Entogoniopsis squamatoportulata P.A. Sims, J. Witkowski, N.I. Strelnikova & D.M. Williams, 2015
publication ID |
https://doi.org/ 10.11646/phytotaxa.209.1.1 |
persistent identifier |
https://treatment.plazi.org/id/ED69878E-0971-FB15-FF2F-FB25FA762336 |
treatment provided by |
Felipe |
scientific name |
Entogoniopsis squamatoportulata P.A. Sims, J. Witkowski, N.I. Strelnikova & D.M. Williams |
status |
sp. nov. |
9. Entogoniopsis squamatoportulata P.A. Sims, J. Witkowski, N.I. Strelnikova & D.M. Williams , sp. nov.
(SEM: Figs 120–124 View FIGURES 120–124 ; LM: Figs 125–127 View FIGURES 125–127 )
TYPE (here designated):— South Tasman Rise, Southwest Pacific Ocean , DSDP sample 29-281-16-3, 75-77 cm (SZCZ21078, holotype! = Fig. 127 View FIGURES 125–127 ) .
Valves triangular, with acute to slightly rounded poles, and straight sides ( Figs 120 View FIGURES 120–124 , 125–127 View FIGURES 125–127 ). Entire valve face is depressed ( Fig. 122 View FIGURES 120–124 ), apart from raised poles with prominent pseudocelli ( Figs 120, 122 View FIGURES 120–124 ). A hyaline marginal ridge extends between each pseudocellus. Whole valve face is perforated by radially oriented poroid areolae occluded by volae ( Figs 120, 123 View FIGURES 120–124 , 125–127 View FIGURES 125–127 ). Marginal zone with small areolae, more closely spaced than those within the central depression ( Figs 125–127 View FIGURES 125–127 ), which are also variable in size and shape. A well-defined ring of rimoportulae is located in the valve face centre or around the central area ( Fig. 120 View FIGURES 120–124 ), with internal openings in the form of slits across slightly raised papillae ( Fig. 121 View FIGURES 120–124 ). Mantle steeply downturned, shallow, perforated by volate poroid areolae arranged in rows parallel to the pervalvar axis ( Fig. 124 View FIGURES 120–124 ). Margin of the mantle smooth, hyaline, slightly expanded inwardly ( Fig. 124 View FIGURES 120–124 ). The expanded mantle margin on valve interior gives rise to a complex network of internal costae that intersect at multiple angles, forming a series of prominent ‘loops’ along each margin of the valve face ( Figs 120, 124 View FIGURES 120–124 ). The costae reach a short distance toward the centre of the valve face ( Fig. 120 View FIGURES 120–124 ), and are manifested on the valve face exterior by defining sectors, in which occur the marginal areolae ( Figs 125–127 View FIGURES 125–127 ). Measurements (n= 8): average side length: 211.6–359.8 µm; 1 costa in 10 µm measured along the valve face margin; 2 areolae in 10 µm in marginal sectors; 1.5–2 areolae within the central depression; 9–18 rimoportulae; 4–5 porelli in 10 µm.
Etymology:—Named for its superficial resemblance to E. squamata and the presence of the prominent central ring of rimoportulae.
Geographic and stratigraphic distribution ( Fig. 10, sites 12, 19):
Middle Eocene : Falkland Plateau, South Atlantic: Vema Cruise 17, Core 107: BM stub P.1274 ( Figs 120–124 View FIGURES 120–124 ).
1. Pantocsek referred to the scaly pattern produced by the internal costae, hence the Latin epithet ‘squamatum’
20 • Phytotaxa 209 (1) © 2015 Magnolia Press
WITKOWSKI ET AL.
Late Eocene: South Tasman Rise, Southwestern Pacific Ocean: DSDP Site 281, Cores 281-14 through 281-16: SZCZ15073,
21078 ( Figs 125–127 View FIGURES 125–127 ), 22054–22057.
Observations:—Despite numerous hours of careful search, only a single specimen revealing the structure of the valve interior was available for SEM examination. Therefore, external openings of the rimoportulae were not observed in SEM, but LM observations strongly suggest that the external openings are in the form of simple slits.
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