Semicosciniid bryozoans from the Middle Devonian of Rommersheim (Eifel, Germany)

Two bryozoan species belonging to the Family Semicosciniidae Morozova, 1987 are described from the Middle Devonian of the Eifel—Bigeyina winteri (Bornemann, 1884) and Loculipora alvearis (Maurer, 1885). The two species are endemic to the Middle Devonian (Eifelian–Givetian) of the Eifel. Morphology and taxonomical assignment of the studied bryozoans are discussed. The Family Fenestraporidae Xia, 2002 is considered to be invalid.


Introduction
Bryozoans represent an extant phylum of sessile aquatic animals which show an impressive fossil record from the early Cambrian to the Present. The majority of marine bryozoans possess stable carbonate skeletons which have a high potential of preservation (Smith et al. 2006) and are often abundant among fossils found in marine sediments.
The Family Semicosciniidae was established by Morozova (1987: 81) for summarized fenestrate bryozoans with usually robust reticulate colonies of usually conical, rarely fan-like shape, produced by straight or undulating branches connected by dissepiments or fused together by anastomosing. The most significant character of the family are compact autozooecial chambers of predominantly rectangular shape in the mid tangential section and which lack hemisepta. Furthermore, semicosciniid bryozoans lack keel nodes; instead, usually a high and wide median keel between autozooecial rows is developed. In few genera, the median keel is low, but in the majority of representatives of Semicosciniidae, keels are high and often widened in their apical part, in some genera fusing together to form a protective superstructure. Heterozooecia in the form of rounded chambers occur in several genera which are regarded to having a reproductive function (e.g., Morozova 1987Morozova , 2001. The Family Semicosciniidae comprises about 20 genera depending on different perceptions of taxonomists. Gorjunova (1996) did not accept the Semicosciniidae, placing the genera originally placed there by Morozova (1987Morozova ( , 2001 into the Family Reteporinidae Dunaeva and Morozova, 1975. However, her concept is hardly acceptable because she placed taxa with undulating branches in the Family Reteporinidae, disregarding their internal morphology. Shape of branches is an external morphological character which appears in unrelated lineages independently (homologous). Xia (2002) Morozova and Lavrentjeva 1998;Ernst 2016) and does not consider any further internal morphological characters. Xia (2002) placed seven genera in the Family Fenestraporidae, all of them having a different internal morphology, as well as different kinds of heterozooecia (Fenestrapora Hall, 1885, Ignotifenestella Morozova, 1974, Mirifenestella Morozova, 1974, Cavernofenestella Morozova, 1974, Permofenestella Morozova, 1974, Polyfenestella Bancroft, 1986, and Aviculofenestella Xia, 2002. Therefore, the Family Fenestraporidae Xia, 2002 is regarded being invalid. The two species of the genus Aviculofenestella have been described from a loose stone block which Xia (2002) regarded being mid-Jurassic in age. However, it appears probable that this block was Palaeozoic in age and tectonically inserted within the Jurassic sediments. Fenestrate bryozoans become extinct at the end of the Permian (e.g., Morozova 2001), and the record of Aviculofenestella from the Jurassic appears dubious. Devonian was the time of the main distribution of semicosciniid bryozoans. Six genera appeared in the Silurian, and three survived into the Carboniferous. Two genera, Neoreteporina Miller, 1962 andPseudounitrypa Nekhoroshev, 1926 appeared in the Early Carboniferous, whereas the latter one survived into the Early Permian (Artinskian). However, the majority of genera and their species occurred during the Devonian, with the peak of their distribution in the interval from Emsian to Givetian.
The present paper extends our knowledge about fenestrate bryozoans from the Middle Devonian of the Eifel area and provides a comprehensive description of Bigeyina winteri (Bornemann, 1884) and Loculipora alvearis (Maurer, 1885) from a locality in the vicinity of Brühlborn near Rommersheim in the Eifel, Rhineland-Palatinate, Germany. Both species develop robust conical colonies and are quite common in the Middle Devonian fossil-rich limestones of the Eifel. The high median keels of Bigeyina winteri (Bornemann, 1884) are confined to branches and not interconnected laterally to neighboring keels, whereas those of Loculipora alvearis (Maurer, 1885) are fused together to a solid meshwork. Such structures in fenestrates are regarded as having a protective function (McKinney et al. 2003).
Bigeyina winteri and Loculipora alvearis are endemic to the Middle Devonian (Eifelian-Givetian) of the Eifel. Few species of the genus Bigeyina are known from the Lower Devonian (Pragian) of Czech Republic and Lower to Middle Devonian of Spain (see below). The genus Loculipora has longer range, with several species known from the Silurian of North America and Kazakhstan. Devonian species of Loculipora were recorded from North America and Eurasia (Germany, Tajikistan). Both genera terminate at the end of the Givetian.
Collected material represents four separate blocks of limestones less than a fist-size each. From them, 14 randomly oriented thin sections containing fragments of fenestrate bryozoans were prepared. Thin sections were studied in a binocular microscope in transmitted light. Morphological terminology for description of bryozoans is modified from Hageman (1991aHageman ( , 1991b. The following morphological characters were measured: branch width, fenestrule width, fenestrule length, distance between branch centers, autozooecial aperture width, aperture spacing along branch, aperture spacing diagonally, maximum chamber width, branch thickness including keel, branch thickness without keel (measured from reverse branch surface up to the level of aperture), number of apertures per fenestrule length.
Studied material is housed at the Research Institute and Natural History Museum Senckenberg (Frankfurt am Main, Germany), under numbers SMF 60982-SMF 60995.

Systematic palaeontology
Phylum Bryozoa Ehrenberg, 1831 Class Stenolaemata Borg, 1926Superorder Palaeostomata Ma et al., 2014Order Fenestellida Elias and Condra, 1957Suborder Fenestellina Astrova and Morozova, 1956 Family Semicosciniidae Morozova, 1987 Genus  (1982)  G i v e t i a n M i d d l e D e v o n i a n E i f e l i a n Diagnosis. Colony conical, narrow to broad and flaring; rarely a set of narrow branching, tubular cones. Autozooecial apertures on outer side of cone. Branches minimally to moderately sinuous, linked at intermediate distances by lateral branch expansion and exozonal fusion or by broad, short, regularly spaced dissepiments. Linkages aligned transversely or obliquely to branches; each row of linkages and corresponding parts of branches thickened on reverse surface, forming continuous annular, rarely oblique bands that commonly project into the cone as distally deflected keels. Fenestrules elongate, oval. High keel on obverse surface of branches; granular core of keel apically bifurcated into two symmetrical or asymmetrical, divergent sheets, to form apical lath. Laminar skeleton on keel thickened apically and extending across outer side of lath. Keels not connected to one another, or with sparse to common lateral, bridge-shaped connections above points of connection between underlying branches. Autozooecia arranged in two alternating rows per branch, axially overlapped; axial wall zigzag to sinuous; intermediate to large, cylindrical to irregularly polygonal, height greater than length or width; chamber size greater adjacent to dissepiments, where width commonly greater than length. Hemisepta and other interior structures lacking. Short, direct to laterally oblique distal tube with diameter slightly smaller than endozonal portion of autozooecia. Peristomes thin. Autozooecia apparently monomorphic. Basal, axial and transverse autozooecial walls granular, extremely thin or absent laterally around and near distal tube; autozooecial chambers locally lined by thin inner laminar skeleton. Basal plate flat in branch junctions to strongly concave midway along fenestrules, without longitudinal ridges on reverse side or rarely, with only one developed between branch junctions. Extrazooecial skeleton finely laminate, laminae often obscured, containing abundant, inconspicuous small microstyles. Ancestrula and two or three additional zooecia in contact with substratum. In basal portions of colonies, vesicles also fill interior conical space, space between obverse laths and branches, and fenestrules (adapted after Suárez-Andrés and McKinney 2010).
Comparison. Bigeyina Suárez-Andrés and McKinney, 2010 differs from Semicoscinium Prout, 1859 in having of annular bands developed on the reverse colony surface, in the morphology of the keel with a bifurcated granular core (keel without bifurcation in Semicoscinium), in having a zigzag to sinuous axial wall (straight in Semicoscinium), and in the absence of reproductive heterozooecia (gonozooecia). Bigeyina additionally differs from Fenestrapora in the absence of reproductive heterozooecia and aviculomorphs.  Table 1 1884
Diagnosis. Conical or fan-shaped colonies consisting of undulating branches, anastomosing, rarely joined by wide, short or nearly reduced dissepiments with keel. Fenestrules oval to rounded. Keels connected to one another, forming reticulate meshwork connecting outgrowths on top and outgrowths of adjoined branches and dissepiments. Reticulate meshwork analogous to the structure of the main meshwork, but lacking autozooecia. Meshes in the reticulate meshwork correspond to the fenestrules in the main meshwork. Autozooecial apertures on outer side of cone. Autozooecia arranged in two alternating rows per branch, axially overlapped; rectangular to roughly triangular-pentagonal in mid tangential section; axial wall zigzag to sinuous; intermediate to large, cylindrical to irregularly polygonal, height greater than length or width. Hemisepta and other interior structures lacking. Short, direct to laterally oblique distal tube with diameter slightly smaller than endozonal portion of autozooecia. Peristomes thin. Autozooecia apparently monomorphic. Basal, axial and transverse autozooecial walls granular, extremely thin or absent laterally around and near distal tube; autozooecial chambers locally lined by thin inner laminar skeleton. Basal plate moderately to strongly concave. Extrazooecial skeleton finely laminate, laminae often obscured, containing abundant, inconspicuous small microstyles. In basal portions of colonies, vesicles also fill interior conical space, space between obverse laths and branches, and fenestrules.

Comparison. Loculipora Hall, 1885 differs from Isotrypa
Hall, 1885 in strongly undulating branches joined mainly by anastomoses. Superstructure in Loculipora is produced by extensions of both median keels and dissepiments, whereas the transverse connections in the superstructure of Isotrypa do not contact with dissepiments. Furthermore, Loculipora has rectangular to roughly triangular-pentagonal autozooecial chambers and zigzag axial wall, whereas autozooecia in Isotrypa are rectangular with straight axial wall. Loculipora differs from Bigeyina in superstructure morphology which represents reticulate meshwork produced by fused extensions of keels. Keels in Bigeyina are normally not fused together.
Exterior description. Narrow conical colonies, consisting of strongly undulating branches, joined by anastomoses. Two rows of autozooecia on branches. Autozooecial apertures circular, with stellate structure, arranged in two alternating rows on branches, having circular apertures with low peristomes, 3-5 spaced per length of a fenestrule. Fenestrules circular to oval. Median keel on obverse side of branches straight, high and wide, composed of core of granular skeleton and sheath of laminar skeleton. Median crests on the superstructure, producing a polygonal pattern. Reverse side smooth.
Interior description. Autozooecial chambers rectangular to roughly triangular-pentagonal in mid tangential section, short and relatively high, with moderately short vestibules. Axial wall between autozooecial rows zigzag in tangential sections, continuing unbroken in superstructure. Hemisepta absent. Internal granular skeleton continuous with obverse keel, nodes, peristome and across dissepiments. External laminated skeleton well developed, traversed by small microstyles. Microstyles 0.005-0.008 mm in diameter. Heterozooecia not observed.
Comparison. Loculipora alvearis (Maurer, 1885) is similar to L. kschtutica (Waschurova, 1964)   Acknowledgements Jan Bohatý, Wiesbaden, is thanked for providing interesting samples and help in the field. The Deutsche Forschungsgemeinschaft is thanked for financial support (DFG project ER 278/4.1 and 2). Patrick Wyse Jackson, Dublin, and Hans Arne Nakrem, Oslo, are thanked for their helpful and constructive reviews.
Funding Open Access funding enabled and organized by Projekt DEAL.
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