Pseudotrichonotus belos, Gill, Anthony C. & Pogonoski, John J., 2016

Gill, Anthony C. & Pogonoski, John J., 2016, Pseudotrichonotus belos new species, first record of the fish family Pseudotrichonotidae from Australia (Teleostei: Aulopiformes), Zootaxa 4205 (2), pp. 189-193 : 190-193

publication ID

https://doi.org/ 10.11646/zootaxa.4205.2.8

publication LSID

lsid:zoobank.org:pub:B092D4D7-40FB-4773-B4C3-8340CEFC1D23

DOI

https://doi.org/10.5281/zenodo.5687651

persistent identifier

https://treatment.plazi.org/id/038D9E64-FFF3-2504-B8F1-FE40CB9769E0

treatment provided by

Plazi

scientific name

Pseudotrichonotus belos
status

sp. nov.

Pseudotrichonotus belos new species

Dart sand-diving lizardfish Figures 1–3 View FIGURE 1 View FIGURE 2 View FIGURE 3

Holotype. CSIRO H 6406-04, 41.2 mm SL, Western Australia, southwest of Exmouth Gulf , 22°51’S 113°31’E, 100m depth, RV Southern Surveyor, beam trawl station SS1005/135, 9 December 2005. GoogleMaps

Paratypes. CSIRO H 6406-05, 29.1 mm SL, collected with holotype; WAM P.34616-001, 23.3 mm SL, Western Australia, west of Shark Bay , 25°56’S 112°41’E, 120 m depth, RV Southern Surveyor, Sherman benthic sled station SS10/05/115, 7 December 2005. GoogleMaps

Diagnosis. Pseudotrichonotus belos is distinguished from congeners by the following characters: dorsal-fin origin well behind pelvic fin origin, predorsal length 39.6–41.2% SL; dorsal-fin rays 31–33; anal-fin rays 12.

Description. (Data given first for holotype, followed where different by data for 23.3 and 29.1 mm SL paratypes, respectively, in parentheses.) Dorsal-fin rays 32 (33; 31), all rays unbranched; anal-fin rays 12, all rays unbranched; pectoral-fin rays 11, all rays unbranched; pelvic-fin rays 7, first, sixth and seventh rays unbranched, other rays branched (fifth ray also unbranched in 23.3 mm SL paratype); principal caudal-fin rays 10 + 9; upper procurrent caudal-fin rays 8 (7; 7); lower procurrent caudal-fin rays 8 (7; 8); total caudal-fin rays 35 (33; 34); scales in lateral line 44/48 (estimated from counting missing scale pockets on holotype, and therefore approximate; 46/? in 23.3 mm SL paratype; count not determined for 29.1 mm SL paratype, where almost all scales missing); predorsal scales 13 (14; not determined in 29.1 mm SL paratype), reaching anteriorly to supratemporal commissure; transverse scales above anal-fin origin ca. 7 (8; not determined in 29.1 mm SL paratype); scales to preopercular angle 3 (3; not determined in 29.1 mm SL paratype); circumpeduncular scales 8 (8; not determined in 29.1 mm SL paratype); branchiostegal rays 6.

As percentage of standard length (based only on holotype and 29.1 mm SL paratype): body depth at dorsal-fin origin 9.0 (9.3); greatest body depth 9.0 (10.3); greatest body width 11.2 (10.3); head length 25.6 (26.5); snout length 6.1 (7.2); orbit diameter 6.6 (7.2); bony interorbital width 1.9 (2.4); upper jaw length 7.3 (6.9); least caudal peduncle depth 4.1 (4.1); caudal peduncle length 11.7 (10.4); predorsal length 41.2 (39.6); preanal length 74.5 (74.2); prepelvic length 36.7 (37.5); first dorsal-fin ray length 8.0 (11.0); dorsal-fin base length 48.1 (46.7); first anal-fin ray length 6.1 (6.2); anal-fin base length 15.8 (14.4); caudal fin length not determined (rays broken in all specimens); pectoral fin length 16.0 (18.2); pelvic fin length 31.3 (38.8).

Vertebrae 23 + 27 (23 + 25; 23 + 26), with two vertebrae (PU1 + U1) present as a compound centrum; epineurals present on vertebrae 1 through 26; epipleurals present on vertebrae 2 through 27; ribs present on vertebrae 2 through 23 ( Figure 2 View FIGURE 2 ).

Maxilla edentate; premaxilla with 4 (at symphysis) to 2 (on sides of jaw) rows of small conical to slightly curved, depressible teeth; dentary with 4 (at symphysis) to 1 (on sides of jaw) rows of small conical to slightly curved, depressible teeth; vomer with 3 (anteriorly) to 2 (posterolaterally) rows of conical teeth arranged in a chevron; palatine with a single row of about 10–15 conical teeth; ectopterygoid, mesopterygoid and tongue edentate.

Life coloration (based on colour photograph of holotype after freezing for two years; Figure 1 View FIGURE 1 ): head and body pale tan, pinkish brown ventrally on operculum and abdomen; bright yellow midlateral stripe extending from snout tip through eye to midway along body, continuing posteriorly as four yellow spots on posterior body and caudal peduncle; yellow stripe bordered ventrally by faint grey stripe with pale blue iridescence, which continues posteriorly to caudal-fin base; iris dark grey above and below yellow stripe; six dark grey spots midlaterally on body, first spot above pelvic-fin base, second spot beneath about tenth dorsal-fin ray, third spot beneath about twentieth dorsal-fin ray, fourth spot beneath about twenty-seventh dorsal-fin ray, fifth spot beneath dorsal-fin termination, sixth spot on caudal-fin base; first and second grey spots positioned within bright yellow stripe; remaining grey spots positioned within yellow spots, extending dorsally to form saddle-like markings; dorsal-fin yellowish hyaline, with distal tips of first three rays dark grey to black; dusky grey basal spots at dorsal-fin origin and above second grey midlateral body spot; saddle-like markings from fourth through sixth grey midlateral body spots extending on to dorsal-fin base; caudal fin yellowish hyaline, with sixth grey midlateral body spot extending on to base of upper rays; additional smaller grey basal spot on ventral margin of fin; remaining fins yellowish hyaline.

A photograph of the holotype and the 29.1 mm SL paratype when freshly dead is unfortunately out of focus and of insufficient resolution for inclusion here. The freshly dead colours are similar to the frozen colours except the bright yellow markings are more intense, the tan areas on the body are pale translucent pink, the ventral part of the abdomen is silvery pink, and each dark grey midlateral spot on the body is crossed with a narrow, bright purplish red bar.

Preserved coloration: similar to freshly dead and frozen coloration; head and body generally pale tan; dark grey midlateral spots and upper portion of purplish red bars remain as dusky grey-brown bars or saddles; dark edging on dorsal-fin rays remains.

Comparisons. Placement of the new species in Pseudotrichonotus is based on the following combination of characters: dorsal fin long-based, consisting of more than 30 segmented rays; no adipose fin; mouth relatively small (jaw angle below anterior half of eye); pelvic fin abdominal, close to vertical through dorsal-fin origin, and consisting of seven rays; principle caudal-fin rays 19; and branchiostegal rays 6. Characters distinguishing the three species of Pseudotrichonotus are summarised in Table 1 View TABLE 1 . Most notably, P. belos is distinctive in having the dorsalfin set further back, such that its origin is well behind the pelvic-fin origin (versus above or slightly behind the pelvic-fin origin in P. altivelis and P. xanthotaenia ), with a corresponding longer predorsal length (39.6–41.2% SL versus 34–36 % SL in P. altivelis and 36 % SL in P. xanthotaenia ). This probably reflects a more posterior position of the first dorsal pterygiophore relative to interneural spaces in P. belos . In P. altivelis the first dorsal pterygiophore is a laminar bone with two ventral processes, one of which inserts in the seventh interneural space (counting the space between the first and second neural spines as the first), and the other in the ninth interneural space ( Johnson et al. 1996: figs 15 & 17). The first dorsal ptyergiophore is not clearly visible in our radiographs of P. belos , but the position of the processes can be vaguely made out in the radiograph of the holotype: the anterior process inserts in the eighth interneural space and the posterior process is positioned in the tenth interneural space ( Figure 2 View FIGURE 2 A, B). This suggests that the dorsal fin position is one interneural space farther posteriorly than in P. altivelis . Pterygiophore information was not available for P. xanthotaenia .

Aside from characters noted in Table 1 View TABLE 1 , P. belos possibly differs from P. altivelis in having a single row of about 10–15 teeth on the palatine. According to Johnson et al. (1996: 25), the palatine of P. altivelis has “numerous (e.g., ca. 30 in one specimen), small, slightly recurved, conical teeth on its ventral border.” Parin (1992) did not describe the palatine dentition of P. xanthotaenia .

Etymology. The specific epithet is from the Greek meaning arrow or dart, and refers to the dart-like appearance of the species. The name was selected by school students as a Spectacular Science activity in the University of Sydney. It is to be treated as a noun in apposition.

Remarks. According to the voyage reports, the beam trawl that collected the holotype and larger paratype of Pseudotrichonotus belos was in 100m on sand and also yielded high diversity of other organisms, including a large amount of sponges, as well as rubble. The station that yielded the smaller paratype was in 120m, but targeted hard bottom features, and yielded a very small catch of sponges, gorgonians and shell hash. Presumably the Pseudotrichonotus was collected from finer shell hash deposits. Soft bottom habitat is not well collected for small, active fishes—particularly for sand-diving species—and it is likely that further collecting will substantially extend the known range of all three species of Pseudotrichonotus ( Figure 3 View FIGURE 3 ).

There are few details available on the diet of Pseudotrichonotus . A radiograph of the smaller paratype shows numerous small gastropod shells in the gut. The guts of the remaining two specimens are empty.

TABLE 1. Comparison of selected characters of Pseudotrichonotus species. Data for P. altivelis is from Yoshino and Araga (in Masuda et al. 1975), Machida (1988), Johnson et al. (1996) and Nakabo (2002). Data for P. xanthotaenia is from Parin (1992).

Caudal-fin rays 8 + 10 + 9 + 8 = 35 7–8 + 10 + 9 + 7–8 = 33–35 8 + 9 + 10 + 9 = 36
Vertebrae 24 + 26 = 50 23 + 25–27 = 48–50 23 + 28 = 51
Predorsal neural spines 7 8?
Dorsal-fin origin Above or slightly behind pelvic origin Well behind pelvic origin Above or slightly behind pelvic origin
Predorsal length 34–36% SL 39.6–41.2% SL 36% SL
CSIRO

Australian National Fish Collection

WAM

Western Australian Museum

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