identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
038ACF35FFB4FF86A012FACDFC6D8576.text	038ACF35FFB4FF86A012FACDFC6D8576.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diplacanthiformes Berg 1940	<div><p>Order DIPLACANTHIFORMES Berg, 1940</p> <p>Remarks. - See Newman et al. (2012) for a revised diagnosis.</p></div> 	https://treatment.plazi.org/id/038ACF35FFB4FF86A012FACDFC6D8576	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Plazi	Burrow, Carole;Newman, Michael;Davidson, Robert	Burrow, Carole, Newman, Michael, Davidson, Robert (2016): The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland. Palaeontologia Electronica 19: 1-83, DOI: 10.26879/601, URL: http://palaeo-electronica.org/content/2016/1398-scottish-diplacanthid-fishes
038ACF35FFB4FF87A007FA50FD3483DD.text	038ACF35FFB4FF87A007FA50FD3483DD.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diplacanthidae Woodward 1891	<div><p>Family DIPLACANTHIDAE Woodward, 1891</p> <p>Revised Diagnosis. Diplacanthiforms having scapulocoracoid with high scapular shaft extending dorsal to the lateral line, divided by a strong ridge into a postbranchial lamina and a posterior flange; dermal shoulder girdle with paired anterior plus paired pinnal plates; anterior dorsal fin spine longer than posterior dorsal spine; median, pectoral, and pelvic fin spines deeper than wide; spines with a main pulp canal and at least one accessory pulp canal; paired admedian spines and pectoral fin spines fused to, or articulating with, pinnal plates; anterior ventral plates fused to procoracoids; one pair of prepelvic spines; no prepectoral spines; dermal ornamented cheek plates lacking a sensory</p> <p>BURROW: SCOTTISH DIPLACANTHID FISHES canal; large circumorbital plates do not completely encircle the orbit; scale crowns ornamented with longitudinal converging or transverse ridges; low robust occlusal bone on each lower jaw.</p></div> 	https://treatment.plazi.org/id/038ACF35FFB4FF87A007FA50FD3483DD	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Plazi	Burrow, Carole;Newman, Michael;Davidson, Robert	Burrow, Carole, Newman, Michael, Davidson, Robert (2016): The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland. Palaeontologia Electronica 19: 1-83, DOI: 10.26879/601, URL: http://palaeo-electronica.org/content/2016/1398-scottish-diplacanthid-fishes
038ACF35FFB5FF87A269FC38FDA986AB.text	038ACF35FFB5FF87A269FC38FDA986AB.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diplacanthus Agassiz 1844	<div><p>Genus DIPLACANTHUS Agassiz, 1844</p> <p>Type Species. Diplocanthus crassisimus Duff, 1842, by original designation.</p> <p>Revised Diagnosis. Dermal and endoskeletal pectoral girdle elements – pectoral and admedian spines, scapulocoracoid, procoracoid, pinnal and anterior ventral plates – articulating or fused as a single structure on each side of body; sides of fin spines with multiple longitudinal ridges; each eye encircled by a single long plate plus multiple short plates; high scales with a narrow neck, flat base and scale crowns ornamented with denticulated transverse ridges; scales with a network of canals opening out via pores on the crown and high on the posterior neck.</p> <p>Included Species. Diplacanthus tenuistriatus Traquair, 1894; Diplacanthus kleesmentae Valiukevičius and Karatajūtė-Talimaa, 1986;? Diplacanthus gravis Valiukevičius, 1988a;? Diplacanthus poltnigi Valiukevičius, 2003 (Lochkovian; possibly Uraniacanthus sp.);? Diplacanthus solidus Valiukevičius, 2003.</p> </div>	https://treatment.plazi.org/id/038ACF35FFB5FF87A269FC38FDA986AB	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Plazi	Burrow, Carole;Newman, Michael;Davidson, Robert	Burrow, Carole, Newman, Michael, Davidson, Robert (2016): The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland. Palaeontologia Electronica 19: 1-83, DOI: 10.26879/601, URL: http://palaeo-electronica.org/content/2016/1398-scottish-diplacanthid-fishes
038ACF35FFB5FF92A266F963FAA1850D.text	038ACF35FFB5FF92A266F963FAA1850D.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diplacanthus crassisimus (Duff 1842)	<div><p>Diplacanthus crassisimus (Duff, 1842)</p> <p>Figures 1.1, Figure 3, Figure 4, Figure 5, Figure 6,</p> <p>Figure 7, Figure 8, Figure 9, Figure 10, Figure 11,</p> <p>Figure 12</p> <p>1841 ichthyolite; Miller, pl. 8, fig. 2.</p> <p>1842 Diplacanthus crassisimus Duff, 1842; Duff, p. 71, pl. 10, fig. 2; pl. 11, fig. 3.</p> <p>1844 Diplacanthus striatus Agassiz; Agassiz, p. 34, 41, pl. 14, figs. 1, 2.</p> <p>1844 Diplacanthus striatulus Agassiz; Agassiz, p. 34, 42, pl. 8, figs. 3, 4.</p> <p>1844 Diplacanthus crassispinus Agassiz; Agassiz, p. 34, 43, pl. 8, figs. 1, 2, pl. 14, figs. 6, 7.</p> <p>1844 Diplacanthus longispinus Agassiz, in part; Agassiz, pl. 13, fig. 5.</p> <p>1844 Hybodus gracilis Eichwald; p. 827.</p> <p>1845 Homacanthus gracilis (Eichwald); Agassiz, p. 153.</p> <p>1845 Homacanthus arcuatus Agassiz; Agassiz, p. 113, 114, pl. 33, figs. 1-5.</p> <p>1846 Hybodus gracilis; Eichwald, p. 279, pl. 1, figs. 12, 13.</p> <p>1847 Diplacanthus striatus; Miller, pl. 8, figs. 2, 4.</p> <p>1848 Diplacanthus gibbus M'Coy; p. 301.</p> <p>1855 Diplacanthus gibbus; M'Coy, p. 584, pl. 2B, fig. 4.</p> <p>1859 Diplacanthus striatus; Timbs, p. 142.</p> <p>non 1881 D. striatus of Agassiz; Whiteaves, p. 160, 162.</p> <p>1888 Diplacanthus striatus; Traquair, p. 512.</p> <p>non 1889 Homacanthus gracilis, N. sp.; Whiteaves, 1888, p. 96, pl. 10, fig. 4.</p> <p>1890 Diplacanthus striatus, Ag.; Traquair, p. 482.</p> <p>1891 Diplacanthus striatus Agassiz; Woodward, p. 24, text-fig. 3.</p> <p>1892 Diplacanthus striatus (Ag.); Traquair, p. 37.</p> <p>1894 Diplacanthus striatus Agassiz; Traquair, p. 254, 255.</p> <p>1895 Diplacanthus striatus Agassiz; Traquair, pl. 2, fig. 1.</p> <p>1902 Diplacanthus crassisimus Duff; Hay, p. 274.</p> <p>1904 Diplacanthus striatus; Goodchild, p. 595.</p> <p>non 1905 Diplacanthus striatus; Lambe, p. 34, 40.</p> <p>1907 Diplacanthus striatus; Dean, pp. 217, 218, fig. 19.</p> <p>1907 Ischnacanthus gracilis in part; Dean, p. 214, fig. 16.</p> <p>non 1907 Diplacanthus striatus; Eastman, p. 10, 16.</p> <p>non 1908 Diplacanthus striatus; Eastman, p. 280.</p> <p>1910 Diplacanthus striatus; Smith, p. 663.</p> <p>1912 D. striatus Ag.; Wundsch, p. 190.</p> <p>non 1913 Diplacanthus striatus; Clarke, p. 115.</p> <p>non 1916 Diplacanthus striatus ?; Dean and Eastman, p. 622.</p> <p>1929 Diplacanthus crassisimus Duff; Hay, p. 544.</p> <p>1937 Diplacanthus striatus Agassiz; Watson, p. 88-95, text-figs. 14-16.</p> <p>1940 Homacanthus gracilis (EICHWALD), in part: Gross, p. 21-23, figs. 1B, 2F, pl. 1.3, 1.4.</p> <p>1940 Diplacanthus striatus; Gross, p. 23.</p> <p>1942 Homacanthus gracilis (Eichw.), in part; Gross, p. 377, 379, 381, table 1.</p> <p>1947 Diplacanthus striatus; Gross, p. 126, 127, pl. 6.3.</p> <p>1954 Diplacanthus striatus Agassiz; Waterston, p. 11, 12.</p> <p>non 1966 Diplacanthus crassisimus Duff; Gardiner, p. 50.</p> <p>non 1966 " Homacanthus gracilis " Whiteaves; Gardiner, p. 52.</p> <p>1966 Diplacanthus striatus Agassiz; Miles, p. 166, text-fig. 11.</p> <p>1967 Diplacanthus striatus Agassiz; Novitskaya and Obruchev, p. 276, figs. 5, 14.</p> <p>? 1967 Homacanthus gracilis (Eichwald); Novitskaya and Obruchev, p. 278, fig. 15, pl. 1.2.</p> <p>1969 Diplacanthus striatus Ag.; Heyler, fig. 29.</p> <p>1971 Diplacanthus striatus; Moy-Thomas and Miles, fig. 4.13.</p> <p>1973a Diplacanthus striatus Agassiz; Miles, pp. 190-194, text-figs. 39-41.</p> <p>1973 Diplacanthus? carinatus Gross; in part, Gross, p. 72, 73, pl. 36.9, 36.10.</p> <p>? 1973 Homacanthus gracilis (Eichwald); Gross, p. 86, figs. 13H, 14G- 14M.</p> <p>? 1975 Homacanthus gracilis sensu Gross; Lyarskaya, p. 230.</p> <p>1975 Diplacanthus striatus; Saxon, p. 15, fig. 3.</p> <p>1976 Diplacanthus striatus Agassiz 1845; Paton, p. 10, 11.</p> <p>1979 Diplacanthus crassisimus Duff; Denison, p. 32, figs. 4C, 19, 20, 21A-21C.</p> <p>1979 Homacanthus gracilis, in part; Denison, p. 52, figs. 32I, 33F.</p> <p>1985 Diplacanthus? carinatus Gross, in part; Valiukevičius, pl. 1.4, pl. 11.7, 11.8,?pl. 13.5- 13.8.</p> <p>? 1988a Diplacanthus gravis, in part; Valiukevičius, p. 77, pl. 8.1.</p> <p>1988b Diplacanthus carinatus, in part; Valiukevičius, p. 603, 604, table 2.</p> <p>1990 Diplacanthus striatus; Chaline, fig. 3.9.6.</p> <p>1991 Diplacanthus striatus Agassiz; Frickhinger, p. 242.</p> <p>1994 Diplacanthus carinatus Gross, in part; Valiukevičius, figs. 5-7.</p> <p>1994 Homacanthus gracilis (Eichwald); Valiukevičius, fig. 7.</p> <p>1995 Diplacanthus striatus; Young, p. 67, figs. 1, 7.</p> <p>non 1995 Diplacanthus striatus; Long, fig. on p. 94.</p> <p>1996 Diplacanthus striatus; Gagnier and Wilson, p. 151.</p> <p>1997 Diplacanthus striatus; Young, p. 47.</p> <p>1998 Homacanthus gracilis (Eichwald); Valiukevičius, p. 20, 21, 23, 26, fig. 4.</p> <p>1998 Diplacanthus carinatus Gross, 1973, in part; Valiukevičius, p. 21, 23, figs. 4, 7, 8, 12, 13, 16, 18, 19, 21.</p> <p>1999 Diplacanthus crassisimus Duff 1842; Trewin and Davidson, table 3, p. 543.</p> <p>1999 Diplacanthus striatus; Trewin and Davidson, table 3.</p> <p>1999 Diplacanthus crassisimus Duff; Dineley, fig. 6.12A-12D.</p> <p>1999 Diplacanthus striatus Duff; Dineley, fig. 6.12H.</p> <p>2000 Diplacanthus striatus; Warren, Currie, Burrow, and Turner, p. 239.</p> <p>2000 Diplacanthus carinatus Gross, in part; Valiukevičius and Kruchek, figs. 1, 4.</p> <p>2000 Homacanthus gracilis (Eichwald); Valiukevičius and Kruchek, fig. 1.</p> <p>2001 Diplacanthus striatus; Hanke, fig. 4.4.</p> <p>2001 Diplacanthus crassisimus; Hanke, p. 310, 311.</p> <p>2001 Diplacanthus crassissimus [sic]; Hanke, Davis, and Wilson, p. 750, 751.</p> <p>2002 Homacanthus gracilis; Valiukevičius, p. 36</p> <p>2003 Diplacanthus carinatus Gross, 1973, in part; Valiukevičius, p. 173, 197, 199, 202, tables 2, 3, fig. 20K, 20L.</p> <p>2003 Diplacanthus crassisimus Duff, 1842; Valiukevičius, p. 173.</p> <p>2005 Diplacanthus crassisimus (Duff); Newman and Dean, p. 3, 4, 5.</p> <p>2005 Diplacanthus crassisimus Duff; Davidson and Trewin, fig. 3.</p> <p>2006 "... Diplacanthus Striatus "; Knell and Taylor, p. 86.</p> <p>2007 Diplacanthus striatus; Burrow, p. 831.</p> <p>2008 Diplacanthus carinatus; Märss, Kleesment and Niit, table 1.</p> <p>2010 Diplacanthus crassisimus Duff, 1842; Newman, p. 4-9, figs. 5-14</p> <p>2012 Diplacanthus crassisimus; Newman, Davidson, den Blaauwen and Burrow, p. 742.</p> <p>2014 Homacanthus gracilis (Eichwald); Ivanov and Märss, p. 158.</p> <p>2014 Diplacanthus carinatus Gross; Ivanov and Märss, p. 158.</p> <p>2014 Diplacanthus carinatus, in part; Plax and Kruchek, p. 32, 36, pl. 3.15.</p> <p>? 2015 Homacanthus gracilis (Eichw.); Plax, p. 22, 31, pl. 4.9, text-fig. 3.</p> <p>? 2015 Diplacanthus carinatus Gross, in part; Plax, p. 31, text-fig. 3.</p> <p>Holotype. NMS G.1891.92.333 from Tynet Burn,</p> <p>Moray, half a limestone nodule with an articulated fish showing the pectoral region and head exposed in ventral view, and the posterior body and tail flattened laterally.</p> <p>Referred Material. Many hundreds of articulated or partially articulated specimens have been identified in public museums and private collections by the authors. The largest collections are in the NHM</p> <p>and NMS, all of which were examined and photographed. Specimens used in this study include the syntypes designated by Paton (1976); NMS</p> <p>G.1859.33.1, NMS G. 1953.4.4 (part) and NMS</p> <p>G.1859.33.3 (counterpart) from Cromarty. Other specimens used include: from Achanarras Quarry,</p> <p>Caithness, NHM P.22198; from Edderton, Ross and Cromarty, NMS G. 2014.4.29, NMS</p> <p>G.2014.15.7, NMS G.2014.44.3 and NMS</p> <p>G.2014.44.4; from Cruaday Quarry, Orkney, NMS</p> <p>G.2014.15.21 and NMS G. 2014.4.30; from Sandside Bay, Caithness, NMS G.2014.44.7; from Corbie Den, Banffshire, NMS G.2014.33.9, NMS</p> <p>G.2014.33.10 and NMS G.2014.44.2; from East</p> <p>Murkle Bay, Caithness, NMS G.2014.33.11; from west of Castletown Harbour, Caithness, NMS</p> <p>G.2014.33.8.1-6; from Springpark, Caithness, NMS</p> <p>G.1878.5.349; from Tynet Burn, Moray, NMS</p> <p>G.1891.99.10, NHM OR.36582, NMS G.Canon</p> <p>Kyle no. 2 and NHM P1357 a; from Gamrie, Banffshire, NMS G.1882.60.17, NMS G. 1892.8.5 and</p> <p>NMS G. 2015.11.2, NMS G. 2015.11.3.</p> <p>Distribution within the Orcadian Basin (Figure 2). The earliest appearance of the species in the Orcadian Basin is an isolated spine and a few scales found on the west side of Sandside Bay, Caithness in the Lybster Flagstone Formation (Figure 2.2). The species becomes much more common in the nodule localities around the Moray Firth, such as, Edderton, Gamrie, Lethen Bar, Tynet Burn, Eathie, and Cromarty. Specimens have also been collected further north in the Cadboll Point area north of Balintore. Many small specimens have been collected from Achanarras Quarry in Caithness. Disarticulated remains have been found in the Mey Formation (e.g., Murkle Bay and Castletown), but are generally quite rare above the Achanarras/Sandwick horizon. Articulated specimens were reported by Hamilton (1987) from Ness of Litter and Lythmore, but no specimens were found by the authors. Both localities have large Mesacanthus and rare Cheiracanthus specimens present and so the record is probably a case of mistaken identity. In Orkney the species is only found in the Sandwick fish bed. A fin spine impression (Figure 5.5) identified as Diplacanthus crassisimus by Mr. D. Leather (but not collected) on Westray (east side Bay of Tafts, coast before Stancro) in beds with Osteolepis panderi is the only find identified above the Sandwick fishbed.</p> <p>Revised Diagnosis. Diplacanthus with maximum depth to length ratio c. 0.22–0.25; pectoral spine and posterior dorsal spine of equal length; admedian spine three-quarters the length of the pectoral spine; very short prepelvic spine positioned halfway between pelvic and pectoral spines; pelvic spine more curved than other spines, and half the length of the pectoral spine; pectoral spine with paired rows of posterior denticulations on distal half; scale crowns ornamented with transverse, serrated ridges running over a medial longitudinal ridge; orientation of transverse crown ridges changes from concave forward anteriorly to concave backwards posteriorly.</p> <p>Description. Head and Branchial Region. Watson (1937) gave detailed descriptions of the head structures and sensory lines, so we will just list updated interpretations. The only large structures visible in the head region (Figures 1.1, 3.3-4, 4.2-3, 4.6 -9) are the long low occlusal plates of the lower jaw (Figures 3.4, 4.2), the circumorbital bone extending about one quarter the arc of the orbit (Figures 3.3, 4.3), the ornamented cheek plate (Figure 4.6), and the smaller postorbital plate (Figure 4.7). Each cheek plate is slightly shorter than the occlusal plate and positioned just anterior to the shoulder girdle complex. As noted by Watson (1937, p. 88, 90, plate 10.1), branchial arches, jaws and other endoskeletal elements are only preserved in rare specimens from Tynet Burn. We have recognized one specimen, NHM OR.36582 (Figure 4.8-10), which shows at least four of the branchial arches displaced but articulated. The branchial region is very short, less than the arc of the longest circumorbital bone. Elements identified as pharyngobranchials, epibranchials, ceratobranchials and possibly a basibranchial are distinguished; the epibranchials and ceratobranchials form a V-shape, and the pharyngobranchials are more or less aligned with the epibranchials (Figure 4.10). Jaw cartilages and the hyoid arch do not appear to have been mineralized in this specimen. Morphology of the Spines. All the spines, except the admedian and prepelvic spines, are laterally compressed, with smooth longitudinal ridges on each side and a leading edge ridge that is only slightly wider than the other ridges (Figures 3.1-2, 4.1, 5.1-4, 6, 7.1-4). The dorsal, anal, and pectoral spines are long and slender. The pectoral spine is also slender, but is highest relative to length. The dorsal and anal fin spines are deeply inserted. The inserted parts, about one fifth of the total length, lack ornament ridges but show the thin closeset parallel ribbing diagnostic of diplacanthiforms. In cross section, the spines (other than the admedian and prepelvics) are markedly higher than wide (Figures 5.7 -8, 5.10, 6), whereas the admedian and prepelvic spines are much broader, with their width mostly exceeding the height. Below the groove separating off the leading edge ridge, the sides of the spines are slightly convex, with the lateral ridges aligned parallel to the leading edge ridge and separated by concave-based narrower grooves c. 0.2–0.35 mm wide. In mature fish, the posterior lateral ridges sometimes bear tiny, sharply crested, secondary ribs, which resemble the micro-ornament on the scale crowns. These secondary ribs run parallel with the crest and sides of the lateral ridge. Larger spines have more lateral ridges than smaller spines: the anterior dorsal fin spine has up to nine per side, the smaller posterior dorsal spine has up to six. Anal and pelvic spines are straight and closely resemble each other, having three or four ridges per side; pelvic spines differ from anal spines mainly in the lack of a long insertion. The robust, sickle-shaped pectoral spine has up to 10 lateral ridges per side in mature specimens and is always more or less asymmetrical in cross section. The lower surface is slightly flatter and extends further posteriorly than the more convex, dorsally facing side. The distal half of the spine has paired rows of small, recurved denticles c. 0.2 mm apart on either side of the posterior median axis (Figure 5.3, 5.7). On all fin spines, this posterior face has an open pulp canal proximally, extending the full length of the inserted parts in the dorsal and anal spines (Figure 6). In the exserted parts of these and other spines, the open canal is closed over and continues distally as the main central canal. The relatively large admedian spines, which are about three-quarters the length of the pectoral spines, and the smaller prepelvic spines (about a quarter the length of the pectorals) differ in being broad and flat proximally, with a height/ width ratio from 0.5 to 0.8, thinning to equal width and height distally. On these spines, the parallel, longitudinal ridges all have sharp crests, and are separated from each other by broad, concave grooves (Figures 6, 7). The lateral ridges, just one to three on each side, bear tiny secondary ribs parallel to the crest of the ridge. The spines have a broad open pulp canal proximally, but the canal only extends to about halfway along the spine. The prepelvic spines, which lack an insertion area, were directly intercalated between normal body scale rows, and point in a posterior, slightly ventral direction. The admedian spines abut normal body scales along their medial sides, but articulate with the posterior pinnal plate laterally. This pinnal plate articulates laterally with the base of the pectoral spine. The admedian spines point in a posterior direction, slightly ventrally.</p> <p>Histology of the Spines. Transverse sections (Figures 5.7-10, 6) show that spines of Diplacanthus crassisimus have one to five successively smaller accessory pulp canals above the main pulp canal, with randomly distributed, narrow calibre canals interconnecting all pulp canals and small vascular canals penetrating the trabecular dentine forming the sides of the spines. Vascular canals run longitudinally through the trabecular dentine, branching towards the spine tip. In the exserted parts of the spines, each ornament ridge always contains at least one canal running longitudinally below the crest and branching distally (Figure 5.9). Pore canals branch off these canals and open out in the grooves between the ridges. The canals under the ornament extend as open grooves over the inserted parts of the median spines, forming the regularly spaced longitudinal striations. Denteons round the canals are thickest towards the distal, oldest parts of the spines, and less well developed around the pulp canals, which show some infilling by lamellar layers (Figure 5.8), a distinctive character found only in D. crassisimus amongst the Scottish Middle Devonian acanthodians. The admedian and prepelvic spines sometimes have small accessory pulp canals. All spines have an outer layer of orthodentine on the crests of the leading edge and lateral ridges, a thick middle layer of trabecular dentine, and a dense laminar tissue lining the main and accessory pulp canals. In the orthodentine, the tubules are widely spaced and relatively short, between about 10 and 50 μm long, and branching near the surface. The inner layer lacks bone cells and dentine tubules, and is thus difficult to distinguish as either a laminar bone or atubular dentine layer.</p> <p>Shoulder Girdle Complex. (Figures 7, 8, 9) Determining the layout of this structure is best interpreted by examination of isolated complexes (Figure 7.5-6). The endoskeletal plus dermal bone elements almost completely encircled the body (Figure 7.7), reminiscent of the thoracic armour in placoderms. On the scapulocoracoid, the postbranchial flange is only developed close to the base of the cylindrical shaft, and the L- or wide Vshaped procoracoid appears to have abutted the anterior edge of the scapulocoracoid. Lack of the procoracoid on isolated complexes and only rare preservation in situ on articulated specimens (e.g., Figure 7.7, and Figure 3.5 for displaced procoracoid) indicate that the procoracoid was not fused to the scapulocoracoid. The posterior flange of the scapula reaches almost to the dorsal tip of the shaft, expanding in length ventrally towards the coracoid, which angles inwards (Figure 7.7). No differentiation is visible between the internal bone surface of the scapula and the coracoid, with the latter extending back under the base of the admedian spine. The dermal armour comprises a pinnal plate articulating with or fused to the scapulocoracoid and the admedian spine, and a ventral plate fused to the base of the procoracoid towards its medial end, so that the ventral plates of each side are almost touching. The base of the pectoral fin spine is rigidly constricted or fused into the dermal and endoskeletal structures, clearly shown in serial sections of the shoulder girdle complex (Figures 8.1-2, 9). Our reconstructions (Figure 10) show lateral and ventral views of the complexes.</p> <p>Morphology of the Scales. (Figure 11) As originally described by Gross (1947), the scales have delicate ribs arranged in semicircles with the open side in an anterior direction, at least in the anterior part of the crown. More posteriorly the delicate ribs become almost straight in a transverse direction and, without interruption, cross over a broad central ridge. The scale base is oval in outline and wider than long (Figure 11.8-11, 11.13 -15). The base is positioned below the anterior half of the crown (Figure 11.9 -15), with the relatively thin, posterior half of the crown extending far behind the base. The neck is moderately constricted on all sides and is also oval in cross section, but with the lateral ends of the oval often sharply pointed. Along the anterior and lateral sides, small vertical buttresses rise from the middle of the neck and support the underside of the crown. Relatively large scales near the lateral line have their crown surface nearly parallel with the base. In smaller scales such as those from the tail region, the surface of the crown is inclined strongly antero-posteriorly. The surface of the crown is more or less rhombic in shape with rounded anterior and lateral corners. The posterior corner is more sharply pointed, and the latero-posterior edges are denticulated (Figure 11.14). Midflank in the posterior parts of the body, scale length is about equal to the width. In more anterior parts of the body, width of midflank scales usually exceeds the length. All scales have a broad central ridge, extending the length of the crown surface, gradually diminishing in height and width posteriorly and reaching almost to the posterior corner (Figure 11.7 -9, 11.13-15). A relatively deep pit is sometimes present in front of the central ridge, almost immediately behind the anterior corner. Surrounding this pit, the crown surface is slightly concave, but in the central and posterior parts the crown surface is almost flat or slightly convex. Thin, sharply crested transverse ridges perpendicular to the broad central ridge cover the whole surface of the crown (Figure 11.2 -9, 11.12- 15). These tiny ridges, 10–20 μm apart and 15–20 μm high in the anterior half, cross the broad central ridge without interruption; they are arranged in a U- or horseshoe-shape with the concave side facing anteriorly. The ridges become straighter more posteriorly. These ridges are mostly inclined antero-posteriorly, although ridges on crowns with the anterior pit can be inclined anteriorly or towards the pit. The crests of the ridges are serrated, with the sharp denticulations c. 10 μm apart.</p> <p>Histology of the Scales. (Figure 12.1-3) Scales of Diplacanthus crassisimus have only a few crown growth zones, with a maximum of five or six in the largest scales. Ascending canals rise up to the anterior crown from slit-like openings in the middle of the neck, widening and uniting into a canal c. 10–15 μm in diameter running parallel to the anterior rim (Figure 12.3). Each growth zone has only one system of ascending canals and one canal parallel to the anterior rim and corners, with smaller canals, each c. 5 μm diameter, branching back sharply and slightly downward into the slightly concave anterior part of the crown table. These canals follow the bottom of the grooves between the narrow ridges on the surface (Figure 12.1-3, 12.8). Extremely thin dentine tubules parallel the smaller canals and then turn upwards in the direction of the serrated crest of the thin transverse ridges (Figure 12.6). New crown growth zones completely superpose older zones; they are thin anteriorly and wider laterally and posteriorly, with the lateral and posterior areas extending out beyond the base and neck. In the primordial growth zone, there are no canals running under the grooves between the ridges; these canals develop only with the next growth zone and are then enclosed by dentinal tissue. Only the canal system of the youngest growth zone is still open. The crests of the tiny ribs are slightly more translucent than the rest of the scales, indicating they are formed only of durodentine (Figure 12.2, 12.7).</p> <p>The base of larger scales shows four or five sets of cross-layered (laminated) bone layers. The low apex of the base cone is posterior to the low point of the scale crown. The primordial growth zone has a hollow, concave base but with successive growth zones the base becomes slightly convex. Growth lines in the base are continuous with growth zones in the neck and crown (Figure 12.10). Sharpey’s fibres in the base are poorly developed or absent, and canals of Williamson are rare.</p> <p>Remarks. Past workers regarded the long thin plates in the mouth region as mandibular bones supporting the lower jaw cartilages, but these have been reinterpreted as occlusal plates on the lower jaws (Newman et al., 2012). The cheek plate probably functioned as an operculum for the branchial region, given its position extending between the mouth and the shoulder girdle. The V-shaped layout of elements in the branchial region is comparable with that observed in the Permian acanthodid Acanthodes (Miles, 1973b) and recently in the Carboniferous shark Ozarcus mapesae Pradel et al., 2014, deemed by the latter authors to represent the ancestral gnathostome condition (Pradel et al., 2014, figure 3).</p> <p>Middle Devonian isolated spines which Agassiz (1844 –45) assigned to Homacanthus gracilis (Eichwald), 1844 (synonym: Homacanthus arcuatus Agassiz, 1845) are identical to pectoral spines of Diplacanthus crassisimus. The spines are curved, laterally compressed, and have a prominent ridge along the leading edge, a few smooth longitudinal ribs on the flanks, and a double row of recurved denticles along the distal half of the posterior face of the spines (Denison, 1979, figure 22I). Other spines from the Baltic with posterior denticles extending the length of the exserted part of the spine, which have previously been assigned to H. gracilis, are pectoral spines of D. tenuistriatus. Gross (1973) described the histology of the double row of recurved denticles in juvenile spines from erratic blocks in the Middle Devonian Baltic region, and his description accords with our observations on the histology of the recurved denticles in the pectoral spine of D. crassisimus (as well as D. tenuistriatus). Spines assigned to H. gracilis are also recorded from the Narova, Aruküla, and Burtnieki beds (Eifelian-Givetian) in the Baltic (Lyarskaya, 1975; Denison, 1979; Valiukevičius, 1998, table on p. 7) and Stolin beds (middle Givetian) in Belarus (Plax, 2015).</p> <p>Watson (1937, figure 16) and Miles (1973a, text-figure 39) both described and illustrated the arrangement of elements forming the shoulder girdle, but neither of their reconstructions is totally accurate. Interpretation of the structure has been hampered by the ventrodorsal (Figure 7.1-3) or lateral (Figure 7.4) flattening of the components, and is best interpreted by examination of isolated complexes (Figure 7.5, 7.6).</p> <p>As originally described by Gross (1947), the scales of Diplacanthus crassisimus (D. striatus) differ markedly from most other acanthodian scales, particularly in their crown ornament (Figure 11.2 -9, 11.12-15). Gross (1947, p. 126) mentioned that the crown does not have the typical acanthodian sculpture of radial ribs, but instead possesses delicate ribs (“feine Leisten”), arranged in semicircles with the open side in an anterior direction, at least in the anterior part of the crown. Comparison of the original description and figured specimens of Diplacanthus? carinatus Gross (1973, p.73, plate 36.8-10) – a species based on scales from erratic blocks in northern Germany transported from the Eifelian Narova Beds of the Baltic region – with the scales of D. crassisimus, indicates that D.? carinatus is also a synonym of D. crassisimus. Valiukevičius (1985, 2003) assigned scales from the Baltic Narva Regional Stage and the Eifelian? Vstrechnaya Formation, Severnaya Zemlya to D. carinatus. Plax and Kruchek (2014) and Plax (2015) assigned scales from the Givetian Goryn, Stolin and Moroch beds in Belarus to D. carinatus. Based on morphological and histological similarities and contemporaneous occurrences, Homacanthus gracilis, D. FIGURE 8. Diplacanthus crassisimus shoulder girdle thin section images. 1, 2, NMS G.2014.33.8 from west of Castletown Harbour, Caithness: 1, section through pectoral spine, pinnal plate,?procoracoid, and scapulocoracoid; 2, transverse section through base of pectoral fin spine enclosed by pinnal plate and remnants of the endoskeletal coracoid plate; 3–5, section through admedian spine NMS G. 2015.11.2 from Gamrie, Banffshire: 3, proximal end of admedian spine, inner bone base layer is the coracoid; 4, line drawing of reconstructed section; 5, scale-like ornament towards edge of admedian spine (area box in 4). Scale bars equal 1 mm in 1, 2, 4; 0.1 mm in 5.</p> <p>carinatus (in part), and D.? carinatus (in part) are here all considered junior synonyms of D. crassisimus.</p> <p>Diplacanthus kleesmentae Valiukevičius, 1986 (in Valiukevičius and Karatajūtė-Talimaa, 1986), based on rather poorly preserved scales from the late Emsian to early Eifelian of the Baltic region, is also similar to D. crassisimus, with numerous delicate ribs arranged in horseshoe-shape around a deep pit near the anterior edge of the scale. However, D. kleesmentae scales have only a low broad, central ridge, and the delicate transverse ridges are not present in the lateral and posterior areas of the crown; also, the crown is formed of up to 10 growth zones. Another scalebased taxon Diplacanthus gravis Valiukevičius, 1988a from the Eifelian-Givetian Aruküla Regional Stage in the Baltic differs from the Scottish species in having a convex base that is almost pointed at its deepest, and the crown normally has two paired, branching ridges medially running the length of the crown. Diplacanthus poltnigi Valiukevičius, 2003 from the Lochkovian of Severnaya Zemlya and the Canadian Arctic differs in having subparallel grooves extending the length of the crown, or converging near the posterior corner. This species should probably be reassigned to Uraniacanthus based on the crown ornament. Diplacanthus horridus Woodward, 1892 and D. ellsi Gagnier, 1996 from the Frasnian Miguasha Formation, Quebec, differ in having scales with subparallel ridges, comparable to the ornament on scales of Rhadinacanthus longispinus.</p> </div>	https://treatment.plazi.org/id/038ACF35FFB5FF92A266F963FAA1850D	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Plazi	Burrow, Carole;Newman, Michael;Davidson, Robert	Burrow, Carole, Newman, Michael, Davidson, Robert (2016): The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland. Palaeontologia Electronica 19: 1-83, DOI: 10.26879/601, URL: http://palaeo-electronica.org/content/2016/1398-scottish-diplacanthid-fishes
038ACF35FFA0FFA0A0E8FAC8FE79820E.text	038ACF35FFA0FFA0A0E8FAC8FE79820E.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Diplacanthus tenuistriatus Traquair 1894	<div><p>Diplacanthus tenuistriatus Traquair, 1894</p> <p>Figure 1.3 -44, Figure 13, Figure 14, Figure 15,</p> <p>Figure 16, Figure 17, Figure 18, Figure 19, Figure 20, Figure 21, Figure 22, Figure 23</p> <p>1892 Homacanthus borealis Traquair; Traquair, p. 205, pl. 8.</p> <p>1895 Diplacanthus tenuistriatus; Traquair, p. 244.</p> <p>1900 Diplacanthus tenuistriatus; Wandolleck, p. 360, 365.</p> <p>1904 D. tenuistriatus; Goodchild, p. 595.</p> <p>1907 Diplacanthus tenuistriatus; Dean, p. 216, 222.</p> <p>1923 Diplacanthus tenuistriatus; MacFarlane, p. 303.</p> <p>1937 Diplacanthus tenuistriatus; Westoll, p. 22.</p> <p>1940 Homacanthus gracilis (EICHW.), in part; Gross, p. 21, pl. 1, 2.</p> <p>1954 Diplacanthus tenuistriatus Agassiz; Waterston, p. 12.</p> <p>FIGURE 9. Line drawings of serial transverse sections through pectoral girdle elements of Diplacanthus crassisimus; sketch of whole specimen NMS G. 2014.4.30 used to denote position of the sections shown in 2, 3 (mirror image sketch in latter). 1, serial destructive Sollas sections through admedian spine from west of Castletown, Caithness. 2, thin sections A–L through an isolated pectoral girdle complex NMS G.2014.33.8, from west of Castletown harbour. 3, Sollas sections 1–15 through an isolated juvenile pectoral girdle complex (without pectoral spine) from west of Castletown, Caithness. Abbreviations: adm.s=admedian spine; p.fs=pectoral fin spine; scap=scapula.</p> <p>? 1973 Homacanthus gracilis, in part; Gross, p. 86.</p> <p>1973 Diplacanthus? carinatus Gross, in part; Gross, p. 72-73, pl. 36.8.</p> <p>1976 Diplacanthus tenuistriatus Traquair; Paton, p. 11-12.</p> <p>1979 Diplacanthus tenuistriatus Traquair; Denison, p. 32.</p> <p>1979 Homacanthus gracilis, in part; Denison, fig. 32J.</p> <p>1985 Diplacanthus? carinatus Gross, in part; Valiukevičius, pl. 1.3, 1.5, pl. 3.1, 2, pl. 11.9</p> <p>1997 D. tenuistriatus; Young, p. 48.</p> <p>1999 D. tenuistriatus Traquair, 1894; Dineley, p. 3.</p> <p>2006 akantoodi somused; Kleesment, Nestor, and</p> <p>Soesoo, p. 4 top figure.</p> <p>2001 D. tenuistriatus; Hanke, Davis, and Wilson,</p> <p>p. 751.</p> <p>2005 Diplacanthus tenuistriatus (Traquair); Newman and Dean, p. 3, 4, 5.</p> <p>2010 Diplacanthus tenuistriatus Traquair, 1894;</p> <p>Newman, p. 12, 13, figs. 18, 19, 20.</p> <p>Type Material. Syntypes NMS G.1859.33.90 (counterpart NMS G.1859.33.91) from Cromarty, Moray, NMS G. 1892.8.6 (counterpart NMS G. 1892.8.7) from Gamrie, Banff and NMS G.1891.92.340 (Figure 1.4) from Gamrie, Banff.</p> <p>Referred Material. The following are all the known articulated specimens: from Achanarras Quarry, Caithness, NMS G. 1897.55.1 (part), NMS G. 1897.55.2 (counterpart) and NHM P.22198; from Tynet Burn, Moray, NMS G. 1870.14.144 and NMS G.Canon Kyle no. 1; from Gamrie, Banffshire NMS G. 1892.8.8 (part) and NMS G. 1892.8.9 (counterpart). Disarticulated remains consisting of spines and pectoral girdle complexes include: from Marwick Bay, Orkney, QM F58024, NMS G. 2014.4.18, NMS G. 2014.4.20, NMS G. 2014.4.23, NMS G.2014.7.35, NMS G.2014.7.36, NMS G.2014.15.21, NMS G.2014.15.22, NMS G.2014.20.20, NMS G.2014.44.5; from Appat Hill, Caithness, NMS G.1901.153.1; from Birsay, Orkney, NMS G.1898.163.2; from North Ronaldsay, Orkney, NMS G.2014.33.1; from Flashes, Hoy, Orkney, NMS G. 2014.4.27.</p> <p>Distribution within the Orcadian Basin (Figure 2). Diplacanthus tenuistriatus is the rarest of the diplacanthid species. It is found in some of the Moray Firth nodule beds including Gamrie, Cromarty, and Tynet Burn. One articulated specimen NMS.G1879.55.1, 2 is known from Achanarras Quarry. From Caithness there are also three isolated spines NMS G1892.91.1 from Lybster (holotype of Homacanthus borealis, Figure 1.3), NMS G 1901.153.1 from Appat Hill (Figure 14.5), NMS.G.1965.36 from Taldale Quarry, as well as a pectoral girdle complex NMS G.1898.152 from Brims Ness. In Orkney the species is also rare and mostly represented by isolated spines found with the placoderm Dickosteus threiplandi (Miles and Westoll, 1963) in deposits of the Upper Stromness Flagstone Formation. The species has not been found in the Sandwick fish bed. Recently a spine (NMS.G.2014.33.1, Figure 16.7) was collected on the island of North Ronaldsay in the Middle Rousay Formation, occurring with the placoderm Millerosteus minor (Miller, 1858).</p> <p>Revised Diagnosis. Diplacanthus with spines ornamented with finely striated, closeset longitudinal ridges; pectoral spines have five to nine ridges per side, and paired rows of denticles along the whole length of the exserted portion of the spine, with larger denticles distally and smaller close set denticles proximally; admedian spines about a third the length of the pectoral spines; prepelvic spines slightly shorter than pelvic spines; median spines with long insertion, about a quarter to a third the total length of the spine; anal spine shows moderate curvature; grooves between spine ridges subcircular or flask-shaped in cross-section; one circumorbital plate round the anterodorsal quarter of the orbit; scale crowns with U- or V-shaped straight or sinuous ridges fanning out from the posteromedian ridge and often bifurcating towards the lateral edges; scale crowns are formed of mesodentine, lacking wide radial and ascending canals other than a few canals opening low in the neck.</p> <p>Description. Head Region. (Figure 13.4) Diplacanthus tenuistriatus closely resembles D. crassisimus, differing in the characters noted in the diagnosis. A few specimens have poorly preserved elements on the head. The one large circumorbital plate is anterodorsally positioned and about a quarter the circumference of the orbit. The occlusal plates are slender and about the length of the orbit. Cheek plates appear to be shorter than the occlusal plates.</p> <p>Morphology of the Spines. (Figures 13, 14, 15) Most distinguishing characters for Diplacanthus tennuistriatus are spine features. Compared with spines of D. crassisimus in D. tenuistriatus the furrows between longitudinal ridges on the sides are are much narrower (Figures 14, 15) and the flattened surfaces of the ribs exhibit a delicate striation (Figure 15.4).</p> <p>FIGURE 15. Diplacanthus tenuistriatus anterior dorsal fin spines. 1, NMS G.2014.7.35 from Marwick, Orkney. 2–4, NMS G.2014.44.5 from Marwick, Orkney: 2, complete specimen in matrix; 3, magnified view of proximal exserted part; 4, magnified view of the same area. Scale bars equal 1 cm in 1–3; 1 mm in 4.</p> <p>The large fish NMS G.1897.55.1, 2 (Figure 13.1-3) has a preserved length from the tip of the tail to the base of the anterior dorsal spine of about 280 mm and an estimated total length of about 350 mm, and the spines are rather short in proportion to the dimensions of the fish, compared with Diplacanthus crassisimus. Isolated spines (Figures 14, 15), of roughly the same size as those on NMS G.1897.55.1 and 2, are regarded as mature.</p> <p>The pectoral spine of Diplacanthus tenuistriatus has a rather strong posteriorly directed curvature and an asymmetrical cross section. The main pulp canal is closed over the total length of the exserted part. The denticles in the double row along the posterior edge are larger distally, regularly spaced c. 0.9 mm apart, and smaller proximally, c. 0.6 mm apart (Figure 14.1-3). The pectoral spines are characterized by narrow furrows between the flattened lateral ridges, with a micro-ornament of delicate striations (Figure 14.3). The deep furrows also tend to close over proximally. Ridge number ranges from five to nine, increasing with size of the spines, and often with one more ridge on the upper (dorsally oriented) more convex side (Figure 14.4). The base of the pectoral spine fits in a socket formed mainly by the scapulocoracoid and partly by the lateral edge of the pinnal plate (Figure 14.7). The admedian spine is ankylosed with two elements of the girdle: a dermal plate on the procoracoid and the dermal pinnal plate.</p> <p>The anterior dorsal fin spine (Figure 15) is the sturdiest of the median spines. In lateral view the spine is almost straight along the posterior side and slightly curved along the leading edge. The inserted part comprises about one fourth of the total length and is subtriangular in shape with a concave anterior margin, deepening towards the insertion-exsertion boundary. The boundary line between these parts is oblique, resulting from the slanting position in life. In cross section, the height:width ratio varies from about 1.5 near the tip to about 1.8 near the insertion. Total length of the spine is about 10 times the maximum height in cross section.</p> <p>The broad, open main pulp canal of the inserted part extends as an open canal over a short distance in the proximal exserted part of the spine, beyond which it is closed. The posterior face over the main pulp canal is slightly concave with a broad central ridge lengthwise along the midline, with a narrow central groove. The leading edge ridge is rounded and extends over the full length of the exserted part. The lateral ridges, almost parallel to the anterior ridge, increase in number proximally associated with the growth of the spine. There are no ridges or only one or two on each side towards the spine tip. The ridges are rounded in cross section distally but become flattened proximally, increasing in number to nine or 10, comparable to mature anterior dorsal spines of Diplacanthus crassisimus. The number of ridges can vary on either side of the spine. Depth of the furrows between the ribs increases proximally, often closing over completely close to the insertion/ exsertion boundary. Growth lines on the exserted part, parallelling the insertion-exsertion boundary, are visible on better preserved spines (Figure 15.3).</p> <p>The posterior dorsal fin spine (Figure 13.1, 13.4) is shorter than the anterior dorsal spine, and the number of lateral ridges is considerably less, with a maximum of only four or five per side. The length to maximum depth ratio is c. 13:1; height:width proportion is 1.4 near the tip and 1.3 near the insertion. Both anterior (leading) and posterior (trailing) edges of the spine are 'bent' at the insertion-exsertion boundary, so that the spine is angled back relative to the anterior dorsal spine (Figure 13.1, 13.4). The anal fin spine is strongly curved and more slender than the posterior dorsal spine, with four lateral ridges on each side. Length to maximum depth ratio is c. 16:1, height:width proportion varies from about 1.2 near the tip to about 1.0 near the insertion. The main pulp canal remains open over a third of the exserted part.</p> <p>The paired pelvic fin spines are less strongly curved than the anal spine and are about two thirds its length, with only two or three lateral ridges. The prepelvic spines are relatively small and of the same shape as the admedian spines, being rather flat, sharply pointed near the posteriorly directed tip and broadly rounded near the laterally expanded base.</p> <p>The very fine striations on the flattened surface of the ridges mentioned by Traquair (1894) occur in all our studied spines, even on the narrow ridges of the admedian spine. In cross sections the striae show as sharp crests, separated by concave, shallow grooves (Figure 16.4). The crests occur at rather irregular intervals, separated between about 40 μm and 80 μm from the next crest. A conspicuous feature of the striae is that they are not all parallel with the lengthwise direction of the ridges, sometimes being oblique bundles over the full width of a rib, or as a chevron like ornamentation, or as a few radiating lines; they never branch (Figure 15.4).</p> <p>Histology of the Spines. (Figures 16, 17) In Diplacanthus tenuistriatus the median, pectoral, and admedian spines all have at least one accessory pulp canal above the main canal. This accessory pulp canal is often somewhat irregular in cross section and although much smaller than the main pulp canal, its diameter is relatively large when compared with the same canal in Rhadinacanthus longispinus. The main pulp canals (Figure 16.5, 16.7) lack the well-developed lamellar infill seen in spines of D. crassisimus. Trabecular dentine forms the inserted parts of the median and pectoral spines and surrounds the accessory pulp canal, with radially arranged vascular canals extending from the more cancellous inner osteodentine. Ornament ridges are formed of osteodentine with fine dentine tubules radiating out to the surface from a network leading to the vascular canals (Figure 16.3-4). The dentine of the ridges has a sharp boundary with a thin outer layer that covers their exterior surface. It is this thin layer on which the superficial striae are developed, and which can cover over the deep grooves between the ridges (Figure 16.6). Small canals run from the vascular canals and open out in the deep grooves between the ribs.</p> <p>Shoulder Girdle Complex. (Figures 18, 19, 20) In the endoskeleton, the scapular shaft of the scapulocoracoid has a vertical, swollen ridge between the broad posterior flange and the narrower postbranchial flange (Figure 18.1, 18.4). The ridge is hollow and always calcite filled. A notch separates the postbranchial flange from the coracoid, with scapula, coracoids, and procoracoid forming a single element. The proximal end of the pectoral spine is rigidly fixed in a socket formed by the pinnal plate and scapulocoracoid (Figures 18.9, 19).</p> <p>The dermal shoulder girdle complex comprises an anterior ventral plate, pinnal plate, admedian spine, with a thin, lamellar plate covering the visceral side of these three elements (Figures 18.4, 19). A wedge of the ventral plate surrounds the proximal part of the admedian spine. The ornament on the ridges of the admedian spine is identical to that of the scales at their bases (Figure 18.2). The pinnal plate lateral to the admedian spine bears ordered, closeset small scales, comparable to normal body scales (Figure 18.3, 18.6 -8). The pinnal plate is concave and has a triangular shape.</p> <p>Morphology of the Scales. (Figures 21.1-3, 22.2- 3, 23) The outline of the scale crowns of Diplacanthus tenuistriatus is roughly identical to those of the other Middle Devonian Diplacanthidae. The anterior margin is evenly rounded, the lateral corners are more sharply rounded, and the somewhat concave posterolateral margins join in a sharp point. The anterior half of the crown is ornamented with U-shaped or V-shaped ridges, the open side anterior (Figure 23). These ridges are fewer than in D. crassisimus and much less regularly placed. The ridges in the anterior part of the crown fan out towards the lateral corners, where they often bifurcate. In top view the shape of these ridges is often highly irregular, some may be S-shaped, the next ones curved in different directions. The crown has a high sharp median crest running along the posterior half. The crest starts in the anterior part of the crown with two of the V-shaped anterior ridges joining to form the ridge, with the crest increasing in height from anterior to posterior (Figure 23.8). The transverse ridges are serrated like those of D. crassisimus, inclined posteriorly, and overlap ridges behind them on the posterior half of the crown surface. The posterior margins of the scales are only rarely strongly denticulated (Figure 23.11). The neck of the scales is markedly concave all round, with a few buttresses on both anterior and posterior faces which bifurcate into a large number of much smaller ridges, each of them supporting one of the ribs of the crown surface (Figure 23.1, 23.15). In cross section the neck and base are oval in shape, wider than long. The base and the neck are always below the anterior part of the crown and the posterior part of the crown rises above the level of the rest of the scale. The basal surface of the scale is not usually flat as in D. crassisimus, but convex centrally and flattening out towards the marked base-neck rim.</p> <p>Scale morphology is markedly constant over the flanks, with a sharp transition between body scales and the much smaller scales on the fin webs (Figure 13.3). Fin web scale rows are parallel to the spine on the median fins, and parallel to the body on the pelvic fins (Figure 13.1-3). The position of the lateral line cannot be determined, indicating it is only edged by normal flank scales. The caudal fin shows the same zonation as in other acanthodians such as Euthacanthus macnicoli Powrie, 1864 (Newman et al., 2014, figure 12).</p> <p>Histology of the Scales. (Figures 21.4 -9, 22.4-8, 22.11-16) In Diplacanthus tenuistriatus the ascending canals in the neck and horizontal canals in the crown are narrower than those in D. crassisimus and Rhadinacanthus longispinus. Fine dentinal tubules with sparsely distributed lacunae extend from the narrow canals, forming a mesodentinal network. The five to eight crown growth zones each have a separate network (Figure 22.5, 22.13). In the older growth zones, long dentinal tubules reach further towards the crown centre than in younger growth zones (Figure 22.4). As a result the newer ridges grew mainly by horizontal addition, not by superposition of new ridges above older ones.</p> <p>Two dentine tubules rise up from lacunae in the neck, then loop twice horizontally near the anterior edge of the crown, where they again join into lacunal widenings, regularly spaced along the anterior edge of the growth zone. From these lacunae, one or two long tubules extend towards the centre of the scale below one or two of the grooves between the ridges on the crown surface. Along their length, which may exceed 250 μm, swollen nodes or lacunae are sometimes present from which short, fine tubules extend out. The long tubules terminate in tufts of repeatedly branching, ever finer tubules, rising up and back into the ridges of the crown surface.</p> <p>Short horizontal tubules lead off more irregularly occurring lacunae in the posterior parts of the crown. Relatively wide radial canals with a maximum diameter of about 10-12 μm open out low between the neck buttresses. There are only two or three of these radial canals in the posterior neck and occasionally one or two shorter ones anteriorly (Figure 22.4, 22.12). The canals lie over the boundary between the base of the neck and the base cone, with smaller, interconnecting dentine tubules leading off them horizontally and vertically, ascending into the growth zones of the neck. Other fine dendritic dentine tubules, sometimes with lacunal widenings, open directly to the outside of the neck, again between the buttresses, and lead up to form tufts in the growth zones of the neck. Wide circular canals, low in the crown, have narrower canals traversing growth zones and rising up towards the crown surface, branching into finer tubules (Figure 22.4, 22.14).</p> <p>The top surface of the scale base has a rather flat conical shape (Figure 22.13-16). Cell lacunae are absent, and rare canals of Williamson extend through the base. Laminar layers forming the base are more or less parallel to the lower side, visible as a very faint banding under normal white light. With crossed polars the scale base exhibits conein-cone sheets of isopedin-like light and dark bands, the cones parallel with the top cone (Figure 22.13). Vertical sections show up to seven darker bands, with other banding perpendicular to the parallel bands. These bandings correspond to the layout of Sharpey's fibre bundles through the base (see Burrow, 2001, figure 5).</p> <p>Remarks. Diplacanthus tenuistriatus shows closest similarity to D. crassisimus in the layout of the pectoral girdle, spine ornament, and scale structure. Traquair (1894), in his short but concise description of Diplacanthus tenuistriatus, mentioned a number of distinguishing features, mostly concerning the spines. He compared the spines of</p> <p>PE Note: Erratum to Burrow et al., 2016</p> <p>10 April 2016</p> <p>The caption of Figure 20 was misprinted in Burrow, Carole, den Blaauwen, Jan, Newman, Michael, and Davidson, Robert. 2016. The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland. Palaeontologia Electronica 19.1.10A: 1- 83</p> <p>palaeo-electronica.org/content/2016/1398-scottish-diplacanthid-fishes</p> <p>On page 30, Figure 20 has the caption for figure 30 and a duplicate Figure 30 appears with the caption for Figure 20 (Figure 30 appears correctly on page 42). The following is the correct caption for Figure 20.</p> <p>the new species with those of D. striatus (= D. crassisimus) and stated that in D. tenuistriatus the longitudinal ridges on the sides are less numerous and broader, the furrows between the ridges much narrower, and the flattened surfaces of the ribs exhibit a delicate striation. Of these features, the observation that ribs are less numerous is only true in immature specimens.</p> <p>The pectoral spine of Diplacanthus tenuistriatus has several features in common with the pectoral spines of the other Scottish Middle Devonian diplacanthids: the rather strong posteriorly directed curvature, the asymmetrical cross section, the main pulp canal closed over the total length of the exserted part, and the double row of recurved denticles along the posterior edge. Some of the isolated spines from the Middle Devonian of the Baltic, previously assigned to Homacanthus gracilis, are pectoral spines of D. tenuistriatus. As noted above, these can be distinguished from those of D. crassisimus by the posterior denticles extending most of the length of the spine, and by having fine striations on the ornament ridges (e.g., Gross, 1940, plate 1.2, 1.1, respectively).</p> <p>Traquair (1894) gave only a short, superficial description of the scales of his new species, stating that they were similar to those of Diplacanthus striatus (= D. crassisimus). The sculpture of the crown surface is completely different from the crown in Rhadinacanthus longispinus. Gross (1973, p. 72, 73) erected a new species Diplacanthus? carinatus for relatively large scales with a more robust sculpture than he recognized in D. striatus scales. We identify these scales from the Narva–Burtnieki Regional Stages (Eifelian) in the Baltic (e.g., Gross, 1973, plate 38.9) as D. tennuistriatus. More scales from the same deposits which Valiukevičius (1985, plate 1.3, 1.5, 3.1-2, 11.9) assigned to D.? carinatus are also here considered to be from D. tenuistriatus, as well as scales (including GIT 730- 3: Kleesment et al., 2006, top figure p. 4) from the Givetian Härma beds of Burtnieki Regional Stage, Karksi outcrop, southern Estonia catalogued as Diplacanthus carinatus.</p> </div>	https://treatment.plazi.org/id/038ACF35FFA0FFA0A0E8FAC8FE79820E	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Plazi	Burrow, Carole;Newman, Michael;Davidson, Robert	Burrow, Carole, Newman, Michael, Davidson, Robert (2016): The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland. Palaeontologia Electronica 19: 1-83, DOI: 10.26879/601, URL: http://palaeo-electronica.org/content/2016/1398-scottish-diplacanthid-fishes
038ACF35FF92FFA0A386FDC8FD75841B.text	038ACF35FF92FFA0A386FDC8FD75841B.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Rhadinacanthus Traquair 1888	<div><p>Genus RHADINACANTHUS Traquair, 1888</p> <p>Type Species. Diplacanthus longispinus Agassiz, 1844</p> <p>Diagnosis. Diplacanthid having fin spines with a smooth rounded ridge along anterior/leading edge separated by a groove from flat sides with 0–4 ridges; narrow posterior flange on scapula; scale crowns ornamented with parallel or converging ridges leading back from anterior crown edge, usually with denticulated posterolateral edges; scale crown with up to six superposed growth zones composed of mesodentine with long branching tubules extending centripetally from lacunal widenings.</p> <p>Included Species. Diplacanthus horridus Woodward, 1892; Diplacanthus ellsi Gagnier, 1996.</p> </div>	https://treatment.plazi.org/id/038ACF35FF92FFA0A386FDC8FD75841B	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Plazi	Burrow, Carole;Newman, Michael;Davidson, Robert	Burrow, Carole, Newman, Michael, Davidson, Robert (2016): The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland. Palaeontologia Electronica 19: 1-83, DOI: 10.26879/601, URL: http://palaeo-electronica.org/content/2016/1398-scottish-diplacanthid-fishes
038ACF35FF92FFB1A38FFBF2FD398749.text	038ACF35FF92FFB1A38FFBF2FD398749.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Rhadinacanthus longispinus (Agassiz 1844)	<div><p>Rhadinacanthus longispinus (Agassiz, 1844)</p> <p>Figure 24, Figure 25, Figure 26, Figure 27, Figure 28, Figure 29, Figure 30, Figure 31, Figure 32,</p> <p>Figure 33, Figure 34, Figure 35, Figure 36, Figure 37</p> <p>1841 ichthyolite; Miller, pl. 8.1.</p> <p>1844 Diplacanthus longispinus; Agassiz, p. 34, 42; pl. 14.8, 9.</p> <p>non 1844 Diplacanthus longispinus; Agassiz, pl. 13.5.</p> <p>1848 Diplacanthus perarmatus M'Coy; M'Coy, p. 301.</p> <p>1855 Diplacanthus perarmatus; M'Coy, p. 585, pl. 2B.3.</p> <p>1888 Rhadinacanthus longispinus (Agassiz 1844), in part; Traquair, p. 512.</p> <p>1890 Rhadinacanthus longispinus (Ag.); Traquair, p. 482.</p> <p>1891 Diplacanthus longispinus; Woodward, p. 26, 27; pl. 3.1.</p> <p>1904 Rhadinacanthus longispinus; Goodchild, p. 595.</p> <p>1940 Diplacanthus longispinus; Gross, p. 28, fig. 3E, F.</p> <p>1947 Rhadinacanthus (Diplacanthus) longispinus (Agassiz); Gross, p. 126, textfig. 14, pl. 6.1, 2.</p> <p>1954 Diplacanthus longispinus Agassiz; Waterston, p. 11.</p> <p>1973 Rhadinacanthus balticus Gross; Gross, p. 71, 72, figs. 8J, K, 9A-D, pl. 28.13-15.</p> <p>1975 Rhadinacanthus longispinus; Saxon, p. 15.</p> <p>1976 Rhadinacanthus longispinus (Agassiz 1845); Paton, p. 12, 13.</p> <p>1979 Diplacanthus longispinus Agassiz 1844; Denison, p. 32, fig. 21D-F.</p> <p>1979 D. balticus (Gross) 1973 [Rhadinacanthus]; Denison, p. 32, figs. 9D, 10F.</p> <p>non 1984 Diplacanthus longispinus; Poltnig, pl. 2.1-7.</p> <p>1985 Rhadinacanthus balticus? Gross; Valiukevičius, p. 32, figs. 2, 4. 5, 6, 7.</p> <p>1988a Rhadinacanthus balticus; Valiukevičius, p. 603, table 2.</p> <p>1988a Rhadinacanthus multisulcatus; Valiukevičius, p. 603, 604, table 2.</p> <p>1988b Rhadinacanthus balticus; Valiukevičius, p. 78.</p> <p>1988b Rhadinacanthus multisulcatus Valiukevičius; Valiukevičius, p. 78, 79, fig. 2, pl. 8.9-13.</p> <p>1982 Diplacanthus longispinus; Andrews, p. 44.</p> <p>1991 Rhadinacanthus longispinus Traquair; Frickhinger, p. 243.</p> <p>1994 Rhadinacanthus balticus Gross; Valiukevičius, figs. 5, 7.</p> <p>1994 Rhadinacanthus multisulcatus Gross; Valiukevičius, p. 119, fig. 7.</p> <p>1995 Rhadinacanthus longispinus; Young, p. 67, figs. 1, 6.</p> <p>1997 Rhadinacanthus longispinus; Young, p. 48.</p> <p>1999 Rhadinacanthus longispinus (Agassiz 1845); Trewin and Davidson, p. 543.</p> <p>1999 ‘ Rhadinacanthus’ Diplacanthus longispinus Agassiz; Dineley, fig. 16.12G.</p> <p>2000 Rhadinacanthus balticus Gross; Valiukevičius and Kruchek, figs. 1, 4, 5, 6.</p> <p>2000 Rhadinacanthus multisulcatus Valiuk; Valiukevičius and Kruchek, p. 278, figs. 1, 4, 5.</p> <p>2001 Rhadinacanthus longispinus; Hanke, Davis, and Wilson, p. 751.</p> <p>2002 Rhadinacanthus multisulcatus; Valiukevičius, p. 216.</p> <p>2005 Diplacanthus longispinus (Agassiz); Newman and Dean; p. 3, 4.</p> <p>2008 Rhadinacanthus multisulcatus; Märss, Kleesment, and Niit, table 1.</p> <p>2010 Diplacanthus longispinus Agassiz, 1845; Newman, p. 10-11, figs. 15-17.</p> <p>2011 Rhadinacanthus multisulcatus; Upeniece, p. 18, table 1.2.</p> <p>2012 Diplacanthus longispinus; Newman, Davidson, den Blaauwen and Burrow, p. 742, 743, fig. 2C.</p> <p>2014 Rhadinacanthus multisulcatus; Plax and Kruchek, p. 32, 36, pl. 3.17.</p> <p>Holotype. Articulated fish lacking the head, NMS G. 1953.4.3 (counterpart NMS G.1859.33.4) from Cromarty.</p> <p>Referred Material. Articulated specimens of Rhadinacanthus longispinus include: from Gamrie, Banffshire, NMS G.1870.14.143, NMS G.1891.92.336, 337, NMS G.1891.92.338 (part) and NHM P.4041 (counterpart), NMS G. 1892.8.10, NMS G. 1892.8.12, 13, NMS G. 1892.8.15; NMS G. 1892.8.16 (counterpart) and NMS G. 1892.8.17 (part), NHM P.11760; from Cromarty, Ross and Cromarty, NMS G.1859.33.4; from Tynet Burn, Moray, NHM OR.43276; from Cushnie Burn, Banffshire, NMS G.2002.59.142; from Cruaday Quarry, Orkney, NMS G.1891.92.334 and NMS G 1966.49.9; from Achanarras Quarry, Caithness, NMS. G.2014.4.32. Disarticulated specimens found useful for this study include: from Cromarty, NMS G.2014.44.1; from the west of East Murkle Bay, Caithness, NMS G.2014.4.33; from Clardon Haven, Caithness, NMS G.2014.15.1; from the Thurso area, Caithness, NMS G.1859.33.703; from Taldale Quarry, Caithness, NMS G. 1968.5.2; from Marwick, Orkney, NMS G.2014.15.2, NMS G.2014.33.4 and NMS G.2014.33.7; from Broad Taing, Orkney, NMS G. 2015.11.1; from North Ronaldsay, Orkney, NMS G.2014.33.2.</p> <p>Distribution within the Orcadian Basin (Figure 2). Many well-preserved specimens are known from the Moray Firth nodule beds including Cromarty, Eathie, Gamrie, and Lethen Bar, but not Edderton. Several articulated specimens are from Achanarras Quarry, but otherwise in Caithness only rare, disarticulated spines have been collected from some coastal localities (e.g., Castletown and the coast east of Thurso). From Orkney a few rare articulated specimens are known from the Sandwick fish bed. As in Caithness, spines are also found in the sediments exposed along the coast, especially in beds from the Upper Stromness series. Scales of Rhadinacanthus longispinus are also commonly found in coprolites from both Orkney and Caithness, often in beds where isolated spines were collected. A spine NMS.G.2014.33.2 (Figure 27.6) was recently found in the Middle Rousay Formation at North Ronaldsay together with the placoderm Millerosteus minor.</p> <p>Diagnosis. Diplacanthid having fin spines with a leading edge ridge and smooth flat sides; posterior dorsal fin spine longer than anterior dorsal spine; pectoral fin spine almost straight with minute posterior denticles; large ornamented cheek plate about a third the length of the head plus branchial region; one large thin circumorbital plate anterodorsal to the orbit.</p> <p>Description. Head Region. (Figures 24, 25) The tectal region of the head is covered with polygonal tesserae, with smaller scales and/or tesserae over the rest of the head and branchial region. Elongate scales line the supraorbital sensory canal (Figure 25.2). The only larger dermal structures are the thin circumorbital plates extending around a third of the anterior circumference of the orbit, the occlusal bones on the lower jaws, and relatively large ornamented cheek plates extending about a third the length of the head and branchial region. The cheek plates are ornamented with small flat tubercles or short ridges (Figure 25.6). The length of the occlusal plates is equal to the diameter of the orbit (Figure 25.1, 25.3). There is no sign of a postorbital plate, and no evidence is visible indicating the position of the branchial arches.</p> <p>Morphology of the Spines. (Figures 24, 26) In Rhadinacanthus longispinus, the median spines are relatively long and slender structures. The anterior dorsal spine (Figures 24, 26.1) is slightly shorter than the posterior one (Figures 24, 26.3) and both are slightly curved posteriorly. The posterior dorsal fin spine measures about a quarter the length of the fish. The anal fin spine (Figures 24, 26.4) is more strongly recurved than the two dorsal spines, and is positioned almost diametrically opposite the posterior dorsal. The anal spine is slightly shorter than the anterior dorsal spine. The pelvic and pectoral spines are of almost identical length (Figures 24, 26.5), both shorter than the anal spine, and each about half the length of the posterior dorsal. The prepelvic spines are about half the length of the pelvic spines, and the admedian spines are about a quarter the length of the pelvic spines (Figure 24).</p> <p>All median spines have a relatively long inserted part, showing the identical narrow, parallel ribs which typify all diplacanthiforms (Newman et al., 2012; Figure 26.2). All spines have a broad evenly rounded leading edge ridge, separated by a single deep groove from the side wall. In cross section the sides are rather flat to slightly convex. Towards the base the posterior face widens, giving the cross section a roughly triangular shape. In cross section the exserted part of the anterior dorsal fin spine is rather high, with the height:width ratio ranging from c. 1.6 near the tip to about 1.3 FIGURE 30. Rhadinacanthus longispinus median fin spines from mature fish, transverse section drawings. 1, 2, posterior dorsal spine NMS G.2014.4.33 from the slates west of East Murkle Bay, Caithness: 1, spine showing position of sections; 2, sections 1–8. 3, section of posterior dorsal spine NMS G.2014.33.2 from North Ronaldsay. 4, section of anterior dorsal spine NMS G. 2014.11.1 from Broad Taing, Orkney. Scale bars equal 1 cm in 1; 5 mm in 2; 1 mm in 3, 4.</p> <p>towards the insertion/exsertion boundary. Length:maximum depth ratio is 18–21. The posterior dorsal fin spine has an almost circular cross section towards the insertion/exsertion boundary. The height:width ratio for this spine ranges from 1.4 near the tip to about 0.9 in the proximal exserted part, and it is extremely slender with a length:maximum depth ratio c. 30. The anal fin spine height:width ratio ranges from c. 1.4 about midspine to c. 1.3 in the proximal exserted part, and length:maximum depth ratio is c. 20. The dorsal and anal spines have an open main pulp canal in the proximal exserted part extending one-third to one-fifth of the total exserted length. In distal parts the main pulp canal is closed over, and often has a narrow median sulcus. In the inserted part, a deep groove, triangular in cross section, runs over the total length along the posterior face. The inserted part of the median spines has a distinctive groove near the base along the anterior side (Figure 30), which leads into the single accessory pulp canal, typical of the median spines in Rhadinacanthus longispinus. This open accessory pulp canal along the deepest inserted part is closed over in the more distal, but still inserted part of the spines.</p> <p>In the relatively short and almost straight pelvic spines, the anterior rib is a prominent structure, with only short sides below the large grooves. These spines lack a clearly delineated inserted part. In cross section the pelvic spines exhibit a slight asymmetry. The height:width ratio ranges from c. 1.1 distally to c. 0.9 proximally. The prepelvic spines are slightly higher than wide towards the tip, but broad and flat proximally with an open, shallow main pulp canal. The leading edge ridge is again a prominent feature, the sides having two smaller, well-rounded ridges paralleling it. In their proximal parts, the prepelvic spines are broader than high with a height:width ratio c. 0.7 or less. The admedian spines resemble the prepelvic spines, with a prominent, rounded leading edge ridge and just one well-rounded ridge on each side. Towards the base, the spine is much wider than long, with height:width ratio c. 0.3.</p> <p>The pectoral spines of Rhadinacanthus longispinus are always asymmetrical, one side flatter than the other and extending further posteriorly. The minute, recurved denticles along the posterior edges (Figure 26.6) are c. 0.4 mm apart towards the tip, c. 0.2 mm apart midspine, and c. 0.4 mm apart towards the base of the spine. In contrast to the median spines, the height:width ratio increases towards the base, ranging from c. 1.2 to1.5.</p> <p>Histology of the Spines. (Figures 27, 28, 29, 30) All spines have at least one accessory pulp canal (Figures 27.1-2, 27.4, 29). The pectoral and prepelvic spines have two accessory pulp canals, the second and uppermost one in the anterior ridge, although this canal can become infilled (Figure 28.2). In all other spines the only accessory pulp canal is immediately above the main pulp canal. This accessory pulp canal has a small diameter compared with the main canal, and is irregular in shape (Figures 27.1-2, 27.4, 28.2, 29). In cross section, the most conspicuous histological feature is the radial distribution of canals, visible over the whole length of spines including the inserted parts (Figures 27, 28.1-2). In the median spines the initial stage in development of the inserted part consists of trabecular tissue, enclosing vascular canals (Figures 29, 30). The trabecular tissue is separated from the main pulp canal by a thin lining of a dense tissue containing sparsely distributed cell lacunae and processes (Figure 27.2).</p> <p>The proximal end of the dentinous ornament ridges terminate sharply at the insertion/exsertion boundary, overlying the longitudinal vascular canals encased in narrow osteodenteons which open out on the inserted area. In midspine cross sections, where the main pulp canal is closed, older dentinal ridges remain clearly visible (Figure 27.1-2). Denteons infill vascular canals to a greater extent towards the tip of the spine with the infilling decreasing in thickness proximally (i.e., in the newer spine layers). A denteon only forms in the main pulp canal when it is closed posteriorly (Figure 28.6-7), initially forming along the posterior side of the main pulp canal but rapidly increasing in thickness centripetally towards the spine tip. A translucent tissue covers the dentine ridges (Figure 28.6). The radial arrangement of ridges and vascular canals is found in the median and paired pelvic and pectoral spines, but is only sporadically developed in the prepelvic spines (Figure 28.7). All spines are almost exclusively composed of dentine: trabecular dentine in the initial stages, followed by the radial arrangement of dentinal ridges, covered by a lining of more translucent durodentine, and finally by the development of denteons in vascular and pulp canals. Cell lacunae are only present in the infilling of the main pulp canal.</p> <p>Shoulder Girdle Complex. (Figures 31, 32, 33) The scapula shaft is high, with the tip often reaching higher than the proximal end of the anterior dorsal spine (Figure 32). The shaft is also slender, flaring out only minimally towards the base (Figures 31, 32). Fusion of scales on the base of the scapula (Figure 32.7) indicates that the skin was immediately overlying this endoskeletal structure. As in Diplacanthus tenuistriatus, the endoskeletal bone of the scapula, coracoid and procoracoid forms a continuous sheet, with the procoracoid presumed to be the area under the anterior base of the admedian spine (Figure 31.3). Although we have labelled structures as pinnal plates, only the inner endoskeletal bones are exposed on specimens, and it seems possible/likely that scales rather than dermal plates formed their external cover, based on the impressions underlying the endoskeletal bone (Figure 31.3). Presence of a small dermal anterior ventral plate associated with the complex appears variable, as only rarely can one be distinguished (Figure 31).</p> <p>Morphology of the Scales. (Figures 34, 35) Scale crown ornament shows little variation over the flanks of the fish; scale size decreases from the lateral line towards the dorsal and ventral surfaces and toward the tail (Trinajstic, 2001). There is quite a sharp transition from head tesserae to body scales in front of the scapulocoracoid (Figure 34.1), and from normal body scales to small rhombic scales on the fin webs (Figure 34.2). The number of crown ridges varies from 20 or more on larger scales from the central and anterior parts of the body, to about 12 mid-body (Figure 34.3-6), to fewer than 10 on scales from the end of the tail (Figure 34.9). Scales edging the lateral line are markedly larger than the other flank scales (Figure 34.7 -8). Scales on the fin webs decrease in size towards the trailing edge of the web (Figure 34.10). In outline, the flank scales of Rhadinacanthus longispinus (Figures 34.4-5, 35.1) have a broadly rounded anterior margin and rather sharp lateral corners where the anterior margin meets the posterolateral edges at an angle of about 90°. The posterolateral edges are straight or slightly concave and usually denticulated and joining posteriorly in a single sharp point (Figure 35.5, 35.8, 35.10). Scales without serrated posterior margins terminate in an acute angle. Scales are rather uniform in outline, with the crown widest forward of the centre, and width more or less equalling the length. The anterior rim of the crown surface is gently curved and smooth, with a serrated margin overlapping the anterior ends of the ornament ridges (Figure 35.2, 35.8, 35.12). The main ridges often have flattened triangular ends anteriorly, some with multiple branches (Figure 35.5), and sharp crests for the rest of their length, extending back for most or the whole length of the crown. Fine, short ridges are intercalated between the longer ridges in the anterior region of the crown (Figure 35.2, 35.8, 35.9).</p> <p>The neck of the scales is concave all round. Two rounded swellings occur posteriorly, above the sharp ridge separating the neck from the base, one on either side of the median rib supporting the posterior part of the crown (Figure 35.3, 35.6-7). The base is moderately convex. Scales on the anterior half of the body have subparallel ridges on the crown, and the neck is deeply concave below the strongly denticulated posterior margins (Figure 35.8, 35.10). The base is oval in outline. In horizontal section, the neck is wider than long with the anterior and posterior faces meeting in sharp points (Figure 35.3, 35.8). Some scales from the area in front of the anterior dorsal spine have very deep necks and flat bases (Figure 35.12), and others have four or more swellings on the neck (Figure 35.11). On the posterior half of the body, scales have only a single posterior point or sparse denticulations along the posterolateral edges. The base of these scales and sections across the neck are subrhombic in outline. Pores to the ascending vascular canals open out in the lower parts of the neck both anteriorly and posteriorly, close to the sharp rim that separates the neck from the base (Figure 35.4).</p> <p>Histology of the Scales. (Figures 36, 37) Vertical and horizontal thin sections of the scales show the average number of crown growth zones is four (Figures 36.2, 36.4-6, 37.4), the maximum is six or seven (Figure 37.1), and each zone completely covers the older one. The zones are relatively wide. Each growth zone has its own vascular and dentinal canal system. Ascending vascular canals, with an opening to the exterior along the sharp boundary between the neck and the base, parallel to the concave sides of the neck. These canals are often oval in cross section (20 µm by 50 µm), the long axis of the cross section parallel to the growth lines (Figure 36.4). Near the crown surface they are often connected by narrower horizontal canals with neighbouring ascending canals of the same growth zone (Figure 36.4).</p> <p>Where the ascending canals reach the crown table they turn horizontally, parallel with the crown surface, and situated underneath the grooves between the crown ridges (Figure 36.4). These horizontal canals have a circular cross section c. 20 µm diameter; dentine tubules branch off in posterior, lateral, and upward directions (Figures 36.2- 6, 37). The layout of these tubules, extending into the ridges from both sides, was termed "Scheitelung" by Gross (1973) in his description of Rhadinacanthus balticus.</p> <p>The horizontal canals in the grooves between the ridges are relatively long, extending the whole length of the ridges. Other horizontal canals, formed by ascending canals turning forwards from the posterior side of the scales, are much shorter and arranged more irregularly in the crown table. Dentine tubules in the ridges often anastomose, with lacunal widenings where they interconnect. The dentine of the ridges is more translucent compared with the dentinal tissues elsewhere in the scales but enameloid is not developed. Crown ridges, grooves, and horizontal canals tend to develop over equivalent structures in older growth zones (Figures 36.6, 37.1). Denteons were sometimes formed around canals of older growth zones (Figure 37.1, 37.5), although the ascending canals remained open. Short canals run from the neck surface into the neck swellings (Figure 36.5). As the scales grew, new ridges were added along the anterior rim and near the lateral corners.</p> <p>Growth lines in the crown are continuous with those in the neck and base of the scales (Figure 37.1, 37.3-4), but growth zones in the base can be obscured by secondary growth lines within each zone. Sharpey’s fibres radiate from the base apex. Canals of Williamson are densely developed in some scales (Figure 36), but only sparsely present in others (Figure 37), perhaps reflecting the age of the fish or the different preservation at different localities. Bone cell lacunae are absent.</p> <p>Remarks. Reconstructions of the whole fish (Figures 33, 38) show the deeper body profile relative to the other two Scottish species. The two diplacanthids previously referred to as Diplacanthus horridus and D. ellsi from the Frasnian Escuminac Formation, Miguasha, Canada, are more closely related to Rhadinacanthus longispinus than to D. crassisimus and D. tenuistriatus. The Canadian taxa have normal body scales with a few small parallel or converging ridges. In D. ellsi, all spines except the admedian and prepelvic ones have two to four grooves on each side; two pulp cavities of which the lower is the larger; posterior face with a central, grooved crest in which, according to Gagnier (1996), the fin web is inserted. Like D. crassisimus and D. tenuistriatus, the posterior side of the pectoral spine in D. ellsi bears two rows of recurved denticles but contrary to the development in the Scottish Middle Devonian species, these denticles become larger and further apart towards the spine tip. The relatively large scales (0.25–0.43 mm) in D. ellsi, each with about six ridges on the crown, have a high narrow neck and a flat to moderately convex base. In the neck there are two to six large openings. Scales are not overlapping, as the base of the scales is as largeor larger than the crown. In D. horridus the fin spines bear only one lateral groove and shallow striae rather than ridges along the sides. The spines show a similar structure to those of D. ellsi, with pectoral spines also having the recurved denticles along the posterior side. Some spine fragments (GIT 722-46-1, 2, 3) from the Givetian Burtnieki Stage in the Vezramnieki outcrop, Latvia are identified here as being from R. longispinus.</p> <p>The relatively small flank scales (0.08–0.14 mm wide) have four or five radial or parallel ribs, an antero-posteriorly constricted neck with two large foramina anteriorly. Flank scale crowns have a relatively constant morphology over the body, with scales edging the lateral line being larger than neighbouring scales (Trinajstic, 2001), as in Rhadinacanthus longispinus. The main variation is in the extent of the crown ridges, which extend the length of the crown on the anterior flank and only about two-thirds the length of the crown on more posterior scales. Flank scales below the lateral line have a deeper neck and base than those above the lateral line, and caudal scales have a shallower neck and base (Trinajstic, 2001).</p> <p>The original description of the scales in Rhadinacanthus longispinus Agassiz (1844, p. 43) and the accompanying figures (Agassiz, 1844 -1845, plate 14.9) are rather poor. The description of the scales given by Gross (1947) is much better, as he lists a number of important morphological and histological features. Morphologically important features are the delicate forking of the pronounced, sharply crested ribs along the rounded, anterior edge of the larger scales, the densely placed but much smaller ribs on the lateral corner of the scales near the lateral line system, and the denticulated posterolateral edges. Histologically import-</p> <p>PALAEO- ELECTRONICA.ORG ant are the relatively wide ascending and horizontal canals and the arrangement of the more delicate dentine tubules, entering the larger ridges from both sides. These features are identically developed both in scales of articulated specimens of R. longispinus and in the isolated scales from erratic blocks in northern Germany transported from the Eifelian Narova Beds of the Baltic region that Gross (1973) assigned to Rhadinacanthus balticus. We recognize this species as a junior synonym of R. longispinus because of its identical scale morphology and histology.</p> <p>Valiukevičius (1998) recorded two other species of Rhadinacanthus in the Lower and Middle Devonian of the East Baltic and Byelorussia. Rhadinacanthus primaris Valiukevičius, 1986 (in Valiukevičius and Karatajūtė-Talimaa, 1986), based on isolated scales from upper Emsian to lower Eifelian deposits, is morphologically closely related to scales assigned by Gross and Valiukevičius to R. balticus. Although the radial canals are relatively wide, the ascending and horizontal dentinal canals are less wide when compared to the same canals in R. longispinus. Delicate dentinal tubules forming the "Scheitelung" of Gross (1973), are apparently not developed in R. primaris. Rhadinacanthus multisulcatus Valiukevičius, 1988a encompasses scales from the Givetian and early Frasnian of the Baltic Region and Byelorussia. Plax and Kruchek (2014) also listed R. multisulcatus as present in the Goryn Beds (Givetian) in the Pripyat Trough, Belarus. However, the morphology and histology of these scales appear to fit within the range shown by R. longispinus, indicating that R. multisulcatus is also a junior synonym of R. longispinus.</p> </div>	https://treatment.plazi.org/id/038ACF35FF92FFB1A38FFBF2FD398749	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Plazi	Burrow, Carole;Newman, Michael;Davidson, Robert	Burrow, Carole, Newman, Michael, Davidson, Robert (2016): The diplacanthid fishes (Acanthodii, Diplacanthiformes, Diplacanthidae) from the Middle Devonian of Scotland. Palaeontologia Electronica 19: 1-83, DOI: 10.26879/601, URL: http://palaeo-electronica.org/content/2016/1398-scottish-diplacanthid-fishes
