Beitr. Paläont. österr., 7: 119-237, Wien, 1980 Benthonische Foraminiferen der Pemberger-Folge (Oberkreide)
(GRZYBOWSKI) ......................................................................................................................126
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(GRZYBOWSKI) ......................................................................................................................126 Fig. 5 A m m o d i s c u s m i n i m u s HOFKER........................................................................................................................... 128 Fig. 6 A m m o d i s c u s g l a b r a t u s CUSHMAN & JA R V IS..........................................................................................................128 Fig. 7 H a p l o p h r a g m o i d e s e g g e r i (CUSHMAN).........................................................__............................................................ 129 Fig. 8, 9 B o l i v i n o p s i s s p e c t a b i l i s (GRZYBOWSKI) ...................................................................................................................132 Fig. 10 A m m o b a c u l i t e s f r a g m e n t a r i u s (CUSHMAN) .............................................................................................................129 Fig. 11 S p i r o p l e c t a m m i n a d e n t a t a (ALTH) ..............................................................................................................................131 Fig. 12 A m m o b a c u l i t e s f r a g m e n t a r i u s (CUSHMAN) .............................................................................................................129 Fig. 13 A m m o d i s c u s c r e t a c e u s (R EU SS)....................................................................................................................................127 Fig. 14 A m m o b a c u l i t e s w a z a c z i (GRZYBOWSKI)...................................................................................................................130 Tafel 3 Fig. 1 G a u d r y i n a a i s s a n a (TEN DAM & SIGAL) ................................................................................................................... 133 Fig. 2 G a u d r y i n a h e l v e t i c a (HAGN) ..........................................................................................................................................134 Fig. 3 G a u d r y i n a p y r a m i d a t a (CUSHMAN) ........................ 135 Fig. 4—6 T r i t a x i a t r i p l e u r a (REUSS) ..............................................................................................................................................136 Fig. 7, 8 H e t e r o s t o m e l l a f o v e o l a t a (MARSSON)..........................................................................................................................136 Fig. 9—14 D o r o t h i a p u p a (REUSS) .................................................................................................................................................138 Tafel 4 Fig. 1, 2 H a p l o p h r a g m i u m l u e c k e i (CUSHMAN & HEDBERG), verschiedene Individuen, jedes in einer anderen Ebene zusammengedrückt ........................................................................................................................................... 131 Fig. 3 H a p l o p h r a g m i u m a e q u a l e RÖMER................................................................................................................................. 130 Fig. 4 F l a b e l l a m m i n a c o m p r e s s a (BEISSEL)............................................................................................................................130 Fig. 5 G a u d r y i n a f r a n k e i (BROTZEN)................................................................................................................ 134 Fig. 6 G a u d r y i n a r u g o s a (D’ORBIGNY).............................................................................................................................. 135 Tafel 5 Fig. 1—3 T r i t a x i a e g g e r i nov. nom., Fig. 3 zeigt ein juveniles Exem plar.................................................................................136 Fig. A —S T r i t a x i a t r i p l e u r a (REUSS).................................................................................................................................................136 Fig. 6 A m m o b a c u l i t e s f r a g m e n t a r i u s (CUSHMAN) ................................................. 129 Fig. 7 G a u d r y i n a c r e t a c e a (KARRER).......................................................................................................................................134 Fig. 8 M a r s s o n e l l a i n d e n t a t a (CUSHMAN & JARVIS) ........................................................................................................140 Fig. 9 G o e s e l i a r u g u l o s a (CUSHMAN).......................................................................................................................................142 Tafel 6 a = Mündungsansicht b = Seitenansicht Fig. 1 V e r n e u i l i n a m ü n s t e r i REUSS ............................... .....................................•.................................................................. 133 Fig. 2 A m m o b a c u l i t e s f r a g m e n t a r i u s (CUSHMAN) ............ 129 ©Verein zur Förderung der Paläontologie am Institut für Paläontologie, Geozentrum Wien 204 Beitr. Paläont. österr., 7, Wien 1980 Fig. 3 P l e c t i n a p i n s w a n g e n s i s HAGN...................................................................................................................................... 143 Fig. 4 a T r i t a x i a t r i c a r i n a t a (REUSS), Mündungsansicht .....................................................................................................137 Fig. 4 b T r i t a x i a t r i c a r i n a t a (REUSS), anderes Exemplar.....................................................................................................137 Fig. 5 M a r s s o n e l l a o x y c o n a (REUSS) ....................................................................................................................................141 Fig. 6 a,b M a r s s o n e l l a o x y c o n a (REUSS), grob agglutiniert, zwei verschiedene Ansichten desselben Exemplares . 141 Fig. 7 P l e c t i n a p i n s w a n g e n s i s HAGN, etwas um die Längsachse gedreht.....................................................................143 Fig. 8 M a r s s o n e l l a c r a s s a (MARSSON)....................................................................................................................................140 Fig. 9 M a r s s o n e l l a t r o c h u s (D’ORBIGNY)...........................................................................................................................142 Fig. 10 S p i r o p h t h a l m i d i u m cf. m i n i m a (TAPPAN) .............................................................................................................144 Fig. 11—12 S i g m o i l i n a s i g m o i d e a (BRADY)................................................................................................................................144 Fig. 13 Starke Vergrößerung der Oberfläche von Fig. 14......................................................................................................143 Fig. 14, 15 S p i r o p h t h a l m i d i u m c r e t a c e u m (R E U SS)...............................................................................................................143 Tafel 7 Fig. 1 F r o n d i c u l a r i a s t r i a t u l a REUSS ..................................................................................................................................... 158 Fig. 2 F r o n d i c u l a r i a l a n c e o l a REUSS ......................................................................................................................................156 Fig. 3 F r o n d i c u l a r i a l i n e a r i s FRANKE..................................................................................................................................... 157 Fig. 4 F r o n d i c u l a r i a cf. a n g u s t i s s i m a (REUSS) .................................................................................................................... 154 Fig. 5 F r o n d i c u l a r i a cf. a n g u s t i s s i m a (REUSS) .....................................................................................................................154 Fig. 6 F r o n d i c u l a r i a t u r g i d a R E U SS........................................................................................................................................ 159 Fig. 7 F r o n d i c u l a r i a m i d w a y e n s i s CUSHMAN........................................................................................................................157 Fig. 8 F r o n d i c u l a r i a m u c r o n a t a REUSS ...................................................................................................................................158 Fig. 9 F r o n d i c u l a r i a i n v e r s a R E U S S .........................................................................................................................................156 Fig. 10 F r o n d i c u l a r i a s t r i a t u l a REUSS ......................................................................................................................................158 Fig. 11 F r o n d i c u l a r i a c a n a l i c u l a t a R E U SS................................................................................................................................154 Fig. 12 F r o n d i c u l a r i a g o l d f u s s i R E U SS......................................................................................................................................155 Fig. 13 F r o n d i c u l a r i a a r c h i a r c i a n a D’ORBIGNY.....................................................................................................................154 Fig. 14 F r o n d i c u l a r i a f r a n k e i CUSHMAN ................................................................................................................................155 Tafel 8 Fig. 1 N o d o s a r i a a s p e r a R E U SS.................................................................................................................................................145 Fig. 2 N o d o r a s i a p a u p e r c u l a REUSS.........................................................................................................................................146 Fig. 3 N o d o s a r i a r a p h a n i s t r u m LINNE, Bruchstück eines mikrosphärischen Gehäuses..............................................147 Fig. 4 N o d o s a r i a o r t h o p l e u r a REUSS ......................................................................................................................................146 Fig. 5 a N o d o s a r i a r a p h a n i s t r u m LINNE, makrosphärisches Gehäuse................................................................................147 Fig. 5 b Ausschnittvergrößerung der Gehäusewand..................................................................................................................147 Fig. 6 D e n t a l i n a c a t e n u l a R EU SS.............................................................................................................................................. 152 Fig. 7 D e n t a l i n a a n n u l a t a (REUSS)........................................................................................................................................... 151 Fig. 8 D e n t a l i n a m e g a l o p o l i t a n a REUSS ................................................................................................................................153 Fig. 9 N o d o s a r i a v e l a s c o e n s i s CUSHMAN................................................................................................................................148 Fig. 10 D e n t a l i n a l e g u m e n (REUSS)............................................................................................................................................152 Fig. 11 S a r a c e n a r i a n a v i c u l a (D’ORBIGNY)..............................................................................................................................166 Fig. 12 M a r g i n u l i n a b u l l a t a REUSS ............................................................................................................................................165 Fig. 13 N o d o s a r i a sp., mit aculeater Endkammer...................................................................................... 144 Fig. 14 D e n t a l i n a sp., mit aculeater Endkammer.....................................................................................................................150 Fig. 15 M a r g i n u l i n a c u r v a t u r a CUSHMAN.............................................................................................................................165 Tafel 9 Fig. 1 V a g i n u l i n a t r i l o b a t a (D’ORBIGNY).............................................................................................................................. 167 Fig. 2 V a g i n u l i n a g o s a e (R E U SS)............................................................................................................................................... 167 Fig. 3 V a g i n u l i n o p s i s a u s t i n a n a (CUSHMAN), anderer Maßstab ! ........................... 168 Fig. 4 V a g i n u l i n o p s i s cf. e n s i s (REUSS)....................................................................................................................................168 Fig. 5 V a g i n u l i n a t r i l o b a t a (D’ORBIGNY)..............................................................................................................................167 Fig. 6 N o d o s a r i a b i s t e g i a (OLSZEWSKI)................................................................................................................................ 146 Fig. 7 N o d o s a r i a a m p h i o x y s REUSS, anderer Maßstab ! ....................................................................................................144 Fig. 8 D e n t a l i n a s o l v a t a CUSHM AN.........................................................................................................................................153 Fig. 9 D e n t a l i n a cf. a l t e m a t a (JONES) ................................................................................................................................... 150 Fig. 10 D e n t a l i n a a l t e m a t a (JONES)............................................................................................................................................150 ©Verein zur Förderung der Paläontologie am Institut für Paläontologie, Geozentrum Wien Tafel 10 Fig. 1 L a g e n a sp. 1 .......................................................................................................................................................................165 Fig. 2 L a g e n a l a e v i s (MONTAGU) ...........................................................................................................................................163 Fig. 3 L a g e n a e l l i p t i c a (REUSS).................................................................................................................................................161 Fig. 4 L a g e n a e m a c i a t a REUSS .................................................................................................................................................161 Fig. 5 L a g e n a g l o b o s a (MONTAGU)........................................................................................................................................ 161 Fig. 6 L a g e n a s u l c a t a (WALKER & JACOB)..........................................................................................................................164 Fig. 7 L a g e n a s t r i a t o p u n c t a t a PARKER & JONES...............................................................................................................164 Fig. 8 L a g e n a s t r i a t o p u n c t a t a PARKER 8c JONES...............................................................................................................164 Fig. 9 L a g e n a a m p h o r a REUSS .................................................................................................................................................160 Fig. 10 L a g e n a h y s t r i x REUSS ....................................................................................................................................................162 Fig. 11 L a g e n a cf. p l u m i g e r a (BRADY)......................................................................................................................................163 Fig. 12 L a g e n a h i s p i d a REUSS ....................................................................................................................................................162 Fig. 13 L a g e n a s t r i a t o p u n c t a t a d e s m o p h o r a PARKER & JONES........................................................................................ 164 Fig. 14 L a g e n a s t r i a t o p u n c t a t a d e s m o p h o r a PARKER & JONES........................................................................................164 Fig. 15 L a g e n a s e m i i n t e r r u p t a (BERRY)...................................................................................................................................163 Fig. 16 L a g e n a s u l c a t a (WALKER & JACOB)...........................................................................................................................164 Fig. 17 L a g e n a a c u t i c o s t a REUSS .............................................................................................................................................. 159 Fig. 18 L a g e n a a p i c u l a t a (R EU SS).............................................................................................................................................. 160 Tafel 11 Fig. 1 E n t o s o l e n i a o r b i g n y a n a s c i s s a (MATTHES)...............................................................................................................172 Fig. 2 E n t o s o l e n i a o r b i g n y a n a o r b i g n y a n a (SEGUENZA).................................................................................................171 Fig. 3 E n t o s o l e n i a a l a t a (REUSS).............................................................................................................................................. 170 Fig. 4, 5 E n t o s o l e n i a o r b i g n y a n a g l a b r a t a (SELLI) ..................................................................................................................171 Fig. 6 C o l o m i a c o n u l u s (LIEBUS), Längsschnitt..................................................................................................................193 Fig. 7 E n t o s o l e n i a o r b i g n y a n a o r b i g n y a n a (SEGUENZA), Kielansicht..........................................................................171 Fig. 8 E n t o s o l e n i a o r b i g n y a n a c l a t h r a t a (SELLI)..................................................................................................................170 Fig. 9,10 L o x o s t o m u m r o s t r a t u m EHRENBERG........................................................................................................................186 Fig. 11 L o x o s t o m u m r o s t r a t u m EHRENBERG, Seitenansicht...........................................................................................186 Fig. 12 C o l o m i a c o n u l u s Download 0.68 Mb. 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