Trichomycterus trefauti, Wosiacki, Wolmar Benjamin, 2004

Wosiacki, Wolmar Benjamin, 2004, New species of the catfish genus Trichomycterus (Siluriformes, Trichomycteridae) from the headwaters of the rio São Francisco basin, Brazil, Zootaxa 592, pp. 1-12 : 3-9

publication ID

https://doi.org/ 10.5281/zenodo.157699

publication LSID

lsid:zoobank.org:pub:7907434C-6261-48ED-9034-27A3F4115F6E

DOI

https://doi.org/10.5281/zenodo.6271752

persistent identifier

https://treatment.plazi.org/id/0DFF9225-2629-424C-BEB9-074B4F16E67F

taxon LSID

lsid:zoobank.org:act:0DFF9225-2629-424C-BEB9-074B4F16E67F

treatment provided by

Plazi

scientific name

Trichomycterus trefauti
status

sp. nov.

Trichomycterus trefauti View in CoL new species

( Fig. 2 View FIGURE 2 , Table 1)

Holotype: MZUSP 79911, 49.5 mm SL, riacho Andrequicé, tributary of rio Paraúna, itself a tributary of rio das Velhas (rio São Francisco basin), approximately 18°30’S, 43°30’W, Município de Trinta Réis, Minas Gerais, Brazil; collected by M.T.U. Rodrigues; 8 September 1986.

Paratypes: Collected with the holotype: MZUSP 36966, 5 ex. (36.6–54.2 mm SL; 3 C&S); MPEG 7896, 2 ex. (37.2–47.3mm SL).

Diagnosis: Trichomycterus trefauti differs from all other known members of the subfamily Trichomycterinae by the autapomorphic presence of an elliptical, vertically elongated, brown spot, at caudal­fin base (vs. without elliptical spot at caudal­fin base), and the combination of homogeneously gray color pattern (vs. yellowish, presence of stripes or bands, or lack of color pattern), first pectoral­fin ray prolonged as a filament (vs. not prolonged), subterminal mouth (vs. inferior or terminal mouth), two supraorbital pores at interorbital space (vs. one supraorbital pore at mesial line), caudal fin truncate with attenuated edges (vs. caudal fin rounded), pelvic fins covering anus and urogenital openings (vs. not covering), interorbital space very wide — 39.8–45.9 % HL (vs. more or less than 39.8– 45.9 % HL), maxillary barbels very long — 84.2–93.0 % HL (vs. more or less than 84.2– 93.0 % HL), rictal barbels very long — 67.6–74.3 % HL (vs. more or less than 67.6–74.3 % HL).

Description: Morphometric data for holotype and paratypes are given in Table 1.

Body elongate, roughly cylindrical close to head and gradually more compressed towards caudal fin. Dorsal and ventral profiles of trunk slightly convex. Dorsal and ventral profiles of caudal peduncle straight ( Fig. 2 View FIGURE 2 ). Integument thick, especially over base of pectoral and caudal fins. Small papillae on lips, and scattered on dorsal surface of head.

Head wide and depressed, trapezoidal, slightly longer than wide, transverse section at posterior tip of opercle wider than anteriorly at nostril, anterior margin slightly rounded. Head lateral to eye slightly swollen by jaw muscles in large and small specimens. Dorsal and ventral profiles of head convex. Eyes rounded, dorsolaterally oriented. Eye covered by thin skin, transparent at its center, gradually opaque towards rim, distinctly separated from surface of eyeball. Ocular structures readily visible on surface of skin, not deeply sunken. Orbital rim not free. Anterior nare slightly larger than posterior, surrounded by fleshy flap of integument. Posterior nare surrounded anteriorly by thin flap of integument. Anterior and posterior nares about one third of eye diameter. Gill membranes thick, united to isthmus only at anteriormost point, forming small free fold across the isthmus. Gill openings not constricted. Branchiostegal rays 6–8 (6 in Holotype) visible from below (7–8 in C&S). Mouth subterminal, its corners laterally oriented. Lower lip with conspicuous lateral fleshy lobes, internal to origin of rictal barbels. Anterior margin of upper lip slightly rounded. Small papillae on external surface of upper lip and large papillae inside mouth at region of teeth attachment. Barbels long (nasal 74.3–69.8; maxillary 93.0–84.2; and rictal barbel length 74.3–67.6 % of head length). Barbels with broad bases, gradually narrowing towards tip. Nasal barbels reaching median odontodes of interopercle; maxillary barbels reaching base of pectoral fin; rictal barbels reaching last interopercular odontode. Origin of nasal barbels on posterolateral portion of integument flap around anterior nostril. Interopercular patch of odontodes rounded, with 34–36 conical odontodes. Opercular patch of odontodes rounded, with 14–16 conical odontodes. Supraorbital canal complete and infraorbital incomplete. Infraorbital anterior section pores i1 and i3, and posterior section pores i10 and i11. Supraorbital pores s1, s2 and s4. Two pores s4 at interorbital space.

TABLE 1. Morphometric data for Trichomycterus trefauti based on the holotype and four paratypes.

Pectoral­fin margin truncate, I/6 rays, first ray longest with filamentous extension. Dorsal fin with margin semicircular when expanded, II/7 rays, third and fourth rays longest. Anal fin slightly elongate in overall shape, smaller than dorsal fin, I/6 rays, third ray longest, origin at vertical through sixth dorsal­fin ray. Pelvic fins with origin anterior to dorsal­fin origin, rounded margin beyond urogenital and anal openings when extended, 5 rays, second and third rays longest. Caudal fin truncate with attenuated margin edges, distinctly wider than remaining caudal region, I/11 /I principal rays, principal central rays splitting once and dorsal and ventral principal rays splitting twice. Only first dorsal and ventral caudal­fin accessory rays visible. Anal and urogenital openings mid­way between pelvic fin base and anal­fin origin.

Free vertebrae 37. Ribs 13–14 pairs, first thickest, second to 12–13th pairs slightly longest, the last pair rudimentary and free. Dorsal pterygiophores 8, first in front of neural spine of 21th free vertebrae. Anal pterygiophores 6, first in front of haemal spine of 24th free vertebrae. Procurrent rays of dorsal lobe 14–16. Procurrent rays of ventral lobe 12–16. Caudal skeleton pleurostyle, hypurals 4+5, hypural 3, and fused parahypural and hypurals 1+2.

Color in alcohol: Refer to figures 2 for general view of color pattern in alcohol. Uniform gray on dorsal surface and sides of head, trunk and caudal peduncle, darker at nape. Dark stripe from eyes to anterior nostril. Elliptical, vertically elongated dark spot with illdefined borders at base of caudal fin. Few irregular spots on caudal peduncle in large specimens (48.9–54.3 mm SL) and on trunk and caudal peduncle in small (37.2–42.4 mm SL) specimens. Ventral surface of head and abdominal region without pigmentation. Dorsal surface of pectoral­fin base with few chromatophores, gradually scattered towards margin. Ventral surface of pectoral fin and pelvic fins unpigmented. Bases of dorsal and anal fin with chromatophores, more scattered towards margin over rays. Dorsal fin darker than anal fin. Chromatophores on base of caudal­fin rays, gradually more scattered towards margin. Nasal barbels with chromatophores all over their surface; maxillary barbels with chromatophores on their dorsal surface. Rictal barbels unpigmented. Internal surface of all barbels lighter than outer margin.

Distribution: Known only from the type­locality.

Etymology: Named after Dr. Miguel Trefaut Rodrigues, who discovered and collected the first specimens of the species.

Systematic and taxonomic comments: The genus Trichomycterus has been recognized as nonmonophyletic ( Arratia, 1990, 1998, de Pinna, 1989; 1998), as is also true for the subfamily Trichomycterinae (de Pinna, 1989; 1998). Arratia (1990) proposed four “unique derived characters” for Trichomycterinae (1­“basioccipital”…” with well developed anterior membranous processes which lie ventrolateral to parasphenoid and prootics”, 2­“an enarthrodial articulation between preopercle and opercle”…” is present in adults”, 3­“vomer with only one long posterior process”, and 4­“pronounced notch”…” on the posteroventral margin of ceratobranchial”). These features are present in all analyzed Trichomycterinae species prepared for C&S and X­ray, including Trichomycterus trefauti . However, a more recent analysis ( Costa & Bockmann, 1993) proposed Scleronema and the genus Ituglanis composed of species previously located in Trichomycterus , as two sequential monophyletic groups more related to the Glanapteryginae , Sarcoglanidinae , Tridentinae , Stegophilinae , and Vandelliinae , than to the other trichomycterine species. The lack of knowledge about the relationships among trichomycterine species, absence of definition of the genera Trichomycterus and Eremophilus , and the superficial definition of Hatcheria , Bullockia , Silvinichthys , and Rhizosomichthys make the allocation of new species difficult. Unfortunately, Trichomycterus has been considered as a group of species that do not possess the features present in other genera of trichomycterine. For this reason Trichomycterus has grown to a total of 96 nominal species ( Barbosa & Costa, 2003; Fernández & Schaefer, 2003; de Pinna & Wosiacki, 2003; and Wosiacki & Garavello, 2004) in contrast with the other genera Eremophilus , Bullockia , Hatcheria , Rhizosomichthys , and Silvinichthys with only one species each.

The lack of pelvic fins and girdle has been used to diagnose Eremophilus , the only recognized distinction from Trichomycterus . These features were observed and discussed by Myers (1944), Miranda ­ Ribeiro (1949), de Pinna (1989, 1998), Costa & Bockmann (1993), Trajano & de Pinna (1996), Fernández & Vari (2000), and de Pinna & Wosiacki (2003). These papers have demonstrated that the lack of pelvic fins and girdle are highly homoplastic and for this reason, weak features to define a genus. Recently de Pinna & Wosiacki (2003) reallocated Eremophilus candidus Miranda­Ribeiro to the genus Trichomycterus ( T. candidus ) based on detailed phylogenetic analysis which indicates that it is more related to Trichomycterus species than to E. mutisii Humboldt. Arratia et al. (1978) proposed the genus Bullockia based on several features slightly similar to those of Hatcheria diagnosed in the same paper and in Arratia & Menu­Marques (1981).These features are clearly distinct from those observed in species of Trichomycterus . Characters like a narrow and strongly compressed caudal peduncle and a long dorsal fin with more than 17 rays are present in Hatcheria and Bullockia but are not present in species of Trichomycterus . Silvinichthys differs by having the entire surface of body skin perforated by pores of ampullary organs and a unique combination of characters ( Arratia, 1998). Rhizosomichthys totae (Miles) is an atypical freshwater fish that has the unique character of thick fat tissue forming folds covering the entire body. Its osteology is unknown, and its relationship among trichomycterine is totally obscure.

Trichomycterus trefauti does not have the features above mentioned for Eremophilus , Bullockia , Hatcheria , Rhizosomichthys , and Silvinichthys and can not be allocated to any of these genera. In order to maintain nomeclatural stability it does not seem desirable to propose a new genus for one new species. It seems more parsimonious and coherent to allocate the new species in Trichomycterus .

The majority of the species of Trichomycterus are morphologically very similar to each other and the diagnosis of most species is only possible by a combination of several characters. Sometimes these features concern to internal anatomy and are difficult to analyze. Few species, like Trichomycterus castroi de Pinna, T. papilliferus Wosiacki & Garavello , T. trefauti have external autapomorphies that make them easy to identify

Phylogenetic assignment and comparisons: The presence of stripes or bands in Trichomycteridae has been frequently recorded (e.g., Scleronema operculatum (Eigenmann) , T. barbouri (Eigenmann) , T. castroi , T. itatiayae Miranda­Ribeiro , T. reinhardti (Eigenmann) , T. taeniops Fowler , T. taenia Kner ). A transverse band at the caudal fin has been recorded only in S. operculatum , T. castroi , and T. trefauti . The presence of a vertical caudal­fin band in T. castroi and S. operculatum was discussed by de Pinna (1992a) who interpreted these as autapomorphies for these species. The spot at the caudal­fin base of Trichomycterus trefauti has a different topology from the band of T. castroi that is at the distal margin of the caudal fin. In addition, the vertical spot at the caudal­fin base distinguishes T. trefauti from its sympatric congeners in the rio São Francisco basin ( T. brasiliensis Lütken , T. concolor Costa, T. itacarambiensis Trajano & Pinna , T. reinhardti , T. variegatus Costa), and all other trichomycterins species. The spot at the caudal­fin base of T. trefauti is unique within trichomycterids and it is hypothesized to be an autapomorphy for this species.

The first pectoral­fin ray prolonged as a filament, present in T. trefauti , is present in all species of Ituglanis , Trichomycterus hasemani (Eigenmann) , T. johnsoni (Fowler) and several other species ( T. candidus , T. alternatus (Eigenmann) , T. punctulatus Valenciennes , T. brasiliensis , T. reinhardti , T. itacarambiensis , T. auroguttatus Costa, T. longibarbatus Costa, T. bahianus Costa, T. mimonha Costa, T. mirissumba Costa, T. itatiayae Miranda­ Ribeiro, and T. immaculatus (Eigenmann & Eigenmann)) among others. According to Costa & Bockmann (1993), Ituglanis is a monophyletic sister group of the Glanapteryginae , Sarcoglanidinae , Tridentinae , Stegophilinae , and Vandelliinae , and T. hasemani and T. johnsoni could be more closely related to other subfamilies (de Pinna, 1989). Therefore it is hypothesized that the first pectoral­fin rays prolonged as a filament is a homoplastic feature that has evolved several times in Trichomycteridae .

Ecology: The specimens were collected in a stream 2–4m wide, with an average depth of 10cm, and with a bottom of pebbles of variable size and rocks, at an elevation of approximately 1000m. The vegetation was of “campos rupestres”.

Comparative material

Copionodon pecten MZUSP 48962 (7 ex. Alc. 3 ex. C&S); MZUSP 42462 (5 ex.) Paratypes; C. orthiocarinatus MZUSP 42464 (1 ex.) Paratype; C. lianae MZUSP 42470 (2 ex.) Paratypes; MZUSP 39995 (1 ex. C&S); Glaphyropoma rodriguesi MZUSP 42466 (3 ex.) Paratypes; Trichogenes longipinnis MZUSP 40238 (2 ex); MZUSP 63478 (15 ex. Alc., 3 ex. C&S); Bullockia maldonadoi CAS 63842, Holotype; CAS 63843 (43 ex.) Paratypes; MZUSP 36958 (1 ex. C&S); Eremophilus candidus MNRJ 11762 (2 ex. C&S) Paratypes; E. mutisii MZUSP 35409 (1 ex. C&S) AMNH 56092 (1 ex. C&S); CAS 6595 (13 ex.); Hatcheria macraei MZUSP 35687 (3 C&S); H. patagoniensis CAS 63844 (2 ex.)

Paratypes; H. titcombi CAS 28557, Holotype; Ituglanis amazonicus MUSP 30449 (1 ex.); I. eichorniarum MZUSP 37763 (1 ex.); MNRJ 780 (2 ex.) Syntypes; I. gracilior FMNH 53264 (X­ray) Holotype; I. guianensis FMNH 52676 (X­ray) Holotype; I. laticeps CAS 32458 (1 ex.); I. metae CAS 118214 (1 ex.); CAS 124227 (1 ex.); CAS 58138, Holotype; I. parahybae FMNH 58576 (X­ray) Holotype; I. proops MZUSP 84190 (12 ex. Alc, 2 ex. C&S); MNRJ 781 (3 ex.) Syntypes; Ituglanis n. sp. MNRJ 11489 (13 ex. 5 C&S); Pygidium angustirostris MNRJ 3605 (2 ex.) Syntypes; P. f l o re n s e MNRJ 3751, Holotype; P. paquequerensis MNRJ 1159, Holotype; P. parkoi MNRJ 3849, Holotype; P. travassosi MNRJ 5424, Holotype; Rhizosomichthys totae SU 37074 (2 ex.) Paratypes; Scleronema minutum MCP 11169 (3 ex. C&S); S. operculatum FMNH 58080 (X­ray) Holotype; MCP 9315 (1 ex.); Scleronema n. sp. UFRGS 3955 (2 ex.); Trichomycterus albinotatus MZUSP 35817 (2 ex.); T. alternatus CAS 64575 (4 ex.) Paratypes; FMNH 58082 (X­ray) Holotype; FMNH 58083 (62 ex. 2 X­ray) Paratypes; MZUSP 67913 (5 ex.); MZUSP 52541 (4 ex. Alc.,1 ex. C&S); T. areolatus CAS 15649 (47 ex.); T. atochae CAS 64576, Holotype; CAS 64577 (4 ex.) Paratypes; USNM 301837 (5 ex.); T. auroguttatus MZUSP 84191. (1 ex.); T. bahianus MZUSP 38636 (1 ex.) Paratype; T. banneaui CAS 58127 (26 ex.) Paratypes; FMNH 56025 (X­ray) Holotype; T. barbouri CAS 64578 (1 ex.) Paratype; FMNH 53946 (5 ex. 2 X­ray). Syntypes; ROM – OR# 403409 (1 ex.); ROM 51722 (1 ex.); T. bogotense CAS 58118 (27 ex.) Paratypes; FMNH 56030 (X­ray) Holotype; FMNH 56031 (264 ex. 2 X­ray) Paratypes; T. boylei MZUSP 84192 (2 ex.); T. brasiliensis MZUSP 37145 (2 ex.); T. caliense CAS 132081 (3 ex.); FMNH 56029 (X­ray) Holotype; T. candidus MPEG 6711 (1 ex.); MZUSP 79910 (4 ex.); MPEG 6712 (5 ex.); MHNCI 8075 (2 ex.); T. castroi NUPELIA uncat. (1 ex.– Rio Iguaçu, Segredo, PR); NUPELIA uncat. (1 ex.– Rio Iguaçu, Segredo, PR); MHNCI 7643 (2 ex. 1 C&S); T. chapmani FMNH 56027 (X­ray) Holotype; FMNH 56028(10 ex. 2 X­ray) Paratype; FMNH 69813 (16 ex. 2 X­ray) Paratypes; CAS 58128 (8 ex.) Paratypes; T. chiltoni ANSP 91039 (1 ex.); CAS 57596, Holotype; CAS 57597(68 ex.) Paratypes; CAS 57598(4 ex.) Paratypes; T. conradi CAS 58257 (ex. 1) Paratype; FMNH 53721 (X­ray) Holotype; T. cubataonis MNRJ 12490, Holotype; MNRJ 12491 (9 ex.) Paratypes; T. davisi FMNH 54242 (9 ex. 2 X­ray) Syntypes; FMNH 54242 (9 ex.) Syntypes; FMNH 60309 (X­ray) Holotype; MCP 10646 (2 ex.); T. dorsostriatus CAS 64579 (2 ex.) Paratypes; FMNH 58096 (X­ray) Holotype; FMNH 58097 (X­ray) Paratype; T. duellmani UMMZ 204202 (3 ex.); T. eichorniarum MNRJ 780 (2 ex.) Syntypes; T. emanueli ( CAS 147810); T. gabrieli CAS 64583 (4 ex.) Syntypes; T. gabrieli SU 36556 (1 ex.) Syntype; T. hasemani CAS 54584 (36 ex.) Paratypes; FMNH 56424 (X­ray) Holotype; FMNH 56425 (2 X­ray) Paratypes; MZUSP 23600 (5 ex. C&S); T. heterodontus CAS 58139 (1 ex.) Paratype; T. iheringi CAS 64585, Holotype; CAS 64586 (3 ex.) Paratypes; FMNH 58074 (2 ex.) Paratypes; T. itacarambiensis MZUSP 67914 (3 ex. C&S); MZUSP 40329 (5 ex.); T. johnsoni MZUSP 59367 (1 ex.); T. latidens CAS 76335, Holotype; T. latistriatus FMNH 58449 (X­ray) Holotype; T. longibarbatus MZUSP 67915 (3 ex. C&S); T. mboycy MPEG 6695 Holotype; MPEG 6696 (2 ex.) Paratypes; MPEG 6697 Paratype; MPEG 6698 (2 ex.) Paratypes; T. meridae CAS 147809 (14 ex.); UMMZ 145374 (5 ex.); T. mimonha MZUSP 49486 (3 ex. C&S); T. mirissumba MZUSP 44500 (3 ex. C&S); T. naipi MPEG 6699 Holotype, MPEG 6700 (2 ex.) Paratypes, MPEG 6701 Paratype, MPEG 6702 (2 ex.) Paratypes; T. oroyae CAS 58104 (43 ex.); T. paolence FMNH 58085 (X­ray) Holotype; FMNH 58575 (X­ray) Paratype; T. papilliferus MPEG 6692 Holotype; MPEG 6693 (4 ex.) Paratypes; MPEG 6694 (3 ex.) Paratypes; NUPELIA 1615 Paratypes; MPEG 6703 Paratype; T. paquequerense MNRJ 1159, Holotype; T. pardus ROM 51717 (3 ex.); T.plumbeus MPEG 6686 Holotype; MPEG 6688 (20 ex.) Paratypes; MPEG 6687 (2 ex.) Paratypes; NUPELIA 1614 (3 ex.) Paratypes; T. proops MNRJ 781 (3 ex.) Syntypes; T. punctulatus ROM 51725 (2 ex.); CAS 58094 (4 ex.); T. punctulatus piurae CAS 58119, Holotype; CAS 58120 (14 ex.) Paratypes; FMNH 77904 (5 ex. 2 X­ray) Paratypes; FMNH 58672 (3 ex. 2 X­ray) Paratypes; T. quechuorum AMNH 2035/sw (1 ex.); T. regani CAS 64591, Holotype; T. reinhardti FMNH 58081 (X­ray) Holotype; MZUSP uncat. (2 ex.­Rio Bonito, Lauras, MG); T. rivulatus CAS 58092 (2 ex.); CAS 58093 (3 ex.); ROM 40769 (1 ex.); T. santaeritae FMNH 58577 (X­ray) Holotype; MNRJ 14380 (3 ex. 1 C&S); T. septentrionale CAS 77008 (3 ex.); CAS 77009 (3 ex.); FMNH 59522 (X­ray) Holotype; FMNH 59195 (X­ray) Paratype; T. stawiarski NUPELIA uncat. (1 ex. Rio Jordão, Segredo, PR); T. stellatus CAS 58121 (3 ex.) Paratypes; FMNH 58100 (3 ex. 2 X­ray) Paratypes; FMNH 58101 (X­ray) Holotype; FMNH 58102 (3 ex. 2 X­ray) Paratypes; T. stramineus CAS 58105 (4 ex. 1 Xray) Paratypes; CAS 58148 (1 ex.) Paratype; FMNH 58092 (3 ex. 1 X­ray) Paratype; FMNH 58105 (X­ray) Holotype; T. striatum ANSP 104215 (1 ex.); T. striatus CAS 64593 (1 ex.) Paratype; FMNH 26660 (1 ex.), 26661 (X­ray), 26662 (X­ray) Paratype; FMNH 55233 (X­ray) Paratype; FMNH 7579 (X­ray) Holotype; T. taczanowskii CAS 76966 (12 ex.); T. taroba MPEG 6689 Holotype; MPEG 6690 (15 ex.) Paratypes; MPEG 6691 (10 ex.) Paratypes; NUPELIA 1616 (3 ex.) Paratypes; T. travassosi MNRJ 5424, Holotype; T. triguttatus FMNH 58670 (X­ray) Holotype; FMNH 58671 (3 ex. 2 X­ray) Paratypes; CAS 64596 (1 ex.) Paratype; T. unicolor ROM 51718 (3 ex.); T. vermiculatus FMNH 58077 (Xray) Holotype; MZUSP 67912 (4 ex. C&S); T. zonatus FMNH 58572 (1 ex. R­ray) Paratype; FMNH 58573 (X­ray) Holotype; FMNH 58574 (2 ex. 1X­ray) Paratypes; MZUSP 67913 (6 ex. C&S); T. cf. nigricans MCP 10649 (1 ex. C&S); Trichomycterus sp. n. (Bahia) MZUSP 67910; Trichomycterus sp. n. (Mato Grosso) MZUSP 67905 (1 ex.); MZUSP 67906 (1 ex.); MZUSP 67909 (1 ex.); Trichomycterus sp. n. (“pelvic less”) MPEG uncat. (1 ex. – Rio Roseira, Concórdia, RS); Vandellia beccarii AMNH 55625 sw (1 ex.); V. cirrohosa AMNH 20497 (1 ex.); V. i x MZUSP 29155 (2 ex.) Paratypes; V. plazai USNM 302683 (1 ex.); Paracanthopoma sp. MZUSP 30401 (2 ex.); Homodiaetus haemomyzon ANSP 137581 (1 ex.); H. anisitsi MCP 9987 (1 ex.); Pseudostegophilus nemurus MZUSP 30431 (2 ex.); Pareiodon sp. MZUSP 32522 (3 ex.); Stegophilus passarelli UFRJ 0 653 (2 ex.); S. insidiosus MZUSP 40048 (1 ex.); Henonemus sp. MZUSP 30414 (2 ex.); Acanthopoma annectens MZUSP 30420 (1 ex.); A. bondi MZUSP 30418 (2 ex.); Megalocentor echthrus MZUSP 30391 (1 ex.); M. echthrus MZUSP 30380 (1 ex.); Parastegophilus maculatus MZUSP 35736 (2 ex.); Ochmacanthus orinoco MZUSP 30477 (2 ex.); O. alternus MZUSP 30473 (3 ex.); Haemomaster venezuelae MZUSP 30375 (1 ex.); Listrura nematopteryx MZUSP 37138 (2 ex.). Tridensimilis venezuelae USNM 121291 (2 ex.); Tridentopsis sp. MZUSP 63092; Sarcoglanis simplex INPA 8165 (2 ex.).

MZUSP

Museu de Zoologia da Universidade de Sao Paulo

MPEG

Museu Paraense Emilio Goeldi

CAS

California Academy of Sciences

MNRJ

Museu Nacional/Universidade Federal de Rio de Janeiro

AMNH

American Museum of Natural History

FMNH

Field Museum of Natural History

MCP

Pontificia Universidade Catolica do Rio Grande do Sul

UFRGS

Universidade Federale do Rio Grande do Sul

USNM

Smithsonian Institution, National Museum of Natural History

ROM

Royal Ontario Museum

ANSP

Academy of Natural Sciences of Philadelphia

UMMZ

University of Michigan, Museum of Zoology

INPA

Instituto Nacional de Pesquisas da Amazonia

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