Halloporina severozemelica, Nekhorosheva, 2002
publication ID |
https://doi.org/ 10.5281/zenodo.5378163 |
persistent identifier |
https://treatment.plazi.org/id/281DF43D-DB29-FFDF-FCDA-FA8DFECE3A65 |
treatment provided by |
Marcus |
scientific name |
Halloporina severozemelica |
status |
sp. nov. |
Halloporina severozemelica View in CoL n. sp. ( Figs 2F View FIG ; 3A, B View FIG ; Table 3)
HOLOTYPE. — CNIGR Museum, 4/13009, thin sections.
PARATYPES. — CNIGR Museum, 5-6/13009, thin sections.
TYPE LOCALITY. — Strojnaya River, October Revolution Island, Severnaya Zemlya.
TYPE LEVEL. — Ozernaya Formation, Middle Ordovician.
Formation. The species is found on October
Revolution Island in five localities (1-5, Fig. 1 View FIG ).
DIAGNOSIS. — Zoarium ramose, smooth branches thin about 1.5-3.0 mm in diameter; exozone thin;
zooecial
apertures polygonal or subpolygonal; exilazooecia angular without diaphragms vary in abundance. DESCRIPTION
Delicate, frequently bifurcating colonies with Family DYSCRITELLIDAE Astrova & Morozova, 1967 thin branches usually 1.5-1.8 mm, rarely 3 mm
in diameter. Surface smooth with inconspicuous Genus Dyscritella Girty, 1911
maculae. Zooecial apertures polygonal or subpolygonal, average 0.21-0.25 mm. There are TYPE SPECIES. — Dyscritella robusta Girty, 1911 by about nine to 11 apertures per 2 mm in all original designation from the Lower Carboniferous, directions, and eight apertures per 2 mm across Mississippian (Chester) of Arkansas, USA.
maculae. Exilazooecia vary in abundance, very often on maculae up to four exilazooecia Dyscritella cf. lucida Morozova, 1986 around a single zooecial aperture, in other ( Fig. 3 View FIG C-F; Table 4)
places there are rare exilazooecia. All exilazooe- cf. Dyscritella lucida Morozova in Morozova & cia are angular, about 0.06-0.08 mm in diame- Kruchinina 1986: 54, pl. XIV, fig. 6; pl. XV, fig. 2.
ter. Exozone narrow, commonly 0.21-0.25 mm M. — measureATERIAL EXAMINED Description and
wide. Zooecial walls in endozone are thin ments are based on eight fragmented colonies: (about 0.01 mm) and crenulated. The thickness CNIGR Museum, 7-10/13009, 23-27/13009, thin of zooecial walls in exozone averages 0.04- sections.
0.06mm. Diaphragms are lacking in exilazooe- OCCURRENCE. — Lower-Upper Permian, Kunguriancia and in majority of zooecia. In few by the Ufimian, Lower part of Zhuravlev strata; single zooecia there is one diaphragm at the Komsomolets Island, Slabyj Stream, loc. 20369.
endozone-exozone transition.
REMARKS
COMPARISON Because of the strong recrystallisation the specific H. severozemelica n. sp. is very similar to H. parva identification is denoted “cf.”.
( Ulrich & Bassler, 1904) regarding many zoarial and zooecial dimensions, but is distinguished in DESCRIPTION having singular diaphragms in zooecia, especially Ramose branching colonies 2.5-4.5 mm in in the branches more than 2 mm in diameter. diameter. Exozone 0.42-0.6 mm wide, clearly The type species of Halloporina , H. crenulata separated from endozone. Thickness of zooecial (Ulrich, 1893), has thicker branches (7-8 mm walls in exozone about 0.08-0.1 mm; in endoversus 1.5-1.8 mm in H. severozemelica n. sp.), zone about 0.015-0.02 mm. Zooecial apertures rounded monticules, numerous exilazooecia and are rounded or ovate, average 0.25-0.27 × 0.13- ridge-shaped walls of zooecia in endozone. 0.17 mm, rarely 0.31 × 0.17 mm. There are generally five to six apertures per 2 mm measured longitudinally, and seven apertures diagonally or across colony. Exilazooecia slightly angular or circular in outline, about 0.08- 0.12 mm in diameter. Acanthostyles with diameter 0.04-0.06 mm generally 4-5, rarely 6-10 around each zooecium.
COMPARISON
The present form seems to be quite identical to Dyscritella lucida , which was reported from Kapp Starostin Formation at Bjernoya, Spitsbergen ( Morozova & Kruchinina 1986). The difference between the present form and the type specimen of D. lucida from Bjernoyan lies only on the diaphragms in zooecia are lacking in the described form ( D. lucida from Bjernoya has single diaphragms at the endozone/exozone boundary).
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