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The deep-sea Anguilliformes and Saccopharyngiformes (Teleostei: Elopomorpha) collected on the Brazilian continental slope, between 11o and 23o S PDF

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Preview The deep-sea Anguilliformes and Saccopharyngiformes (Teleostei: Elopomorpha) collected on the Brazilian continental slope, between 11o and 23o S

Zootaxa 2234: 1–20 (2009) ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ Article ZOOTAXA Copyright © 2009 · Magnolia Press ISSN1175-5334(online edition) The deep-sea Anguilliformes and Saccopharyngiformes (Teleostei: Elopomorpha) collected on the Brazilian continental slope, between 11o and 23oS MARCELO R. S. MELO1,4, GUSTAVO W. A. NUNAN2, ADRIANA C. BRAGA3& PAULO A. S. COSTA3 1331 Funchess Hall, Auburn University, Auburn, AL 36849 USA. E-mail: [email protected] 2Dept. de Vertebrados, Museu Nacional/UFRJ, Quinta da Boa Vista, Rio de Janeiro, RJ 20940–040 Brazil 3Laboratório de Dinâmica de Populações, Universidade Federal do Estado do Rio de Janeiro – UNIRIO, Av. Pasteur, 458, ECB sala 410, Urca, Rio de Janeiro, RJ 22290-240 Brazil, Email: [email protected]; [email protected]. 4Corresponding author Abstract A review of the deep-sea anguilliform and saccopharyngiform eels collected by the French R/Vs Marion Dufresne (1987), Thalassa (1999, 2000), and the Brazilian Astro Garoupa (2003) revealed a great diversity of these groups on the Brazilian continental slope (11–23oS, 19–40oW), in the depth range of 233 to 3450 m. Of the 33 species collected, 13 (39.4%) are being reported for the first time in the western South Atlantic. New taxa are represented by one species recently described and few other are probably undescribed. The most species-rich family in the area was Synaphobranchidae (11 species), followed by Congridae (9), Nettastomatidae (5), Nemichthyidae (3), Serrivomeridae (2), Colocongridae (1), Cyematidae (1), and Eurypharyngidae (1). Regarding the vertical species distribution, a gradual transition of species was observed, without any clear break along the slope. Key words: Western South Atlantic; demersal; pelagic; eels; gulper eels Resumo A revisão dos peixes anguiliformes e sacofaringiformes de oceano profundo coletados pelos navios oceanográficos Franceses Marion Dufresne (1987) e Thalassa (1999, 2000) e brasileiro Astro Garoupa (2003) revelou uma grande diversidade de espécies no talude continental brasileiro (11–23o S, 19–40o W), em profundidades entre 233 a 3450 metros. Das 33 espécies coletadas, 13 (39,4%) são reportadas pela primeira vez no Atlântico Sul ocidental. Novos táxons são representados por uma espécie recentemente descrita e algumas outras provavelmente novas. A família mais diversificada na área foi Synaphobranchidae (11 espécies), seguida de Congridae (9), Nettastomatidae (5), Nemichthyidae (3), Serrivomeridae (2), Colocongridae (1), Cyematidae (1) e Eurypharyngidae (1). Com relação à distribuição vertical das espécies, foi observada uma transição gradual de espécies, sem a delimitação bem definida de estratos ao longo do talude. Introduction Knowledge regarding diversity of the deep-water fish fauna in both the Atlantic and the Pacific Oceans off South America remains poor due to relatively few scientific expeditions and, consequently, little material available in scientific collections (Melendéz & Kong 2000; Figueiredo et al. 2002). In the early days of modern deep-water investigations (1873 to 1960), only the British H.M.S. Challenger, and the German R/V Meteor collected biological samples in the western South Atlantic (WSA) – for more details see Wüst (1964). Accepted by L.A. Rocha: 8 Jul. 2009; published: 17 Sept. 2009 1 In contrast a considerable number of surveys have been done over the past 50 years off the coasts of Brazil, Argentina, and the Falkland islands (Castle 1970; Nakamura et al. 1986; Séret & Andreata 1992; Haimovici et al. 1994; Parin et al. 1995; Brickle & Laptikovsky 2002; Figueiredo et al. 2002; Costa et al. 2007), resulting in a remarkable increase in our knowledge regarding the local deep-water ichthyofauna. The expeditions to the western South Atlantic resulted in the description of the deep-sea anguilliforms Avocettina acuticeps (Regan), Nemichthys scolopaceus Richardson and Synaphobranchus calvus Melo. An additional 34 species of both anguilliforms and saccopharyngiforms were also recorded from the deep waters of the western South Atlantic (Nakamura et al. 1986; Menezes et al. 2003). Recently, representative collections of deep-sea fishes from the Brazilian continental slope were obtained by the French R/V Thalassa between 1999 and 2000 (Braga et al. 2007; Costa et al. 2007), and the Brazilian R/V Astro Garoupa in 2003. Herein, a check-list of the deep-sea anguilliforms and saccopharyngiforms eels caught during those expeditions is presented, with comments on the distribution of each species. The anguilliforms obtained by the R/V Marion Dufresne in 1987 (Séret & Andreata 1992) were also reviewed, and new identifications are provided if necessary. FIGURE 1. Area of study on the Brazilian continental slope, showing the stations trawled by the R/Vs Thalassa, Astro Garoupa (our data), and Marion Dufresne (Séret & Andreata, 1992). 2 · Zootaxa 2234 © 2009 Magnolia Press MELO ET AL. Material and methods About 570 specimens and 180 lots were collected during five oceanographic cruises aboard the French R/Vs Thalassa and Marion Dufresne, and the Brazilian R/V Astro Garoupa. The collections were obtained using different types of pelagic and bottom trawls, towed on the Brazilian continental slope from 11o–23oS, and 29o– 40o W, in depths of 233 to 3450 m (majority to 2700 m, Table 1,2). Two cruises were made by the R/V Thalassa, one in 1999 using a pelagic trawl (76 m x 70 m), and the other in 2000, with a large demersal bottom-trawl (26.8 m x 47.2 m), equipped with 40 rubber-bobbins (rock-hoppers) attached to the ground rope. The R/V Astro Garoupa made two cruises in 2003 using an otter-trawl semi-balloon net (OTSB), with the same dimensions as the OTSB Number 14 shrimp-trawl net (5.5 x 1.0 m). Further details on the method of capture are given by Mincarone et al. (2008). Demersal stations for the R/Vs Thalassa and Astro Garoupa are listed in tables 1 and 2. See Séret and Andreata (1992) for complete information regarding methodology and a list of stations trawled by the R/V Marion Dufresne. Total area of study including expeditions from the three vessels is shown in figure 1. For each species listed below the following information is given: lot catalog number and total number of specimens in lot, range in total length of specimens in mm (inside brackets), abbreviation for the R/V (T for Thalassa, AG for Astro Garoupa, and MD for Marion Dufresne), and the collecting station; cs stands for cleared and stained. The overall geographical distributions given for species are based on literature records, and information on type locality follows Eschmeyer (1998). A diagnosis and pertinent taxonomic comments are given only for those species considered as potentially new taxa or those poorly known. Abbreviations of the lender institutions follow Leviton et al. (1985) with the addition of USU referring to Universidade Santa Úrsula fish collection (Rio de Janeiro, Brazil). Terminology and methods for meristic and morphometric data follows Böhlke (1989). Results Anguilliformes Family Colocongridae Coloconger meadi Kanazawa 1957 (Fig. 2A) Material examined. Three specimens, 341.0–382.0 mm TL: MNRJ 26833 (3, 341.0–382.0 mm), T, E-503. Distribution. Coloconger meadi was previously known from its type locality in the Gulf of Mexico, and from the Caribbean, French Guiana, Suriname and WSA (Smith 1989a; Uyeno et al. 1983; Séret & Andreata 1992). Family Congridae Acromycter atlanticus Smith 1989 Material examined. Two specimens, 180.0–235.0 mm TL:USU 01405 (1, 180.0 mm, x-rayed), MD, 64 CB 105; MNHN 1989-349 (1, 235.0 mm, x-rayed), MD, 64 CB 105. Distribution. Acromycter atlanticus is being reported for the first time in the WSA. It was described from the Caribbean Sea, and is also known from off the coast of Florida, USA (Smith 2002). Remarks. Diagnosis of Acromycter atlanticus from A. perturbator was made based on vertebral counts (167 to 171 in A. atlanticus vs. 159 to 164 in A. perturbator). Also, A. atlanticus is known to inhabit shallower ANGUILLIFORMS AND SACCOPHARYNGIFORMS Zootaxa 2234 © 2009 Magnolia Press · 3 regions (from 500 to 650 m) than A. perturbator (about 1,300 m) (Smith 1989b). Both specimens examined were reported by Séret and Andreata (1992) as A. perturbator; other specimens reported by them as A. perturbator were correctly identified. FIGURE 2.(A)Coloconger meadi (MNRJ26833, 382.0 mm); (B)Acromycter perturbator (MNRJ 27114, 280.0 mm); (C)Ariosoma sp. (USU 00998, 254.0 mm); (D) Bathycongrus dubius (MNHN 1989-352, 278.0 mm); (E)Bathycongrus vicinalis (MNRJ 26831, 323.0 mm); (F) Bathyuroconger vicinus (MNRJ 26812, 752.0 mm); (G) Gnathophis sp. (MNHN 1989-351, 277.0 mm); (H)Pseudophichthys splendens (MNRJ 26828, 277.0 mm); (I)Xenomystax congroides (MNRJ 26815, 768.0 mm); (J)Avocettina acuticeps (MNRJ 27111, 536.0 mm). 4 · Zootaxa 2234 © 2009 Magnolia Press MELO ET AL. TABLE 1. List of stations, which collected Anguilliformes and Saccopharyngiformes, made by the French R/V Thalassa on the Brazilian continental slope. Station Date Coordinates Depth range Initial Final (m) D-464 22/6/1999 21°48.380’S, 40°01.879’W 21°47.876’S, 40°04.113’W 617–632 D-502 29/6/1999 19°37.692’S, 38°41.111’W 19°37.730’S, 38°39.701’W 705–736 D-503 29/6/1999 19°39.922’S, 38°38.674’W 19°39.550’S, 38°36.127’W 809–847 D-504 29/6/1999 19°42.761’S, 38°36.556’W 19°44.141’S, 38°40.104’W 909–927 D-506 29/6/1999 19°42.711’S, 38°36.487’W 19°42.564’S, 38°32.619’W 922–934 D-538 7/7/1999 no data 13°40.851’S, 38°33.729’W 638–658 E-496 7/6/2000 13°17.580’S, 38°17.599’W 13°12.030’S, 38°14.873’W 1635–1864 E-497 7/6/2000 13°13.841’S, 38°19.525’W 13°14.281’S, 38°15.584’W 1171–1593 E-498 8/6/2000 13°08.243’S, 38°24.766’W 13°08.058’S, 38°24.582’W 614–629 E-499 8/6/2000 13°23.826’S, 38°37.541’W 13°20.872’S, 38°35.922’W 736–803 E-501 9/6/2000 14°13.986’S, 38°40.277’W 14°16.764’S, 38°38.978’W 1591–1709 E-502 9/6/2000 14°28.385’S, 38°52.395’W 14°24.813’S, 38°53.006’W 461–567 E-503 10/6/2000 14°37.834’S, 38°52.029’W 14°34.565’S, 38°51.672’W 714–822 E-505 10/6/2000 14°36.606’S, 38°49.345’W 14°39.662’S, 38°50.154’W 1051–1197 E-506 10/6/2000 14°36.579’S, 38°49.544’W 14°39.605’S, 38°50.134’W 1055–1173 E-507 11/6/2000 15°08.595’S, 38°40.638’W 15°07.158’S, 38°40.542’W 1012–1049 E-510 12/6/2000 15°48.503’S, 38°35.265’W 15°47.383’S, 38°36.154’W 580–615 E-511 12/6/2000 15°42.675’S, 38°37.298’W 15°44.231’S, 38°39.196’W 233–294 E-517 19/6/2000 13°22.173’S, 38°36.566’W 13°24.968’S, 38°38.277’W 727–801 E-518 19/6/2000 13°21.199’S, 38°38.896’W 13°24.353’S, 38°39.782’W 457–607 E-519 20/6/2000 13°19.944’S, 38°19.654’W 13°22.615’S, 38°21.960’W 1726–1929 E-520 20/6/2000 13°21.837’S, 38°16.683’W 13°26.455’S, 38°13.836’W 1981–2271 E-522 21/6/2000 13°30.495’S, 38°38.977’W 13°29.472’S, 38°37.943’W 1044–1275 E-523 27/6/2000 19°42.569’S, 38°32.030’W 19°42.685’S, 38°36.961’W 875–942 E-524 27/6/2000 19°43.663’S, 38°39.838’W 19°42.684’S, 38°44.568’W 895–1004 E-525 28/6/2000 20°08.145’S, 38°38.081’W 20°07.308’S, 38°42.906’W 1614–1680 E-526 28/6/2000 20°06.565’S, 38°40.502’W 20°03.984’S, 38°36.676’W 1636–1649 E-527 29/6/2000 19°50.736’S, 39°10.817’W 19°50.563’S, 39°14.496’W 1342–1444 E-528 29/6/2000 19°45.258’S, 39°03.003’W 19°47.581’S, 38°59.827’W 1183–1318 E-529 29/6/2000 19°48.484’S, 39°02.349’W 19°48.911’S, 38°59.108’W 1426–1441 E-534 30/6/2000 19°42.162 ‘S, 39°21.608’W 19°43.828’S, 39°24.583’W 605–619 E-535 1/7/2000 19°58.936’S, 39°38.657’W 19°56.087’S, 39°35.408’W 984–1016 E-536 2/7/2000 20°24.008’S, 39°46.217’W 20°27.001’S, 39°44.843’W 1209–1362 E-537 2/7/2000 20°26.850’S, 39°41.636’W 20°23.542’S, 39°38.943’W 1522–1567 E-538 2/7/2000 20°27.667’S, 39°38.101’W 20°32.771’S, 39°37.650’W 1645–1762 E-540 4/7/2000 21°12.293’S, 40°00.884’W 21°09.576’S, 40°00.461’W 1334–1391 E-541 4/7/2000 21°13.644’S, 40°14.031’W 21°10.040’S, 40°13.601’W 545–579 E-543 5/7/2000 21°23.944’S, 40°11.292’W 21°28.481’S, 40°09.750’W 625–766 E-544 5/7/2000 21°24.306’S, 40°02.916’W 21°20.953’S, 40°02.847’W 1158–1192 continued next page. ANGUILLIFORMS AND SACCOPHARYNGIFORMS Zootaxa 2234 © 2009 Magnolia Press · 5 TABLE 1. (continued) Station Date Coordinates Depth range Initial Final (m) E-547 6/7/2000 21°46.569’S, 39°53.364’W 21°44.949’S, 39°55.117’W 1081–1141 E-548 7/7/2000 21°28.611’S, 39°40.303’W 21°25.523’S, 39°40.443’W 1790–1806 E-549 7/7/2000 21°25.738’S, 39°43.946’W 21°22.965’S, 39°44.646’W 1712–1721 E-550 7/7/2000 21°26.324’S, 39°49.113’W 21°28.583’S, 39°47.176’W 1594–1614 E-551 8/7/2000 21°07.780’S, 39°49.106’W 21°04.783’S, 39°48.698’W 1633–1665 E-552 8/7/2000 21°07.493’S, 39°46.423’W 21°09.541’S, 39°46.079’W 1686–1699 TABLE2. List of stations, which collected Anguilliformes and Saccopharyngiformes, made by the Brazilian R/V Astro Garoupa on the Brazilian continental slope. Station Date Coordinates Depth range Initial Final (m) ASTRO2003020701 7/2/2003 22°24.449’S, 39°55.280’W 22°21.936’S, 39°53.602’W 1128–1135 ASTRO2003020703 7/2/2003 22°10.118’S, 39°48.977’W 22°06.885’S, 39°48.887’W 1318–1319 ASTRO2003020801 8/2/2003 22°30.092’S, 40°00.263’W 22°28.709’S, 39°58.633’W 1122–1147 ASTRO2003020802 8/2/2003 22°27.080’S, 39°54.706’W 22°24.471’S, 39°52.781’W 1299–1320 ASTRO2003020803 8/2/2003 22°27.422’S, 39°52.289’W 22°24.803’S, 39°50.622’W 1640–1649 ASTRO2003021001 10/2/2003 22°42.263’S, 40°07.631’W 22°39.896’S, 40°05.410’W 1321–1324 ASTRO2003021002 10/2/2003 22°45.086’S, 40°10.352’W 22°42.562’S, 40°07.835’W 1322–1326 ASTRO2003021101 11/2/2003 22°42.263’S, 40°07.631’W 22°39.896’S, 40°05.410’W 1320–1323 ASTRO2003021301 13/2/2003 22°15.790’S, 39°53.145’W 22°12.903’S, 39°52.148’W 1071–1205 ASTRO2003021403 14/2/2003 21°53.608’S, 39°51.280’W 21°50.845’S, 39°52.087’W 1060–1074 ASTRO2003082002 20/8/2003 21°53.524’S, 39°50.700’W 21°49.319’S, 39°52.499’W 1077–1082 ASTRO2003082403 24/8/2003 22°15.548’S, 39°51.256’W 22°12.409’S, 39°49.450’W 1330–1332 ASTRO2003082601 26/8/2003 22°26.940’S, 39°52.022’W 22°24.049’S, 39°50.147’W 1627–1630 ASTRO2003082703 27/8/2003 22°39.684’S, 39°58.940’W 22°41.947’S, 40°02.917’W 1602–1605 ASTRO2003082704 27/8/2003 22°41.863’S, 40°05.319’W 22°44.773’S, 40°10.012’W 1305–1318 Acromycter perturbator (Parr 1932) (Fig. 2 B) Material examined. 60 specimens, 115.0–290.0 mm TL: MNRJ 27096 (2, 147.0–271.0 mm), AG, ASTRO2003021301; MNRJ 27100 (1, 255.0 mm), T, D-502; MNRJ 27101 (3, 239.0–241.0 mm), T, D-504; MNRJ 27102 (1, 267.0 mm), AG, ASTRO2003021403; MNRJ 27104 (1, 272.0 mm), AG, ASTRO2003021002; MNRJ 27105 (2, 267.0–290.0 mm), AG, ASTRO2003020701; MNRJ 27108 (1, 221.0 mm), AG, ASTRO2003020802; MNRJ 27109 (1, 187.0 mm), AG, ASTRO2003082403; MNRJ 27110 (1, 269.0 mm), AG, ASTRO2003020803; MNRJ 27114 (6, 224.0–282.0 mm, 1 cs), T, D-503; MNRJ 27115 (16, 186.0–282.0 mm), AG, ASTRO2003020703; MNRJ 27116 (9, 192.0–265.0 mm, 1 cs), AG, ASTRO2003082704; USU 01402 (6, 234.0–107.0 mm), MD 55 CB 95; USU 01406 (4, 115.0–224.0 mm), MD, 43 CB 77; MNHN 1989-345 (1 of 3, 238.0 mm, x-rayed), MD, 43 CB 77; MNHN 1989-346 (1, 290.0 mm, x-rayed), MD, 44 CB 78; MNHN 1989-347 (2 of 6, 172.0–217.0 mm, x-rayed), MD, 55 CB 95; MNHN 1989-348 (1, 253.0 mm, x-rayed), MD, 58 CB 98; MNHN 1989-350 (1, 288.0 mm, x-rayed), MD, 65 CB 106. 6 · Zootaxa 2234 © 2009 Magnolia Press MELO ET AL. Distribution. Acromycter perturbator was described from the Bahamas, and is also known from the Caribbean Sea, Gulf of Mexico and the WSA (Smith 1989b; Séret & Andreata 1992). Ariosoma sp. (Fig. 2 C) Material examined. USU 00998, 1 (254.0 mm), MD, 62 CB 103. Distribution. Ariosoma sp. is known from a single specimen identified earlier by Séret and Andreata (1992) as Gnathophis sp. aff.mystax (Delaroche 1809). Remarks. Ariosoma sp. is being tentatively identified in the genus Ariosoma, despite its lower number of lateral line pores to the level of the anus (e.g. 34 in our specimen vs. 46–52 in A. balearicum); further material is needed for a more precise identification. Leptocephali of A. balearicum were recorded off Brazil by Castro and Bonecker (2004), and may represent the species reported herein, since adults of that species were never reported from the area. Bathycongrus dubius (Breder 1927) (Fig. 2 D) Material examined. One specimen, 278.0 mm TL: MNHN 1989–352 (1, 278.0 mm), MD, 62 CB 104. Distribution. Bathycongrus dubius was described from the Caribbean Sea off Colombia (12º16’N, 72º40’W), and is known from the western Atlantic from off Georgia, USA to Southern Brazil (Castro & Bonecker 2004; Smith 1989b; Menezes et al. 2003; Séret & Andreata 1992). Bathycongrus vicinalis (Garman 1899) (Fig. 2 E) Material examined. Three specimens, 286.0–323.0 mm TL: MNRJ 26830 (1, 299.0 mm), T, E-502; MNRJ 26831 (1, 323.0 mm), T, E-534; USU 01251 (1, 286.0 mm), MD, 53 CB 92. Distribution. Bathycongrus vicinalis is being reported by the first time in the WSA. It was described from Cuba, and is also known from Florida, USA to off the Amazon River mouth, in Northern Brazil (Smith 1989b). USU 01251 was reported by Séret and Andreata (1992) as A. perturbator. Bathyuroconger vicinus (Vaillant 1888) (Fig.2 F) Material examined. Eight specimens, 720.0–886.0 mm TL: MNRJ 26811 (2, 797.0–840.0 mm), T, E-507; MNRJ 26812 (1, 752.0 mm), T, E-506; MNRJ 26813 (4, 720.0–752.0 mm), T, E-522; MNRJ 26814 (1, 886.0 mm), T, E-523. Distribution. Bathyuroconger vicinus is being reported for the first time in the WSA. It was described from several sites off the west coast of Africa and the Cape Verde Islands, and is also known to have a wide distribution in the tropical eastern Atlantic from Cape Verde to Angola, throughout the tropical western Atlantic from the Gulf of Mexico through the Caribbean to the northern coast of South America and the Indo- Pacific, from South Africa to Hawaii (Uyeno et al. 1983; Castle 1986a; Smith 1989b; Reiner 1996; Smith 1999; Smith 2002). ANGUILLIFORMS AND SACCOPHARYNGIFORMS Zootaxa 2234 © 2009 Magnolia Press · 7 Gnathophis sp. (Fig. 2 G) Material examined. One specimen, 277.0 mm TL: MNHN 1989-351 (1, 277.0 mm), MD, 62 CB 103. Remarks. Gnathophis sp. is known only from a single specimen identified earlier by Séret and Andreata (1992) as Gnathophis sp. aff. mystax (Delaroche 1809). The number and pattern of lateral line pores are similar to Gnathophis bathytopos, with the second and the seventh to 13th pores elevated and a total of 39 pores to anal-fin origin, but it differs from G. bathytopos by having a pale stomach, and may represent an undescribed species (Smith pers. comm. 2005). Pseudophichthys splendens (Lea, 1913) (Fig. 2 H) Material examined. One specimen, 277.0 mm TL: MNRJ 26828 (1, 277.0 mm), T, E-498. Distribution. Pseudophichthys splendens was described from the eastern North Atlantic, and is widespread in the tropical Atlantic. In the eastern Atlantic, it is known from the Azores to the Gulf of Guinea (Smith 1990); in the western Atlantic it is known from the east coast of Florida, USA, throughout the Gulf of Mexico, Caribbean, and Guyana to about 30º S off the Atlantic coast of South America (Uyeno et al. 1983; Smith 1989b; Smith 2002). Xenomystax congroides Smith and Kanazawa 1989 (Fig. 2 I) Material examined. Three specimens, 316.0–768.0 mm TL: MNRJ 26815 (1, 768.0 mm), T, E-502; MNRJ 26816 (1, 491.0 mm), T, E-518; MNRJ 26851 (1, 316.0 mm), T, E-511. Distribution. Xenomystax congroides is being reported by the first time in the WSA. It was described from off Suriname, and was also known from the Atlantic coast of Florida, USA, throughout the Gulf of Mexico and Caribbean to the mouth of the Amazon, in the northern coast of Brazil (Smith 1989b). Nemichthyidae Avocettina acuticeps (Regan 1916) (Fig. 2 J) Material examined. Four specimens, 235.0–748.0 mm TL: MNRJ 27107 (1, 748.0 mm), T, E-522; MNRJ 27111 (1, 536.0 mm); MNRJ 27112 (1, 235.0 mm), AG, ASTRO2003020801; MNRJ 27113, (1, 249.0 mm), T, E-524. Distribution. Avocettina acuticeps was described from a leptocephalus collected off southern Brazil, 21°00’ S, 37°50’ W (Nielsen & Smith 1978). Nemichthys curvirostris Strömman 1896 Material examined. Two specimens, 714.0–556.0 mm TL: MNRJ 32554 (2, 556.0–714.0 mm), T, E-523. Distribution. Nemichthys curvirostris is being reported by the first time in the WSA. It was described from the western North Atlantic, from off Puerto Rico and has a circumglobal distribution between 40oN and 50oS, but is rarely found in the western Pacific (Nielsen and Smith 1978). 8 · Zootaxa 2234 © 2009 Magnolia Press MELO ET AL. Remarks. Nemichthys curvirostris is being reported from a single lot with two specimens. Nielsen and Smith (1978) noticed that the distribution of N. curvirostris in the South Atlantic matches the collection stations made by the German R/V Walther Herwig in mid-Atlantic and that no other specimens were collected from off the coast of South America neither by that vessel nor other researchers. Menezes et al. (2003) reported N. scolopaceus from Northern Brazil, but referred to three lots (MCZ 61453, 86702, 147394) collected in the mid-Atlantic, outside Brazilian waters. Nemichthys scolopaceus Richardson 1848 (Fig. 3 A) Material examined. Three specimens, 536.0–730.0 mm TL: MNRJ 26839 (1, 623.0 mm), T, E-523; MNRJ 26835 (1, 551.0 mm), T, E-551; MNRJ 27111 (1, 536.0 mm), T, D-502. Distribution. Nemichthys scolopaceus was described from off Brazil based on material collected by H.M.S. Samarang (1843–1846), and is known to have a worldwide distribution in all tropical and temperate seas (Nielsen & Smith 1978, Smith & Nielsen 1989). Nettastomatidae Hoplunnis similis Smith 1989 (Fig. 3 B) Material examined. One specimen, 305.0 mm TL: USU 01327 (1, 305.0 mm), MD, 05 CP11. Distribution. Hoplunnis similis was known from its type locality, in the Bahamas (20º53’N, 73º26’W), and from Florida, USA, Honduras and Nicaragua and southern Brazil (Castro & Bonecker 2004; Smith 1989c). Remarks. USU 01327 was reported by Séret and Andreata (1992) as Facciolella oxyrhyncha; another lot of F. oxyrhyncha was listed by those authors (USU 01391), but was not found in the USU collection. Nettastoma melanura Rafinesque 1810 (Fig. 3 C) Material examined. 17 specimens, 412.0–724.0 mm TL: MNRJ 26817 (4, 505.0–724.0 mm), T, E-503; MNRJ 26818 (1, 522.0 mm), T, E-541; MNRJ 26819 (1, 507.0 mm), T, E-518; MNRJ 26820 (1, 637.0 mm), T, E-499; MNRJ 26821 (5, 523.0–650.0 mm), T, E-517; MNRJ 26822 (1, 481.0 mm), T, E-543; MNRJ 26823 (4, 412.0–653.0 mm), T, E-502. Distribution. Nettastoma melanura was described from Sicily, and is also known from the Mediterranean Sea and the tropical Atlantic. In the eastern Atlantic, it is recorded from Portugal to the Gulf of Guinea; in the western Atlantic, from the east coast of Florida, USA, throughout the Gulf of Mexico and the Caribbean, to southern Brazil (Figueiredo et al. 2002; Smith 1989c). Venefica cf. procera (Goode & Bean 1883) (Fig. 3 D) Material examined. 44 specimens, 102.0–1287.0 mm TL: MNRJ 26799 (1, 640.0 mm), T, E-505; MNRJ 26800 (3, 730.0–785.0 mm), T, E-497; MNRJ 26801 (5, 795.0–1157.0 mm), T, E-501; MNRJ 26802 (1, 999.0 mm), T, E-519; MNRJ 26803 (3, 746.0–996.0 mm), T, E-520; MNRJ 26804 (2, 830.0–897.0 mm), T, E-525; ANGUILLIFORMS AND SACCOPHARYNGIFORMS Zootaxa 2234 © 2009 Magnolia Press · 9 MNRJ 26805 (1, 1170.0 mm), T, E-550; MNRJ 26806 (23, 683.0–1287.0 mm), T, E-496, MNRJ 26807 (2, 796.0 mm), T, E-510; MNRJ 26810 (1, 102.0 mm), T, E-549; UF 165826 (1, 977.0 mm), collected with MNRJ 26806; USNM 389076 (1, 887.0 mm), collected with MNRJ 26806. FIGURE3.(A)Nemichthys scolopaceus (MNRJ 26839, 623.0 mm); (B)Hoplunnis similis (USU 01327, 305.0 mm); (C)Nettastoma melanura (MNRJ 26820, 637.0 mm); (D)Venefica cf. procera (MNRJ 26799, 640.0 mm); (E)Venefica sp. 1 (MNRJ 26808, 992.0 mm); (F)Venefica sp. 2 (MNRJ 26809, 494.0 mm); (G)Serrivomer schmidti (MNRJ 26842, 423.0 mm); (H)Stemonidium hypomelas (MNRJ 26838, 267.0 mm); (I)Atractodenchelys phrix (MNRJ 26829, 300.0 mm); (J)Diastobranchus capensis (MNRJ 26783, 642.0 mm); (K)Dysommina rugosa (MNRJ 27126, 242.0 mm); (L) Histiobranchus cf. australis (USU 01303, 559.0 mm). 10 · Zootaxa 2234 © 2009 Magnolia Press MELO ET AL.

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