Uraniacanthus curtus ( Powrie, 1870 ) Newman & Davidson & Blaauwen & Burrow, 2012

Uraniacanthus curtus ( Powrie, 1870) n. comb. ( Figs 1 View FIG ; 3-13 View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG )

Euthacanthus curtus Powrie, 1870: 293 , pl. 12, figs 7, 7a. — Woodward 1891: 32. — Traquair 1892: 34. — Paton 1976: 6. — Denison 1979: 27.

? Diplacanthus curtus – Woodward & Sherborn 1890: 65, 81.

Euthacanthus Curtus – Powrie 1881: 169.

? Uraniacanthus sp. – Paton 1976: 15.

TYPE SPECIMEN. — Powrie (1870) mentioned two syntypes when he first erected the species but described and figured only one, namely NMS G.1891.92.249 ( Figs 1 View FIG ; 3 View FIG ) from Farnell, the headless specimen which Traquair (1892) considered the type (and hence the lectotype). Paton (1976) described NMS G.1891.92.249 as the syntype.

REFERRED SPECIMENS. — Traquair (1892) also registered NMS G.1891.92.250 ( Figs 4 View FIG , 5 View FIG ), a very small complete specimen from Turin Hill. Although it is from Powrie’s collection, we cannot be certain it is the other one mentioned by Powrie (1870), as he provided no description. The third specimen NMS G.1964.31.30A/B ( Fig. 6 View FIG ), from Hayston Hill, is a partial articulated fish lacking the head. NMS G.1964.31.30B is the counterpart of the above but is less well-preserved

TYPE LOCALITY. — Pow Burn near Farnell, Brechin, Angus, Scotland (National Grid reference NO 622 549).

STRATIGRAPHIC HORIZON AND AGE. — Uraniacanthus curtus n. comb. occurs in the Arbuthnott Group of the Early Devonian (Lochkovian) of the Midland Valley of Scotland.

OCCURRENCE. — Apart from the type locality, Uraniacanthus curtus n. comb. has been collected from Turin Hill (probablyTillywhandland Quarry), Forfar (National Grid reference NO 528 537) and from a small, in-filled quarry north of Hayston Hill near Glamis, Dundee (National Grid reference NO 413 460).

REVISED DIAGNOSIS. — Short, deep bodied diplacanthiform acanthodians; dorsal fin spines have numerous longitudinal grooves and ridges, with the anterior dorsal fin spine having up to eleven ridges and the posterior up to nine ridges per side; four opercular covers on each side; flank scales are from 0.2 to 0.5 mm long; all body and fin scales are ornamented: scales have a flat crown with deep, wide, U-shaped grooves that sometimes extend the length of the crown, fanning out towards the anterior edge; large multiple pores in the anterior half of the grooves open into wide ascending canals that lead into wide circular canals, interconnected by short radial canals, in the lower crown; branched dentine tubules extend within each crown growth zone into the vascular canals; a row of 1-3 pores are on each side of the scale neck constriction.

DESCRIPTION

General structure

Specimens are from 20mm to an estimated 110 mm long. Whilst all three specimens are deep bodied, they are not complete enough to give an accurate depth to length range. All three specimens are preserved in lateral view suggesting the body was deeper than wide. The lateral sensory line is visible only on NMSG.1891.92.249 ( Fig.3A View FIG ) as a shallow depression running between the scales. Nothing is known of the sensory lines of the head. The endoskeleton is not preserved, and is presumed to be unmineralized.

Head

On NMSG.1964.31.30A ( Fig. 6 View FIG ) the head region is mostly missing except for some scattered broken dermal plates visible at the edge of the slab, but these are too fragmentary to be recognisable or reconstructed into their original arrangement. The plates are larger than the body scales. The head is completely missing from the holotype NMS G.1891.92.249 ( Fig. 3A View FIG ). As the outline of the head is not preserved on any of the specimens we cannot ascertain the slope of the head between the rostrum and the anterior dorsal fin. NMS G.1891.92.250 ( Fig.4 View FIG ) is the only specimen with recognisable, intact structures in the head region, but they are extremely small and the head is slightly disarticulated and rotated dorsally. Four spatulate opercular covers are preserved ( Fig. 4C View FIG )

cf

ad.fs

ppv.fs2

with the larger ones in the middle of the series. They are broader towards the anterior, tapering to a point at the posterior end. Their ornamentation is difficult to discern, but appears to consist of concentric, thin ridges. The opercular series has rotated slightly dorsally and would have originally been closer to the scapulocoracoid.

A small bone 3 mm long, interpreted as an occlusal plate on the right lower jaw ( Fig. 4B View FIG ) of NMS G.1891.92.250, has been displaced anterodorsally and is seen in lateral view. It is fairly well preserved and is a single ossified element with an antero-posterior axis that is slightly convex dorsally. Midway along the upper edge is a sub-triangular dorsal ‘coronoid’ process. Anterior of this process the bone is thickened on the dorsal edge. The posterior end of the bone forms a spoon-shaped blade. A shallow trough runs anteriorly from the posterior blade; the ventral edge of the bone is thickened.

Towards the dorsal anterior of the head is an impression of a thick triangular bone ( Fig.4F View FIG ). If it had rotated in the same direction as the rest of the bony elements of the head, it would have been positioned originally just behind the orbit. This element is thus interpreted as a postorbital plate, although no ornamentation can be observed because the internal rather than the external surface is exposed.

Scapulocoracoid

The dorsal end of the scapulocoracoid, a simple cylindrical shaft, is just visible on the edge of the slab of NMSG.1964.31.30A ( Fig. 6 View FIG ). The scapulocoracoid of NMSG.1891.92.250 ( Fig. 4D View FIG ), whilst being very small at only 2 mm high is more complete and the following description is based on this specimen. The scapulocoracoid is a perichondrallyossified structure. The scapular shaft is shorter in NMS G.1891.92.250 than U. probaton n. comb., but this may be an ontogenetic feature as the partial remains in NMS G.1964.31.30A indicate the scapulocoracoid was longer and had a thin dorsal tip in the adult form ( Fig. 6 View FIG ). The cylindrical shaft extends down toward the contact with the pectoral fin spine. The anterior edge of the scapulocoracoid is concave, as the element widens anteroventrally. It is not clear if an anterior lamina is present; the scapula flares out posteriorly toward the pectoral spine contact ( Fig. 4D View FIG ). The scapulocoracoid is tilted forward. Poor preservation obscures details of the articulation to the pectoral fin spine.

Spines

The dorsal, anal and pectoral fin spines are long and slender.The ornamentation consists of straight, smooth, deep grooves and rounded longitudinal ridges. The grooves and ridges terminate on the inner (trailing) edge of all the fin spines, as clearly evident on the anterior dorsal fin spines of both NMS G.1964.31.30A and NMS G.1891.92.250 ( Fig.7 View FIG ). The posterior dorsal fin spine is about fourfifths the length of the anterior dorsal fin spine. In the holotype NMS G.1891.92.249 ( Fig. 3 View FIG ) these are the only two spines preserved, with the base of the anterior dorsal fin spine missing at the edge of the slab. In this specimen the spines are preserved as coarse moulds and it is impossible to count the number of grooves and ridges, although it is clear that the anterior dorsal fin spine is quite broad at the base and has a distinctive posterior-pointing curvature at the tip. The spines are better preserved in NMS G.1964.31.30A ( Figs 6 View FIG ; 7A View FIG ) but only the dorsal and anal fin spines are present. The tip of the slightly curving anterior dorsal fin spine is buried in matrix and the base is broken, but it appears to have a deep base of insertion. This spine is fairly broad with at least 11 thin ridges and grooves visible on one side ( Fig. 7A View FIG ). The posterior dorsal fin spine of NMS G.1964.31.30A is straight and also fairly robust. Although not as well preserved as the anterior dorsal fin spine, nine thin ridges and furrows are visible on one side; the inserted end is covered in scales. The central canal of the spine has been mineralized and exposed towards the base of the spine, showing that it was about half the radius of the original spine. The anal fin spine is slightly curved, shorter (about 60%) and thinner than the posterior dorsal fin spine. Whilst not particularly well preserved, four ridges and grooves are visible on one side.

The small specimen NMS G.1891.92.250 ( Figs 4 View FIG ; 5 View FIG ; 7B View FIG ) is only 20 mm long. The fin spines are poorly preserved, but correspond to the relative dimensions and shapes of the spines on the two larger specimens while having fewer grooves and ridges. The anterior dorsal fin spine ( Fig. 7B View FIG ) has six grooves present on one side as well as a posterior-pointing curvature at the tip.

Newman M. J. et al.

The base of insertion is very deep. The posterior dorsal fin spine is too broken and crushed to be described. This is the only known specimen where the pectoral, pelvic and prepelvic fin spines are preserved. A pair of pelvic fin spines are present with the right spine being better preserved, showing three or four grooves and ridges on one side. The pelvic spines are about 75 percent the length of the anal spine. The pectoral fin spines are too crushed and broken to be described in detail and are jumbled up with another pair of crushed, broken fin spines. The latter must represent the anteriormost pair of intermediate (i.e. either admedian or first prepelvic) fin spines observed by Traquair (1892), but they cannot be visually separated from the pectoral spines. Some deterioration possibly has occurred since the specimen’s collection over 130 years ago, the rock matrix being susceptible to damage particularly from humidity. The second pair of prepelvic spines just anterior to the pelvic spines are better preserved, with three grooves and ridges visible on the side of one spine; they are about half the length of the anal fin spine.

The only other visible spines, positioned in front of the scapulocoracoids ( Fig. 4E View FIG ), are the right first and second prepectoral spines, the latter being larger. They appear to be isolated, with no attachment to any dermal bone, and surrounded by scales. The preservation is not good enough to allow further description.

Caudal fin

The caudal fin of Uraniacanthus curtus n. comb. is not well preserved in any of the specimens. In NMS G.1891.92.249 and NMS G.1964.31.30A the dorsal surface is only slightly deflected from the body. The tail is heterocercal as in all acanthodians, with the main or chordal lobe longer than the hypochordal lobe. At first glance, the caudal fins on NMS G.1891.92.249 and NMS G.1891.92.250 appear trilobed, but this is an artefact of the folding of the fin web and sediments. The tail has a slightly forked appearance.

Squamation

The scales in NMS G.1891.92.250 are not well enough preserved to be described while in NMSG.1891.92.249 ( Fig.8 View FIG ) they are only preserved as coarse impressions. In NMS G.1964.31.30A/B most of the scales are preserved with their bases showing, as often occurs when a specimen is split into two halves. Where exposed ( Fig. 9 View FIG ), the well preserved scale crowns have three to five grooves that are either quite close ( Fig. 9B View FIG ) or widely separated ( Fig. 10D View FIG ). Scales are from 0.2-0.5 mm long and wide with straight lateral crown edges converging to a single posterior point ( Figs9 View FIG B-D). On mid-flank scales the grooves extend the length of the scale crown, fanning out from the posterior corner to the anterior edge of the crown. Scales of the caudal fin have a crown ornament similar to body scales, but with grooves only on the anterior end of the crown ( Fig. 9D View FIG ). ESEM study of individual scales ( Fig. 10 View FIG ) from three regions on NMS G.1964.31.30A – dorsal caudal ( Fig. 10 View FIG A- E), dorsal posterior to the pdfs ( Fig. 10 View FIG F-K), and mid-flank below the posterior dorsal fin spine (pdfs) ( Fig. 10 View FIG L-O) – shows that the crown ornament is formed by 2-5 deep U-cross section grooves in the flat crown. The posterior point extended beyond the base ( Figs 9D View FIG ; 10J View FIG ). Crowns on some scales show short shallow incipient grooves along the anterior margin ( Fig. 10G, H View FIG ). The number of grooves increases with size of the scale ( Fig. 10E, O View FIG ). Several wide pores open out in the anterior part of the crown grooves ( Fig. 10A, C, D, F, O View FIG ), and also around the “waist” of the deep scale neck ( Fig. 10A, G View FIG , J-L). The pores in the crown grooves lead into wide canals within the crown, as exposed in the fracture on the scale in Figure 9B View FIG . The base is shallow or flat. Thin sections of the scales reveal a well-developed network of wide circular canals in the lower crown ( Fig. 11 View FIG A-F), interconnected by short radial canals which also lead to the pore openings in the neck ( Fig. 11A, E, F View FIG ); ascending canals lead to the pore openings in the crown grooves ( Figs 11C, D View FIG ). Other wide longitudinal canals extend back from the anterior of the ring canals towards the posterior tip of each growth zone ( Fig. 11B View FIG ). All the wide canals are interconnected to form a single network, rather than separate “pore” canal and vascular canal systems. Dentine tubules extend from the wide canals through each crown growth zone; each scale has 2-4 growth zones ( Fig. 11A, B, D View FIG ). Sharpey’s fibre canals extend through the acellular base ( Fig. 11 View FIG A-D).