Gobiodon fuscoruber, Herler, Juergen, Bogorodsky, Sergey V. & Suzuki, Toshiyuki, 2013

Gobiodon fuscoruber View in CoL , sp. nov.

Brown-red Coralgoby

Figs. 7 View FIGURE 7 , 8 View FIGURE 8 , 10 View FIGURE 10 & 11 View FIGURE 11 ; Tables 1 View TABLE 1 , 8 View TABLE 8 , 9 & 10 View TABLE 10

Gobiodon unicolor View in CoL (non Castelnau, 1873) Munday et al. (1999): 56, Fig. 13; Hayashi & Shiratori (2003): 63, Fig. 116; Senou et al. (2004): 170; Harold et al. (2008): 132.

Gobiodon View in CoL sp. 5 Akihito et al. (2002): 1190.

Gobiodon View in CoL sp. D Senou et al. (2004): 175.

Gobiodon View in CoL sp. 3 Herler and Hilgers (2005): 123, Fig. 15; Niedermüller et al. (2009): 1501, Fig. 2 View FIGURE 2 ; Herler et al. (2009): 733, Fig. 4 View FIGURE 4 .

Holotype. NMW 95079 (cited erroneously as CH 232-42-003 (correct number: CH 232-43-003) in Herler & Hilgers, 2005), male 36.7 mm SL, Gulf of Aqaba, Egypt, Dahab, “Islands” (28°28’38.50” N, 34°30’47.10” E), 1.5 m, coll. J. Herler, 27 March 2004.

Paratypes. Seven specimens. NMW 95080, 31.3 mm SL, 3 m, 11 November 2005, other data same as holotype. MNHN 2006–1700, 32.1 mm SL, 2 m, 17 November 2005, other data same as holotype. BMNH 1951.1.16.555, 29.2 mm SL and BMNH 1951.1.16.556, 34.0 mm SL, Red Sea, Saudi Arabia, Sanafir Island, coll. N. Marshall (Manihine Expedition), 1951. OMNH 39984, female, 29.2 mm SL, Japan, Ryukyu Islands, Iriomote Island, coll. T. Suzuki, 0 7 August 1993. OMNH 39986, male, 23.6 mm SL, Japan, Ryukyu Islands, Iriomote Island, coll. T. Suzuki, 22 August 1994. OMNH 39990, Japan, Ryukyu Islands, Iriomote Island, male, 28.5 mm SL, coll. T. Suzuki, 27 July 1997.

Additional material. CH 232-43-006, 31.5 mm SL, Egypt, Dahab, coll. J. Herler, 15 June 2004; CH 232-43- 0 15, juvenile, 19.2 mm SL, Egypt, Dahab, coll. J. Herler, 14 November 2005; CH 232-43-040, 26.2 mm SL, Maldives, Fesdu Island, coll. J. Herler, 17 March 2007; PMR VP 3202, 32 mm SL, Egypt, Sharm el Sheikh, Sharm el Moya, coll. S.V. Bogorodsky, 0 4 July 2011; OMNH 39978, juvenile, 18.1 mm SL, Japan, Ryukyu Islands, Iriomote Island, coll. T. Suzuki, 0 8 August 1996. OMNH P- 40047 ( DNA sample), 30.3 mm SL, Japan, Ryukyu Islands, Iriomote Island, coll. T. Suzuki, M. Suzuki and A. Kawai, 22 August 2002.

Comparative material. Gobiodon unicolor ( Castelnau 1873) : holotype, MNHN A- 4015 ( Fig. 9 View FIGURE 9 I, J), 29.6 mm SL, Australia, Cape Sidmouth, coll. Castelnau.

Diagnosis. Dorsal-fin rays I,10; anal-fin rays I,8; head and body naked; obvious groove between isthmus and interopercle; body deep (the depth at pelvic-fin origin 40.4–44.3 % SL) and strongly compressed; head rounded in juveniles, large adults with steep profile, slightly hump-headed; caudal peduncle relatively slender (depth 14.8– 16.0% SL). Juveniles and adults dark reddish brown with greenish subcutaneous gleam on dorsal part of body; median fins plain (western Pacific Oceans) or with pale margin (Red Sea and Indian Ocean); iris plain light blue (Red Sea) or scattered with red-brown dots on the outer margin.

Description (based on 5 types and several non-type specimens (for osteology)). Head and body strongly compressed. Body proportions and meristics for types are provided in Tables 8 View TABLE 8 and 9, respectively. Dorsal-fin rays VI + I,10 (n = 8); anal-fin rays I,8 (n = 8); pectoral-fin rays 19–20 (19:4, 20:4); pelvic-fin rays I,5, fin short (not reaching anus) and cup-shaped with significant frenum between spines; caudal fin with 15–17 segmented and branched rays. First dorsal fin lower than second dorsal and anal fins. Vertebral column with 10 precaudal and 16 caudal vertebrae, including urostyle. No scales. Gill opening as wide as pectoral-fin base, ending ventrally in opposite of 1st or 2nd lower pectoral-fin ray. Gill rakers 0–2 + 7–8. Obvious groove between interopercle and isthmus. Mouth slightly oblique, bending downwards and reaching approximately to below anterior margin of orbit. Upper lip usually slightly curved, slightly extending before snout. One outer row of 3 to 8 larger, slightly recurved teeth in upper and lower jaw, positioned on the anterior half of premaxilla and dentary. Medially, 3 to 4 rows of small, slender and recurved teeth in both jaws. In lower jaw, a pair of large, postsymphysial canines on each side, one or both on each side often small or absent, probably due to tooth loss and replacement. Anterior and posterior nasal openings at the end of short tubes. Head sensory canals typical as for Gobiodon ( Winterbottom & Harold 2005) , with anterior oculoscapular (pores NA (paired)), AI, PI (unpaired), SO, AO and IT (paired) and preopercular (three pores on each side) canals present.

Life colouration. Body uniformly dark reddish brown, occasionally with a greenish gleam on dorsal part of body (in Red Sea specimens), densely dotted with dark brown on body, nape, and pectoral-fin base ( Figs. 7 View FIGURE 7 A, C, 8); specimens from the Maldives characterised in having scattered tiny red spots; a weak purple streak of internal pigment runs along the lateral midline of the body, from behind the pectoral fins to the caudal-fin origin; iris plain light blue or scattered with red-brown dots on the outer margin; median fins with pale margin typically in specimens from the Red Sea and sometimes in specimens from the Maldives but fins plain in specimens from western Pacific Ocean.

Preserved colouration. Head and body uniformly dark brown. When mucous epidermis removed, body light brown with numerous small dark chromatophores scattered all over ( Fig. 7 View FIGURE 7 B). Iris bright. Pale margins on median fins often retained.

Molecular genetics. In the analysis here, the sequences of G.sp3_MA1 from the Maldives and of G.sp3_GA1 from the Gulf of Aqaba, Red Sea by Herler et al. (2009) are included. See Table 1 View TABLE 1 for Genbank accession numbers. Gobiodon fuscoruber sp. nov. is closely related to G. at er sp. nov. (see above). The intraspecific p -distances between populations from the Red Sea, the Maldives, Japan and the GBR (as “ G. unicolor ”) are around 0.02 (see Table 10 View TABLE 10 ), with the least distance between the two latter (0.001).

Habitat. On reef flats, crests and upper reef slopes in less exposed areas. Prefers Acropora selago but also occurs in a number of other, narrowly branched Acropora species such as A. acuminata and A. hyacinthus .

Distribution. The species is currently known from the Red Sea, central Indian Ocean and western Pacific Ocean ( Japan and GBR).

Etymology. This species is named after its uniformly reddish-brown life colouration. The name “ fuscoruber ” is a combination of the Latin words “ fuscus ” (= brown) and “ rubrum ” (= red). Although there are geographic colour variants (e.g. red dots in the Maldives), the reddish brown basic colouration is typical throughout its distribution area. Suggested common name: Brown-red Coralgoby.

western Pacific. Values are proportions of standard length (SL) and head length (last five measurements), respectively,

means and the first standard deviation (SD); d = damaged.

G. cit RS G. his RS G. r i v RS G. bil RS G. i r r RS G. ate RS G. f u s RS G. f u s Mal G. f u s Jap

G. cit GBR 0.031

G. h i s GBR 0.005

G. r i v GBR 0.023

G. b i l Mal 0.011

G. bil Tai 0.014

G. q u i Mal 0.033

G. re t RS 0.026

G. a t e Mal 0.016 G. a t e Tai 0.013 G. f u s RS 0.023 G. f u s Mal 0.026 0.019 G. f u s Jap 0.031 0.019 0.016 “ G. u n i ” GBR 0.032 0.020 0.017 0.001 Remarks. This species was informally designated as Gobiodon sp. 3 by Herler and Hilgers (2005). The Red Sea specimens are very similar to populations from the Maldives and the western Pacific, especially in body shape, meristics (D 2 I/10, A I/ 8 in all specimens from the Maldives and the western Pacific) and basic colour pattern. The Maldivian specimens, however, are somewhat brighter, the blue iris less obvious, and they have red dots on the postorbital area, nape, and body (more densely on the dorsum). They are similar to the Red Sea population in having reddish brown median fins, sometimes also with a pale margin. Specimens from Japan have a somewhat brighter body colouration (especially in juveniles) and the scattered dark brown chromatophores are more obvious than in the usually dark reddish brown Red Sea specimens. In addition, Japanese specimens often have two weak red bars below the orbit and several short red lines and dots on the anterior nape and snout. Suborbital bars may be retained in subadults but are very rarely seen in adults. Despite some geographic variation in colouration, the genetic distance of the populations investigated is very small. Therefore, we assume that these populations belong to one species.

Gobiodon fuscoruber View in CoL was assumed to be identical with G. unicolor ( Castelnau 1873) View in CoL after comparison with images in Munday et al. (1999) and Senou et al. (2004). Genetic investigations confirm that G. unicolor sensu Munday et al. (1999) View in CoL and Harold et al. (2008) is identical with G. fuscoruber View in CoL ( Fig. 11 View FIGURE 11 , Table 10 View TABLE 10 ). Examinations of the holotype of G. unicolor View in CoL , however, revealed that this specimen represents a species with a black opercular spot (see Figs. 9 View FIGURE 9 I, J), which is characteristic for several species of the genus, but is present neither in G. fuscoruber View in CoL nor in G. unicolor View in CoL noted by any of the authors mentioned above. Considering the black opercular spot and the general body shape of the holotype of G. unicolor View in CoL , the type species could be identical with G. histrio View in CoL , G. axillaris View in CoL or G. sp. C of Munday et al. (1999), which all have a black opercular spot. When comparing body shapes in detail, it becomes clear that the holotype represents G. histrio ( Valenciennes 1837) View in CoL . This is confirmed by a comparison of the two preserved syntypes (MNHN 3098) and x-ray images of G. histrio View in CoL with the preserved holotype and x-ray image of G. unicolor View in CoL : the types of both species resemble each other in that they have a deep and compressed body, a groove between the interopercle and isthmus, strongly re-curved jaws and identical fin ray counts in D2 and A (10 and 9, respectively; except for one syntype of G. histrio View in CoL that has 11 D2-rays). The colour description of G. histrio View in CoL by Cuvier and Valenciennes (1837) and the range of fin rays in D2 and A of the syntypes confirm its identity with G. histrio View in CoL shown by recent authors (e.g., Munday et al. 1999, Herler & Hilgers 2005). Further evidence of the synonymy of G. histrio View in CoL and G. unicolor View in CoL comes from Castelnau’s (1873) description of the preserved colouration of G. unicolor View in CoL as a light brown. When specimens of G. histrio View in CoL are preserved, the typical green-red colouration fades very quickly after ethanol preservation and also turns uniformly light brown (see Herler & Hilgers 2005).

The final confirmation of the synonymy of G. unicolor View in CoL and G. histrio View in CoL comes from a geometric morphometric analysis. Principal component analysis plotted the holotype of G. unicolor View in CoL clearly within the morphospace of G. histrio View in CoL ( Fig. 10 View FIGURE 10 ), and discriminant function analysis on the scores of the first 6 PCs of all 111 specimens revealed a 99.99% probability of assignment to G. histrio View in CoL . We therefore propose G. unicolor ( Castelnau 1873) View in CoL to be a junior synonym of G. histrio ( Valenciennes 1837) View in CoL and as not applicable to the uniformly coloured species described herein. The new name G. fuscoruber View in CoL not only has to be used for the species called G. unicolor View in CoL by several authors mentioned above, but also applies to some undescribed species, such as G. sp. 5 of Akihito et al. (2002), and G. sp. D of Senou et al. (2004). Apart from genetics (at least tested for “ G. unicolor View in CoL ”), the uniformly (brownish) life colour, the rounded head shape, the low first dorsal fin and the large pectoral fins unite these taxa. This suggests that G. fuscoruber View in CoL is a widely distributed species, occurring throughout the Indo-Pacific reef province.

Gobiodon fuscoruber View in CoL and G. ater View in CoL share a special feature with at least seven other species of the genus: a groove between the interopercle and isthmus ( Harold & Winterbottom 1999; Harold et al. 2008), which is also present in G. brochus Harold and Winterbottom 1999 View in CoL and G. flavus Sauvage 1880 . However, these species are clearly distinct from G. at e r and G. fuscoruber View in CoL in that they have a much brighter colouration. Furthermore, G. f l a v us and G. brochus View in CoL have at least 9 anal fin rays ( Sauvage 1880, Harold & Winterbottom 1999) instead of the very constant number of 8 rays in G. fuscoruber View in CoL and G. at e r. Moreover, the colour description of Sauvage (1880) for G. f l av u s notes a yellowish colouration. The combination of this colouration and presence of the groove makes assignment of G. flavus to any of the currently known species difficult, though it is reasonable to conclude that it is not identical with any of the species described herein. Other species with such a groove, like G. sp. A, sp. B, sp. C, G. histrio View in CoL and G. erythrospilus ( Harold et al. 2008) View in CoL are very different in their life coloration and cannot be mistaken with G. fuscoruber View in CoL or G. at e r.