Symphysanodon andersoni Kotthaus 1974

Symphysanodon andersoni Kotthaus 1974 Bucktoothed Slopefish (Figures 1, 2; Tables 1–3) Symphysanodon andersoni Kotthaus 1974: 52, fig. 326 (original description, illustration; holotype. ZMH 5170, 157 mm SL; type locality southwest of Socotra Island, near the entrance to the Gulf of Aden (11 °33.9’ N...

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Main Authors: Anderson, William D., Chesalin, Mikhail V., Jawad, Laith A., Al Shajibi, Said R.
Format: Text
Language:unknown
Published: Zenodo 2015
Subjects:
Biodiversity
Taxonomy
Animalia
Chordata
Actinopterygii
Perciformes
Symphysanodontidae
Symphysanodon
Symphysanodon andersoni
Pacific
Indian
Nares
Northwest Atlantic
Online Access:https://dx.doi.org/10.5281/zenodo.5611019
https://zenodo.org/record/5611019
id ftdatacite:10.5281/zenodo.5611019
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Biodiversity
Taxonomy
Animalia
Chordata
Actinopterygii
Perciformes
Symphysanodontidae
Symphysanodon
Symphysanodon andersoni
spellingShingle Biodiversity
Taxonomy
Animalia
Chordata
Actinopterygii
Perciformes
Symphysanodontidae
Symphysanodon
Symphysanodon andersoni
Anderson, William D.
Chesalin, Mikhail V.
Jawad, Laith A.
Al Shajibi, Said R.
Symphysanodon andersoni Kotthaus 1974
topic_facet Biodiversity
Taxonomy
Animalia
Chordata
Actinopterygii
Perciformes
Symphysanodontidae
Symphysanodon
Symphysanodon andersoni
description Symphysanodon andersoni Kotthaus 1974 Bucktoothed Slopefish (Figures 1, 2; Tables 1–3) Symphysanodon andersoni Kotthaus 1974: 52, fig. 326 (original description, illustration; holotype. ZMH 5170, 157 mm SL; type locality southwest of Socotra Island, near the entrance to the Gulf of Aden (11 °33.9’ N, 52 ° 54 ’ E to 11 ° 38 ’ N, 52 ° 52 ’ E), depth 290 to 190 meters). Diagnosis. A species of Symphysanodon distinguishable from all other members of the genus by number of tubed lateral-line scales, 60 to 65 in S. andersoni , fewer than 60 in the other species. Also, in combination, the following characters distinguish S. andersoni from other Symphysanodon : parapophyses present on first caudal vertebra, total number of gillrakers on first arch 41 or 42, sum of total number of gillrakers plus lateral-line scales (in individual specimens) 101 to 106, depth of body at dorsal-fin origin 31.2 to 31.4 % SL. Description. Morphometric data are in Table 1. Data for most countable characters follow (data for scale counts appear in Table 2); values for the holotype are indicated by asterisks for characters having variable counts. Branchiostegals 7. Dorsal-fin rays IX, 10. Anal-fin rays III, 7. Pectoral-fin rays 16 or 17.* Pelvic-fin rays I, 5. Caudal-fin rays: principal 17 (9 + 8); branched 15 (8 + 7); procurrent 13 dorsally, 12 ventrally. Gillrakers on first arch 12 or 13 * + 29 (total 41 or 42 *). Tubed lateral-line scales 60 * to 65. Sum of total number of gillrakers plus lateral-line scales, in individual specimens, 101 to 106. No spur on posteriormost ventral procurrent caudal-fin ray, but penultimate ventral procurrent caudal-fin ray shortened basally (see Johnson, 1975). Vertebrae 25 (10 precaudal + 15 caudal). Formula for configuration of supraneural bones, anterior neural spines, and anterior dorsal pterygiophores 0/0/0 + 2 + 1 / 1 / 1 / (using notation of Ahlstrom et al . 1976). First caudal vertebra with parapophyses. Short neural spine on second preural centrum. Autogenous haemal spine associated with second preural centrum. Parhypural autogenous, bearing a hypurapophysis. Hypural 1 + hypural 2 present as a single unit, hypural 3 + hypural 4 present as a single unit. Hypural 5 autogenous. Epurals 3. Uroneurals 2 pairs. Epineurals associated with first 9 vertebrae. Pleural ribs on vertebrae 3 through 10. Trisegmental pterygiophores: 3 or 4 associated with posterior part of dorsal fin, 3 with posterior part of anal fin. Snout relatively blunt. Dorsalmost margin of maxilla covered by very narrow suborbital with mouth closed. Mouth terminal; lower jaw inclined dorsally with mouth closed; jaws about equal. Maxilla reaching posteriorly to vertical beyond middle of eye. Anterior and posterior nares fairly closely set. Pseudobranchiae present. Interorbital region flattened to slightly convex. Opercle with two flattened spines. Margins of both limbs of preopercle almost smooth; angle of preopercle with or without spine-like projection. Dorsal fin continuous and not incised at junction of spines and segmented rays. Scales ctenoid (with ctenial bases in posterior fields proximal to marginal cteni—see Hughes 1981; this is the transforming ctenoid scale of Roberts 1993). Most of head, including maxillae, dentaries, lachrymals, lateral aspects of snout, and interorbital region with scales; dorsum of snout mostly without scales. Branchiostegals and branchiostegal membranes without scales. Dorsal and anal fins without scales (except specimen of 204 mm SL with some scales on most posterior dorsal and anal-fin rays), but with scaly sheaths at their bases; pectoral and pelvic fins scaly basally; both lobes of caudal fin scaly. Large modified scales associated with pelvic fin, just dorsal to pelvic spine (axillary scales) and in ventral midline between the pelvic fins (interpelvic scales). Lateral line gently curved beneath dorsal fin. Caudal fin distinctly forked. Anterior ends of premaxillae incised, forming conspicuous notch that receives anterior ends of dentaries (see Fig. 2), anteriorly each dentary with well-developed patch of mostly exserted teeth. Premaxilla with outer series of small teeth and inner band of much smaller granular teeth; premaxillary notch toothless, but some of teeth on either side of notch exserted in holotype (well developed patch of exserted teeth on either side of notch in 204 -mm-SL specimen, see Fig. 2). Dentary with series of small conical teeth extending from elevated posterodorsal surface of jaw almost to symphysis; numerous teeth at anterior end of jaw adjacent to symphysis and on elevated posterodorsal surface of jaw somewhat enlarged; many enlarged teeth at anterior end of jaw exserted and fitting into premaxillary notch when mouth closed. In 204 -mm SL specimen, teeth in exserted patches at anterior ends of upper and lower jaws mostly incisor like to molariform, some of these teeth conical to subconical. Vomer and palatines with teeth; vomerine tooth patch small, semicircular or triangular, without posterior prolongation; palatine teeth in longitudinal band. No teeth seen on tongue or pterygoids. ......continued on the next page Coloration. In specimen caught off Oman (Fig. 1): Head mostly reddish. Dorsum of body yellow, overlain by red orange beneath dorsal fin and on caudal peduncle; body beneath lateral line mainly rosy. Iris of eye red adjacent to pupil. Spines in dorsal fin yellow, interspinous membranes pale violet; soft dorsal fin mostly yellow, red on distal portions of posterior dorsal soft rays. Pectoral, pelvic, and anal fins mainly pallid, with some rose. Caudal fin mainly yellow, with considerable orange and red orange dorsally and posteriorly. Comparisons. Number of tubed lateral-line scales distinguishes S. andersoni (with 60–65) from all other species of Symphysanodon (variously with 42–59). Sum of total number of gillrakers plus number of lateral-line scales (in individual specimens) distinguishes S. andersoni (with 101–106) from all other species of Symphysanodon except S. xanthopterygion (with 94–101). In addition, S. andersoni has parapophyses on the first caudal vertebra, whereas the Atlantic species S. berryi, S. mona , and S. octoactinus, the Pacific species S. maunaloae and S. parini , and the Indian Ocean species S. rhax lack those processes. In Table 3, we compare selected characters of Indian-Ocean species of Symphysanodon. Distribution. Known from southwest of Socotra Island, near the entrance to the Gulf of Aden, and from the Arabian Sea off the south coast of Oman. Holotype: ZMH 5170, 157 mm SL; near mouth of Gulf of Aden, about 60 nautical miles off Socotra, northwestern Indian Ocean; 11 °33.9' N, 52 ° 54 ' E to 11 ° 38 ' N, 52 ° 52 ' E; METEOR station 102; depth 290 to 190 meters; 20 December 1964. Other material: USNM 435866, 204 mm SL; off Raysut Port, Salalah, Dhofar, Sultanate of Oman, Arabian Sea, northwestern Indian Ocean; 16 ° 55 ’ 39 ” N, 54 °01’ 18 ” E; depth ca. 80 meters; collected by S. R. Al Shajibi, 16 April 2014. : Published as part of Anderson, William D., Chesalin, Mikhail V., Jawad, Laith A. & Al Shajibi, Said R., 2015, Redescription of the percoid fish Symphysanodon andersoni Kotthaus (Symphysanodontidae) from the northwestern Indian Ocean, based on the holotype and the second known specimen, pp. 475-481 in Zootaxa 4021 (3) on pages 476-479, DOI: 10.11646/zootaxa.4021.3.7, http://zenodo.org/record/235203 : {"references": ["Kotthaus, A. (1974) Fische des Indischen Ozeans. Ergebnisse der ichthyologischen Untersuchungen wahrend der Expedition des Forschungsschiffes \" Meteor \" in den Indischen Ozean, Oktober 1964 bis Mai 1965. A. Systematischer Teil, XI. Percomorphi (4). \" Meteor \" Forschungsergebnisse, Reihe D, No. 17, 33 - 54.", "Johnson, G. D. (1975) The procurrent spur: An undescribed perciform caudal character and its phylogenetic implications. Occasional Papers of the California Academy of Sciences, 121, 1 - 23.", "Ahlstrom, E. H., Butler, J. L. & Sumida, B. Y. (1976) Pelagic stromateoid fishes (Pisces, Perciformes) of the eastern Pacific: Kinds, distributions, and early life histories and observations on five of these from the northwest Atlantic. Bulletin of Marine Science, 26 (3), 285 - 402.", "Hughes, D. R. (1981) Development and organization of the posterior field of ctenoid scales in the Platycephalidae. Copeia, 1981 (3), 596 - 606. http: // dx. doi. org / 10.2307 / 1444564", "Roberts, C. D. (1993) Comparative morphology of spined scales and their phylogenetic significance in the Teleostei. Bulletin of Marine Science, 52 (1), 60 - 113."]}
format Text
author Anderson, William D.
Chesalin, Mikhail V.
Jawad, Laith A.
Al Shajibi, Said R.
author_facet Anderson, William D.
Chesalin, Mikhail V.
Jawad, Laith A.
Al Shajibi, Said R.
author_sort Anderson, William D.
title Symphysanodon andersoni Kotthaus 1974
title_short Symphysanodon andersoni Kotthaus 1974
title_full Symphysanodon andersoni Kotthaus 1974
title_fullStr Symphysanodon andersoni Kotthaus 1974
title_full_unstemmed Symphysanodon andersoni Kotthaus 1974
title_sort symphysanodon andersoni kotthaus 1974
publisher Zenodo
publishDate 2015
url https://dx.doi.org/10.5281/zenodo.5611019
https://zenodo.org/record/5611019
long_lat ENVELOPE(158.167,158.167,-81.450,-81.450)
geographic Pacific
Indian
Nares
geographic_facet Pacific
Indian
Nares
genre Northwest Atlantic
genre_facet Northwest Atlantic
op_relation http://zenodo.org/record/235203
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op_rights Open Access
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op_doi https://doi.org/10.5281/zenodo.5611019
https://doi.org/10.11646/zootaxa.4021.3.7
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spelling ftdatacite:10.5281/zenodo.5611019 2023-05-15T17:45:50+02:00 Symphysanodon andersoni Kotthaus 1974 Anderson, William D. Chesalin, Mikhail V. Jawad, Laith A. Al Shajibi, Said R. 2015 https://dx.doi.org/10.5281/zenodo.5611019 https://zenodo.org/record/5611019 unknown Zenodo http://zenodo.org/record/235203 http://publication.plazi.org/id/8E2DF42DFF8D0B4FFFC03857FF8F1C02 http://zoobank.org/22DB5AA9-883A-43B0-A233-2CBBBFE75785 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4021.3.7 http://zenodo.org/record/235203 http://publication.plazi.org/id/8E2DF42DFF8D0B4FFFC03857FF8F1C02 https://dx.doi.org/10.5281/zenodo.235204 https://dx.doi.org/10.5281/zenodo.235205 http://zoobank.org/22DB5AA9-883A-43B0-A233-2CBBBFE75785 https://dx.doi.org/10.5281/zenodo.5611018 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Chordata Actinopterygii Perciformes Symphysanodontidae Symphysanodon Symphysanodon andersoni Taxonomic treatment article-journal Text ScholarlyArticle 2015 ftdatacite https://doi.org/10.5281/zenodo.5611019 https://doi.org/10.11646/zootaxa.4021.3.7 https://doi.org/10.5281/zenodo.235204 https://doi.org/10.5281/zenodo.235205 https://doi.org/10.5281/zenodo.5611018 2022-02-08T12:40:44Z Symphysanodon andersoni Kotthaus 1974 Bucktoothed Slopefish (Figures 1, 2; Tables 1–3) Symphysanodon andersoni Kotthaus 1974: 52, fig. 326 (original description, illustration; holotype. ZMH 5170, 157 mm SL; type locality southwest of Socotra Island, near the entrance to the Gulf of Aden (11 °33.9’ N, 52 ° 54 ’ E to 11 ° 38 ’ N, 52 ° 52 ’ E), depth 290 to 190 meters). Diagnosis. A species of Symphysanodon distinguishable from all other members of the genus by number of tubed lateral-line scales, 60 to 65 in S. andersoni , fewer than 60 in the other species. Also, in combination, the following characters distinguish S. andersoni from other Symphysanodon : parapophyses present on first caudal vertebra, total number of gillrakers on first arch 41 or 42, sum of total number of gillrakers plus lateral-line scales (in individual specimens) 101 to 106, depth of body at dorsal-fin origin 31.2 to 31.4 % SL. Description. Morphometric data are in Table 1. Data for most countable characters follow (data for scale counts appear in Table 2); values for the holotype are indicated by asterisks for characters having variable counts. Branchiostegals 7. Dorsal-fin rays IX, 10. Anal-fin rays III, 7. Pectoral-fin rays 16 or 17.* Pelvic-fin rays I, 5. Caudal-fin rays: principal 17 (9 + 8); branched 15 (8 + 7); procurrent 13 dorsally, 12 ventrally. Gillrakers on first arch 12 or 13 * + 29 (total 41 or 42 *). Tubed lateral-line scales 60 * to 65. Sum of total number of gillrakers plus lateral-line scales, in individual specimens, 101 to 106. No spur on posteriormost ventral procurrent caudal-fin ray, but penultimate ventral procurrent caudal-fin ray shortened basally (see Johnson, 1975). Vertebrae 25 (10 precaudal + 15 caudal). Formula for configuration of supraneural bones, anterior neural spines, and anterior dorsal pterygiophores 0/0/0 + 2 + 1 / 1 / 1 / (using notation of Ahlstrom et al . 1976). First caudal vertebra with parapophyses. Short neural spine on second preural centrum. Autogenous haemal spine associated with second preural centrum. Parhypural autogenous, bearing a hypurapophysis. Hypural 1 + hypural 2 present as a single unit, hypural 3 + hypural 4 present as a single unit. Hypural 5 autogenous. Epurals 3. Uroneurals 2 pairs. Epineurals associated with first 9 vertebrae. Pleural ribs on vertebrae 3 through 10. Trisegmental pterygiophores: 3 or 4 associated with posterior part of dorsal fin, 3 with posterior part of anal fin. Snout relatively blunt. Dorsalmost margin of maxilla covered by very narrow suborbital with mouth closed. Mouth terminal; lower jaw inclined dorsally with mouth closed; jaws about equal. Maxilla reaching posteriorly to vertical beyond middle of eye. Anterior and posterior nares fairly closely set. Pseudobranchiae present. Interorbital region flattened to slightly convex. Opercle with two flattened spines. Margins of both limbs of preopercle almost smooth; angle of preopercle with or without spine-like projection. Dorsal fin continuous and not incised at junction of spines and segmented rays. Scales ctenoid (with ctenial bases in posterior fields proximal to marginal cteni—see Hughes 1981; this is the transforming ctenoid scale of Roberts 1993). Most of head, including maxillae, dentaries, lachrymals, lateral aspects of snout, and interorbital region with scales; dorsum of snout mostly without scales. Branchiostegals and branchiostegal membranes without scales. Dorsal and anal fins without scales (except specimen of 204 mm SL with some scales on most posterior dorsal and anal-fin rays), but with scaly sheaths at their bases; pectoral and pelvic fins scaly basally; both lobes of caudal fin scaly. Large modified scales associated with pelvic fin, just dorsal to pelvic spine (axillary scales) and in ventral midline between the pelvic fins (interpelvic scales). Lateral line gently curved beneath dorsal fin. Caudal fin distinctly forked. Anterior ends of premaxillae incised, forming conspicuous notch that receives anterior ends of dentaries (see Fig. 2), anteriorly each dentary with well-developed patch of mostly exserted teeth. Premaxilla with outer series of small teeth and inner band of much smaller granular teeth; premaxillary notch toothless, but some of teeth on either side of notch exserted in holotype (well developed patch of exserted teeth on either side of notch in 204 -mm-SL specimen, see Fig. 2). Dentary with series of small conical teeth extending from elevated posterodorsal surface of jaw almost to symphysis; numerous teeth at anterior end of jaw adjacent to symphysis and on elevated posterodorsal surface of jaw somewhat enlarged; many enlarged teeth at anterior end of jaw exserted and fitting into premaxillary notch when mouth closed. In 204 -mm SL specimen, teeth in exserted patches at anterior ends of upper and lower jaws mostly incisor like to molariform, some of these teeth conical to subconical. Vomer and palatines with teeth; vomerine tooth patch small, semicircular or triangular, without posterior prolongation; palatine teeth in longitudinal band. No teeth seen on tongue or pterygoids. ......continued on the next page Coloration. In specimen caught off Oman (Fig. 1): Head mostly reddish. Dorsum of body yellow, overlain by red orange beneath dorsal fin and on caudal peduncle; body beneath lateral line mainly rosy. Iris of eye red adjacent to pupil. Spines in dorsal fin yellow, interspinous membranes pale violet; soft dorsal fin mostly yellow, red on distal portions of posterior dorsal soft rays. Pectoral, pelvic, and anal fins mainly pallid, with some rose. Caudal fin mainly yellow, with considerable orange and red orange dorsally and posteriorly. Comparisons. Number of tubed lateral-line scales distinguishes S. andersoni (with 60–65) from all other species of Symphysanodon (variously with 42–59). Sum of total number of gillrakers plus number of lateral-line scales (in individual specimens) distinguishes S. andersoni (with 101–106) from all other species of Symphysanodon except S. xanthopterygion (with 94–101). In addition, S. andersoni has parapophyses on the first caudal vertebra, whereas the Atlantic species S. berryi, S. mona , and S. octoactinus, the Pacific species S. maunaloae and S. parini , and the Indian Ocean species S. rhax lack those processes. In Table 3, we compare selected characters of Indian-Ocean species of Symphysanodon. Distribution. Known from southwest of Socotra Island, near the entrance to the Gulf of Aden, and from the Arabian Sea off the south coast of Oman. Holotype: ZMH 5170, 157 mm SL; near mouth of Gulf of Aden, about 60 nautical miles off Socotra, northwestern Indian Ocean; 11 °33.9' N, 52 ° 54 ' E to 11 ° 38 ' N, 52 ° 52 ' E; METEOR station 102; depth 290 to 190 meters; 20 December 1964. Other material: USNM 435866, 204 mm SL; off Raysut Port, Salalah, Dhofar, Sultanate of Oman, Arabian Sea, northwestern Indian Ocean; 16 ° 55 ’ 39 ” N, 54 °01’ 18 ” E; depth ca. 80 meters; collected by S. R. Al Shajibi, 16 April 2014. : Published as part of Anderson, William D., Chesalin, Mikhail V., Jawad, Laith A. & Al Shajibi, Said R., 2015, Redescription of the percoid fish Symphysanodon andersoni Kotthaus (Symphysanodontidae) from the northwestern Indian Ocean, based on the holotype and the second known specimen, pp. 475-481 in Zootaxa 4021 (3) on pages 476-479, DOI: 10.11646/zootaxa.4021.3.7, http://zenodo.org/record/235203 : {"references": ["Kotthaus, A. (1974) Fische des Indischen Ozeans. Ergebnisse der ichthyologischen Untersuchungen wahrend der Expedition des Forschungsschiffes \" Meteor \" in den Indischen Ozean, Oktober 1964 bis Mai 1965. A. Systematischer Teil, XI. Percomorphi (4). \" Meteor \" Forschungsergebnisse, Reihe D, No. 17, 33 - 54.", "Johnson, G. D. (1975) The procurrent spur: An undescribed perciform caudal character and its phylogenetic implications. Occasional Papers of the California Academy of Sciences, 121, 1 - 23.", "Ahlstrom, E. H., Butler, J. L. & Sumida, B. Y. (1976) Pelagic stromateoid fishes (Pisces, Perciformes) of the eastern Pacific: Kinds, distributions, and early life histories and observations on five of these from the northwest Atlantic. Bulletin of Marine Science, 26 (3), 285 - 402.", "Hughes, D. R. (1981) Development and organization of the posterior field of ctenoid scales in the Platycephalidae. Copeia, 1981 (3), 596 - 606. http: // dx. doi. org / 10.2307 / 1444564", "Roberts, C. D. (1993) Comparative morphology of spined scales and their phylogenetic significance in the Teleostei. Bulletin of Marine Science, 52 (1), 60 - 113."]} Text Northwest Atlantic DataCite Metadata Store (German National Library of Science and Technology) Pacific Indian Nares ENVELOPE(158.167,158.167,-81.450,-81.450)

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