Hippocampus whitei Bleeker, 1855

Hippocampus whitei Bleeker, 1855 View in CoL Figures 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, Tables 1, 2, 3, 4, 5, 6 Common names: White’s seahorse; New Holland seahorse; Sydney seahorse (Australia)

Hippocampus novaehollandiae Steindachner, 1866: 474 (Sydney Harbour, Australia).

Hippocampus procerus Kuiter, 2001: 328-329, figs. 4, 40 (Hervey Bay, Queensland, Australia).

Material examined.

CAS 241511, adult female, Wave Island, Southport, QLD, Australia, 27°55'56.2"S 153°25'08.4"E, 5 m depth, in seagrass bed, November 27, 2014; CAS 241512, juvenile female, South West Wall, Southport, QLD, Australia, 27°56'32.7"S 153°25'14.7"E, 5 m depth, rocks and sand, November 26, 2014; CAS 241513, adult male, South West Wall, Southport, QLD, Australia, 27°56'32.7"S 153°25'14.7"E, 5 m depth, rocks and sand, November 26, 2014; CAS 241514, subadult male, Broadwater, QLD, Australia, 27°57'09.3"S 153°24'37.0"E, in seagrass bed, November 27, 2014; PSFC-DH (Port Stephens Fisheries Centre NSW field designation), 4 specimens in lot, PSFC-DH-1 adult male, PSFC-DH-2, subadult female, Nelson Bay, NSW, Australia, 32°42'59.9"S 152°08'57.2"E, 7 m depth, sandy rubble and seagrass, 2007-2016; SU 36407, 2 specimens in lot, adult males, Port Jackson, NSW, Australia, 33°50'42.6"S 151°14'50.5"E; SU 36417, 6 specimens in lot, Port Hacking, Gunnamatta Bay, NSW, Australia, 34°03'50.0"S 151°08'39.0"E, October 30,1939; QM I.30772, subadult female, Chain Banks, Moreton Bay, QLD Australia, J Johnson, dredge, depth 3-7 m, January 24, 1997; AMS I.12554, adult male, Moreton Bay, QLD Australia, Amateur Fishermans Association of Qld, 1912; CAS 13406, 2 in lot, 13406-1 adult male, 13406-2 juvenile female, Mackay, QLD, Australia, 21°09'48.1"S 149°12'58.2"E, 11 m depth, July 12, 1939; SU 36420, 4 in lot, 36420-1 adult female, 36420-2, adult male, 36420-3 adult female, 36420-4 adult female, 4 miles east of Burnett R, Queensland, Australia, 25°20'21.0"S 151°52'41.7"E, 18 m depth, September 14, 1938; QM I.39230, subadult male, 2 miles NE of Elliot Heads, QLD, 24°55'00.0"S 152°31'00.0"E, March 4, 1982, trawl; QM I. 39656, adult female, east of Waddy Point, 24°58'36.0"S 153°24'08.4"E, March 26, 2005, trawl; CAS-SU 35442, 2 specimens in lot, F43-A adult female, F43-C adult male, Corny Point, South Australia, 34°54'38.7"S 137°03'35.7"E, October 31, 1912; AMS E2914, female holotype, 120 mm, 5-11 km east of Hervey Bay, Fairway Buoy, QLD, Australia, 25°8'59.64"S 152°50'26.94"E, FIS Endeavour, July 7, 1910; AMS IA4205, juvenile female, height 57 mm, Port Curtis, QLD, Australia, 23°55'S 151°23'E, dredged, M Ward & W Boardman, December 14, 1929.

Diagnosis.

Hippocampus whitei differs from its congeners by the following combination of characters: trunk rings 11; tail rings 34-35; dorsal fin rays 17-18; pectoral fin rays 16; subdorsal rings three; subdorsal spines four, superior trunk ridge ending with three enlarged spines, superior tail ridge commencing with one enlarged spine (3/0,1,0); cleithral ring spines three, one small spine at each end of pectoral-fin base but none at gill-opening, large single or double spine at ventral extent of head; small lateral head spines, two, one directly posterior of eye, one anterodorsally of operculum and ventral of coronet; distinct snout spine; parietal spine, diminutive or absent; single eye spine, large, protruding dorsally; small single or double spine, rugose, posteroventrally of eye; coronet, distinct and tall, protruding anteriorly in juveniles, angled dorsoposteriorly in adults, five small spines present on apex in a star-like arrangement; superior trunk with enlarged spines on 1st and 8th tail ridges.

Redescription.

General body shape as in Figs 2-11. Morphometric and meristic characters are listed in Table 2. Coronet distinct and tall, coronet height 44.8-47.89% in HL, protruding anteriad in juveniles, angled dorsoposteriorly in adults; bilateral gill-openings ventral of coronet; dorsal fin rays 17-18; pectoral fin rays 16; subdorsal rings three; dorsal fin base starting immediately posterior to ninth trunk ring and ending immediately posterior to first tail ring; trunk rings 11; tail rings 34-35. Body spines: coronet with five small spines present on apex in a star-like arrangement; neck spines absent; prominent spine dorsally of eye, small single or double spine, rugose, ventroposteriorly of eye; small lateral head spines, two, one directly posterior of eye, one anterodorsally of operculum and ventral of coronet; cleithral ring spines three, one small spine at each end of pectoral-fin base but none at gill-opening, large single or double spine at ventral extent of head; distinct snout spine on midline between eyes; parietal spine, diminutive or absent in adults, present in juveniles and subadults; subdorsal spines four, superior trunk ridge ending with three enlarged spines, superior tail ridge commencing with one enlarged spine (3/0,1,0); superior trunk with enlarged spines on 1st and 8th tail ridges observed in adults, on 1st, 7th, 8th, and 9th tail ridges observed in subadults; lateral trunk ridge with small spines on 2 nd– 11th trunk rings; inferior trunk ridge with small spines beginning on 5th trunk ring and ending on 11th trunk ring; superior tail ridge spines well developed anteriorly, becoming smaller posteriorly, with enlarged spines on 1 st– 12th tail rings; inferior tail ridge spines well developed anteriorly, becoming smaller posteriorly, with enlarged spines on 1 st– 8th tail rings; caudal fin absent in juveniles and adults.

Morphological remarks.

In his original description, Kuiter (2001:328-329) erected H. procerus based on several observations on its distinguishing characters: "Previously confused with Hippocampus tristis and H. whitei , H. procerus is more similar to the latter, differing from it in having a taller and spinier coronet, higher fin-ray counts, and generally a spinier physiogamy." We show that morphometric, meristic, and diagnostic morphological characters reported herein (Tables 2, 3) correspond closely among the non-type specimens of H. whitei from NSW, type and non-type specimens referred to as H. procerus from Gold Coast Seaway, Moreton Bay, Elliot Heads, Bundaberg, and Mackay, QLD, and the holotype specimen of H. procerus from Hervey Bay, QLD.

Based on the material examined, we found minor variation in coronet height in proportion to the head (45.5-46.6% in H. whitei from Nelson Bay, NSW vs. 45.1-47.8% in H. procerus from Gold Coast Harbour, QLD, 48.9-52.9% in the paratypes from Moreton Bay, QLD, 44.8% in the holotype from Hervey Bay, QLD, 50.8% in the paratype from Bundaberg, QLD and 46.7% from Mackay, QLD). The non-type specimens are comprised of juveniles, subadults, and adults, all of which exhibit distinct and tall coronets. However, we noted that in juveniles the coronet protrudes anteriad whereas in subadults and adults it is strongly angled dorsoposteriad. Similarly, dorsal fin ray counts exhibited marginal differences (17 in non-type specimens of H. whitei vs. 18 in all the specimens of H. procerus from Queensland), which may reflect north-south clinal variation. We did not observe an overall spinier physiognomy in the majority of adult specimens of H. procerus relative to H. whitei . However, a spinier physiognomy was present in one juvenile specimen from Mackay, and Port Curtis, QLD (Figs 10, 11), respectively, and one adult specimen from Burnett River (Fig. 9) and Waddy Point, QLD (Fig. 12), respectively, on all principal trunk and tail ridges and head. It has been observed that in juvenile and subadult H. whitei from NSW (<8 cm Total Length) that spines are more pronounced, but as they increase in size the spines disappear, with specimens> 12 cm TL being much smoother and spines not obvious. The adult specimens from Burnett River and Waddy Point, QLD, are an exception to these observations and appear to reflect variation in spine morphology similarly observed in juvenile H. whitei .

We also observed across the majority of examined adult specimens the following key diagnostic morphological characters (Table 3): the absence of true neck spines between the coronet and the 1st superior trunk ring spines (small neck spines were detected in juvenile specimens; variation in neck ridge topology is often mistaken for true neck spines in adult specimens), indiscernible or small parietal spine, three cleithral ring spines with the uppermost spine at the dorsal level of the pectoral fin base, presence of a distinct snout spine, four subdorsal ridge spines (3/0,1,0), and superior trunk ridge with enlarged spines on 1st and 8th tail ridges. Based on these findings, we find that spine physiognomy, neck spines present or absent in juveniles and adults, respectively, and subtle differences in meristics, are unreliable diagnostic characters, and that key and informative morphological characters are congruent across all specimens, which conform to the diagnosis of H. whitei . Therefore, it can be concluded that the species-level classification of H. procerus is unsupported, and that H. procerus may be treated as a junior synonym of H. whitei .

Several seahorse species endemic to Australia, including Indo-Pacific seahorses with overlapping latitudinal distributions in Queensland, Australia, are superficially similar to and often misidentified as juvenile and adult H. whitei ( Kuiter 2001; Table 5). These species include H. abdominalis Lesson, 1827, H. angustus Günther, 1870, H. breviceps Peters, 1869, H. dahli Ogilby 1908, H. histrix Kaup, 1856, H. jugumus Kuiter, 2001, H. kelloggi Jordan & Snyder, 1901, H. planifrons Peters, 1877, H. spinosissimus Weber, 1913, and H. zebra Whitley, 1964. Despite the morphological similarities, meristic and diagnostic morphological characters support the distinctions among these species (Table 4).

Genetic remarks.

Meristic, morphometric, and key diagnostic morphological characters in our study did not support the separation of H. procerus from H. whitei into two distinct species. Here we further confirm the synonymization of H. procerus with H. whitei based on partial mitochondrial COI (655 bp) data. This analysis is based on sequences generated from 31 H. whitei individuals sampled from Empire Bay, Forster (Wallis Lake), Port Hacking, Nelson Bay, Sydney Harbour, and Tuggerah Lake, NSW, and from 4 specimens referred to as H. procerus from Southport, Gold Coast Seaway, QLD. Alignment of sequence data detected 23 variable sites without any indels, resulting in 14 haplotypes: one in Sydney, four in Nelson Bay, five in Forster, and four in Gold Coast Seaway (Suppl. material 1, 2). Three haplotypes are shared between Forster and Gold Coast Seaway whereas no other haplotypes are shared between collection localities. One unique haplotype was obtained in Sydney, four in Nelson Bay, two in Forster, and one in Gold Coast Seaway (Suppl. material 1, 2). Fig. 12 shows a neighbour-joining tree based on the same mtDNA COI data, which recovered H. procerus as paraphyletic with respect to H. whitei . Hippocampus procerus clustered among individuals of H. whitei from Forster, NSW in one subclade and with individuals from several localities in NSW in another subclade. Additionally, genetic distance analysis (uncorrected p distances) of the same data failed to discriminate H. procerus from H. whitei (Suppl. material 3), which revealed an average intraspecific divergence of 0.002%, further confirming lack of support of species status for H. procerus .

Distribution and habitat.

Hippocampus whitei is known to occur in coastal estuaries and embayments of central NSW and southern QLD, Australia. In central NSW it has been recorded, from south to north, in St. Georges Basin, Port Hacking, Botany Bay, Sydney Harbour, Hawkesbury River, Tuggerah Lake, Lake Macquarie, Port Stephens, Wallis Lake - Forster, and Tweed River. The record from St Georges Basin was based on a recent sighting and photograph of a small juvenile in January 2018 that was logged through REDMAP (http://www.redmap.org.au/sightings/3379/) and therefore extends the range reported by Harasti et al. (2012) southwards by 70 km. A previous 1903 Australian Museum record from Lake Illawarra cannot be confirmed as the local ity information is likely erroneous (Mark McGrouther, pers. comm.) and whilst it is possible that H. whitei could occur in Lake Illawarra, at this stage there is no definitive evidence. Museum records indicate the species has been recorded in QLD within the Gold Coast Seaway, at various locations around Moreton Bay estuary, Hervey Bay, Waddy Point, Elliot Heads, Bundaberg, Port Curtis, and Mackay. The synonymization of H. procerus extends the northward range significantly by approximately 1,000 kilometres for H. whitei to Mackay QLD; as of now, this is the most northern location with confirmed H. whitei specimens. However, its current occurrence in the Mackay region, Port Curtis, Burnett River, and Bundaberg, is unknown as it has not been recorded in those locales since 1939, 1929, and 1938, respectively. The most recent northern records are from Elliot Heads in 1982 and Waddy Point in 2005.

Additionally, museum records claim species occurrences of H. whitei outside its geographic range, in South Australia, Victoria Australia, Papua New Guinea, South Africa, Solomon Islands, and Vanuatu (Kuiter 2009; Lourie et al. 2016). However, these specimens have subsequently been re-identified by the authors as H. breviceps , H. camelopardalis , H. kelloggi , or H. spinosissimus (see Table 6). The specimens originally identified as H. whitei from Port Moresby, Papua New Guinea and the Solomon Islands are no longer accessible and therefore cannot be re-identified; however, we consider them highly unlikely to be H. whitei since it is markedly outside the range for this species. We now consider that the species is constrained to estuaries and embayments along the east coast of Australia from Hervey Bay, QLD, in the north to St Georges Basin, NSW, in the south.

Hippocampus whitei occurs in a variety of habitats including seagrasses, soft corals, sponge gardens and artificial structures to depths of 12 m ( Hellyer et al. 2011; Harasti et al. 2014a; Manning et al. 2018), and is known to display strong site fidelity and monogamous behaviour ( Vincent and Sadler 1995; Vincent et al. 2005; Harasti and Gladstone 2013). The locations with the largest recorded populations are found within Sydney Harbour and Port Stephens ( Harasti et al. 2012; Harasti et al. 2014b), beyond which there is very little information about the occurrence, habitat use, and population numbers in QLD as the species is not known to be regularly found in any QLD locations and is seldom seen or collected.

We introduced this paper with a quote from John White (1736-1832) who was under the assumption that the Mediterranean and North Atlantic seahorse H. hippocampus and H. whitei from Australia were conspecific due to highly similar morphology. Seahorse taxonomy has been in a state of confusion since its inception. While comprehensive revisions of the genus have greatly advanced our understanding of how many species of seahorses exist ( Lourie et al. 2016), much further work remains to answer this most fundamental question about one of the world’s most extraordinary fish.