Belzungia bella ( Yu Jing, 1976 ) Radoičić, 2006
publication ID |
https://doi.org/ 10.5281/zenodo.13189751 |
persistent identifier |
https://treatment.plazi.org/id/03D78781-5D4A-FC01-2B94-C3735521FCE3 |
treatment provided by |
Felipe |
scientific name |
Belzungia bella ( Yu Jing, 1976 ) Radoičić, 2006 |
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Belzungia bella ( Yu Jing, 1976) Radoičić, 2006
1976 Trinocladus bellus - Yu Jing, Pl. 8, fig. 10 (holotype); Aff. Fig. 11; non fig. 9, 12; Eocene of Tibet ( China) .
Non 2010 Belzungia bella ( Yu Jing, 1976) Radoičić, 2006 - Radoičić & Özgen- Erdem, Fig. 8 View Fig a-i, Fig. 9a-k, Fig. 10e.
The combination proposed in Radoičić, 2006 concerned two out of four illustrated sections of Trinocladus bellus Yu Jing 1976 : holotype (Pl. 8, fig. 10) and fig. 11 (now considered as B. aff. B. bella ). Two other sections more probably are Thyrsoporella sp. (fig. 12) and? Thyrsoporella sp. (fig. 9). According to Deloffre and Genot (1982), Trinocladus bellus is “Little known and poorly illustrated species of which better material has not been found since the original description and of which the validity is dubious”.
Specimens from Seyitgazi region, clearly different from other Belzungia species ( terquemi , silvestrii , pfenderae ), were ascribed in Radoičić & Özgen- Erdem (2010) to known Belzungia bella (Ju Ying, 1976) Radoičić 2006 .
Some new better preserved specimens, from the same Anatolian Eocene limestone sample, have provided new data on its taxonomy. The comparison of new specimens with those previously ascribed to B. bella justifies introduction of a new species Belzungia barattoloi sp. nov.
Belzungia barattoloi sp. nov.
Fig. 4 View Fig a-f, Fig. 5 View Fig a-f, Fig. 6 View Fig e-i
2010 Belzungia bella Radoičić & Özgen- Erdem, Fig. 8 View Fig , a-c (left), e, f-i non: d and h (= Belzungia sp. ); Fig. 9, a-j, non: k (= Belzungia sp. ); Fig.10e; Lower Eocene of Western Anatolia ( Turkey).
Derivation of name: The species is dedicated to Prof. Filippo Barattolo (Universita di Napoli “Federico II”) for his contribution to the knowledge on paleontology.
Holotype: The specimen in the oblique section shown in the Fig. 4a View Fig , thin section NEK 14f.
Isotypes: Different sections of the specimens originated from the same sample NEK 14, illustrated in Fig. 4 View Fig b-e; Fig. 5a, b View Fig ; Fig. 6c, e, g, i View Fig .
Type locality and level: The Kışlatepe section is located 2 km west of Kışla, SW of Seyitgazi town (UTM coordinates: 4362650°, 292500°). The type bed K.14 is represented by foraminiferal limestones of middle Ilerdian age and contains Glomalveolina lepidula (Schwager) , Alveolina ellipsoidalis Schwager , A. moussoulensis Hottinger , A. laxa Hottinger , Cyclopertorbitolites tokerae Özgen-Erdem and dasycladalean algae with Belzungia terquemi , B. silvestrii , B. pfenderae , Anatolia kozyakae, Belzungia sp.3 , Belzungia sp.4 , Belzungia spp.
Diagnosis: Cylindrical calcareous skeleton made up of articles with regularly spaced whorls perforated by a system of pores corresponding to assemblage of branches characteristic of the genus anatomy. First three orders of branches are larger, third and fourth orders are somewhat randomly oriented, while last two orders, fifth and sixth, are anarchically arranged (dichotomy in more or less different direction). Reproductive organs unknown. Thick calcareous skeleton of colorless spary calcite. Main stem is not encrusted.
Skeleton: The skeleton is usually more or less strongly recrystallized (blocky sparite). The inner skeleton surface is smooth or uneven. Calcareous sleeve enclosed assemblage of branches (ASB) to the thin cortex layer formed by the fine tiny sixth order branches, resting in rugged outer skeleton surface pierced with numerous minute pores ( Fig. 4 View Fig a-e). Primary branches usually are only in part enclosed by skeleton. Therefore, large pores at inner skeleton surface correspond to the nearly middle part of the length of primaries ( Fig. 3 View Fig , Fig. 4d View Fig ). Primaries are massive, in the transverse section sub-triangular in form distally enlarged, in the vertical section are of the same thickness. In successive transverse sections from proximal to its distal part pores are circular, than oval and gradually oval enlarged to the distal end, below dichotomy ( Fig. 4a View Fig arrows, d; Fig. 5c View Fig ). The transverse section of the distal portion, depending of preservation (recrystallization), is more or less orthogonal in form ( Fig. 5f View Fig , Fig. 6h View Fig ). In the lower part of the oblique section on the Fig. 5c View Fig , through basal portion of the article, the assemblage of branches is in the downwards growing vertical position.
A rather insignificant deformation of the whorls has been noticed in some specimens, showing a slight twist of the whorl. When occasionally occurring in the whorl, it continues in all successive whorls of the same article, which is well visible in Fig. 5 View Fig a-c (arrows).
Biometrical data: The longest observed skeleton is 2.20 mm; external diameter 0.343 - 1.00 mm; diameter of the axial cavity range from 0.12 to 0.42 mm; wall thickness is 0.290 mm; distance between whorls varies between 0.080 and 0.128 mm, and number of assemblages of branches per whorl 6-7 (8?). First two orders of branches cover about half of the skeleton thickness, three orders 80% or, in some cases, even 90%.
The length of branches of the same order varies, not only in one whorl but also in an assemblage ( Fig. 3 View Fig ). Measurement made in partly recrystallized slightly oblique transverse section with one poorly and four better preserved ASB ( Fig. 3 View Fig , Fig. 4d View Fig ) are: D - 0.89 mm, d (cavity) - 0.360 (? 0.37 or 0.38 mm), the calcified part of primaries 0.057 mm (in other sections up to 0.066 mm), secondaries vary from 0.034 - 0.098 mm, tertiaries 0.042 - 0.076 mm and branches of the fourth order 0.022 mm. In the same whorl, assemblages of branches are different. The difference consists in angle respectively in largeness in more or less large pores of proximal part ( R1 and R2 ) and in the dimensions of the same order branches ( Fig. 3 View Fig ). Being different, assemblages have irregular extent on the skeleton surface corresponding to their largeness ( Fig. 6e View Fig ) GoogleMaps .
Relationships: The skeletons of B. silvestrii and B. pfenderae are very elongated and relatively narrow. B. terquemi shows smaller grade of anarchic structure; the structure seems even fairly regular especially in some tangential and axial or subaxial sections (pores of first, second and third order- Fig. 4a, b and d View Fig ), it differs also by number ASB per whorl. Some transverse-oblique sections of terquemi and barattoloi can be very similar. They both have large first three orders of branches, those primaries in barattoloi are somewhat massive and of large angle.
Stratigraphic distribution: Belzungia barattoloi sp. nov. was described in the Ilerdian levels of Kışlatepe section. The species is also observed in the early-middle Ilerdian of Sarıbayır section and in the Ilerdian- early Cuisian of Kozyaka section.
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Royal Botanic Gardens |
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