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Aquilapollenites

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Journal Article

Aquilapollenites and other triprojectate pollen from the Late Cretaceous to Early Paleocene Deccan intertrappean deposits of India Available to Purchase

B. Samant, D.M. Mohabey, K.N. Paudayal
Journal: Palynology
Published: 01 December 2013
Palynology (2013) 37 (2): 298–315.
DOI: https://doi.org/10.1080/01916122.2013.787125
..., particularly Aquilapollenites Rouse 1957 , Jiangsupollis Song 1980 in Song et al. 1980 and Farabeipollis Nandi & Chattopadhyay 2002 . The data on the triprojectate group from the Indian subcontinent shows that Aquilapollenites spp. were widely distributed in the Late Cretaceous (Maastrichtian) sediments...
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Book Chapter

Aquilapollenites Pollen from Deccan Intertrappean Sediments: Age Implications Available to Purchase

Author(s)
Bandana Samant, Deepali Thakre, D. M. Mohabey
Book: Proceedings of XXIII Indian Colloquium on Micropaleontology and Stratigraphy and International Symposium on Global Bioevents in Earth’s History
Series: Special Publication
Publisher: Geological Society of India
Published: 01 January 2013
DOI: 10.17491/cgsi/2013/63312
EISBN: 978-93-80998-61-9
... Abstract: Palynological studies of Deccan volcanic associated sediments of the Sahyadri Group of Nand-Dongargaon basin of Maharashtra, Amarkantak Group of Chhindwara and unclassified Deccan Trap sequences of Saurashtra show the presence of Aquilapollenites pollen. The overall data...
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Abstract: Palynological studies of Deccan volcanic associated sediments of the Sahyadri Group of Nand-Dongargaon basin of Maharashtra, Amarkantak Group of Chhindwara and unclassified Deccan Trap sequences of Saurashtra show the presence of Aquilapollenites pollen. The overall data on this genus from the Indian Late Cretaceous-Early Paleocene indicates that the genus was widely distributed during the Late Cretaceous. A notable decline in abundance in the Early Paleocene may be related to the climatic and environmental changes brought about by the Deccan volcanism.

Journal Article

Cretaceous–Tertiary palynofloral perturbations and extinctions within the Aquilapollenites Phytogeographic Province Available to Purchase

A.R. Sweet, D.R. Braman
Published: 26 January 2001
Canadian Journal of Earth Sciences (2001) 38 (2): 249–269.
DOI: https://doi.org/10.1139/e00-024
... term trends. Most Maastrichtian palynofloral extinctions have been identified within the northern circumpolar, supra-continental, Aquilapollenites Province. In mid-continental North America, the presence of a physically defined K–T boundary provides opportunities to examine contemporaneous terrestrial...
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View PDF for article title, Cretaceous–Tertiary palynofloral perturbations and extinctions within the <span class="search-highlight">Aquilapollenites</span> Phytogeographic Province
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Book Chapter

Aquilapollenites (Rouse) Funkhouser — Selected Rocky Mountain Taxa and Their Stratigraphic Ranges Available to Purchase

Author(s)
Bernadine D. Tschudy, Estella B. Leopold
Book: Symposium on Palynology of the Late Cretaceous and Early Tertiary
Series: GSA Special Papers
Publisher: Geological Society of America
Published: 01 January 1970
DOI: 10.1130/SPE127-p113
... The genus Aquilapollenites and its type species, A. quadrilobus, are redescribed, and the latter is illustrated. This report summarizes our present information on stratigraphic ranges of selected Rocky Mountain species and varieties of Aquilapollenites. Of the 17 taxa included in this report...
Abstract
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The genus Aquilapollenites and its type species, A. quadrilobus, are redescribed, and the latter is illustrated. This report summarizes our present information on stratigraphic ranges of selected Rocky Mountain species and varieties of Aquilapollenites. Of the 17 taxa included in this report, 10 are previously named species, 4 are new species, and 3 are new varieties. One species is transferred from the genus Mancicorpus and another from the genus Parviprojectus. The stratigraphic data concerning Aquilapollenites incorporate available information from U.S. Geological Survey pollen collections.

Journal Article

New spinulose Aquilapollenites spp. from the Edmonton Formation (Maestrichtian), Alberta, Canada Free

Satish K. Srivastava
Published: 01 February 1969
Canadian Journal of Earth Sciences (1969) 6 (1): 133–144.
DOI: https://doi.org/10.1139/e69-013
...Satish K. Srivastava Abstract Eighteen new species belonging to the genus Aquilapollenites are formally described from the Edmonton Formation (Maestrichtian), Alberta, Canada. All these species have reticulate sexine with spinules. non disponible ...
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Journal Article

Aquilapollenites: Fossil Pollen as Seen Under the Scanning Electron Microscope Available to Purchase

CHARLES M DREW, BERNADINE D TSCHUDY
Journal: GSA Bulletin
Published: 01 December 1968
GSA Bulletin (1968) 79 (12): 1829–1832.
DOI: https://doi.org/10.1130/0016-7606(1968)79[1829:AFPASU]2.0.CO;2
...CHARLES M DREW; BERNADINE D TSCHUDY Abstract Photographs of a Late Cretaceous species of Aquilapollenites illustrate the usefulness of the scanning electron microscope (SEM) for the study of fossil pollen. The SEM has the advantages of great depth of focus and wide range of magnification; using...
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Journal Article

Pollen of the genus Aquilapollenites Available to Purchase

John W. Funkhouser
Published: 01 April 1961
Micropaleontology (1961) 7 (2): 193–198.
...John W. Funkhouser Abstract The morphology, possible relationships, and distribution of fossil pollen of the genus Aquilapollenites are discussed, and the original generic description is emended. Seven new species are described. GeoRef, Copyright 2004, American Geological Institute. Reference...
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Image
Figures 1, 2. Light microscope (LM) photograph of Aquilapollenites intertrappeus sp. nov. displaying a thin exine and ornamentation pattern; PGNUDI, 11; Si 1,2 (Q 40/2); PGNUDI, 12; IJ 4, (O 42,2). Figure 3. LM photograph of Aquilapollenites baksii sp. nov. with thick aperture margins; PGNUDI, 3; Si 17, 4 (L 33/3). Figures 4, 5. Jiangsupollis striatus; PGNUDI, 6; Si 1, 3 (M 53/1). Figure 6. Jiangsupollis deccanensis sp. nov. with a flap like projection and a thickening near the aperture; PGNUDI, 4; Si 1, 14 (N 34/3). Figure 7. Farabeipollis sp.; PGNUDI, 6; Si 1, 3 (D42/2). Figures 8–11. Farabeipollis minutus sp. nov.; PGNUDI, 10; P Ch 1(F22/1); PGNUDI, 5; I–J, 5 (S 43/4); PGNUDI, 15; Pan 7, (L 39/3). Scale bar represents 10 μm.

Figures 1, 2. Light microscope (LM) photograph of Aquilapollenites intertr... Available to Purchase

Published: 01 December 2013
Plate 3 Figures 1, 2. Light microscope (LM) photograph of Aquilapollenites intertrappeus sp. nov. displaying a thin exine and ornamentation pattern; PGNUDI, 11; Si 1,2 (Q 40/2); PGNUDI, 12; IJ 4, (O 42,2). Figure 3. LM photograph of Aquilapollenites baksii sp. nov. with thick aperture margins
Image
Map showing extent of the Aquilapollenites Palynofloral province in the Late Cretaceous.

Map showing extent of the Aquilapollenites Palynofloral province in the L... Available to Purchase

Published: 01 June 2012
Figure 7 Map showing extent of the Aquilapollenites Palynofloral province in the Late Cretaceous.
Image
Polar projection of Northern Hemisphere with outline of Aquilapollenites Palynofloral province and lines of paleolatitude.

Polar projection of Northern Hemisphere with outline of Aquilapollenites ... Available to Purchase

Published: 26 January 2001
Fig. 1. Polar projection of Northern Hemisphere with outline of Aquilapollenites Palynofloral province and lines of paleolatitude.
Image
Spores and pollen from the Omichidani Formation in the Tetori area of west-central Japan. Figures 1–7 are from locality TETO-8; Figures 8–27 are from localities TETO-6A and TETO-6C. See text for locality data. All specimens approximately × 700. Figure 1. Laevigatosporites sp. Figure 2. Cyathidites sp. Figure 3. Alisporites sp. Figure 4. Tschudypollis sp. Figure 5. Wodehouseia sp. Figure 6. Aquilapollenites sp. Figure 7. Aquilapollenites sp. cf. A. meliorTakahashi &amp; Shimono 1982. Figure 8. Laevigatosporites sp. Figure 9. Deltoidospora? sp. Figure 10. Unidentified monosulcate angiosperm pollen (Arecipites or Liliacidites). Figure 11. Podocarpidites sp. Figure 12. Tricolpites sp. Figures 13–14. Unidentified triporate angiosperm pollen. Figures 15–16. Aquilapollenites subtilis Mtchedlishvili 1961. Figure 17. Aquilapollenites sp. Figures 18– 19. Aquilapollenites attenuatus Funkhouser 1961. Figures 20a–b. Aquilapollenites quadrilobus Rouse 1957 (two levels of focus). Figures 21a–b. Aquilapollenites quadrilobus Rouse 1957 (two levels of focus). Figure 22. Aquilapollenites collaris (Tschudy &amp; Leopold 1971) Nichols 1994. Figures 23–27. Wodehouseia sp.

Spores and pollen from the Omichidani Formation in the Tetori area of west-... Available to Purchase

Published: 01 December 2010
. Cyathidites sp. Figure 3. Alisporites sp. Figure 4. Tschudypollis sp. Figure 5. Wodehouseia sp. Figure 6. Aquilapollenites sp. Figure 7. Aquilapollenites sp. cf. A. melior Takahashi & Shimono 1982 . Figure 8. Laevigatosporites sp. Figure 9. Deltoidospora ? sp. Figure 10. Unidentified
Image
Figure 1. Scanning electron microscope (SEM) photograph of Aquilapollenites bengalensis showing the short colpi. Figure 2. SEM photograph showing the aperture pattern of the same pollen. Figure 3. SEM photograph of Aquilapollenites bengalensis showing the broad raised band. Figure 4. SEM photograph showing the aperture pattern of the same pollen, showing short colpi. Figure 5. SEM photograph of Aquilapollenites bengalensis showing the rugate ornamentation and thick rugulae. Figure 6. SEM photograph showing the aperture pattern of the same pollen. Figure 7. SEM photograph of Aquilapollenites bengalensis showing a notch-like protrusion. Figure 8. SEM photograph of Aquilapollenites intertrappeus sp. nov. showing the fine striations and raised band. Figure 9. SEM photograph showing the short colpi of the same pollen. Figure 10. SEM photograph of Aquilapollenites baksii sp. nov. showing an equatorial projection and the fine coalescencing striations.

Figure 1. Scanning electron microscope (SEM) photograph of Aquilapollenite... Available to Purchase

Published: 01 December 2013
Plate 2 Figure 1. Scanning electron microscope (SEM) photograph of Aquilapollenites bengalensis showing the short colpi. Figure 2. SEM photograph showing the aperture pattern of the same pollen. Figure 3. SEM photograph of Aquilapollenites bengalensis showing the broad raised band. Figure 4
Image
Specimens are denoted by a specimen number (eg., 89-221-1), sample number (eg., 4), slide number (eg., b), and England Finder slide location (eg., N30/3). All figures x830 with black scale bar equal to 25 μm. 
 1 Aquilapollenites dolium (Samoilovitch) Srivastava 1968, 89-219-23, sample 1, slide c, H53/2. 
 2 Integricorpus scopulensis sp. nov., 89-223-5, sample 5, slide b, T33/0. 
 3 Integricorpus scopulensis sp. nov., holotype, 89-220-31, sample 1, slide c, T56/0. 
 4 Integricorpus scopulensis sp. nov., 89-220-32, sample 1, slide c, U64/2. 
 5 Aquilapollenites sp. A, 89-217-14, sample 1, slide b, T61/0. 
 6 Aquilapollenites sp. B, 93-206-2, sample 4, slide b, Q60/4. 
 7 Aquilapollenites senonicus (Mtchedlishvili) Tschudy &amp; Leopold 1971, 90-213-76, sample 2, slide b, K65/1. 
 8 Aquilapollenites senonicus (Mtchedlishvili) Tschudy &amp; Leopold 1971, 90-215-10, sample 2, slide b, R33/1. 
 9 Aquilapollenites laticorpus Tschudy 1969, 90-213-77, sample 2, slide b, P35/4. 
 10 Aquilapollenites sp. C, 90-216-7, sample 3, slide b, O60/1. 
 11 Aquilapollenites sp. C, 90-213-78, sample 4, slide b, E56/0. 
 12 Aquilapollenites sp. D, 89-223-6, sample 5, slide b, P34/0. 
 13 Aquilapollenites sp. E, 90-213-79, sample 2, slide b, E38/1. 
 14 Aquilapollenites cf. eurypteronusZhou &amp; Wang 1983, 90-213-80, sample 1, slide b, T49/0. 
 15 Aquilapollenites cf. eurypteronusZhou &amp; Wang 1983, 89-221-43, sample 4, slide b, T50/0. 
 16 Aquilapollenites sp. F, 90-213-81, sample 2, slide b, P63/1. 
 17 Mancicorpus sp. A, 90-213-82, sample 2, slide b, S34/0. 
 18 Azonia sp. A, 89-223-7, sample 1, slide b, W39/4. 
 19 Azonia recta (Bolkhovitina) Samoilovitch inSamoilovitch &amp; Mtchedlishvili 1961,90-238-11,sample 2, slide c, O51/0. 
 20 Azonia fabacea Samoilovitch inSamoilovitch &amp; Mtchedlishvili 1961, 90-213-83, sample 1, slide c, P65/1.

Specimens are denoted by a specimen number (eg., 89-221-1), sample number (... Available to Purchase

Published: 01 January 2001
PLATE 14 Specimens are denoted by a specimen number (eg., 89-221-1), sample number (eg., 4), slide number (eg., b), and England Finder slide location (eg., N30/3). All figures x830 with black scale bar equal to 25 μm. 
 1 Aquilapollenites dolium (Samoilovitch) Srivastava 1968, 89-219-23
Image
Scale bars represent 10 μm. Figures 1, 2. Light microscope (LM) photograph of Aquilapollenites bengalensis showing ornamentation pattern and exine characters; PGNUDI, 7; IJ 3 (T 42/4). Figure 3. LM photograph of Aquilapollenites bengalensis showing thick/wide striations; PGNUDI, 8; IJ 7 (K 42). Figures 4, 5. LM photograph of Aquilapollenites bengalensis note consistent exine thickness throughout the grain and hyaline projections from the aperture; PGNUDI, 9; Si 1, 7 (G 40). Figures 6, 7. LM photograph of Aquilapollenites bengalensis showing thick rugulate to striate ornamentation; PGNUDI, 10; P.Ch 1 (W 25). Figures 8, 9. LM photograph of Aquilapollenites intertrappeus sp. nov. with narrow equatorial raised band and thin exine; PGNUDI, 2; Si 1,8 (S 38/1).

Scale bars represent 10 μ m. Figures 1, 2. Light microscope (LM) photograp... Available to Purchase

Published: 01 December 2013
Plate 1 Scale bars represent 10 μ m. Figures 1, 2. Light microscope (LM) photograph of Aquilapollenites bengalensis showing ornamentation pattern and exine characters; PGNUDI, 7; IJ 3 (T 42/4). Figure 3. LM photograph of Aquilapollenites bengalensis showing thick/wide striations; PGNUDI, 8
Image
Scale bar and specimen identification numbers as for Plate 1. Figure 1. Aquilapollenites quadrilobus Rouse emend. Srivastava and Rouse 1970, Horseshoe Canyon Formation, TMP2008.221.0018, East Coulee section of Srivastava (1970), sample 7, slide 4, L31/0 (designated neotype). Figure 2. Siberiapollis sp. (reticulate), Dinosaur Park Formation, TMP1986.104.0021, sample 10, slide b, V37/0. Figure 3. Aquilapollenites stelckii Srivastava 1968, Bearpaw Formation, TMP1989.201.0026, sample112, slide b, N30/4. Figure 4. Integricorpus clarireticulatus Samoilovitch 1965, Dinosaur Park Formation, TMP1988.73.0039, sample 151, slide b, P63/2. Figure 5. Mancicorpus anchoriforme Mtchedlishvili in Samoilovitch and Mtchedlishvili 1961, Dinosaur Park Formation, TMP1988.73.0040, sample 40, slide b, M52/2. Figure 6. Aquilapollenites turbidus Tschudy and Leopold 1971, Dinosaur Park Formation, TMP1985.89.0047, sample 7, slide b, H31/2. Figure 7. Aquilapollenites trialatus Rouse 1957, Foremost Formation, TMP1988.73.0026, sample 151, slide b, N40/4. Figure 8. Fibulapollis scabratus Tschudy 1969, Pakowki Formation, TMP1990.212.0002, sample 4, slide b, P58/0. Figure 9. Aquilapollenites rigidus Tschudy and Leopold 1971, Foremost Formation, TMP1988.73.0038, sample 151, slide b, Y42/0. Figure 10. Aquilapollenites attenuatus Funkhouser 1961, Dinosaur Park Formation, TMP1988.73.0037, sample 20, slide b, L50/1. Figure 11. Cirratriradites luminosus Chlonova 1961, Bearpaw Formation, TMP1986.104.0002, sample 38, slide b, L46/2. Figure 12. Aquilapollenites sp. 2, Bearpaw Formation, TMP1999.203.0008, sample 36, slide e, T59/1. Figure 13. Integricorpus bellum Mtchedlishvili in Samoilovitch and Mtchedlishvili 1961, Dinosaur Park Formation, TMP2002.206.0001, sample 3, slide c, F39/0. Figure 14. Aquilapollenites mtchedlishvili Srivastava 1968, Scollard Formation, TMP1988.219.0015, sample 48, slide b, D40/3. Figure 15. Aquilapollenites funkhouseri Srivastava 1966, Bearpaw Formation, TMP1989.201.0027, sample 83, slide b, X61/3. Figure 16. Pulcheripollenites krempii Srivastava 1969, Bearpaw Formation, TMP1989.201.0028, sample 3, slide b, R32/2. Figure 17. Siberiapollis sp. (verrucate), Dinosaur Park Formation, TMP1986.104.0022, sample 18, slide b, N56/0. Figure 18. Cranwellia rumseyensis Srivastava 1967, Bearpaw Formation, TMP1989.201.0025, sample 26, slide b, R56/1. Figure 19. Mancicorpus tripodiformis (Tschudy and Leopold) Tschudy 1973, Dinosaur Park Formation, TMP1988.73.0007, sample 23, slide b, P56/4. Figure 20. Expressipollis sp. 1, Dinosaur Park Formation, TMP1986.188.0018, sample 7, slide b, K13/3.

Scale bar and specimen identification numbers as for Plate 1 . Figure 1. ... Available to Purchase

Published: 01 June 2012
Plate 2 Scale bar and specimen identification numbers as for Plate 1 . Figure 1. Aquilapollenites quadrilobus Rouse emend. Srivastava and Rouse 1970 , Horseshoe Canyon Formation, TMP2008.221.0018, East Coulee section of Srivastava (1970) , sample 7, slide 4, L31/0 (designated neotype
Image
The scale bars in all the figures represent 10 μm. Figure 1. Aquilapollenites funkhouseriSrivastava 1966, TMP2008.226.0018, O40/1. Figure 2. Aquilapollenites funkhouseriSrivastava 1966, neotype, TMP2008.226.0017, N18/3. Figure 3. Aquilapollenites funkhouseriSrivastava 1966, TMP2008.226.0028, O15/2. Figure 4. Aquilapollenites minutusSrivastava 1966, neotype, TMP2008.226.0023, K47/2. Figure 5. Scabrastephanocolpites albertensisSrivastava 1969a, neotype, TMP2008.221.0023, O31/0. Figure 6. Scabrastephanocolpites albertensisSrivastava 1969a, TMP2008.221.0024, D33/0. Figure 7. Siberiapollis major (Srivastava) status et comb. nov., neotype, TMP2008.226.0024, O18/4. Figure 8. Leptopecopites pocockii (Srivastava) Srivastava 1978a, neotype, TMP2008.227.0007, O18/3. Figure 9. Leptopecopites pocockii (Srivastava) Srivastava 1978a, TMP2008.227.0008, G11/0. Figure 10. Scollardia trapaformisSrivastava 1966, TMP2008.226.0009, W21/0. Figure 11. Scollardia trapaformisSrivastava 1966, neotype, TMP2008.226.0011, E14/1. Figure 12. Scollardia trapaformisSrivastava 1966, TMP2008.226.0010, N49/3. Figure 13. Scollardia trapaformisSrivastava 1966, TMP2008.226.0012, H47/1.

The scale bars in all the figures represent 10 μ m. Figure 1 . Aquilapol... Available to Purchase

Published: 01 June 2013
Plate 3 The scale bars in all the figures represent 10 μ m. Figure 1 . Aquilapollenites funkhouseri Srivastava 1966 , TMP2008.226.0018, O40/1. Figure 2 . Aquilapollenites funkhouseri Srivastava 1966 , neotype, TMP2008.226.0017, N18/3. Figure 3 . Aquilapollenites funkhouseri Srivastava
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—Elements of spore-pollen complex at Alder Creek. 1, Proteacidites sp. (1150×); 2, Cupaniedites sp. (820×); 3, Aquilapollenites sp. (820×); 4, Aquilapollenites sp. (820×); 5, Densosporites sp.-redeposited Carboniferous palynomorphs (820×); 6, Savitrisporites sp. (820×).

—Elements of spore-pollen complex at Alder Creek. 1 , Proteacidites sp. ... Available to Purchase

Published: 01 July 1970
FIG. 4. —Elements of spore-pollen complex at Alder Creek. 1 , Proteacidites sp. (1150×); 2 , Cupaniedites sp. (820×); 3 , Aquilapollenites sp. (820×); 4 , Aquilapollenites sp. (820×); 5 , Densosporites sp.-redeposited Carboniferous palynomorphs (820×); 6 , Savitrisporites sp
Journal Article

Terrestrial palynomorph biostratigraphy of the Cypress Hills, Wood Mountain, and Turtle Mountain areas (Upper Cretaceous - Paleocene) of western Canada Free

D R Braman, A R Sweet
Published: 01 October 1999
Canadian Journal of Earth Sciences (1999) 36 (5): 725–741.
DOI: https://doi.org/10.1139/e98-003
...; and a third on the western edge of Turtle Mountain near Goodlands, Manitoba. The terrestrial elements of the palynological assemblages are discussed. The Maastrichtian assemblages encompassed the Scollardia trapaformis Zone and two new subzones, Myrtipites scabratus - Aquilapollenites delicatus var. collaris...
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a–e North-East Greenland. f–n Nuussuaq Bassin central West Greenland. o–s Labrador–Baffin Seaway.

a–e North-East Greenland. f–n Nuussuaq Bassin central West Greenland. o–s L... Available to Purchase

Published: 27 December 2024
Plate 3. a–e North-East Greenland. f–n Nuussuaq Bassin central West Greenland. o–s Labrador–Baffin Seaway. a. Aquilapollenites sp., 136, Nanok-1 core, 517004-81-2, EF T47/2. b. Aquilapollenites sp., 135, Nanok-1 core, 517004-313-4, EF G48. c. Aquilapollenites sp., 2270, HNH081508-2
Journal Article

Palynostratigraphic zonation of Paleocene strata in the central and south-central Alberta Plains Free

Thomas D. Demchuk
Published: 01 October 1990
Canadian Journal of Earth Sciences (1990) 27 (10): 1263–1269.
DOI: https://doi.org/10.1139/e90-136
...) are barren of Momipites species, which subsequently first appear in the Momipites wyomingensis Zone. These two zones include strata from the Cretaceous–Tertiary boundary (Nevis coal seam) to the top of the Scollard Formation. A diverse assemblage of Momipites spp. plus Aquilapollenites spinulosus...
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