Synagrops Günther, 1887

Schwarzhans, Werner W. & Prokofiev, Artem M., 2017, Reappraisal of Synagrops Günther, 1887 with rehabilitation and revision of Parascombrops Alcock, 1889 including description of seven new species and two new genera (Perciformes: Acropomatidae), Zootaxa 4260 (1), pp. 1-74 : 56-58

publication ID

https://doi.org/ 10.5281/zenodo.571305

publication LSID

lsid:zoobank.org:pub:F65E9759-46EB-40B0-B51A-D970B925DEA3

DOI

https://doi.org/10.5281/zenodo.6042900

persistent identifier

https://treatment.plazi.org/id/6D0AA64D-3B77-FFED-FF16-F8C7FBF30962

treatment provided by

Plazi

scientific name

Synagrops Günther, 1887
status

 

Genus Synagrops Günther, 1887 View in CoL View at ENA

Figs. 1B View FIGURE 1 , 3C, H View FIGURE 3 , 7P View FIGURE 7 , 13P View FIGURE 13 , 31 View FIGURE 31 , Table 1

Type-species: Melanostoma japonicum Döderlein, 1883

Melanostoma Döderlein, 1883 View in CoL (type-species: Melanostoma japonicum Döderlein, 1883 View in CoL ; preoccupied by Melanostoma Schiner, 1860 View in CoL in Diptera View in CoL )

Hypoclidonia Goode & Bean, 1896 (type-species: Hypoclidonia bella Goode & Bean, 1896 )

Diagnosis. A genus of the family Acropomatidae characterized by the following combination of characters. Pelvic fin spine smooth. First dorsal fin with 9 spines, all visible externally; second dorsal fin I + 9, anal fin II + 7; all spines smooth. Three supraneurals; predorsal formula 0/0/0+2/. No vacant interneural gap below D1. Distal element of last D1 pterygiophore enlarged. Cranial crests strong, W-shaped. Top of head naked. Large cup-like basioccipital fossa extending to the ventral part of the exoccipital receiving anterior portion of swimbladder; myodome opened posteriorly at the parasphenoid flanges. Ectopterygoid toothed, with 2–5 rows of denticles, increasing in width with size. Preopercle without denticles at inner margin and crossed by 1–3 strong ridges. Proximal-middle radial of first anal-fin pterygiophore broad, distinctly bent forwards, with blunt tip, hollow, reaching first haemal spine. First epural bent anteriad, retaining ample space between neural processes of 2nd and 3rd preural vertebrae. Otoliths subrectangular in outline, with depressed small ostium, which is dorsally and ventrally widened towards collum but includes a reduced triangular colliculum, and cauda inclined upwards and with distinct bent at tip.

Discussion. Synagrops differs from all other genera by the presence of basiocciptal fossa, otophysic connection and posterior openings of the myodome, and in its distinctive otolith morphology ( Fig. 1B View FIGURE 1 ). Synagrops shares the same cranial and otolith modifications with Apogonops , Doederleinia and Neoscombrops cynodon ; however, only N. cynodon possesses a similarly deep and extensive basioccipital fossa and posterior openings of the myodome. Synagrops differs from N. cynodon in the lower number of anal-fin spines (2 vs 3), top of the head naked (vs scaled), the enlarged distal element of the last D1 pterygiophore (vs short and small), and in the much stronger jaw dentition. The level of differences and interrelationships of these taxa require further investigation, and is beyond the scope of the present paper, but will be covered in a forthcoming paper. Synagrops further differs from Parascombrops in the pelvic-fin spine being smooth (vs serrated), in the absence of the vacant interneural gap under D1 (vs 8th interneural gap being vacant), and in the predorsal formula (0/0/+2/ vs /0+0/0+2/). Synagrops additionally differs from Caraibops n. gen. in the pelvic-fin spine is smooth (vs serrated), in the much stronger cranial crests, in the toothed ectopterygoid, in the higher number of visible spines in D1 (9 vs 8) and the anal-fin formula, II + 7 (vs III + 9). Synagrops differs from Kaperangus n. gen. in the predorsal formula 0/0/+2/ (vs /0/0+2/), in the strong W-shaped cranial crests (vs weak U-shaped), in the number of the branched anal-fin rays, 7 (vs 9), in the enlarged distal element of the last D1 pterygiophore (vs small) and in the epural pattern (see Figs. 3C, H View FIGURE 3 ).

Species and distribution. Two nominal species are currently recognized ( Eschmeyer 2016): S. japonicus ( Döderlein, 1883) ( Fig. 30 View FIGURE 30 ) ( S. natalensis Gilchrist, 1922 as a synonym) from the Indo-West Pacific eastward to Samoa and S. bellus ( Goode & Bean, 1896) from the Atlantic. A revision of these species will be a part of forthcoming paper.

Material examined (67 specimens): CAS 61035, 5 specimens, 80–119 mm SL, CAS 61040, 97.5 mm SL, CAS 61041, 4 specimens, 81–104 mm SL, 18°13’N, 67°18’W, 356–384 m, 21. Aug. 1987; USNM 159346, 2 specimens, 110–113 mm SL, 07°37’N, 54°43’W, 475 m; USNM 407745, 78 mm SL, off Honduras ; USNM 436688, 103 mm SL, 07°15’N, 53°25’W, 210 m; IOM, uncatalogued, 35 mm SL (cleared & stained), 41˚31΄N, 61˚ 28΄W, pelagic trawl, 50 m; IOM 257, 10 specimens, 133–192 mm SL, 12°32΄–12°25΄S, 48°06΄–48°08΄E, 700–710 m; IOM 258, 120 mm SL, 08°47΄–08°50΄S, 59°55΄–59°49΄E, 525–530 m; IOM 1764, 150 mm SL, 12°18΄–12°14΄N, 53°09΄–53°06΄E, 375–380 m; IOM 1773, 6 specimens, 102–162 mm SL, 22°19΄–22°23΄S, 43°06΄–43°06΄E, 330–335 m; IOM 1845, 21 specimens, 120–165 mm SL, 25°29΄–25°35΄S, 35°09΄–35°01΄E, 490–535 m; IOM, uncatalogued, 8 specimens, 72–95 mm SL, Nha Trang Bay, Vietnam ; MNHN 1998-0993, 2 specimens, 78.5– 84 mm SL, 16°33’S, 167°55’E, 602–620 m; ZMMGU 13103, 180 mm SL, 18°48’S, 149°58’E; ZMUC P44324-25, 2 specimens, 159 and 73 mm SL, Mimase fish market, Kochi, Japan.

USNM

Smithsonian Institution, National Museum of Natural History

IOM

Institute of Oceanology, Academy of Sciences

ZMUC

Zoological Museum, University of Copenhagen

Kingdom

Animalia

Phylum

Chordata

Class

Actinopterygii

Order

Perciformes

Family

Acropomatidae

Loc

Synagrops Günther, 1887

Schwarzhans, Werner W. & Prokofiev, Artem M. 2017
2017
Loc

Hypoclidonia bella

Goode & Bean 1896
1896
Loc

Melanostoma Döderlein, 1883

Doderlein 1883
1883
Loc

Melanostoma japonicum Döderlein, 1883

Doderlein 1883
1883
Loc

Melanostoma

Schiner 1860
1860
GBIF Dataset (for parent article) Darwin Core Archive (for parent article) View in SIBiLS Plain XML RDF