Rhagasostoma gibbosum ( Marsson, 1887 )
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publication ID |
https://doi.org/ 10.5852/ejt.2018.490 |
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publication LSID |
lsid:zoobank.org:pub:BE023137-CC5E-4DC5-94F6-B549BB140361 |
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DOI |
https://doi.org/10.5281/zenodo.3849976 |
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persistent identifier |
https://treatment.plazi.org/id/03D587D7-9668-FF8C-F335-FBADFDA9F90C |
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treatment provided by |
Valdenar |
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scientific name |
Rhagasostoma gibbosum ( Marsson, 1887 ) |
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Rhagasostoma gibbosum ( Marsson, 1887) View in CoL
Figs 12–13 View Fig View Fig , Table 7 View Table 7
Eschara gibbosa Marsson, 1887: 71 , pl. 7, fig. 2.
Rhagasostoma subgibbosum Brydone, 1930: 48 , pl. 26, fig. 11. Syn. nov.
Rhagasostoma gibbosum var. weybournensis Brydone, 1930 pars: 48, pl. 26, figs 13–14. Syn. nov.
Rhagasostoma gibbosum View in CoL –? Levinsen 1925: 369. — Brydone 1930: pl. 26, fig. 15.
Onychocella gibbosa View in CoL –? Voigt 1930: 460, pl. l8, fig. 15. —? Veenstra 1963: 107, pl. fig. 5.
non Rhagasostoma gibbosum var. weybournensis – Brydone 1930 pars: 48, pl. 26, fig. 12.
Material studied
Figured material
GERMANY • 2 specs; Schleswig-Holstein, Saturn quarry near Kronsmoor; early Maastrichtian ; SMF 29906 ( Fig. 12 View Fig A–E), 29907 ( Fig. 12F View Fig ) .
UNITED KINGDOM • England, Norfolk; early Maastrichtian ( Ostrea lunata Zone ) of Trimingham ; SM B36679 ( Fig. 12G View Fig ; figured by Brydone 1930: pl. 26, fig. 15) .
BELARUS • 3 specs; Grodno Region; erratic block of?late Campanian age in a quarry near Hrodna / Grodno (Гродна/ Гродно); PIN 2922 View Materials /216 ( Fig. 13B View Fig ), 2922/218 ( Fig. 13A View Fig ), 2922/275 ( Fig. 13C View Fig ) .
KAZAKHSTAN • 2 specs; Emba River; late Campanian ( Belemnitella lanceolata Zone ); PIN 5502/3058 ( Fig. 13D View Fig ), 5502/3059 ( Fig. 13E View Fig ).
Other material
BELARUS • Grodno Region; erratic block of?late Campanian age in a quarry near Hrodna / Grodno (Гродна/ Гродно); PIN 2922 View Materials /274 .
Description
Colony erect, with flattened bifoliate branches (3–4 mm wide).Ancestrula and early astogeny not observed. Autozooids variable in shape, often broad and subrectangular with rounded distal ends; zooidal boundaries raised. Gymnocyst sometimes observed ( Figs 12G View Fig , 13E View Fig ). Cryptocyst extensive, finely pustulose, slightly depressed or slightly convex centrally, sometimes with proximal peripheral caverns ( Fig. 13B, C View Fig ). Opesia terminal, rarely subterminal, semielliptical with distal shelf, a thin inner wall delimiting the distolateral part of the opesia and a thickened, projecting outer wall delimiting the proximolateral part ( Figs 12C View Fig , 13C View Fig ). Proximal edge of opesia straight, smooth, thickened, with proximolateral outgrowths defining small opesiules at the corners; outgrowths often destroyed, giving opesiules the appearance of opesiular indentations. Septula not observed. Ovicells endozooidal, ooecium is formed by the distal zooid, wellrecognizable, with cryptocyst-like surface and arch-like proximal edge with elongated proximolateral processes extending along the cryptocyst of the maternal zooid ( Figs 12B, D, G View Fig , 13B View Fig , D–E). Avicularia interzooidal, smaller than autozooids, elongate. Rostrum channeled, symmetrical, with elevated winglike walls and a pointed tip, rising above the surface of the colony and tilted to the right or left, rostral tip not reaching the opesia of the distal autozooid. Rostrum tilted over the proximal part of the distal autozooid or the ooecium of a maternal autozooid. Wedge-like structures present ( Fig. 12 View Fig B–D), extending from the base to the middle of the rostrum and partially covering the opesia, but often these structures are broken ( Fig. 12E View Fig ). Proximal part rounded, shorter and wider than rostrum, cryptocyst pustulose, concave, without peripheral caverns. Opesia roundish, with two short teeth proximally, opesiules lacking ( Fig. 12E View Fig ). Kenozooids subcircular, located along the branch margins ( Fig. 12A View Fig ). Cryptocyst finely pustulose, opesia roundish ( Figs 12C View Fig , 13A View Fig , D–E). Intramural reparative kenozooidal buds sometimes observed within host autozooids and avicularia ( Fig. 13 View Fig D–E), all with the same polarity as the host zooid. Closure plates, intramural reparative budding autozooids and avicularia not observed.
Remarks
The type material of Rhagasostoma gibbosum ( Marsson, 1887) could not be found, although part of the Marsson Collection has recently been recovered ( Martha 2014). From the similar species R. tchvanovi ( Favorskaya, 1992) , R. gibbosum differs in having a rostrum that is short and tilted to the right or left instead of being long and almost straight. Rhagasostoma gibbosum can be distinguished from R. gibbosulum by the slightly convex border of the cryptocyst and the very rare presence of a gymnocystal portion.
Distribution
Late Campanian Belarus: Quarry near Hrodna / Grodno (Гродна/ Гродно), Grodno Region. Kazakhstan: Emba River. Early Maastrichtian United Kingdom: Trimingham, Norfolk, England. Germany: Saturn quarry near Kronsmoor, Schleswig-Holstein, Island of Rügen, Mecklenburg-Vorpommern.Maastrichtian: unspecified localities in Denmark.
Table 7. Summary of measurements of Rhagasostoma gibbosum (Marsson, 1887). For each parameter the range is given with the number of measurements in brackets. The arithmetic mean is given ± standard deviation. All measurements in µm.
| Basin Stratigraphy Locality | British–Belgian– Dutch Early Maastrichtian Norfolk | North German Early Maastrichtian Kronsmoor | Polish–South Baltic?Late Campanian Grodno Region | North Ust-Yurt– Aral Late Campanian Emba River | Total | |
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| AzL | 420–690 (6) 523.33 ± 113.25 | 450–810 (12) 598.33 ± 99.89 | 410–640 (18) 511.67 ± 55.44 | 500–740 (12) 574.17 ± 70.12 | 410–810 (48) 550.42 ± 85.80 | |
| AzW | 350–420 (6) 391.67 ± 29.27 | 410–650 (12) 505.00 ± 67.62 | 340–430 (18) 379.44 ± 34.04 | 390–520 (12) 450.83 ± 36.55 | 340–650 (48) 430.21 ± 67.87 | |
| Autozooids | OpL OpW CvL GL | 140–160 (6) 150–200 (12) 151.67 ± 7.53 173.33 ± 18.26 160–210 (6) 160–230 (12) 180.00 ± 20.00 198.33 ± 20.82 Not observed 180–220 (2) Not observed 200.00 ± 28.28 | 120–160 (17) 142.35 ± 12.00 140–180 (17) 161.18 ± 15.36 70–280 (15) 150.67 ± 59.10 200 (1) | 170–210 (12) 185.83 ± 13.79 170–210 (12) 182.50 ± 12.88 Not observed 120–250 (4) 185.00 ± 56.86 | 120–210 (47) 162.55 ± 22.79 140–230 (47) 178.51 ± 22.06 70–280 (15) 150.67 ± 59.10 120–250 (7) 191.43 ± 42.59 | |
| OoL | 140–180 (6) 141.67 ± 33.12 | 190–300 (8) 246.25 ± 35.43 | 110–180 (6) 143.33 ± 27.33 | 190–270 (5) 242.00 ± 30.33 | 110–300 (25) 195.60 ± 60.14 | |
| OoW | 270–380 (6) 305.00 ± 38.86 | 360–450 (8) 410.00 ± 26.19 | 180–240 (6) 221.67 ± 22.29 | 200–480 (6) 343.33 ± 89.14 | 180–480 (26) 326.92 ± 85.03 | |
| AvL | 300–390 (5) 336.00 ± 35.78 | 310–460 (10) 365.00 ± 42.75 | 300–460 (16) 358.13 ± 45.49 | 330–490 (10) 413.00 ± 50.34 | 300–490 (41) 370.49 ± 50.54 | |
| RL | 190–310 (5) 244.00 ± 46.69 | 220–300 (11) 269.09 ± 28.09 | 190–300 (16) 240.00 ± 30.98 | 200–360 (10) 274.00 ± 53.17 | 190–360 (42) 256.19 ± 40.24 | |
| Avicularia | W–lSL RW PrL PrW | Not observed 100–180 (5) 130.20 ± 30.15 50–140 (5) 92.00 ± 32.71 100–180 (5) 126.00 ± 32.86 | 160–240 (6) 188.33 ± 29.94 90–160 (11) 122.73 ± 24.94 60–140 (11) 88.09 ± 23.54 70–150 (11) 107.27 ± 23.28 | Not observed 80–180 (17) 90–170 (10) 134.71 ± 29.82 137.00 ± 26.69 80–160 (17) 100–150 (10) 110.59 ± 21.64 120.00 ± 18.86 70–180 (17) 90–170 (10) 138.82 ± 32.76 132.00 ± 33.60 | 160–240 (6) 188.33 ± 29.94 80–180 (43) 131.65 ± 27.52 50–160 (43) 104.86 ± 25.49 70–180 (43) 127.67 ± 32.35 | |
| OpL | 70 (1) | 50–80 (2) 65.00 ± 21.21 | 40–100 (14) 83.57 ± 14.99 | 100 (1) | 40–100 (18) 81.67 ± 16.18 | |
| OpW | 80 (1) | 30–50 (2) 40.00 ± 14.14 | 40–100 (14) 78.57 ± 14.06 | 80 (1) | 30–100 (18) 74.44 ± 17.90 | |
| Kenozooids | KzL KzW OpD | 170–480 (4) 285.00 ± 135.28 170–300 (4) 222.25 ± 92.16 40–60 (4) 45.00 ± 10.00 | 120–380 (8) 272.50 ± 106.34 120–370 (8) 258.75 ± 97.31 20–50 (8) 31.25 ± 11.26 | 220–390 (7) 302.86 ± 86.93 130–370 (7) 244.29 ± 77.00 30–80 (7) 50.00 ± 22.04 | 340–580 (6) 471.67 ± 87.27 230–400 (6) 336.67 ± 61.86 20–60 (6) 40.00 ± 17.89 | 120–580 (25) 330.80 ± 125.43 120–200 (25) 267.56 ± 88.45 20–80 (26) 41.15 ± 17.51 |
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Rhagasostoma gibbosum ( Marsson, 1887 )
| Koromyslova, Anna V., Taylor, Paul D., Martha, Silviu O. & Riley, Matthew 2018 |
Rhagasostoma subgibbosum
| Brydone R. M. 1930: 48 |
Onychocella gibbosa
| Veenstra H. J. 1963: 107 |
| Voigt E. 1930: 460 |
Rhagasostoma gibbosum
| Levinsen G. M. R. 1925: 369 |
Eschara gibbosa
| Marsson T. 1887: 71 |