 14.0-34.8 mm SL (3, 31.1-34.8 mm SL; 1 c&s, 32.8 mm SL), stream on left margin of the river, 01°42’52”S 69°02’55”W, about 400 m, 31 Aug 2014, J. Zuanon, I. M. Soares, P. M. Ito & R. Collins; INPA 48542, 4, 23.8-28.5 mm SL (2, 24.8-28.5 mm SL), stream on left margin of the river, 01°43’08”S 69°07’37”W, 7 Sep 2014, P. M. Ito & R. Collins; INPA 48543, 5, 17.8-30.9 mm SL (2, 25.8-30.9 mm SL; 1 c&s, 26.7 mm SL), stream on left margin of the river, about 400 m of the access track, 01°50’56”S 69°01’45”W, 6 Sep 2014, P. M. Ito & R. Collins; INPA 48544, 15, 16.6-25.0 mm SL (4, 22.3-25.0 mm SL; 2 c&s, 26.4-29.4 mm SL), about 500 m of access track, on left track, right margin of the river, 01°42’52”S 69°02’51”W, 30 Aug 2014, J. Zuanon, I. M. Soares & P. M. Ito; INPA 48545, 8, 22.7-31.7 mm SL (4, 25.5-31.7 mm SL), stream on left margin of the river, 01°42’43”S 69°07’10”W, 1 Sep 2014, J. Zuanon, I. M. Soares, P. M. Ito & R. Collins; MCN 19980, 2, 30.3-31.2 mm SL, stream on left margin of the river, about 400 m of the access track, 01°50’56”S 69°01’45”W, 6 Sep 2014, P. M. Ito & R. Collins; MCN 19981, 2, 24.3-30.6 mm SL, about 500 m of access track, on left track, right margin of the river, 01°42’52”S 69°02’51”W, 30 Aug 2014, J. Zuanon, I. M. Soares & P. M. Ito; MCN 19982, 1, 28.5 mm SL, stream on left margin of the river, 01°42’43”S 69°07’10”W, 1 Sep 2014, J. Zuanon, I. M. Soares, P. M. Ito & R. Collins; MZUSP 117172, 1, 28.1 mm SL, about 500 m of access track, on left track, right margin of the river, 01°42’52”S 69°02’51”W, 30 Aug 2014, J. Zuanon, I. M. Soares & P. M. Ito; USNM 432545, 1, 30.1 mm SL, stream on left margin of the river, 01°42’43”S 69°07’10”W, 1 Sep 2014, J. Zuanon, I. M. Soares, P. M. Ito & R. Collins.

Diagnosis.Boehlkea weitzmani is differentiated from B. fredcochui by having a complete lateral line (vs. incomplete), four rows of scales below lateral line (vs. three), presence of a conspicuous vertically elongated humeral spot (vs. absence of a humeral spot), and by lower number of branched anal-fin rays (17-21 vs. 22-25), and from B. orcesi (sensuBertaco, Malabarba, 2010Bertaco VA, Malabarba LR. A review of the Cis-Andean species of Hemibrycon Günther (Teleostei: Characiformes: Characidae: Stevardiinae), with description of two new species. Neotrop Ichthyol . 2010; 8(4):737-70.) by the higher number of maxillary teeth (13-14 vs. 5-12), greater head length (27.9-29.9% vs. 24.3-27.5% of SL), and by the color pattern (basal half of dorsal fin, distal portion of pelvic fin, lower caudal-fin lobe and anal-fin with black chromatophores vs. unpigmented fins).

Description. Morphometric data for Boehlkea weitzmani presented in Tab. 1. Body compressed and elongate; greatest body depth located anteriorly to dorsal-fin origin. Dorsal profile of head convex from tip of snout to anterior naris, straight from latter point to tip of supraoccipital spine. Dorsal proﬁle of body slightly convex from tip of supraoccipital spine to dorsal-ﬁn origin; slanted from this point to adipose-ﬁn origin and slightly concave along caudal peduncle. Ventral proﬁle of body convex from tip of lower jaw to anal fin; slanted along anal-fin base and slightly concave along caudal peduncle.

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Tab. 1
Morphometric data of the holotype and paratypes of Boehlkea weitzmani (INPA 53202), B. fredcochui (holotype ANSP 111675, and paratypes ANSP 111668 (A) and 111676 (B)), and B. orcesi (holotype USNM 164064, and paratypes ANSP 75904, USNM 175128). Range includes the holotype. SD= Standard Deviation.

Snout rounded. Mouth terminal; slit nearly at horizontal through middle of eye. Premaxillary teeth in two rows. Outer row with 4^*(6), 5(21), or 6(4), tricuspid teeth with central cusp slightly longer; inner row with 4^*(32) pentacuspid teeth, gradually decreasing in size from anteriormost teeth. Maxillary almost fully toothed with 5(1), 6(1), 7(5), 8(7), 9(10), 10^*(6), 11(1), or 12(1) uni- to tricuspid teeth, with central cusp longer. Three anteriormost dentary teeth larger, with five cusps, followed by a medium-sized tooth with three cusps, and 7(1), 8^*(2), 9(5), 10(4), 11(3), 12(6), 13(3), 14(2), 15(2), 16(3), or 17(1) smaller conical teeth (Fig. 2).

Fig. 1
Holotype of Boehlkea weitzmani, INPA 53202, 33.7 mm SL, male, rio Japurá basin, Amazonas State, Brazil.

Fig. 2
Boehlkeaweitzmani, INPA 48541, 32.8 mm SL, paratype. Scanning electron micrograph of left side upper and lower jaws. Scale bar = 100μm.

Dorsal-fin rays ii,8(32); first unbranched ray smaller than half length of second unbranched ray. Dorsal-fin origin slightly posterior to body midlength and posterior to vertical through pelvic-fin origin. Adipose fin present. Pectoral-fin rays i,9^*(4), 10(20), or 11(8); pectoral-fin tip reaching pelvic-fin origin. Pelvic-fin rays i,6(31); pelvic fin reaching anal-fin origin. Anal-fin rays iii^*(18), iv(13) or v(1), 17(1), 18(3), 19(12), 20^*(13) or 21(3); anal-fin origin approximately at vertical through insertion in last dorsal-fin insertion rays. Principal caudal-fin rays i,9^*(31) or i,10(1) + 8,i^*(31) or 9,i(1). Dorsal procurrent caudal-fin rays 10(1), 11(2), or 12(1) and ventral procurrent caudal-fin rays 11(3) or 12(1). Caudal fin forked, lobes similar in size.

Scales cycloid. Lateral line complete, slightly curved anteriorly, with 36(2), 37(10), 38(11), 39^*(7), or 40(2) perforated scales. Longitudinal scale rows between dorsal-fin origin and lateral line 5^*(30) or 6(2); longitudinal scale rows between lateral line and pelvic-fin origin 3^*(31) or 4(1). Predorsal scales row with 9(2), 10(5), 11^*(9), or 12(16) scales. Circumpeduncular scales 14^*(30). Scale sheath along anal-fin base with 13^*(3), 14(3), 15(6), 16(5), 17(7), 18(5), 19(2), or 21(1) small scales in single series, overlying almost entire length of basal portion of anal-fin rays. Small scales covering one third of base of caudal-fin lobes.

Supraneurals 5(4), “I”-shaped. Precaudal vertebrae 15(3) or 16(1); caudal vertebrae 21(2), 22(1) or 23(1); total vertebrae 36(1), 37(2), or 38(1). First gill arch with 5(3) or 6^*(25) gill-rakers on upper limb and 8(1), 9(3), 10^*(20), or 11(4) on lower limb.

Color in alcohol. Overall ground color of body pale yellow. Upper jaw, anterior portion of maxilla, snout, top of head and dorsal portion of opercle with dense concentration of small dark chromatophores. Lower jaw, gular area and infraorbitals clearer. Dorsal surface of body with dark chromatophores from posterior region of supraocciptal spine to caudal peduncle, resulting in dark stripe on the dorsum. One conspicuous humeral spot vertically oriented, extending horizontally from second through third lateral-line scales, and over three scale rows dorsal to lateral line. Longitudinal dark stripe along body midline, originating at end of humeral spot, extending to middle of caudal-fin rays, covering two rows of scales. Scattered dark chromatophores above anal-fin base. Distal portion of first to fourth dorsal-fin rays hyaline. Interadial membranes of dorsal fin with dense concentration of dark chromatophores, resulting in dark band. Adipose, pectoral and pelvic fins hyaline. Proximal portion of anal fin with few scattered dark chromatophores or hyaline. Distal portion of interadial membranes of anal fin with dense concentration of dark chromatophores, resulting in dark stripe-like pigmentation. Caudal fin with dark pigmentation along its lateral borders forming broad transversal stripe on both lobes. Tips of caudal-fin lobes hyaline. Middle portion of lower caudal-fin lobe with dark chromatophores forming vertical stripe-like blotch in interadial membranes along lower border without reaching tip of rays.

Color in life. Overall body color silvery on flanks, with dorsum light olive to yellow from snout tip to near insertion of adipose fin; ventral area silvery white. Black vertically elongated humeral blotch. Scattered melanophores forming faint band along midline just above lateral line scales of posterior half of body. Upper portion of iris red, with some small red markings also on its lower edge. Purple to bluish sheen on scales of caudal peduncle extending to the scales over caudal-fin base. Pectoral fin hyaline; pelvic fin hyaline to whitish. Adipose fin with basal two-thirds opaque white and hyaline outer edge. Dorsal, anal and caudal fins with scattered red chromatophores over interadial membranes, more pronounced on caudal-fin base (Fig. 3).

Fig. 3
Boehlkeaweitzmani, unsexed, live specimen, rio Japurá basin, Amazonas State, Brazil (specimen not cataloged). Photo: D. Bastos.

Sexual dimorphism. Mature males of Boehlkea weitzmani have slightly curved bony hooks on the pelvic- and anal-fin rays. Pelvic fin has one hook per segment, which are arranged on the distal portion of the first to fifth (rarely on the sixth) branched rays. One or two pairs of hooks per segmentlocated on the distal portions of the last unbranched anal-fin ray and up to the eighth or ninth (sometimes tenth) branched anal-fin rays.

Geographic distribution.Boehlkea weitzmani is currently known only from streams of the rio Japurá basin, a left margin tributary of the rio Solimões basin, Amazonas State, Brazil (Fig. 4).

Fig. 4
Distribution map of Boehlkea weitzmani in the rio Japurá basin, Amazon State, Brazil.

Ecological notes. Specimens of Boehlkea weitzmani were collected in small upland forest streams (width: 1.1-2.7 m; depth: 0.07-0.33 m; current velocity 0.20-0.42 m/s) draining to both margins of the rio Japurá (Fig. 5). The water was clear to yellowish, acidic (pH <6.6), cool (23.8-25.3°C), well oxygenated (3.49-7.8 mg/l), and with low electrical conductivity (<33.3 µS/cm). The streams were almost completely shaded by the forest canopy, and the channel substrate was predominantly composed by white silica sand and pebbles, with interspersed litter banks. Boehlkea weitzmani co-occurred in the streams with other fishes such as characids Bario steindachneri (Eigenmann, 1893), Bryconella pallidifrons (Fowler, 1946), Hemigrammus bellottii (Steindachner, 1882), H. marginatus Ellis, 1911, Knodus orteguasae (Fowler, 1943), Moenkhausia agnesae Géry, 1965, Tyttocharax madeirae Fowler, 1913; lebiasinid Pyrrhulina semifasciata Steindachner, 1876; heptapterid Nannoglanis fasciatus Boulenger, 1887, and Myoglanis koepckei Chang, 1999; cetopsids Denticetopsis seducta Vari, Ferraris & de Pinna, 2005, and Helogenes marmoratus Günther, 1863; rhamphichthyid knifefish Gymnorhamphichthys rondoni (Miranda Ribeiro, 1920), and some cichlids Aequidens pallidus (Heckel, 1840), and Bujurquina cf. robusta Kullander, 1986. The rio Japurá region still has large areas of intact forests, favoring the conservation of the fish fauna that depends on the input of organic material from riparian vegetation.

Etymology. The specific epithet weitzmani is a patronym in honor of Stanley H. Weitzman, in recognition of his remarkable contributions to the knowledge of the characiform taxonomy.

Conservation status. Considering the overall good environmental conditions of the known area of occurrence of Boehlkea weitzmani and the absence of signs of imminent impacts, and according to the International Union for Conservation of Nature (IUCN) categories and criteria (IUCN Standards and Petitions Subcommittee, 2016IUCN Standards and Petitions Subcommittee. Guidelines for Using the IUCN Red List Categories and Criteria, version 12, Standards and Petitions Subcommittee, Switzerland, 2016. 101p. Available from: http://www.iucnredlist.org/documents/ RedListGuidelines.pdf/
http://www.iucnredlist.org/documents/ Re... ), we suggest that Boehlkea weitzmani can be classified as a Least Concern (LC) species.

Fig. 5
Type-locality of Boehlkea weitzmani, tributary of the rio Japurá, Amazonas State, Brazil: a. small stream from right margin of rio Japurá, with litter banks; b. small stream from left margin of the river, predominantly composed by pebbles and sand.

Discussion

Géry (1966Géry J. A review of certain Tetragonopterinae (Characoidei), with the description of two new genera. Ichthyologica. 1966; 37:211-36.) proposed Boehlkea based on the presence of two rows of teeth on the premaxilla, four broad pentacuspid teeth in the inner premaxillary row, maxilla generally toothed nearly to its end, dentary with four anteriormost broad, quincuspid teeth, caudal-fin base conspicuously scaled, no apparent caudal gland, and lateral line very rarely complete. Additionally, Géry (1966Géry J. A review of certain Tetragonopterinae (Characoidei), with the description of two new genera. Ichthyologica. 1966; 37:211-36.) noted that Boehlkea has the maxilla moderate in length, without (apparently) a positive allometry in the differential growth as in some Hemibrycon. Other characteristics include body of medium depth and compressed, and head short with cheek entirely covered by the largest suborbital.

Among the Stevardiinae only Boehlkea and Hemibrycon share the presence of an edentulous portion of maxilla smaller than the toothed portion, associated with the largest number of teeth in the maxilla (Bertaco, Malabarba, 2010Bertaco VA, Malabarba LR. A review of the Cis-Andean species of Hemibrycon Günther (Teleostei: Characiformes: Characidae: Stevardiinae), with description of two new species. Neotrop Ichthyol . 2010; 8(4):737-70.; Mirande, 2010Mirande JM. Phylogeny of the family Characidae (Teleostei: Characiformes): from characters to taxonomy. Neotrop Ichthyol . 2010; 8(3):385-568.). Boehlkea differs from Hemibrycon mainly by the presence of a caudal fin scaled (vs. naked), and by having few vertebrae (36 vs. 38-43) (Bertaco, Malabarba, 2010Bertaco VA, Malabarba LR. A review of the Cis-Andean species of Hemibrycon Günther (Teleostei: Characiformes: Characidae: Stevardiinae), with description of two new species. Neotrop Ichthyol . 2010; 8(4):737-70.). Although B. weitzmani has 36 to 38 vertebrae, the vertebral count of Boehlkea still remains smaller to that present in Hemibrycon. Since the systematics of Boehlkea and Hemibrycon are still unresolved, with both genera lacking a phylogenetic diagnosis, the new species is assigned herein to the genus Boehlkea according to the diagnostic characters discussed by Bertaco, Malabarba (2010Bertaco VA, Malabarba LR. A review of the Cis-Andean species of Hemibrycon Günther (Teleostei: Characiformes: Characidae: Stevardiinae), with description of two new species. Neotrop Ichthyol . 2010; 8(4):737-70.:767).

In a review of the cis-Andean species of Hemibrycon, Bertaco, Malabarba (2010Bertaco VA, Malabarba LR. A review of the Cis-Andean species of Hemibrycon Günther (Teleostei: Characiformes: Characidae: Stevardiinae), with description of two new species. Neotrop Ichthyol . 2010; 8(4):737-70.) transferred H. orcesi to Boehlkea, arguing that the characters observed in the type-specimens (e.g. caudal fin scaled, short lateral line, small number of vertebrae, and color pattern of the fins) are shared with Boehlkea. However, despite all these characteristics, the species was considered as belonging to Hemibrycon by Román-Valencia et al. (2010Román-Valencia C, García-Alzate CA, Ruiz-C RI, Taphorn DC. A new species of Hemibrycon (Teleostei: Characiformes: Characidae) from the Roble River, Alto Cauca, Colombia, with a key to species known from the Magdalena-Cauca River basin. Vertebr Zool. 2010; 60(2):99-105.) (Fig. 6b).

Fig. 6
a. Paratype of Boehlkea fredcochui, ANSP 111668, 31.8 mm SL, upper Amazon from surroundings of Leticia, Colombia; b. Holotype of Boehlkea orcesi, USNM 164064, 47.4 mm SL, río Macuma, northern tributary of upper río Morona, upper Amazon, Santiago-Zamora, Ecuador.

We have analyzed the holotype (ANSP 111675) and two paratypes of Boehlkea fredcochui (Fig. 6a); the holotype and one of the paratypes (ANSP 111668) have the lateral line interrupted (14 perforated scales plus 23 remaining scales; last scales perforated or unperforated; totalizing 37 longitudinal series scales), but the other examined paratype (ANSP 111676) has a complete lateral line with 36 perforated scales. Therefore, the main differences between the new species and the types of B. fredcochui were observed in the maxillary teeth (5-12 vs. 14-15) (Tab. 2) and number of branched anal-fin rays (17-21 vs. 23-25). Finally, although the types of B. fredcochui have lost most of its coloration, it is possible to notice a large stripe from the posterior border of the orbit to the median region of the lower caudal-fin lobe, but we found no signs of a humeral spot. Conversely, Boehlkea weitzmani presents a large humeral spot, more conspicuous than the faint lateral stripe.

Thumbnail

Tab. 2
Frequency distribution of maxillary teeth of Boehlkea species. Data of B. fredcochui and B. orcesi were obtained from Géry (1966Géry J. A review of certain Tetragonopterinae (Characoidei), with the description of two new genera. Ichthyologica. 1966; 37:211-36.), Böhlke (1958Böhlke JE. Studies on fishes on the family Characidae: No. 14. A report on several extensive recent collections from Ecuador. Proc Acad Nat Sci Philadelphia. 1958; 110:1-121.), and from comparative material examined.

Apparently, Boehlkea is a relatively rare fish. Recent papers about the ichthyofauna of rivers and streams from Colombia, even those sampling localities near the type locality of B. fredcochui, did not report any species of Boehlkea (Mojica et al., 2005Mojica JI, Galvis G, Arbeláez F, Santos M, Vejarano S, Prieto-Piraquive E, Arce M, Sánchez-Duarte P, Castellanos C, Gutiérrez A, Duque SR, Lobón-Cerviá J, Granado-Lorencio C. Peces de la cuenca del río Amazonas en Colombia: región de Leticia. Biota Colombiana . 2005; 6(2):191-210.; Sanabria-Ochoa et al., 2007Sanabria-Ochoa AI, Victoria-Daza P, Beltrán IC, editors. Peces de la Amazonía colombiana con énfasis en especies de interés ornamental. Bogotá (DC): Ministerio de Agricultura y Desarrollo Rural; Instituto Colombiano de Desarrollo Rural; Universidad Nacional de Colombia; 2007.; Maldonado-Ocampo et al., 2008Maldonado-Ocampo JA, Vari RP, Usma JS. Checklist of the freshwater fishes of Colombia. Biota Colombiana. 2008; 9(2):143-237.). The ichthyofauna of the rio Japurá in Brazilian’s territory is scarcely represented in fish collections; most of the preserved samples were obtained from near to the confluence of rio Solimões, at Mamirauá Reserve (Hercos et al., 2008Hercos AP, Arantes C, Amaral MX. Lista dos peixes do acervo do instituto de desenvolvimento sustentável Mamirauá. UAKARI. 2008; 3(2): 37-48.; Slobodian, Bockman, 2013Slobodian V, Bockmann FA. A new Brachyrhamdia (Siluriformes: Heptapteridae) from rio Japurá basin, Brazil, with comments on its phylogenetic affinities, biogeography and mimicry in the genus. Zootaxa. 2013; 3717(1): 1-22.). However, it is possible that Boehlkea weitzmani have a broader distribution in the Western Amazon (the same inferred distribution of B. fredcochui), a kind of aquatic habitat that is much less sampled than larger and more easily assessed rivers, which could partially explain its rarity in ichthyological collections.

According to our field observations related to the species’ habitat, Boehlkea weitzmani has an apparently restricted geographical distribution, similar to Moenkhausia agnesae (Characidae), Nannoglanis fasciatus (Heptapteridae), and Bujurquina cf. robusta (Cichlidae). Despite the scarcity of ichthyological records, these results indicate that the sampled region is part of a biogeographical province corresponding to the Western Amazon Piedmont freshwater ecoregion (Abell et al., 2008Abell R, Thieme ML, Revenga C, Bryer M, Kottelat M, Bogutskaya N, Coad B, Mandrak N, Contreras Balderas S, Bussing W, Stiassny MLJ, Skelton P, Allen GR, Unmack P, Naseka A, Ng R, Sindorf N, Robertson J, Armijo E, Higgins JV, Heibel TJ, Wikramanayake E, Olson D, López HL, Reis RE, Lundberg JG, Sabaj Pérez MH, Petry P. Freshwater ecoregions of the world: a new map of biogeographic units for freshwater biodiversity conservation. BioScience. 2008; 58(5):403-14.; ecoregion 313) that advances to the Brazilian portion of the rio Japurá basin.

It seems that there is a relatively low economic interest in Boehlkea fredcochui as an ornamental fish (Sanabria-Ochoa et al., 2007Sanabria-Ochoa AI, Victoria-Daza P, Beltrán IC, editors. Peces de la Amazonía colombiana con énfasis en especies de interés ornamental. Bogotá (DC): Ministerio de Agricultura y Desarrollo Rural; Instituto Colombiano de Desarrollo Rural; Universidad Nacional de Colombia; 2007.; Mancera-Rodríguez, Álvarez-León, 2008Mancera-Rodríguez NJ, Álvarez-León R. Comercio de peces ornamentales en Colombia. Acta Biol Colomb. 2008; 13(1):23-52.), which suggests a currently low fishing pressure on the natural populations of the Boehlkea species. This fact, together with the remoteness of large portions of the rio Japurá basin, have resulted in a high degree of preservation of the forest and its aquatic habitats, which indicates positive conservation perspectives for the regional fish fauna.

Comparative material examined.Boehlkea fredcochui . ANSP 111675, holotype, male (x-ray), 39.3 mm SL. ANSP 111668, paratype, male, 31.8 mm SL. ANSP 111676, 1 of 2 paratypes, 29.8 mm SL. Hemibryon orcesi. USNM 164064, holotype, male (x-ray), 47.4 mm SL. ANSP 75904, 2 paratypes (x-ray), 44.2-45.5 mm SL. USNM 175128, 1 paratype (x-ray), 48.7 mm SL.

Acknowledgments

The authors are very grateful to Izeni Farias and Tomas Hrbek (UFAM); the CNPq/SISBIOTA-BioPHAM (grant no. CNPq 563348/2010) project provided financial support for the field activities that resulted in the discovery of the new species; to Mark Sabaj (ANSP) for loan of paratypes of Boehlkea fredcochui; to Sandra Raredon (USNM) for providing photograph of the holotype of B. orcesi; to Douglas Bastos (INPA) for preparing photographs of the specimen alive; the Laboratório Temático de Microscopia Ótica e Eletrônica - LTMOE/INPA, for providing SEM images. VAB is grateful by the Fellowships offered by the Academy of Natural Sciences and National Museum of Natural History, Smithsonian Institution. JZ receives a productivity grant from CNPq (#313183/2014-7).

References

Abell R, Thieme ML, Revenga C, Bryer M, Kottelat M, Bogutskaya N, Coad B, Mandrak N, Contreras Balderas S, Bussing W, Stiassny MLJ, Skelton P, Allen GR, Unmack P, Naseka A, Ng R, Sindorf N, Robertson J, Armijo E, Higgins JV, Heibel TJ, Wikramanayake E, Olson D, López HL, Reis RE, Lundberg JG, Sabaj Pérez MH, Petry P. Freshwater ecoregions of the world: a new map of biogeographic units for freshwater biodiversity conservation. BioScience. 2008; 58(5):403-14.
Baicere-Silva CM, Ferreira KM, Malabarba LR, Benine RC, Quagio-Grassiotto I. Spermatic characteristics and sperm evolution on the subfamily Stevardiinae (Ostariophysi: Characiformes: Characidae). Neotrop Ichthyol. 2011; 9(2):377-92.
Bertaco VA, Malabarba LR. A review of the Cis-Andean species of Hemibrycon Günther (Teleostei: Characiformes: Characidae: Stevardiinae), with description of two new species. Neotrop Ichthyol . 2010; 8(4):737-70.
Böhlke JE. Studies on fishes on the family Characidae: No. 14. A report on several extensive recent collections from Ecuador. Proc Acad Nat Sci Philadelphia. 1958; 110:1-121.
Eschmeyer WN, Fricke R, van der Laan R, editors. Catalog of fishes: genera, species, references. [Internet]. San Francisco (CA): California Academy of Sciences; 2017 [updated 2016 Sep 29; cited 2017 Feb 15]. Available from: Available from: http://researcharchive.calacademy.org/research/ichthyology/catalog/fishcatmain.asp
» http://researcharchive.calacademy.org/research/ichthyology/catalog/fishcatmain.asp
Fink WL, Weitzman SH. The so-called Cheirodontin fishes of Central America with description of two new species (Pisces: Characidae). Washington (DC): Smithsonian Institution Press; 1974. (Smithsonian Contributions to Zoology; No. 172).
Géry J. A review of certain Tetragonopterinae (Characoidei), with the description of two new genera. Ichthyologica. 1966; 37:211-36.
Géry J. Characoids of the world. Neptune City: T. F. H. Publications; 1977.
Goulding M, Barthem R, Ferreira EJG. The Smithsonian: Atlas of the Amazon. Washington: Smithsonian Books; 2003.
Günther A. Catalogue of the fishes in the British Museum: Catalogue of the Physostomi, containing the families Siluridae, Characinidae, Haplochitonidae, Sternoptychidae, Scopelidae, Stomiatidae in the collection of the British Museum. London: British Museum Trustees; 1864. vol. 5.
Hercos AP, Arantes C, Amaral MX. Lista dos peixes do acervo do instituto de desenvolvimento sustentável Mamirauá. UAKARI. 2008; 3(2): 37-48.
IUCN Standards and Petitions Subcommittee. Guidelines for Using the IUCN Red List Categories and Criteria, version 12, Standards and Petitions Subcommittee, Switzerland, 2016. 101p. Available from: http://www.iucnredlist.org/documents/ RedListGuidelines.pdf/
» http://www.iucnredlist.org/documents/ RedListGuidelines.pdf/
Latrubesse EM, Stevaux JC, Sinha R. Tropical rivers. Geomorphology. 2005; 70(3-4):187-206.
Malabarba LR, Weitzman SH. Description of a new genus with six new species from Southern Brazil, Uruguay and Argentina, with a discussion of a putative characid clade (Teleostei: Characiformes: Characidae). Comun Mus Ciênc Tecnol PUCRS, Sér Zool. 2003; 16(1):67-151.
Maldonado-Ocampo JA, Vari RP, Usma JS. Checklist of the freshwater fishes of Colombia. Biota Colombiana. 2008; 9(2):143-237.
Mancera-Rodríguez NJ, Álvarez-León R. Comercio de peces ornamentales en Colombia. Acta Biol Colomb. 2008; 13(1):23-52.
McClain ME, Naiman RJ. Andean influences on the biogeochemistry and ecology of the Amazon River. BioScience . 2008; 58(4):325-38.
Mirande JM. Phylogeny of the family Characidae (Teleostei: Characiformes): from characters to taxonomy. Neotrop Ichthyol . 2010; 8(3):385-568.
Mojica JI, Galvis G, Arbeláez F, Santos M, Vejarano S, Prieto-Piraquive E, Arce M, Sánchez-Duarte P, Castellanos C, Gutiérrez A, Duque SR, Lobón-Cerviá J, Granado-Lorencio C. Peces de la cuenca del río Amazonas en Colombia: región de Leticia. Biota Colombiana . 2005; 6(2):191-210.
Román-Valencia C, García-Alzate CA, Ruiz-C RI, Taphorn DC. A new species of Hemibrycon (Teleostei: Characiformes: Characidae) from the Roble River, Alto Cauca, Colombia, with a key to species known from the Magdalena-Cauca River basin. Vertebr Zool. 2010; 60(2):99-105.
Sanabria-Ochoa AI, Victoria-Daza P, Beltrán IC, editors. Peces de la Amazonía colombiana con énfasis en especies de interés ornamental. Bogotá (DC): Ministerio de Agricultura y Desarrollo Rural; Instituto Colombiano de Desarrollo Rural; Universidad Nacional de Colombia; 2007.
Slobodian V, Bockmann FA. A new Brachyrhamdia (Siluriformes: Heptapteridae) from rio Japurá basin, Brazil, with comments on its phylogenetic affinities, biogeography and mimicry in the genus. Zootaxa. 2013; 3717(1): 1-22.
Taylor WR, Van Dyke GC. Revised procedures for staining and clearing small fishes and other vertebrates for bone and cartilage study. Cybium. 1985; 9(2):107-19.
Thomaz AT, Arcila D, Ortí G, Malabarba LR. Molecular phylogeny of the subfamily Stevardiinae Gill, 1858 (Characiformes: Characidae): classification and the evolution of reproductive traits. BMC Evol Biol. 2015; 15:146.

Data availability

Data citations

Eschmeyer WN, Fricke R, van der Laan R, editors. Catalog of fishes: genera, species, references. [Internet]. San Francisco (CA): California Academy of Sciences; 2017 [updated 2016 Sep 29; cited 2017 Feb 15]. Available from: Available from: http://researcharchive.calacademy.org/research/ichthyology/catalog/fishcatmain.asp

Publication Dates

Publication in this collection
2017

History

Received
17 Feb 2017
Accepted
31 July 2017

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] Abell R, Thieme ML, Revenga C, Bryer M, Kottelat M, Bogutskaya N, Coad B, Mandrak N, Contreras Balderas S, Bussing W, Stiassny MLJ, Skelton P, Allen GR, Unmack P, Naseka A, Ng R, Sindorf N, Robertson J, Armijo E, Higgins JV, Heibel TJ, Wikramanayake E, Olson D, López HL, Reis RE, Lundberg JG, Sabaj Pérez MH, Petry P. Freshwater ecoregions of the world: a new map of biogeographic units for freshwater biodiversity conservation. BioScience. 2008; 58(5):403-14.

[2] Baicere-Silva CM, Ferreira KM, Malabarba LR, Benine RC, Quagio-Grassiotto I. Spermatic characteristics and sperm evolution on the subfamily Stevardiinae (Ostariophysi: Characiformes: Characidae). Neotrop Ichthyol. 2011; 9(2):377-92.

[3] Bertaco VA, Malabarba LR. A review of the Cis-Andean species of Hemibrycon Günther (Teleostei: Characiformes: Characidae: Stevardiinae), with description of two new species. Neotrop Ichthyol . 2010; 8(4):737-70.

[4] Böhlke JE. Studies on fishes on the family Characidae: No. 14. A report on several extensive recent collections from Ecuador. Proc Acad Nat Sci Philadelphia. 1958; 110:1-121.

[5] Eschmeyer WN, Fricke R, van der Laan R, editors. Catalog of fishes: genera, species, references. [Internet]. San Francisco (CA): California Academy of Sciences; 2017 [updated 2016 Sep 29; cited 2017 Feb 15]. Available from: Available from: http://researcharchive.calacademy.org/research/ichthyology/catalog/fishcatmain.asp
» http://researcharchive.calacademy.org/research/ichthyology/catalog/fishcatmain.asp

[6] Fink WL, Weitzman SH. The so-called Cheirodontin fishes of Central America with description of two new species (Pisces: Characidae). Washington (DC): Smithsonian Institution Press; 1974. (Smithsonian Contributions to Zoology; No. 172).

[7] Géry J. A review of certain Tetragonopterinae (Characoidei), with the description of two new genera. Ichthyologica. 1966; 37:211-36.

[8] Géry J. Characoids of the world. Neptune City: T. F. H. Publications; 1977.

[9] Goulding M, Barthem R, Ferreira EJG. The Smithsonian: Atlas of the Amazon. Washington: Smithsonian Books; 2003.

[10] Günther A. Catalogue of the fishes in the British Museum: Catalogue of the Physostomi, containing the families Siluridae, Characinidae, Haplochitonidae, Sternoptychidae, Scopelidae, Stomiatidae in the collection of the British Museum. London: British Museum Trustees; 1864. vol. 5.

[11] Hercos AP, Arantes C, Amaral MX. Lista dos peixes do acervo do instituto de desenvolvimento sustentável Mamirauá. UAKARI. 2008; 3(2): 37-48.

[12] IUCN Standards and Petitions Subcommittee. Guidelines for Using the IUCN Red List Categories and Criteria, version 12, Standards and Petitions Subcommittee, Switzerland, 2016. 101p. Available from: http://www.iucnredlist.org/documents/ RedListGuidelines.pdf/
» http://www.iucnredlist.org/documents/ RedListGuidelines.pdf/

[13] Latrubesse EM, Stevaux JC, Sinha R. Tropical rivers. Geomorphology. 2005; 70(3-4):187-206.

[14] Malabarba LR, Weitzman SH. Description of a new genus with six new species from Southern Brazil, Uruguay and Argentina, with a discussion of a putative characid clade (Teleostei: Characiformes: Characidae). Comun Mus Ciênc Tecnol PUCRS, Sér Zool. 2003; 16(1):67-151.

[15] Maldonado-Ocampo JA, Vari RP, Usma JS. Checklist of the freshwater fishes of Colombia. Biota Colombiana. 2008; 9(2):143-237.

[16] Mancera-Rodríguez NJ, Álvarez-León R. Comercio de peces ornamentales en Colombia. Acta Biol Colomb. 2008; 13(1):23-52.

[17] McClain ME, Naiman RJ. Andean influences on the biogeochemistry and ecology of the Amazon River. BioScience . 2008; 58(4):325-38.

[18] Mirande JM. Phylogeny of the family Characidae (Teleostei: Characiformes): from characters to taxonomy. Neotrop Ichthyol . 2010; 8(3):385-568.

[19] Mojica JI, Galvis G, Arbeláez F, Santos M, Vejarano S, Prieto-Piraquive E, Arce M, Sánchez-Duarte P, Castellanos C, Gutiérrez A, Duque SR, Lobón-Cerviá J, Granado-Lorencio C. Peces de la cuenca del río Amazonas en Colombia: región de Leticia. Biota Colombiana . 2005; 6(2):191-210.

[20] Román-Valencia C, García-Alzate CA, Ruiz-C RI, Taphorn DC. A new species of Hemibrycon (Teleostei: Characiformes: Characidae) from the Roble River, Alto Cauca, Colombia, with a key to species known from the Magdalena-Cauca River basin. Vertebr Zool. 2010; 60(2):99-105.

[21] Sanabria-Ochoa AI, Victoria-Daza P, Beltrán IC, editors. Peces de la Amazonía colombiana con énfasis en especies de interés ornamental. Bogotá (DC): Ministerio de Agricultura y Desarrollo Rural; Instituto Colombiano de Desarrollo Rural; Universidad Nacional de Colombia; 2007.

[22] Slobodian V, Bockmann FA. A new Brachyrhamdia (Siluriformes: Heptapteridae) from rio Japurá basin, Brazil, with comments on its phylogenetic affinities, biogeography and mimicry in the genus. Zootaxa. 2013; 3717(1): 1-22.

[23] Taylor WR, Van Dyke GC. Revised procedures for staining and clearing small fishes and other vertebrates for bone and cartilage study. Cybium. 1985; 9(2):107-19.

[24] Thomaz AT, Arcila D, Ortí G, Malabarba LR. Molecular phylogeny of the subfamily Stevardiinae Gill, 1858 (Characiformes: Characidae): classification and the evolution of reproductive traits. BMC Evol Biol. 2015; 15:146.

	Boehlkea weitzmani					Boehlkea fredcochui			Boehlkea orcesi
	holotype	n	range	mean	SD	holotype	A	B	holotype	n	range	mean
Standard length (mm)	33.7	32	22.3-34.8	28.4		39.3	31.8	29.8	47.5	4	44.2-48.7	46.5
Percentages of standard length
Predorsal distance	51.9	32	49.7-56.8	52.8	1.6	54.9	55.8	53.6	54.0	4	53.1-54.4	53.8
Prepectoral distance	26.1	32	24.3-27.5	25.8	0.9	26.8	25.7	26.8	30.2	4	28.1-30.2	29.0
Prepelvic distance	47.1	31	43.9-50.7	47.0	1.4	48.2	46.9	46.2	49.6	4	47.8-51.0	49.2
Preanal distance	59.9	32	56.9-63.6	60.9	1.7	62.4	59.7	60.2	62.5	4	60.9-66.2	63.3
Depth at dorsal-fin origin	30.3	32	24.9-31.3	28.1	1.5	33.0	30.2	29.3	38.2	4	35.0-39.0	37.2
Caudal-peduncle depth	11.1	32	8.6-12.1	10.6	0.7	11.4	11.4	10.5	12.2	4	11.5-12.2	11.8
Caudal-peduncle length	10.9	32	7.3-12.4	9.8	1.3	10.8	11.0	8.4	16.9	4	14.8-17.2	16.4
Dorsal-fin length	22.8	32	20.0-24.1	22.3	0.9	24.4	24.8	23.8	25.0	4	24.2-25.2	24.7
Pectoral-fin length	21.2	32	18.4-22.2	20.7	1.0	20.5	20.4	19.9	22.2	4	21.0-22.9	22.0
Pelvic-fin length	14.6	31	11.6-15.0	13.5	0.8	12.8	14.2	13.9	15.7	4	14.1-15.7	15.3
Anal-fin base	28.3	32	24.3-31.8	28.5	1.6	32.3	35.3	31.9	28.3	4	24.8-29.2	26.8
Head length	25.1	32	24.3-27.5	25.7	0.8	24.8	26.0	25.8	29.9	4	27.9-29.9	28.7
Percentages of head length
Snout length	21.6	32	18.0-28.4	23.0	2.4	21.7	23.6	22.3	20.6	4	20.4-20.9	20.6
Upper jaw length	47.0	32	41.5-50.7	46.3	2.3	47.4	45.3	46.2	49.8	4	48.0-49.8	49.0
Orbital diameter	43.1	32	37.7-45.7	41.2	1.7	32.3	35.6	37.0	31.4	4	31.4-35.8	33.0
Interorbital width	34.5	32	27.0-35.1	32.2	2.1	35.6	36.6	32.8	33.2	4	31.2-33.3	32.7

Brasil