Mojsisovicsteuthis boeckhi ( Stürzenbaum, 1875 )

Mojsisovicsteuthis boeckhi ( Stürzenbaum, 1875)

( Fig. 5 View Fig , A–Q; 6 View Fig ; 7 A–D View Fig )

Synonymy:

*1875 Atractites böckhi Stürzenbaum , p. 254, Tab. V, fig. 1.

1882 Atractites boeckhi (Stürzenbaum) . Mojsisovics, p. 302, pl. XCIII, figs. 12–13.

? 1914 Atractites böckhi Stürzenbaum. Smith , p. 138, pl. XCIV, figs. 20–21.

1915 Atractites Boeckhi Stürzenbaum, Diener , p. 18 (with additional/full synonymy).

1920 Atractites Boeckhi Stürzenbaum ; Büllow-Trummer, p. 65 (with additional synonymy).

1973 Mojsisovicsteuthis cf. M.? boeckhi ( Stürzenbaum, 1875) ; Rieber, p. 73–74, fig. 20, a–g.

? 1973 Mojsisovicsteuthis meneghinii ( Salomon, 1895) ; Rieber, p. 74, fig. 20, n–o.

? 1975 Ausseites bilhynicus Arthaber, 1915 ; Özdemir, p. 137, pl. 4, figs. 1–4.

2024 Mojsisovicsteuthis boeckhi . Pohle & Klug, XXXX

Studied material: A single specimen ( Fig. 5A–D View Fig ) from Harmanecká Cave—Kozelník ( GPS 48°48,582 ′ N 19°02,265 ′ E, Slovakia, No. KGP-KO-001; stored at Comenius University in Bratislava ). Five specimens from the type locality (Additional file 1: Table S 1) stored in the Mining and Geological Survey of Hungary in Budapest: including the holotype No. T GoogleMaps . 829 ( Fig. 5J–P View Fig ); specimens Nos T .3593, T.3206, T.3137 and two fragments referred to the taxon ( T.81, and T.371).

Description: Te steinkern of the phragmocone fragment is 42 mm long and includes 7–8 chambers. Apical and apertural chambers are missing. Te width (dimension of the flattened phragmocone) of the largest chambers measures 19 mm. Te straight phragmocone appears longi- to orthoconic (apical angle 11–12°, Fig. 6 View Fig ). Tanks to a circular structure in the periphery of the smallest chamber determinable as the former position of the siphuncle, one can define the anatomical orientation. Te phragmocone diameter is accordingly laterally compressed. Poorly defined remains of sutures, which are visible only on one side of the steinkern, are c. 4 mm apart implicating a ratio chamber length to chamber diameter of about 0.19. Tis suggests comparatively low chambers. Lateral lobes are perceptible. Tere is no evidence of preserved shell material. As mentioned above, the siphuncle is only slightly indicated in Slovakian specimen.

Te material stored in the collections of Mining and Geological Survey of Hungary in Budapest provided unambiguous evidence of the siphuncle position ( Fig. 5G, H View Fig ) which lies in the narrow ventral side. Te diameter of the siphuncle is ~ 1.3 mm (specimen No. T.3593, Fig. 5G, H View Fig ) .

In specimens Nos T.3206 ( Fig. 7A View Fig ) and T.81 ( Fig. 7B View Fig ), the tubular final chamber is partly preserved. Te preserved length measures 25 and 30 mm (Additional file 1: Table S1). In these specimens, a marked constriction of the last septum prior the final chamber is seen.

Comparing the specimen No. KGP-PO-0001 with the Hungarian material including the holotype, we observed stability in the phragmocone angle reaching 11–12°.

With the phragmocone diameter and the apical angle of 12°, one can calculate the maximum phragmocone length by the help of trigonometric laws [diameter/2 × sin (84)/sin (12/2)]. Accordingly, specimen T.3206 with a maximum phragmocone diameter of 37 mm had a phragmocone length of approx 180 mm (length of the final chamber is not known). Assuming a final chamber that reaches a similar length (in specimens with this part preserved, Fig. 6 View Fig ), the total shell length of this specimen was about 350 mm, which classifies it as a medium-sized coleoid.

Comparison: We exclude affinities to the order Phragmoteuthida , owing to the absence of a three-lobed proostracum and the presence of a longiconic (rather than brevi—or cyrtoconic) phragmocone. Despite our observation of an aulacoceratid-like final chamber, the overall phragmocone characteristics (dense chambers, apical angle, lateral lobus) also prevent a placement within the order Aulacoceratida .

Regarding chamber distance, the specimen from Slovakia resembles the holotype of M. convergens , the type species of Mojsisovicsteuthis . However, in M. convergens , the cross section is more circular or even almost circular, as figured in von Hauer (1847, pl. VII, fig. 2), later corrected by Mojsisovics (1902, Pl. XVI, fig. 1). Te apical angle of the phragmocone in the dorso-ventral view is moreover significantly higher in M. convergens (20°).

Te Slovakian specimen and the holotypes of M. boeckhi ( Stürzenbaum, 1875) and M. meneghinii ( Salomon, 1895, p. 195) share a laterally compressed phragmocone, but M. meneghinii differs from our specimen in a higher apical angle (16–19° according to Salomon, 1895) and more densely spaced chambers (0.13–0.17).

In terms of apical angle, our specimen is almost identical with the holotype of M. boeckhi ( Fig. 6 View Fig ). In addition, the Slovakian and the Hungarian specimens share a compressed phragmocone, a well developed lateral lobus, and a chamber distance ranging from 4 to 12 mm. Te chamber distances just prior the final chanber are significantly constricted (in specimen T.81 ~ 3 mm).

Recently, Vörös et al. (2022) published record of cephalopod fauna from the Middle Anisian locality Akol Hill at Barnag ( Hungary) including specimen described as Mosjsisovicsteuthis sp. Te specimen clearly differs from our material by having significantly more densely spaced septa.

Specimens similar to Slovakian specimen and referred to genus Ausseites ( Flower, 1944; rejected as nomen dubius by Mariotti et al., 2021) were figured by Özdemir (1975) from Ladinian/Carnian transition of Koaceli ( Turkey). A. bilhynicus ( Arthaber, 1915) resembles our specimen in shape, but the apical angle is higher in A. bilhynicus (~ 20–21°).

Remarks: Te relatively large size (up to 30 cm) of the phragmocone ( Fig. 6 View Fig ) is comparable to larger specimens of aulacoceratids. Te reconstruction of the length is based on the stability in the phragmocone angle in all ontogenetical stages studied.

Stratigraphy and palaeogeography: M. boeckhi is known from the Anisian—Ladinian strata of the Alpine- Carpathian-Dinaridic region (Trinodosus—Lomelli zones; Alma, 1926). Apart of the here described material, it is reported from Wettersteinkalk in Germany ( Reis, 1901), Austria ( Alma, 1926 —Schreyeralmkalke, Marmolatkalke; Schnetzer, 1934 —Muschelkalk), Italy (Marmolada— Salomon, 1895; Monte Clapsavon— Canavari, 1890), Montenegro ( Martelli, 1904),? Romania (Braşov, Ladinian, see on-line report: https://formatiunigeolo gice.igr.ro/formatiune/42), Hungary ( Stürzenbaum, 1875; Vörös, 1987, 2018), Bosnia and Herzegovina ( Kraus, 1916; von Hauer, 1888), Greece ( Renz, 1909), Bulgarian/ Romanian borders (Dobrudzha; Büllow-Trummer, 1920) and? Turkey (Koaceli—Ladinian/Carnian transition; Özdemir, 1975). Smith (1914) reported M. boeckhi from the Trinodosus Zone of North America. However, these old records (predominantly attributed to “ Atractites boeckhi ” or? Ausseites in the latter case) were not studied/verified by the authors of this article.

Crown Neocoleoidea Haas, 1997 (proostracum-bearing coleoids)