Spirocyclinidae (Munier-Chalmas, 1887) Maync, 1950

SCHLAGINTWEIT, FELIX & RASHIDI, KOOROSH, 2020, Broeckinella Hensoni N. Sp., A New Larger Benthic Foraminifera From The Upper Maastrichtian Of Iran And A Revision Of The Genus Broeckinella Henson, 1948, Acta Palaeontologica Romaniae 16 (2), pp. 57-67 : 60-63

publication ID

https://doi.org/ 10.35463/j.apr.2020.01.06

persistent identifier

https://treatment.plazi.org/id/03B47D6A-1C66-0136-042E-FD633F50FB0C

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Felipe

scientific name

Spirocyclinidae (Munier-Chalmas, 1887) Maync, 1950
status

 

Family Spirocyclinidae (Munier-Chalmas, 1887) Maync, 1950 View in CoL

Remarks: In the definition of the families Cyclamminidae and Spirocyclinidae, Albrich et al. (2015, p. 255) do not follow the classification of Kaminski (2014). According to these authors “the genera with polygonal subepidermal patterns should be ascribed to the Family Spirocyclinidae instead of the Cyclamminidae ”. In this definition, the genus Broeckinella possessing a polygonal subepidermal pattern should therefore be included in the Spirocyclinidae .

Subfamily Pseudochoffatellinae Loeblich & Tappan, 1985

Genus Broeckinella Henson, 1948 emended

Remarks: The generic diagnosis of Loeblich and Tappan (1987, p. 104) only referred to the megalospheric form. It needs to be emended with respect to data obtained from a microspheric specimen described here. The diagnosis of Loeblich and Tappan (op. cit.) is emended as follows (added changes in bold letters)…….“chambers rapidly increasing in breadth to become arcuate but not completely cyclical, so that the test is successively flabelliform, complanate, and finally reniform in the macrospheric stage. Microspheric stage with a few annular chambers, so that the test is ovoid to discoidal ”.

Broeckinella arabica Henson, 1948

Figs. 4b–d View Fig , 5–6 View Fig View Fig .

*1948 Broeckinella arabica n. gen., n. sp. – Henson, p. 93, pl. 7, fig. 6, text-fig. 13a–c.

1978 Broeckinella arabica Henson – Cherchi and Schroeder, p. 514, fig. 1 A–C.

2004 Dicyclina schlumbergeri – Khosrow Tehrani and Afghah, pl. 2, fig. 4.

2008 Dicyclina schlumbergeri – Khosrow Tehrani et al., pl. 1, fig. 6.

2016 Broeckinella arabica Henson – Schlagintweit and Rashidi, p. 57, fig. 9a–e.

Emended description: Test finely agglutinated, compressed, with numerous chambers rapidly increasing in width so that the megalospheric test becomes flabelliform. A tiny proloculus (diameter ~ 0.07-0.1 mm) is followed by about 8-10 planispiral chambers that increase rather rapidly in width ( Fig. 6e View Fig ). The chamber margins are subdivided by exoskeletal elements, both vertical and horizontal resulting in a meshwork (or pattern) of tiny polygonal cells displayed in shallow tangential sections (= zone 1 in Henson 1948; see Fig. 4a View Fig ) ( Figs. 4b View Fig , 6 View Fig a-d). Toward the chamber interior a zone follows where only main partitions are present, aligned between successive chambers (= zone 2 in Henson 1948; see Fig. 4a View Fig ) ( Figs. 4c View Fig , 6b, d View Fig ). The central part is undivided ( Figs. 4b View Fig , 6c, e View Fig ). The multiple foramina are arranged in the median plane, not related to the main partitions (that can therefore not be termed septula). The microspheric test is ovoid to discoidal due to final annular chambers ( Fig. 5b–c View Fig ). A proloculus is not observable. The planispiral part, contrasting the A-form, consists of numerous (~ 26) chambers. The internal structure is identical to the A-form.

Remarks: The material of B. arabica from the Tarbur Formation does not include centered sections. Data on the test dimensions therefore only comprise incomplete sections attaining a maximum size of 2.4 mm for megalospheric and up to 4.6 mm for microspheric forms ( Tab. 2). B. arabica is intermediate in size between the distinctly smaller B. neumannae and the larger B. hensoni n. sp. ( Tab. 3). The description of Henson (1948) was based on a single specimen, a megalospheric form (see Cherchi and Schroeder, 1978). The specimen from the Tarbur Formation illustrated in Fig. 5b View Fig is the first record of a microspheric specimen. The differences between the two generations are summarized in Table 2.

B. arabica was figured as Dicyclina schlumbergeri from the Maastrichtian of the Tarbur Formation by Khosrow Tehrani and Afghah (2004) and the Maastrichtian of the Amiran Formation (SW Iran, Zagros Zone) where the authors distinguished a Loftusia-Dicyclina assemblage zone. Dicyclina schlumbergeri is rather common in the Tarbur Formation (see Schlagintweit and Rashidi, 2018).

Broeckinella hensoni Schlagintweit and Rashidi nov. sp. Figs. 5a View Fig , 7-8 View Fig View Fig .

Holotype: Equatorial section of an assumed macrospheric specimen showing flabelliform test and illustrated in Fig. 7f View Fig , thin-section 2NG N. The diameter of the holotype specimen is ~ 3.65 mm.

Etymology: The species name is dedicated to Francis Roger Spencer Henson (1901-1967) in honour for his fundamental works on larger imperforate foraminifera from the Middle East area. For further information on F.R.S. Henson and his merits see Hughes (2013).

Type-locality: Naghan section ( Figs. 2–3 View Fig View Fig ).

Type-level: Late Maastrichtian of the Tarbur Formation.

Description: Test finely, agglutinating, large (up to almost 8 mm), flattened with an early evolute planispiral stage followed by a flabelli- to reniform adult growth stage ( Fig. 7f View Fig ). Axial sections display almost constant chamber width ( Fig. 7a View Fig ). Further details on the early stage are limited by the available sections. The adult part consists of up to 50 chambers. There are five to seven chambers in the last mm of the test. Wall finely agglutinated. Exoskeleton consisting of one short horizontal and two orders (short, and longer) of subepidermal vertical (or radial) partitions (beams and rafters) together forming a subepidermal network ( Fig. 8e View Fig ). Due to the shortness of the secondary partitions this network of polygonal cells is only visible in shallow tangential sections. Longer vertical partitions (beams) are aligned between successive chambers, and reach slightly deeper into the chamber lumen. The central part of the chamber lumen is undivid- ed (e.g., Fig. 8e View Fig in the lower part; see Henson, 1948: fig.13c). Multiple foramina (one row) arranged in the median plane. Microspheric specimens not reported.

Dimensions: See table 3.

Comparisons: Amongst the three Late Cretaceous species of the genus, Broeckinella hensoni is distinctly larger then B. arabica Henson (double the size!) and B. neumannae Gendrot (five times larger!) (see table 3). With respect to the time-equivalent B. arabica , the distinctively lower number of chambers per last mm test length (8 to 14 in B. arabica against 5 to 7 in B. hensoni ), due to a greater chamber height, is notable.

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