Your search keyword '"EOCENE"' showing total 480 results

1. First Findings of Fossil Pollen of Ancestor Forms of Cathaya Conifers, a Modern Relic, and a Climate Indicator in the Paleogene and Neogene of West Siberia (Kulunda).

Author

Kuzmina, O. B. and Nikitenko, B. L.

Subjects

*FOSSIL pollen, *NEOGENE Period, *CENOZOIC Era, *OLIGOCENE Epoch, *MIOCENE Epoch

Abstract

The palynological analysis of the Paleogene and Neogene sequences of the southern part of West Siberia (borehole 2, Novosibirsk oblast) showed that the conifer bisaccate pollen in the spore–pollen spectra exhibits a series of morphological features allowing its comparison with the modern pollen of Cathaya argyrophylla Chun et Kuang. These palynomorphs belong to relict vegetation, which currently occurs in the wet subtropical climate of South China, and are important climate indicators. The palynomorphs are ascribed to the ancestral forms of the species Cathaya as Abietineaepollenites sellowiiformis (Zaklinskaja) Doweld 2018. The pollen is described, and its distribution along the section is shown. The maximum amount of the A. sellowiiformis pollen (up to 23.7%) is confined to the upper part of the Oligocene and the Lower Miocene and its last appearance is recognized in the Middle–Upper Miocene. These data expand our knowledge on the geographic range of the Cathaya ancestral form and its role in plant communities of Central Asia in the Cenozoic. [ABSTRACT FROM AUTHOR]

Published

2024

2. Early anthropoid primates: New data and new questions.

Author

Chaimanee, Yaowalak, Chavasseau, Olivier, Lazzari, Vincent, Soe, Aung N., Sein, Chit, and Jaeger, Jean‐Jacques

Abstract

Although the evolutionary history of anthropoid primates (monkeys, apes, and humans) appears relatively well‐documented, there is limited data available regarding their origins and early evolution. We review and discuss here the earliest records of anthropoid primates from Asia, Africa, and South America. New fossils provide strong support for the Asian origin of anthropoid primates. However, the earliest recorded anthropoids from Africa and South America are still subject to debate, and the early evolution and dispersal of platyrhines to South America remain unclear. Because of the rarity and incomplete nature of many stem anthropoid taxa, establishing the phylogenetic relationships among the earliest anthropoids remains challenging. Nonetheless, by examining evidence from anthropoids and other mammalian groups, we demonstrate that several dispersal events occurred between South Asia and Afro‐Arabia during the middle Eocene to the early Oligocene. It is possible that a microplate situated in the middle of the Neotethys Ocean significantly reduced the distance of overseas dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

3. Current developments in Paleogene vertebrate palaeontology in view of India’s final drift phase and India–Eurasia docking: an appraisal

Author

Kapur, Vivesh V.

Published

2024

4. An Updated Review of Fossil Pollen Evidence for the Study of the Origin, Evolution and Diversification of Caribbean Mangroves.

Author

Rull, Valentí

Subjects

FOSSIL pollen, MANGROVE plants, EOCENE-Oligocene boundary, NEOGENE Period, PLIOCENE Epoch, HUMAN origins

Abstract

Recently, the evolutionary history of the Caribbean mangroves has been reconsidered using partial palynological databases organized by the time intervals of interest, namely Late Cretaceous to Eocene for the origin, the Eocene–Oligocene transition for major turnover and Neogene to Quaternary for diversification. These discussions have been published in a set of sequential papers, but the raw information remains unknown. This paper reviews all the information available and provides the first comprehensive and updated compilation of the abovementioned partial databases. This compilation is called CARMA-F (CARibbean MAngroves-Fossil) and includes nearly 90 localities from the present and past Caribbean coasts, ranging from the Late Cretaceous to the Pliocene. Details on the Quaternary localities (CARMA-Q) will be published later. CARMA-F lists and illustrates the fossil pollen from past mangrove taxa and their extant representatives, and includes a map of the studied localities and a conventional spreadsheet with the raw data. The compilation is the most complete available for the study of the origin, evolution and diversification of Caribbean mangroves, and is open to modifications for adapting it to the particular interests of each researcher. [ABSTRACT FROM AUTHOR]

Published

2023

5. Eocene to Miocene palynology of the Amagá Basin (Cauca Valley, Colombia) compared to the Caribbean Region.

Author

Pardo-Trujillo, Andrés, Plata-Torres, Angelo, Ramírez, Edwin, Vallejo-Hincapié, Felipe, and Trejos-Tamayo, Raúl

Subjects

EOCENE Epoch, MIOCENE Epoch, PALYNOLOGY, OLIGOCENE Epoch, SEDIMENTARY facies (Geology), CENOZOIC Era, SEDIMENTARY basins

Abstract

Copyright of Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales is the property of Academia Colombiana de Ciencias Exactas, Fisicas y Naturales and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

6. Eocene to Late Oligocene extension dominated mafic magmatism from South Kaleybar, Iran.

Author

Ghorbani, Mohammad Reza, Paydari, Mohammad, Ahmadi, Parham, von Quadt, Albrecht, Ahadnejad, Vahid, M. Cottle, John, Graham, Ian T., Ahmadian, Jamshid, and Ahmadvand, Ahmad

Subjects

*OLIGOCENE Epoch, *MAGMATISM, *VOLCANIC ash, tuff, etc., *VOLCANOLOGY, *ANALYTICAL geochemistry, *ADAKITE, *EOCENE Epoch

Abstract

Vast and geochemically diverse volcanic rocks from the western Alborz Magmatic Assemblage (AMA) represent the back-arc of the central Iran Neotethyan arc (Urumieh–Dokhtar Magmatic Assemblage; UDMA). Volcanic rocks of the west AMA record valuable information on the timing, source region(s) and geodynamic setting of magmatism. Over 30 days of field study and sampling, investigation of 170 thin sections, 30 whole-rock geochemical analyses, 13 whole-rock Sr–Nd isotopic ratios and U–Pb age dating of zircon separates from 7 samples furnished the present study data. Eocene (38.5 Ma) OIB-type volcanic rocks from South Kaleybar indicate an anorogenic (extensional) setting. This lithospheric-scale extensional event induced influx of asthenospheric mantle into the sub-arc wedge, of which the partial melts differentiated to produce OIB-type melts. The OIB-type melts incorporated some inherited zircons in their ascent through the Cadomian crust. A continued extensional regime led to asthenospheric upwelling and produced mafic melts that produced 27.5-Ma-old subalkaline series volcanics. The LILE-depleted signature of the South Kaleybar subalkaline volcanic rocks implies that their mantle source region experienced previous partial melting event(s), probably during OIB-type magmatism in the Eocene. Alkaline volcanism (24.4 Ma) and concurrent high-silica adakitic volcanism (24.3 Ma–23.4 Ma) followed subalkaline magmatism. The alkaline rock signature in the study area range from 'Nb–Ta depleted' to 'plume-type'. This is consistent with lithosphere–asthenosphere interaction in an arc-related setting. Simultaneous partial melts of delaminated lower crustal rocks reacted with the asthenosphere and produced adakitic melts. Asthenospheric, lithospheric and crustal contribution to the magmatism in South Kaleybar express the back-arc signature of magmatism in Eocene to Late Oligocene times. [ABSTRACT FROM AUTHOR]

Published

2023

7. Paleomagnetism From Central Iran Reveals Arabia‐Eurasia Collision Onset at the Eocene/Oligocene Boundary.

Author

Song, Peiping, Ding, Lin, Zhang, Liyun, Cai, Fulong, Zhang, Qinghai, Li, Zhenyu, Wang, Houqi, Jafari, Morteza Khalatbari, and Talebian, Morteza

Subjects

*OLIGOCENE Epoch, *EOCENE Epoch, *PALEOMAGNETISM, *GLOBAL cooling, *VOLCANIC ash, tuff, etc., *SUTURE zones (Structural geology)

Abstract

We present two robust and well‐dated paleomagnetic poles from upper Eocene and Oligocene volcanics in the Urumieh‐Dokhtar magmatic arc, Central Iran. These two poles place Iran ∼3.7°–3° of latitude south of its present position between ca. 40 and 23 Ma. Our new paleomagnetic declination data indicate that the Central Iran block may have experienced a ∼11.6° clockwise rotation since the Late Eocene. We integrated our new data with the retrodeformed margins of the Zagros collision zone and contemporaneous Arabia positions to better constrain the age and configuration of the Arabia and Eurasia assembly process. In our model, the Arabia‐Eurasia collision occurred first in the western Main Zagros suture between ca. 35 and 30 Ma and then diachronously spread eastwards. Our paleogeographic reconstruction and initial continental collision timing supports the Arabia‐Eurasia collision as a first‐order driver of global cooling, Red Sea rifting, and Mediterranean extension. Plain Language Summary: The demise of the Neo‐Tethyan ocean and accompanied continent‐continent collisions created the thick crust and the low relief surfaces of the Iran Plateau and Tibetan Plateau. The onset timing and configuration in the Zagros collisional belt are critical for understanding the uplift of the Iran Plateau, tectonic evolution of the Mediterranean and Zagros regions, as well as the associated Cenozoic climate change. However, the age and configuration of the Arabia‐Eurasia continental collision are hotly debated. Previous works generated competing collision timing estimates ranging from Late Cretaceous to Pliocene, with most estimates from Eocene to Miocene. By conducting geochronology and paleomagnetism on the Eocene‐Oligocene volcanic rocks in Central Iran, we show that the Arabia‐Eurasia collision occurred first in the western Main Zagros suture at the Eocene/Oligocene boundary, and then diachronously spread eastwards. We suggest the Arabia‐Eurasia collision facilitates the slowing of Africa, the opening of the Red Sea, the extension in the Mediterranean, and the Eocene/Oligocene global cooling. Key Points: Our paleomagnetic results indicate a ∼3.7°–3° of latitude south of the present position of Central Iran during ca. 40–23 MaCentral Iran has experienced ∼11.6° clockwise rotation since ca. 40 MaArabia‐Eurasia collision began at the Eocene/Oligocene boundary in the western Main Zagros suture and diachronously spread eastwards [ABSTRACT FROM AUTHOR]

Published

2023

8. New Material of Karakoromys (Ctenodactylidae, Rodentia) from Late Eocene-Early Oligocene of Ulantatal (Nei Mongol): Taxonomy, Diversity, and Response to Climatic Change.

Author

Xu, Rancheng, Zhang, Zhaoqun, Li, Qian, and Wang, Bian

Subjects

*CLIMATE change, *EOCENE Epoch, *OLIGOCENE Epoch, *GLOBAL temperature changes, *CENOZOIC Era, *GLOBAL cooling, *RODENTS

Abstract

The Eocene-Oligocene Transition (EOT) was one of the most profound climate changes in the Cenozoic era, characterized by global cooling around 34 million years ago. This time period also witnessed major faunal turnovers, such as the "Mongolian Remodeling" of Asia, characterized by the dominance of rodents and lagomorphs after the EOT. Previous studies have primarily focused on overall faunal change across the EOT. Here, we examined one genus, the earliest ctenodactylid Karakoromys, based on rich fossils from continuous sections at Ulantatal, Nei Mongol, magnetostragraphically dated to latest Eocene-Early Oligocene. Based on a systematic paleontological study of these fossils, we recognized four species of Karakoromys (Karakoromys decussus, K. arcanus, K. chelkaris, and K. conjunctus sp. nov.), indicating a relatively high diversity of the most primitive ctenodactylids during the latest Eocene-Early Oligocene (~34.9–30.8 Ma). The turnover of ctenodactylids primarily occurred during a regional aridification event around 31 Ma rather than during the EOT cooling event, suggesting that regional precipitation variation in the semi-arid area may have played a more important role than global temperature change in the evolution of early ctenodactylids. [ABSTRACT FROM AUTHOR]

Published

2023

9. The Feet of Paleogene Primates

Author

Yapuncich, Gabriel S., Chester, Stephen G. B., Bloch, Jonathan I., Boyer, Doug M., Barrett, Louise, Series Editor, Zeininger, Angel, editor, Hatala, Kevin G., editor, Wunderlich, Roshna E., editor, and Schmitt, Daniel, editor

Published

2022

10. Middle Eocene–early Miocene planktonic foraminiferal biostratigraphy, chronostratigraphy, sea‐level reconstruction and sequence biostratigraphy at N. El Faras‐1X well, Qattara Depression, Western Desert, Egypt.

Author

Shahin, Abdalla, El Khawagah, Samar, and Shahin, Banan

Subjects

*CHRONOSTRATIGRAPHY, *MIOCENE Epoch, *BIOSTRATIGRAPHY, *EOCENE-Oligocene boundary, *SEQUENCE stratigraphy, *EOCENE Epoch, *OLIGOCENE Epoch

Abstract

The planktonic foraminiferal assemblages are tracked in the middle Eocene–early Miocene succession within N. El Faras‐1X Well, Qattara Depression, Egypt. This succession is composed mainly of three lithostratigraphic units the upper part of the Apollonia Formation (middle to late Eocene), Dabaa Formation (late Eocene and Oligocene) and the lower part of the Moghra Formation (early Miocene). Biostratigraphically, the recorded 77 planktonic foraminiferal species enabled the recognition of 12 planktonic foraminiferal biozones; 4 biozones belong to middle to late Eocene, 7 biozones belong to the Oligocene and 1 belongs to the early Miocene. The proposed biozones were compared with their equivalents in other Egyptian regions and other schemes. Eleven Lowest Occurrence and two Highest Occurrence planktonic foraminiferal bioevents were also recognized and correlated all over the world. The chronostratigraphy and the stage boundaries were mainly delineated according to the diagnostic planktonic foraminifera. The middle–late Eocene boundary (Bartonian–Priabonian boundary), The Eocene–Oligocene boundary (Priabonian–Rupelian boundary), the early Oligocene–late Oligocene boundary (Rupelian–Chattian boundary) and the Oligocene–Miocene boundary (Chattian–Aquitanian boundary) were accurately determined. Based on the % P, the palaeobathymetry was estimated and hence the sea‐level fluctuation. The reconstructed sea‐level curve revealed two major transgressive–regressive cycles with minor oscillation within them. These events were globally correlated and match in most parts with that of the worldwide sea‐level curves. The sequence stratigraphy framework consists mainly of two transgressive–regressive (T–R) depositional sequences (DS1 and DS2). The DS1 includes the TST1 below which is capped by mfs1 and the HST1 above. The DS2 involves the TST2 below that was capped by mfs2 and the HST2 above. [ABSTRACT FROM AUTHOR]

Published

2023

11. Cranial morphology and phylogenetic relationships of Amynodontidae Scott & Osborn, 1883 (Perissodactyla, Rhinocerotoidea).

Author

VEINE-TONIZZO, Léa, TISSIER, Jérémy, BUKHSIANIDZE, Maia, VASILYAN, Davit, and BECKER, Damien

Subjects

*CLADISTIC analysis, *OLIGOCENE Epoch, *EOCENE Epoch, *MORPHOLOGY, *BADLANDS, *MANDIBLE

Abstract

Amynodontidae Scott & Osborn, 1883 are an extinct family of Rhinocerotoidea Owen, 1845 known from the middle Eocene to the latest Oligocene of Asia, North America, and Europe. We report here two unpublished specimens of Amynodontidae, a skull and a mandible of Zaisanamynodon borisovi Belyaeva, 1971 from the late Eocene of the Zaysan Basin (Kazakhstan) and a skull of Metamynodon planifrons Scott & Osborn, 1887, from the early Oligocene of the Big Badlands (United States). This new material has been incorporated into a morpho-anatomical character matrix. It was completed with the coding of the recently described species of Amynodontopsis jiyuanensis Wang X.-Y., Wang Y.-Q., Zhang R., Zhang Z.-H., Liu & Ren, 2020 and the revised coding of Cadurcotherium cayluxi Gervais, 1873 and Cadurcotherium minum Filhol, 1880. We computed a cladistic analysis based on this matrix, including 31 Rhinocerotoidea terminal taxa. The new phylogenetic hypothesis proposed allows to discuss the relationships of the referred specimens within Amynodontidae and those of Amynodontidae within Rhinocerotoidea. Our cladistic analysis clarifies the generic and specific composition of the tribes Metamynodontini Kretzoi, 1942 and Cadurcodontini Wall, 1982 and supports the monophyly of the genus Zaisanamynodon Belyaeva, 1971. The dichotomy between the two tribes is notably expressed by the presence of several cranial features such as "the deep nasal notch" or "the well-developed preorbital fossa" in Cadurcodontini. These cranial specializations attest to an adaptation of the peri-nasal region to the presence of a proboscis with a feeding function. Our study also opens a discussion on the biogeography of Amynodontidae, their emergence and dispersal in Asia and their subsequent migration to North America, and Eastern Europe. Their presence in Western Europe remains restricted to the Oligocene, after a dispersal related to the "Grande Coupure" event. [ABSTRACT FROM AUTHOR]

Published

2023

12. Eocene to Miocene palynology of the Amagá Basin (Cauca Valley, Colombia) compared to the Caribbean Region

Author

Andrés Pardo-Trujillo, Angelo Plata-Torres, Edwin Ramírez, Felipe Vallejo-Hincapié, and Raúl Trejos-Tamayo

Subjects

Palynology, Palynostratigraphy, Amagá Basin, Caribbean, Eocene, Oligocene, Science (General), Q1-390

Abstract

The Cenozoic sedimentary basins of northwestern Colombia contain clues to understanding the evolution of past ecosystems and their possible relationship to regional events, such as the uplift of the northern Andes and the collision of the Panama-Chocó Block with the South American continent. However, these basins have not been thoroughly investigated. This work aims to fill this knowledge gap by performing a comprehensive palynological analysis of the Amagá Basin (Valle del Cauca). Three outcrops were studied to determine their depositional ages, paleoenvironments, and overall floral composition over time. To contextualize our analyses, a comparison was made with two drill holes (ANH-SSJ-Nueva Esperanza-1X and ANH-San Jacinto-1) in the Sinú-San Jacinto Basin in the Colombian Caribbean. The application of the palynological zonation from the Llanos Basin in eastern Colombia was also used to evaluate its suitability in the Amagá Basin. The age of deposition was determined by using several traditional palynostratigraphic markers, including Perisyncolporites pokornyi, Foveotriporites hammeni, Retibrevitricolporites speciosus, Magnastriatites grandiosus, Concavissimisporites fossulatus, Clavainaperturites microclavatus, and Polypodiaceoisporites pseudopsilatus. This assemblage indicates a Middle to Late Eocene, Oligocene, and Miocene age spanning from ~40 to 18 Ma (~22 Myr). However, there are also some differences with respect to the Llanos zonation, such as the absence of Cicatricosisporites dorogensis. Based on this age model, we question whether it is correct to include all these deposits in a single lithostratigraphic unit under the rank of a formation. In the Caribbean, stratigraphic units of similar age exhibit a greater number of key taxa than in the Llanos zonation. In addition, the presence of calcareous microfossils allows for a more detailed determination of the sedimentation age. Furthermore, the discovery of new pollen and spore species could improve the resolution of the biostratigraphy in western Colombia. In the Amagá Basin, only terrestrial palynomorphs were found, which, together with the sedimentary facies, suggest a humid lowland tropical vegetation in fluvial and lacustrine environments.

Published

2023

13. Paleomagnetism From Central Iran Reveals Arabia‐Eurasia Collision Onset at the Eocene/Oligocene Boundary

Author

Peiping Song, Lin Ding, Liyun Zhang, Fulong Cai, Qinghai Zhang, Zhenyu Li, Houqi Wang, Morteza Khalatbari Jafari, and Morteza Talebian

Subjects

Arabia‐Eurasia collision, Eocene, Oligocene, volcanic rock, paleogeographic reconstruction, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract We present two robust and well‐dated paleomagnetic poles from upper Eocene and Oligocene volcanics in the Urumieh‐Dokhtar magmatic arc, Central Iran. These two poles place Iran ∼3.7°–3° of latitude south of its present position between ca. 40 and 23 Ma. Our new paleomagnetic declination data indicate that the Central Iran block may have experienced a ∼11.6° clockwise rotation since the Late Eocene. We integrated our new data with the retrodeformed margins of the Zagros collision zone and contemporaneous Arabia positions to better constrain the age and configuration of the Arabia and Eurasia assembly process. In our model, the Arabia‐Eurasia collision occurred first in the western Main Zagros suture between ca. 35 and 30 Ma and then diachronously spread eastwards. Our paleogeographic reconstruction and initial continental collision timing supports the Arabia‐Eurasia collision as a first‐order driver of global cooling, Red Sea rifting, and Mediterranean extension.

Published

2023

14. Topography, sedimentology, and biochronology of carbonate deposits on seamounts in the JA area, northwestern Pacific Ocean.

Author

Iryu, Yasufumi, Hino, Hikari, Takayanagi, Hideko, Sato, Tokiyuki, Okamoto, Nobuyuki, Suzuki, Akiko, Fujimaki, Yuho, and Usui, Akira

Subjects

*SEAMOUNTS, *CARBONATE rocks, *TOPOGRAPHY, *CARBONATE minerals, *SCLERACTINIA, *LIMESTONE, *CARBONATES, *PALEOGENE

Abstract

Sedimentological and biochronological analyses were undertaken on carbonate deposits from 20 seamounts belonging to the Marcus–Wake Seamount Group, the Magellan Seamounts, and the Marshall Islands Seamounts in the JA area, northwestern Pacific Ocean. Deposition of carbonates on the JA seamounts varied markedly with age. The oldest carbonate deposits are Lower to middle Cretaceous shallow‐water limestones containing mollusks (including rudists), scleractinian corals, and calcareous sponges. Upper Cretaceous and Paleocene carbonates are rare, and no Oligocene carbonates may exist. In contrast, Eocene foraminiferal packstones are widespread, and Miocene–Pleistocene foraminiferal ooze covers the JA seamounts. The limited occurrence of Paleogene carbonate deposits on the JA seamounts is consistent with global observations (i.e., a paucity of Paleogene carbonates). The Cretaceous–Eocene carbonates have been phosphatized, whereas Miocene and later limestones have not. This fact, along with the results of previous studies, suggests that carbonate rocks on seamounts were phosphatized globally during the Oligocene. Upwelling of nutrient‐rich bottom waters during this time is likely responsible for the limited occurrence of Oligocene carbonate rocks on the JA seamounts. The thicknesses of the pelagic caps, which consist mainly of Miocene and younger foraminiferal oozes, varies among the seamounts and depends at least partly on the topography of the top of the seamount. [ABSTRACT FROM AUTHOR]

Published

2023

15. Revision of the timing of accumulation of the raised beach deposits of the central Sperrgebiet, Namibia.

Author

Pickford, Martin

Subjects

*BANDED iron formations, *MARINE sediments, *ALLUVIUM, *PALEOGENE, *DIAMONDS, *BEACHES, *VEINS (Geology)

Abstract

The presence of Cainozoic marine sediments in the Sperrgebiet, Namibia, was noted as early as 1908 when diamonds were found at Kolmanskop. Because of the economic interest of these deposits, geological investigations were undertaken, which led to detailed mapping of their distribution, initially by Beetz (1926). In the Central Sperrgebiet early investigators correlated the 'highest' beach deposits (ca 160 metres above present-day mean sea-level) to the Eocene, referred to in the old literature as 'Höchster Stand der Eocänsee' or the 'Eocäne Marine Inundation' (Kaiser, 1926). Liddle (1971) extended this « ancient » strandline a few kilometres northwards to Elfert's Tafelberg. Dingle et al. (1983) dated it to the late Palaeocene - early Eocene. In contrast, along the Namaqualand coastal plain in South Africa, marine deposits attributed by Pether (1986, 1994) to the 90 metre package, the 50 metre package, and the 30 metre package were correlated to the Miocene. Re-examination of the conglomerates at Eisenkieselklippenbake and Buntfeldschuh which crop out at ca 150-160 metres above sea level, reveals that some of the deposits are considerably younger than the Eocene, being instead of early Miocene (Aquitanian-Burdigalian) age. The beach conglomerates at both of these localities contain well-rounded and polished cobbles of densely ferruginised gravel and sand associated with cobbles of a great variety of other rock types (quartzite, silcrete, silicified freshwater limestone, vein quartz, agates, pebbles of banded ironstone formation (BIF), jasper etc.). The conclusion about the Miocene age of the beaches follows from the observation that the ferruginisation of near-surface deposits in the sector of the Sperrgebiet between Kerbehuk in the south and Elisabethfeld-Grillental in the north occurred during the Oligocene (more precisely, the Chattian) the process petering out during the Early Miocene (Aquitanian-Burdigalian), and ceasing altogether with the establishment of hyper-aridity in the region (onset of fully desert conditions in the Namib) ca 17 Ma. This means that cobbles derived from the break-up of the ferruginised deposits must be younger than the Chattian. Many of the cobbles of ferruginised sediment contain clasts of agate, BIF and jasper, vein quartz, silicified limestone etc. which were already present in the superficial deposits of the region prior to the Chattian, supporting the old conclusions concerning the presence of Eocene marine deposits in the Sperrgebiet. The revised age of the Eisenkieselklippenbake and Buntfeldschuh beach conglomerates means that the timing of the geomorphological development of the region, such as the back-cutting of the Buntfeldschuh Escarpment, requires revision, as do the correlations of near-surface deposits such as the fluvial Blaubok and Gemsboktal formations (Pickford, 2015) which are of Eo-Oligocene and Miocene age respectively. [ABSTRACT FROM AUTHOR]

Published

2023

16. The high taxonomic diversity of the Palaeogene hystricognath rodents (Caviomorpha) from Santa Rosa (Peru, South America) framed within a new geochronological context.

Author

Arnal, Michelle, Pérez, María Encarnación, Tejada Medina, Luz Marina, and Campbell Jr., Kenneth E.

Subjects

*RODENTS, *OLIGOCENE Epoch, *EOCENE Epoch, *PALEOGENE, *FOSSILS, *FRAMES (Social sciences)

Abstract

Hystricognath rodents arrived in South America from Africa during the Paleogene. The oldest South American rodents (Caviomorpha) were intensively studied in recent years. One of these assemblages is the caviomorph paleofauna from Santa Rosa, Peru. Their age was originally estimated as ?Eocene. Here, we report new caviomorph fossils from Santa Rosa and review the previously described rodents taking into account new dates and updated caviomorph information. We identified 18 genera and 22 species, including one new genus and species (Vucetichimys pretrilophodoncia gen. et sp. nov.), and two new species (Shapajamys minor sp. nov. and Ucayalimys amahuacensis sp. nov.). All taxa are brachydont, with visible cusps, and thin crests. The Santa Rosa rodents are one of the oldest and the most diverse caviomorph paleofaunas known from low latitudes of South America. Similarities between these caviomorphs and other Paleogene assemblages lead us to propose an early Oligocene age for those rodents from the Yurúa River (Brazil) and a close temporal relationship with the oldest known levels from Contamana. This new biochronological scenario has deep implications in the origin and early evolution of caviomorphs. A middle Eocene? entrance of one or several waves of African rodents arriving in South America is possible. [ABSTRACT FROM AUTHOR]

Published

2022

17. The Hoanh Bo Trough‐a landward keyhole to the syn‐rift Late Eocene–Early Oligocene terrestrial succession of the northern Song Hong Basin (onshore north‐east Vietnam).

Author

Wysocka, Anna, van Tha, Hoang, Czarniecka, Urszula, Durska, Ewa, Filipek, Anna, Pha, Phan Dong, Cuong, Nguyen Quoc, Zaszewski, Daniel, Tuan, Dang Minh, Thanh, Nguyen Trung, and Baranowski, Adam

Subjects

*OLIGOCENE Epoch, *ALLUVIAL plains, *ALLUVIAL fans, *PALEOGENE, *LITHOFACIES, *RIFTS (Geology)

Abstract

Located on the northern Vietnam onshore/offshore transition, the Hoanh Bo Trough is an excellently exposed terrestrial Palaeogene sedimentary sequence that may be treated as an analogue for regional interpretations of the sedimentary and structural evolution of the northern Song Hong Basin. The Hoanh Bo Trough lies to the north of the northern Song Hong Basin and to the west of the Beibuwan Basin, the origin and evolution of which are linked with Palaeogene South China Sea rifting. Field and archival well sedimentological observations were made throughout the Palaeogene succession of the Hoanh Bo Trough, and samples were collected for palynological, petrographical, and geochemical analysis. Based on the coexistence of particular lithofacies, proximal alluvial fan, distal alluvial fan, fluvial alluvial plain with channels, alluvial plain and/or lake margin, and lacustrine facies associations were distinguished. Palynological analyses suggest the sedimentary infill of the Hoanh Bo Trough is of the Late Eocene–Early Oligocene age and was deposited in a very warm tropical/subtropical climate. In turn, geochemical results demonstrate that the deposits have intermediate chemical maturity and were probably reworked from older sedimentary rock sources. Moreover, it is suggested to combine the Dong Ho and Tieu Giao formations and synonymize them as the Dong Ho Formation. The sedimentary pattern, age, climatic conditions, and structural evolution of the Hoanh Bo Trough align well with the rift initiation, rift development, and rift termination tectonic system tracts. Moreover, the Hoanh Bo Trough could be treated as a landward keyhole for the offshore basins: for instance, the Kien An Basin in the northern Song Hong Basin. [ABSTRACT FROM AUTHOR]

Published

2022

18. Provenance Response to Rifting and Separation at the Jan Mayen Microcontinent Margin.

Author

Morton, Andrew, Jolley, David W., Szulc, Adam G., Whitham, Andrew G., Strogen, Dominic P., Fanning, C. Mark, and Hemming, Sidney R.

Subjects

PROVENANCE (Geology), BASALT, HEAVY minerals, RADIOACTIVE dating, OLIGOCENE Epoch, MINERAL analysis

Abstract

The Eocene-Miocene successions recovered at DSDP sites on the Jan Mayen Ridge (NE Atlantic) and on the adjacent East Greenland margin provide a sedimentary record of the rifting and separation of the Jan Mayen Microcontinent from East Greenland. A combination of palynology, conventional heavy mineral analysis, single-grain major and trace element geochemistry and radiometric dating of amphibole and zircon has revealed a major change in sediment provenance took place at the Early/Late Oligocene boundary corresponding to a prominent seismic reflector termed JA. During the Eocene and Early Oligocene, lateral variations in provenance character indicate multiple, small-scale transport systems. Site 349 and Kap Brewster were predominantly supplied from magmatic sources (Kap Brewster having a stronger subalkaline signature compared with Site 349), whereas Site 346 received almost exclusively metasedimentary detritus. By contrast, Late Oligocene provenance characteristics are closely comparable at the two Jan Mayen sites, the most distinctive feature being the abundance of reworked Carboniferous, Jurassic, Cretaceous and Eocene palynomorphs. The Site 349 succession documents an evolution in the nature of the magmatic provenance component. Supply from evolved alkaline magmatic rocks, such as syenites, was important in the Middle Eocene and lower part of the Early Oligocene, but was superseded in the later Early Oligocene by mafic magmatic sources. In the latest Early Oligocene, the presence of evolved clinopyroxenes provides evidence for prolonged magmatic fractionation. Initial low degrees of partial melting led to generation of alkaline (syenitic) magmas. The extent of partial melting increased during the Early Oligocene, generating basaltic rocks with both subalkaline and alkaline compositions. Towards the end of the Early Oligocene, the amount of partial melting and magma supply rates decreased. In the Late Oligocene, there is no evidence for contemporaneous igneous activity, with scarce magmatic indicator minerals. The provenance change suggests that the hiatus at the Early/Late Oligocene boundary represents the initiation of the proto-Kolbeinsey Ridge and separation of the Jan Mayen Microcontinent from East Greenland. [ABSTRACT FROM AUTHOR]

Published

2022

19. Eocene-Oligocene southwest Pacific Ocean paleoceanography new insights from foraminifera chemistry (DSDP site 277, Campbell Plateau)

Author

F. Hodel, C. Fériot, G. Dera, M. De Rafélis, C. Lezin, E. Nardin, D. Rouby, M. Aretz, P. Antonio, M. Buatier, M. Steinmann, F. Lacan, C. Jeandel, and V. Chavagnac

Subjects

paleoceanography, climate, foraminifera, Eocene, Oligocene, southwest Pacific Ocean, Science

Abstract

Despite its major role in the Earth’s climate regulation, the evolution of high-latitude ocean dynamics through geological time remains unclear. Around Antarctica, changes in the Southern Ocean (SO) circulation are inferred to be responsible for cooling from the late Eocene and glaciation in the early Oligocene. Here, we present a geochemical study of foraminifera from DSDP Site 277 (Campbell Plateau), to better constrain thermal and redox evolution of the high latitude southwest Pacific Ocean during this time interval. From 56 to 48 Ma, Mg/Ca- and δ18O-paleothermometers indicate high surface and bottom water temperatures (24–26°C and 12–14°C, respectively), while weak negative Ce anomalies indicate poorly oxygenated bottom waters. This is followed by a cooling of ∼4° between 48 and 42 Ma, possibly resulting from a weakening of a proto-EAC (East Australian Current) and concomitant strengthening of a proto-Ross gyre. This paleoceanographic change is associated with better ventilation at Site 277, recorded by an increasing negative Ce anomaly. Once this proto-Ross gyre was fully active, increasing biogenic sedimentation rates and decreasing Subbotina sp. δ13C values indicate enhanced productivity. This resulted in a shoaling of the oxygen penetration in the sediment pile recorded by increasing the foraminiferal U/Ca ratio. The negative Ce anomaly sharply increased two times at ∼35 and ∼31 Ma, indicating enhanced seawater ventilation synchronously with the opening of the Tasmanian and Drake Passage gateways, respectively. The Oligocene glaciation is recorded by a major increase of bottom seawater δ18O during the EOT (Eocene-Oligocene Transition) while Mg/Ca-temperatures remain rather constant. This indicates a significant ice control on the δ18O record.

Published

2022

20. Expedition 378 methods.

Author

Röhl, U., Thomas, D. J., Childress, L. B., Anagnostou, E., Ausín, B., Dias, B. Borba, Boscolo-Galazzo, F., Brzelinski, S., Dunlea, A. G., George, S. C., Haynes, L. L., Hendy, I. L., Jones, H. L., Khanolkar, S. S., Kitch, G. D., Lee, H., Raffi, I., Reis, A. J., Sheward, R. M., and Sibert, E.

Subjects

CLIMATE change, GLOBAL Positioning System, SEDIMENTS, SCANNING electron microscopy

Published

2022

21. Site U1553.

Author

Röhl, U., Thomas, D. J., Childress, L. B., Anagnostou, E., Ausín, B., Dias, B. Borba, Boscolo-Galazzo, F., Brzelinski, S., Dunlea, A. G., George, S. C., Haynes, L. L., Hendy, I. L., Jones, H. L., Khanolkar, S. S., Kitch, G. D., Lee, H., Raffi, I., Reis, A. J., Sheward, R. M., and Sibert, E.

Subjects

CLIMATE change, ICE sheets, PERTURBATION theory, PALEOCENE paleoclimatology, CARBON dioxide

Published

2022

22. Expedition 378 summary.

Author

Röh, U., Thomas, D. J., Childress, L. B., Anagnostou, E., Ausín, B., Dias, B. Borba, Boscolo-Galazzo, F., Brzelinski, S., Dunlea, A. G., George, S. C., Haynes, L. L., Hendy, I. L., Jones, H. L., Khanolkar, S. S., Kitch, G. D., Lee, H., Raffi, I., Reis, A. J., Sheward, R. M., and Sibert, E.

Subjects

CLIMATE change, CARBON dioxide mitigation, SOLAR energy, SEDIMENTS, SURFACE temperature

Abstract

International Ocean Discovery Program (IODP) Expedition 378 was designed to recover the first comprehensive set of Paleogene sedimentary sections from a transect of sites strategically positioned in the South Pacific Ocean to reconstruct key changes in oceanic and atmospheric circulation. These sites would have provided an unparalleled opportunity to add crucial new data and geographic coverage to existing reconstructions of Paleogene climate. Following the ~15 month postponement of Expedition 378 and subsequent port changes that resulted in a reduction of the number of primary sites, testing and evaluation of the research vessel JOIDES Resolution derrick in the weeks preceding the expedition determined that it would not support deployment of drill strings in excess of 2 km. Consequently, only one of the originally approved seven primary sites was drilled. Expedition 378 recovered the first continuously cored, multiple-hole Paleogene sedimentary section from the southern Campbell Plateau at Site U1553. This high-southern latitude site builds on the legacy of Deep Sea Drilling Project Site 277 (a single, partially spot cored hole), providing a unique opportunity to refine and expand existing reconstructions of Cenozoic climate history. As the world's largest ocean, the Pacific Ocean is intricately linked to major changes in the global climate system. Previous drilling in the low-latitude Pacific Ocean during Ocean Drilling Program Legs 138 and 199 and Integrated Ocean Drilling Program Expeditions 320 and 321 provided new insights into climate and carbon system dynamics, productivity changes across the zone of divergence, time-dependent calcium carbonate dissolution, bio- and magnetostratigraphy, the location of the Intertropical Convergence Zone, and evolutionary patterns for times of climatic change and upheaval. Expedition 378 in the South Pacific Ocean uniquely complements this work with a highlatitude perspective, especially because appropriate high-latitude records are unobtainable in the Northern Hemisphere of the Pacific Ocean. Expedition 378 provides material from the South Pacific Ocean in an area critical for high-latitude climate reconstructions spanning the early Paleocene to late Oligocene. Site U1553 and the entire corpus of shore-based investigations will significantly contribute to the challenges of the "Climate and Ocean Change: Reading the Past, Informing the Future" theme of the 2013-2023 IODP Science Plan (How does Earth's climate system respond to elevated levels of atmospheric CO2? How resilient is the ocean to chemical perturbations?). Furthermore, Expedition 378 provides material from the South Pacific Ocean in an area critical for high-latitude climate reconstructions spanning the Paleocene to late Oligocene. [ABSTRACT FROM AUTHOR]

Published

2022

23. New Material of Karakoromys (Ctenodactylidae, Rodentia) from Late Eocene-Early Oligocene of Ulantatal (Nei Mongol): Taxonomy, Diversity, and Response to Climatic Change

Author

Rancheng Xu, Zhaoqun Zhang, Qian Li, and Bian Wang

Subjects

Ulantatal, Eocene, Oligocene, Ctenodactylidae, biodiversity, aridification, Biology (General), QH301-705.5

Abstract

The Eocene-Oligocene Transition (EOT) was one of the most profound climate changes in the Cenozoic era, characterized by global cooling around 34 million years ago. This time period also witnessed major faunal turnovers, such as the “Mongolian Remodeling” of Asia, characterized by the dominance of rodents and lagomorphs after the EOT. Previous studies have primarily focused on overall faunal change across the EOT. Here, we examined one genus, the earliest ctenodactylid Karakoromys, based on rich fossils from continuous sections at Ulantatal, Nei Mongol, magnetostragraphically dated to latest Eocene-Early Oligocene. Based on a systematic paleontological study of these fossils, we recognized four species of Karakoromys (Karakoromys decussus, K. arcanus, K. chelkaris, and K. conjunctus sp. nov.), indicating a relatively high diversity of the most primitive ctenodactylids during the latest Eocene-Early Oligocene (~34.9–30.8 Ma). The turnover of ctenodactylids primarily occurred during a regional aridification event around 31 Ma rather than during the EOT cooling event, suggesting that regional precipitation variation in the semi-arid area may have played a more important role than global temperature change in the evolution of early ctenodactylids.

Published

2023

24. Paleoenvironmental and paleoclimatic conditions during the Eocene/Oligocene transition in the southern Hellenic Thrace Basin (Lemnos Island, North Aegean Sea).

Author

KOSTOPOULOU, SOFIA, MARAVELIS, ANGELOS G., BOTZIOLIS, CHRYSANTHOS, and ZELILIDIS, AVRAAM

Subjects

*OLIGOCENE Epoch, *EOCENE Epoch, *TURBIDITY currents, *SUBMARINE fans, *WATER temperature, *ISLANDS, *EOCENE-Oligocene boundary

Abstract

The late Eocene-early Oligocene paleoenviromental and paleoclimatic conditions in the southern Hellenic Thrace Basin (Lemnos Island, Northeast Aegean Sea) have been determined, based on planktonic and benthic foraminiferal analyses. One hundred thirty-nine mudstone samples were collected from representative outcrops that cover the entire stratigraphic record. The samples correspond to submarine fan (Ifestia, Panagia and Kaspaka sections) and shallow-marine deposits (Kaminia section). The analyses of calcareous nannoplankton and planktonic foraminifera indicate that sedimentation took place during the late Eocene to early Oligocene (Priabonian-Rupelian). The ratio of planktonic to benthic foraminifera, the paleobathymetry and the qualitative analysis of foraminifera support a regional shallowing-upward trend. The presence of Globobulimina suggests that dysoxic conditions prevailed the late Eocene, while the presence of paragloborotaliids, globigerinids and chiloguembelinids in the studied succession could be indicative of a gradual cooling event since the late Eocene. The Eocene/Oligocene boundary is characterized by well-oxygenated bottom waters, and the abundance of Catapsydrax unicavus and Paragloborotalia nana suggests a strong cooling event during the early Oligocene (O1 biozone). This decrease in water temperature is most likely linked to the global cold Oi1 event. The early Oligocene is characterized by oxic bottom-water redox conditions that were intermittently interrupted by shorter periods of dysoxic conditions. The occurrence of Bathysiphon indicates the passage of turbidity currents. The recognition of Chiloguembelina cubensis, P. nana and C. unicavus suggests high productivity over the range of the water column, most likely correlated with mixing water during the cold event Oi2. This study decrypted the global paleoenvironmental and paleoclimatic changes that influenced the southern Hellenic Thrace Basin during the Eocene/Oligocene transition. [ABSTRACT FROM AUTHOR]

Published

2022

25. Calcareous nannofossil biostratigraphy and paleoenvironment of the Eocene–Oligocene interval in the Pabdeh Formation in southwestern Iran.

Author

Senemari, Saeedeh and Mejía-Molina, Alejandra

Subjects

*OIL well drilling, *BIOSTRATIGRAPHY, *NANNOFOSSILS, *OIL fields, *OLIGOCENE Epoch, *MARL

Abstract

Studies of the Paleogene sequence in the Zagros Basin of Iran are crucial due to the existence of large oil fields such as the Pazanan oil field. This study examines calcareous nannofossils from the Eocene–Oligocene interval in the upper part of the Pabdeh Formation in the Zagros Basin. Samples were taken from a well drilled in the Pazanan oil field, located in the Dezful Embayment (Zagros Basin, southwestern Iran). The studied section is ~ 54 m thick and comprises mainly a succession of marls and limestones. Calcareous nannofossil biostratigraphy allows the studied interval to be assigned to Martini (Standard tertiary and quaternary calcareous nannoplankton zonation. In: Proceedings of the 2nd planktonic conference. Roma, Italy, p 739–785, 1971) Zones NP19 (Isthmolithus recurvus Zone) through NP22 (Helicosphaera reticulata Zone), which spans the Priabonian and Rupelian stages and includes the Eocene/Oligocene boundary. The nannoflora paleoecology allows us to characterize major changes in paleoproductivity during this interval. Late Eocene (Priabonian) assemblages are dominated by oligotrophic nannofossils. Above the Eocene/Oligocene boundary, there is a diverse assemblage of eutrophic calcareous nannofossils, with a significant decrease in the abundance of oligotrophic species. As well as nutrient supply, water temperature also appears to be another main controlling factor of the paleoenvironment in this region, where there is an increase in cold-water species recorded at the base of the Oligocene (Zone NP21), accompanied by a decrease in warm-water species. These variation in the calcareous nannofossil assemblages may indicate increased nutrient supply, climatic imbalances—associated with weather changes—and eventually sea-surface temperature (SST) cooling in this part of the Zagros Basin (Neo-Tethys domain) throughout the Eocene/Oligocene transition (EOT). [ABSTRACT FROM AUTHOR]

Published

2022

26. Stratigraphy and depositional environment of a mixed siliciclastic-carbonate platform and slope succession of the Paleogene Nisai Group, Pakistan.

Author

Kakar, Aminullah, Kasi, Akhtar Muhammad, Benedetti, Andrea, and Kasi, Aimal Khan

Subjects

*PALEOGENE, *SILICICLASTIC rocks, *LITHOFACIES, *QUARTZITE, *MUDSTONE, *SEA level

Abstract

We document the stratigraphy, lithofacies and depositional environment of the lower Eocene-lower Oligocene Nisai Group, based on petrographic and micropaleontological analysis, and field observations. We rename the whole sedimentary succession as the Nisai Group and divide it into three formations, from bottom to top; Jabrai, Torkhezhe Tsah and Nisai formations. The Jabrai Formation comprises a thick succession of olive gray mudstone and shales with subordinate sandstone, limestone and quartzose conglomerate, interpreted as deltaic and littoral deposits. The Torkhezhe Tsah Formation comprises calciturbidites in its lower part and periplatform oozes and basinal shales in upper part. The shallow-marine carbonate material of calciturbidites possibly derived from a lost platform which was a narrow delta-top-platform developed over deltaic sediments of the Jabrai Formation. The uppermost unit, the Nisai Formation, comprises thick bedded limestone with subordinate shale and nodular reefoid limestone, and shows a shallowing-up succession overlying the slope and basinal deposits of the Torkhezhe Tsah Formation. The presence of Cr-rich spinels in sandstone of the Jabrai Formation, ultramafic-mafic and quartzite lithoclasts in calciturbidite beds as well as paleocurrent data, suggest that siliciclastic sediments of the Nisai Group derived from the Zhob Valley Ophiolites. Moreover, the presence of quartz, igneous and metamorphic extraclasts, and dolomitic horizons within calciturbidite beds, indicate deposition of these calciturbidites in response to lowering of sea level. We propose that emplacement of Zhob Valley Ophiolites served as a drainage divide and supplied deltaic sediments to the Jabrai Formation to its north and the Ghazij Group to the south. [ABSTRACT FROM AUTHOR]

Published

2022

27. Overturned Eocene – Lower Pliocene alluvial stratum on the southern coast of Lake Baikal and its neotectonic significance

Author

A. Al Hamoud, S. V. Rasskazov, I. S. Chuvashova, T. F. Tregub, M. N. Rubtsova, V. L. Kolomiyets, R. Ts. Budaev, A. Hassan, and М. А. Volkov

Subjects

baikal, eocene, oligocene, miocene, pliocene, sediments, palynology, lithogeochemistry, tectonic deformations, Science

Abstract

The study is focused on a section of sediments exposed on the right bank of Mishikha River, Russia. These sediments have a wide range of ages, from the Eocene to the Lower Pliocene. The stratigraphic subdivision of the section is based on the lithogeochemical data and X-ray phase analysis of the mineral compositions. The particle-size analysis shows the alluvial origin of the deposits. Their ages are constrained by spore-pollen spectra in three palynozones: I – Eocene – Oligocene, II – Early – Middle Miocene (subzone a – Tsuga, Picea in the lower part, and Quercus, Taxodiaceae, Momipites, Carya in the upper part; subzone b – Fagus, Quercus, Tsuga), and III – the Late Miocene – beginning of the Pliocene (subzone ν – Ulmus, Juglans, Carya; subzone g – Carya, Alnus). The section shows a combination of normal and overturned sedimentary layers. The tectonic displacement of the block with its flip was accompanied by the entry into contact of the unlithified Pliocene sediments with a rigid bed and the development of a landslide. The lower age limit of deformations is constrained from the youngest (beginning of the Pliocene) spore and pollen spectrum extracted from deformed layers. It is suggested that the overturned layers result from strike-slip deformations of the sediments at the beginning of the late orogenic stage of the Baikal rift development. The regional correlations of the sedimentary strata give grounds to conclude that the Mishikha section is characteristic of alluvial sedimentation that dominated at the eastern end of the Tankhoi tectonic step (Mishikha-Klyuevka paleovalley), in contrast to the Tankhoi block in the central part of the step, wherein a thick Lower Miocene stratum of swampy-oxbow sediments accumulated. The stratons of the Mishikha section correlate with sedimentary units detected by drilling in the Selenga delta at the central part of the South Baikal basin.

Published

2021

28. Cenozoic terrestrial palaeoenvironemtal change : an investigation of the Petrockstowe and Bovey basins, south west United Kingdom

Author

Chaanda, Mohammed Suleiman

Subjects

551.9, Cenozoic, Palaeoenvironmental, Petrockstowe Basin, Bovey Basin, Sedimentary facies, Stable carbon isotope, organic carbon, palynology, palaeotemperature, Palaeocene, Eocene, Oligocene

Abstract

The Petrockstowe and Bovey basins are two similar pull apart (strike slip) basins located on the Sticklepath – Lustleigh Fault Zone (SLFZ) in Devon, SW England. The SLFZ is one of the several faults on the Cornubian Peninsula and may be linked to Variscan structures rejuvenated in Palaeogene times. The bulk of the basins’ fill consists of clays, silts, lignites and sands of Palaeogene age, comparable to the Lough Neagh Basin (Northern Ireland), which is also thought to be part of the SLFZ. In this study a multiproxy approach involving sedimentary facies analysis, palynological analysis, stable carbon isotope (δ13C) analysis and organic carbon palaeothermometer analyses were applied in an attempt to understand the depositional environment in both basins. A negative carbon isotope excursion (CIE) with a magnitude of 2‰ was recorded at ~ 580 m in the siltstone, silty clay to clay lithofacies in the lower part of Petrockstowe Basin, with minimum δ13CTOC values of -28.6‰. The CIE spans a depth of 7 m. Palynological characteristics of this excursion are correlated with the Cogham Lignite in the southern UK, which is the only established PETM section in the UK, and other continental sections to test whether the palynology associated with this CIE can be used to date it. The age model proposed herein correlates the CIE to the Eocene Thermal Maximum -2 (ETM2; ~ 52.5Ma) event. Key pollen and spore assemblages found in the lower Petrockstowe Basin are Monocolpopollenites, Inaperturopollenites, Laevigatisporites, Bisaccate conifer pollen and Tricolporopollenites, which suggest an Eocene age, while those occurring in the upper part of the Petrockstowe and Bovey basins are Arecipites, Inaperturopollenites, Monocolpopollenites, Tricolporopollenites, Sequoiapollenites, and Pompeckjodaepollenites, which have suggested botanical affinities to modern tropical to sub-tropical genera signifying a climate that was frost-free at the time of sediment deposition. This assemblage further suggests that these sediments are Oligocene to middle Oligocene in age. In the upper part of the Petrockstowe Basin, reconstructed mean annual air temperatures (MAT) demonstrate a clear departure from the mean temperature of 24.5oC at 10 m to 19.5oC towards the top of the core, indicating a steady continuous decline similar to the temperature departures seen in the Solent Group in the Hampshire Basin, Isle of Wight, UK which has an established Eocene – Oligocene succession.

Published

2016

29. Magnetostratigraphic evidence for post-depositional distortion of osmium isotopic records in pelagic clay and its implications for mineral flux estimates

Author

Yoichi Usui and Toshitsugu Yamazaki

Subjects

Deep-sea sediments, Chronology, Eocene, Oligocene, Diagenesis, Bioturbation, Geography. Anthropology. Recreation, Geodesy, QB275-343, Geology, QE1-996.5

Abstract

Abstract Chemical stratigraphy is useful for dating deep-sea sediments, which sometimes lack radiometric or biostratigraphic constraints. Oxic pelagic clay contains Fe–Mn oxyhydroxides that can retain seawater 187Os/188Os values, and its age can be estimated by fitting the isotopic ratios to the seawater 187Os/188Os curve. On the other hand, the stability of Fe–Mn oxyhydroxides is sensitive to redox change, and it is not clear whether the original 187Os/188Os values are always preserved in sediments. However, due to the lack of independent age constraints, the reliability of 187Os/188Os ages of pelagic clay has never been tested. Here we report inconsistency between magnetostratigraphic and 187Os/188Os ages in pelagic clay around Minamitorishima Island. In a ~ 5-m-thick interval, previous studies correlated 187Os/188Os data to a brief ( 2.9–6.9 million years duration. Quartz and feldspars content showed that while the paleomagnetic chronology gives reasonable eolian flux estimates, the 187Os/188Os chronology leads to unrealistically high values. These results suggest that the low 187Os/188Os signal has diffused from an original thin layer to the current ~ 5-m interval, causing an underestimate of the deposition duration. The preservation of the polarity patterns indicates that a mechanical mixing such as bioturbation cannot be the main process for the diffusion, so diagenetic redistribution of Fe–Mn oxyhydroxides and associated Os may be responsible. The paleomagnetic chronology presented here also demands reconsiderations of the timing, accumulation rate, and origins of the high content of rare-earth elements and yttrium in pelagic clay around Minamitorishima Island.

Published

2021

30. New phiocricetomyine rodents (Hystricognathi) from the Jebel Qatrani Formation, Fayum Depression, Egypt.

Author

Al-Ashqar, Shorouq F., Seiffert, Erik R., de Vries, Dorien, El-Sayed, Sanaa, Antar, Mohamed S., and Sallam, Hesham M.

Subjects

RODENTS, EOCENE Epoch, PALEOBIOGEOGRAPHY, QUARRIES & quarrying, PALEOGENE, OLIGOCENE Epoch, MURIDAE

Abstract

Background: The rich rodent assemblages from the Eocene-Oligocene deposits of the Jebel Qatrani Formation (Fayum Depression, Egypt) have important implications for our understanding of the origin and paleobiogeography of Hystricognathi, a diverse clade that is now represented by the Afro-Asiatic Hystricidae, New World Caviomorpha, and African Phiomorpha. Methods: Here we present previously undescribed material of the enigmatic hystricognath clade Phiocricetomyinae, from two stratigraphic levels in the lower sequence of the Jebel Qatrani Formation--a new genus and species (Qatranimys safroutus) from the latest Eocene Locality 41 (~34 Ma, the oldest and most productive quarry in the formation) and additional material of Talahphiomys lavocati from that species' type locality, early Oligocene Quarry E (~31-33.2 Ma). Results: The multiple specimens of Qatranimys safroutus from L-41 document almost the entire lower and upper dentition, as well as mandibular fragments and the first cranial remains known for a derived phiocricetomyine. Specimens from Quarry E allow us to expand comparisons with specimens from Libya (late Eocene of Dur at-Talah and early Oligocene of Zallah Oasis) that have been placed in T. lavocati, and we show that the Dur at-Talah and Zallah specimens do not pertain to this species. These observations leave the Fayum Quarry E as the only locality where T. lavocati occurs. [ABSTRACT FROM AUTHOR]

Published

2021

31. Synopsis of the fossil Pristocerinae (Hymenoptera, Bethylidae), with description of two new genera and six species from Burmese, Taimyr, Baltic and Rovno ambers.

Author

Colombo, Wesley D., Gobbi, Fernanda T., Perkovsky, Evgeny E., and Azevedo, Celso O.

Subjects

*HYMENOPTERA, *FOSSILS, *AMBER, *SPECIES, *SEXUAL dimorphism, *BIOLOGICAL laboratories

Abstract

The flat wasps Bethylidae are a cosmopolitan family of aculeate ectoparasitoid of Coleoptera and Lepidoptera larvae. There are only 73 fossil species so far. Here, we provide a synopsis of the fossil pristocerine, which are those with strongly sexual dimorphism. Comments for all earlier described species are given. Two new genera and two species from Burmese and Taimyr ambers are described and illustrated, †Ekaterina volgatitan Colombo, Gobbi and Azevedo gen. et sp. nov. and †Uniceratops trex Colombo, Gobbi and Azevedo gen. et sp. nov. Four new species from Baltic and Rovno ambers are described and illustrated, †Cleistepyris allosaurus Colombo, Gobbi and Azevedo sp. nov., †Cleistepyris baryonyx Colombo, Gobbi and Azevedo sp. nov., †Pseudisobrachium megalosaurus Colombo, Gobbi and Azevedo sp. nov., †Pseudisobrachium stegosaurus Colombo, Gobbi and Azevedo sp. nov. The species Eleganesia electriphila (Cockerell) is transferred to Foenobethylus and has to be considered Foenobethylus electriphilus (Cockerell) comb. nov. The species Pseudisobrachium oligocenicum Théobald must be excluded from Bethylidae and has to be considered as Hymenoptera incertae sedis. The genus Cleistepyris is recorded for the Old World in the first time. A key for fossil pristocerine is provided. [ABSTRACT FROM AUTHOR]

Published

2021

32. New phiocricetomyine rodents (Hystricognathi) from the Jebel Qatrani Formation, Fayum Depression, Egypt

Author

Shorouq F. Al-Ashqar, Erik R. Seiffert, Dorien de Vries, Sanaa El-Sayed, Mohamed S. Antar, and Hesham M. Sallam

Subjects

Paleogene, Rodentia, Oligocene, Eocene, Africa, Medicine, Biology (General), QH301-705.5

Abstract

Background The rich rodent assemblages from the Eocene–Oligocene deposits of the Jebel Qatrani Formation (Fayum Depression, Egypt) have important implications for our understanding of the origin and paleobiogeography of Hystricognathi, a diverse clade that is now represented by the Afro-Asiatic Hystricidae, New World Caviomorpha, and African Phiomorpha. Methods Here we present previously undescribed material of the enigmatic hystricognath clade Phiocricetomyinae, from two stratigraphic levels in the lower sequence of the Jebel Qatrani Formation—a new genus and species (Qatranimys safroutus) from the latest Eocene Locality 41 (~34 Ma, the oldest and most productive quarry in the formation) and additional material of Talahphiomys lavocati from that species’ type locality, early Oligocene Quarry E (~31–33.2 Ma). Results The multiple specimens of Qatranimys safroutus from L-41 document almost the entire lower and upper dentition, as well as mandibular fragments and the first cranial remains known for a derived phiocricetomyine. Specimens from Quarry E allow us to expand comparisons with specimens from Libya (late Eocene of Dur at-Talah and early Oligocene of Zallah Oasis) that have been placed in T. lavocati, and we show that the Dur at-Talah and Zallah specimens do not pertain to this species. These observations leave the Fayum Quarry E as the only locality where T. lavocati occurs.

Published

2021

33. First aphidiine wasp from the Sakhalinian amber

Author

Elena M. Davidian, Maryna O. Kaliuzhna, and Evgeny E. Perkovsky

Subjects

hymenoptera, ichneumonoidea, braconidae, aphidiinae, eocene, oligocene, baltic amber, sakhalinian amber, Fossil man. Human paleontology, GN282-286.7, Paleontology, QE701-760

Abstract

The first ichneumonoid aphidiine wasp species from Sakhalinian amber (middle Eocene) is described. Ephedrus rasnitsyni Davidian and Kaliuzhna sp. nov. іs the oldest named aphidiine female, the first fossil aphidiine from Asia, and the oldest named species of the Ephedrus. Ephedrus rasnitsyni Davidian and Kaliuzhna sp. nov. and the two fossil species of Ephedrus, i.e., Ephedrus primordialis from Baltic amber (late Eocene) and Ephedrus mirabilis from Camoins-les-Bains (early Oligocene), presumably belong to the Ephedrus plagiator species group of the subgenus Ephedrus sensu stricto, and new species differs from them in having a longer petiole and a rather long 3M vein that does not reach the forewing margin. It additionally differs from E. primordialis by having longer ovipositor sheaths. The new species is most similar to the extant Ephedrus validus and Ephedrus carinatus, from which it differs by the less elongated F1, absence of notauli, and by ovipositor sheaths that are 3.0 times as long as wide.

Published

2021

34. FRANKFURT/DRESDEN/GÖRLITZ: Palaeontological collections of the Senckenberg Gesellschaft für Naturforschung

Author

Uhl, Dieter, Kunzmann, Lutz, Hertler, Christine, Kahlke, Ralf-Dietrich, Keiler, John-Albrecht, Königshof, Peter, Kullmer, Ottmar, Schaal, Stephan, Smith, Krister, Kraemer, Mónica M. Sólorzano, Stebich, Martina, Tietz, Olaf, Wilmsen, Markus, Beck, Lothar A., Series Editor, Sues, Hans-Dieter, Series Editor, and Joger, Ulrich, editor

Published

2018

35. Paleogene Arc-Related Volcanism in the Southern Central Andes and North Patagonia (39°–41° S)

Author

Iannelli, Sofía B., Fernández Paz, Lucía, Litvak, Vanesa D., Jones, Rosemary E., Ramos, Miguel E., Folguera, Andrés, Ramos, Victor A., Blondel, Philippe, Series Editor, Guilyardi, Eric, Series Editor, Rabassa, Jorge, Series Editor, Horwood, Clive, Series Editor, Folguera, Andrés, editor, Contreras-Reyes, Eduardo, editor, Heredia, Nemesio, editor, Encinas, Alfonso, editor, B. Iannelli, Sofía, editor, Oliveros, Verónica, editor, M. Dávila, Federico, editor, Collo, Gilda, editor, Giambiagi, Laura, editor, Maksymowicz, Andrei, editor, Iglesia Llanos, María Paula, editor, Turienzo, Martín, editor, Naipauer, Maximiliano, editor, Orts, Darío, editor, D. Litvak, Vanesa, editor, Alvarez, Orlando, editor, and Arriagada, César, editor

Published

2018

36. Paleogene marine bivalves of the deep-water Keasey Formation in Oregon, part IV: The anomalodesmatans

Author

Hickman, Carole S.

Subjects

Eocene, Oligocene, bathyal, nacre, biomineralization, active margin

Abstract

The late Eocene–early Oligocene Keasey Formation in Northwestern Oregon contains a unique fauna of deep-water (>200 m) marine bivalves preserved in sparsely fossiliferous massive tuffaceous siltstone as well as in several distinctive cold-seep limestone bodies and carbonate layers. The Keasey gastropod fauna has been described previously, but this treatment of the anomalodesmatan bivalves is the first systematic account for any portion of the bivalve fauna. Cenozoic evolutionary radiation and history of anomalodesmatans is less well known than their deep Paleozoic and Mesozoic history. Because internal relationships are not well resolved, ranked classification is not used above the family level, while recognizing that these rare and unusual bivalves do represent a monophyletic assemblage nested within the basal heterodonts. Six species in four anomalodesmatan families in the Keasey Formation shed new light on the Cenozoic history of the group as well as the Eocene appearance of precursors of the living deep-water fauna of the northeastern Pacific. The families represented are Pandoridae, Thraciidae, Periplomatidae, and Cuspidariidae. The new species are Pandora eocapsella, Thracia keaseyensis, Cardiomya anaticepsella, and Cardiomya pavascotti. Aperiploma? n. sp. is described in open nomenclature pending discovery of additional and more complete material. Although shells are frequently crushed and the exterior shell layers are often poorly preserved, the interior nacre is distinctive, well-preserved and useful for recognizing fragments in the field. Characteristic anomalodesmatan granules are well preserved on many specimens of the new thraciid, and the fine-grained matrix at some localities preserves shell features on external molds where no original shell material remains. High-resolution images of uncoated shell encourage greater attention to collection of fragments and imperfect specimens in the fine-grained deep-water facies on the active margin of the Pacific.

Published

2014

37. New insights into Cenozoic Silicon cycling in the Southern Ocean : refined application of silicon isotope ratios in biogenic opal

Author

Egan, Katherine Elizabeth, Rickaby, R. E. M., and Halliday, A. N.

Subjects

577, Earth sciences, Geochemistry, Diatom, Silicon Isotope, Eocene, Oligocene

Abstract

The marine silicon and carbon cycles are intrinsically linked by a unique group of primary producers; the diatoms. These siliceous-walled phytoplankton play a significant role in carbon export, making them a critical component of the global biological carbon pump with the power to affect climatic change. In this thesis, the silicon isotope composition (δ30Si) preserved in diatom opal is used together with the δ30Si of sponge opal, a powerful new proxy for deepwater silicic acid concentration, to document the Cenozoic Silicon cycle, shedding light on its role in carbon cycling and global climatic change. This study has developed a novel size-separation methodology to produce the first core top calibration of diatom δ30Si. The calibration demonstrates that diatom δ30Si exhibits a strong negative correlation with surface water silicic acid concentration, supportive of its application as a proxy for silicic acid utilisation. The refined method is used to produce a diatom δ30Si record, for the first time combined with sponge δ30Si, to gain insight into the Southern Ocean silicon cycle over one of the largest Cenozoic climatic shifts; the onset of Antarctic glaciation (~33.7 Ma). The two δ30Si records yield the first geochemical footprint to demonstrate that diatom proliferation, coincident with the onset of Antarctic circumpolar current flow, was a precursor event to the Eocene-Oligocene Transition. Diatoms are shown to have played a role in climate cooling through enhanced export and burial of organic carbon on the seafloor. The first long term reconstruction of silicic acid concentration in subsurface waters of the Southern Ocean, which spans the Late Eocene to the earliest Pliocene, provides new evidence that oceanic vertical mixing rates, coupled with the efficient removal of silicon from the surface by the diatoms, have been the most important factor in controlling the silicon chemistry of the ocean over the Cenozoic.

Published

2014

38. Palynomorphs in Baltic, Bitterfeld and Ukrainian ambers: a comparison.

Author

Halbwachs, Hans, Bässler, Claus, and Worobiec, Elżbieta

Subjects

*PLANT spores, *FUNGAL spores, *MIXED forests, *UKRAINIANS, *SOLVENT extraction, *ANTHROPOCENE Epoch

Abstract

The different geographical origins of Baltic, Bitterfeld and Ukrainian ambers may be reflected in differences in their preserved fungal spores and plant pollen. In this study, over 573 palynomorphs were isolated through solvent extraction and the differences in their morphological characteristics examined using conventional transmitted light microscopy to explore this hypothesis. The spore spectra in the Baltic, Bitterfeld and Ukrainian samples differed considerably whereas the pollen spectra differed only marginally. In the Ukrainian ambers, the isolated fungal spores were primarily basidiomycetes (mostly Coprinus s.l., Strophariaceae and similar taxa with thick-walled, melanised spores), indicative of a moist environment rich in decaying plant debris. The first amber-based evidence for Ilex was found in the Bitterfeld samples and for members of the Juglandaceae in those from the Baltic. Overall, the pollen spectra were consistent with earlier findings on Eocene-Oligocene vegetation and climate. The mixed forests of those geological epochs are the hallmark of a habitat containing multifaceted niches for animals and obviously fungi. [ABSTRACT FROM AUTHOR]

Published

2021

39. First aphidiine wasp from the Sakhalinian amber.

Author

DAVIDIAN, ELENA M., KALIUZHNA, MARYNA O., and PERKOVSKY, EVGENY E.

Subjects

*AMBER, *WASPS, *OLIGOCENE Epoch, *EOCENE Epoch, *PETIOLES, *SPECIES

Abstract

The first ichneumonoid aphidiine wasp species from Sakhalinian amber (middle Eocene) is described. Ephedrus rasnitsyni Davidian and Kaliuzhna sp. nov. іs the oldest named aphidiine female, the first fossil aphidiine from Asia, and the oldest named species of the Ephedrus. Ephedrus rasnitsyni Davidian and Kaliuzhna sp. nov. and the two fossil species of Ephedrus, i.e., Ephedrus primordialis from Baltic amber (late Eocene) and Ephedrus mirabilis from Camoins-les-Bains (early Oligocene), presumably belong to the Ephedrus plagiator species group of the subgenus Ephedrus sensu stricto, and new species differs from them in having a longer petiole and a rather long 3M vein that does not reach the forewing margin. It additionally differs from E. primordialis by having longer ovipositor sheaths. The new species is most similar to the extant Ephedrus validus and Ephedrus carinatus, from which it differs by the less elongated F1, absence of notauli, and by ovipositor sheaths that are 3.0 times as long as wide. [ABSTRACT FROM AUTHOR]

Published

2021

40. Lithospheric- and crustal-scale controls on variations in foreland basin development in the Northern Alpine Foreland Basin.

Author

Eskens, Lucas H.J., Andrić-Tomašević, Nevena, Süss, Peter M., Müller, Matthias, Herrmann, Rolf, and Ehlers, Todd A.

Subjects

*MOLASSE, *GEOLOGICAL modeling, *EOCENE Epoch, *CENOZOIC Era, *MESOZOIC Era

Abstract

The Northern Alpine Foreland Basin (i.e., Molasse Basin) developed due to flexural subsidence from slab- and topographic loading during continental collision between the Adriatic and European plates. Previous studies highlight a diachronous transition from underfilled- to overfilled conditions in the Molasse Basin in response to orogen-parallel variations in flexural subsidence and sediment supply. In this contribution, we investigate the lithospheric- and crustal-scale orogenic process(es) that generated this diachronous transition. For this, we conducted a tectonostratigraphic analysis of the Molasse Basin. Firstly, we constructed a 3D geological model to derive the architecture of the European margin during the Eocene onset of flexure. Second, 2D/3D reflection seismic- and borehole data were used to characterise the spatiotemporal development of depositional environments and syn-flexural normal fault kinematics in the German Molasse. Our data show a stepwise rather than continuous eastward migration of the underfilled- to overfilled transition. Furthermore, syn-flexural fault kinematics document a Rupelian to early Burdigalian northward younging trend and higher cumulative Cenozoic offsets in the Eastern German Molasse (< 230 m) compared to the Western German Molasse (< 150 m). This implies a west-to-east increase in the curvature of bending of the European plate, induced by along-strike variations in the magnitude of applied loads and/or European lithospheric strength variations. These variations drove lateral variations in accommodation space and sediment supply. Subsequently, this led to the diachronous underfill-to-overfilled transition in the Molasse Basin. Taken together, we suggest that the diachronous transition was driven by spatiotemporal variations in the thickening of the orogenic wedge supported by slab detachment, promoted by subduction- and collision of the irregular European margin. • Cumulative offsets on Cenozoic normal faults in the German Molasse increase eastward. • Mesozoic European passive margin architecture controlled the late Eocene stage German Molasse Basin architecture. • Irregular passive margin architecture influenced the underfilled- to overfilled transitions in the Molasse Basin. [ABSTRACT FROM AUTHOR]

Published

2024

41. Stratigraphy and sedimentary environments of the Villa María and Peña Colorada formations (Paleogene), Westernmost Argentine Plateau.

Author

Romina L. López Steinmetz and Carolina Montero-López

Subjects

Eocene, Oligocene, Sedimentary basin, Andean Plateau., Geology, QE1-996.5, Geophysics. Cosmic physics, QC801-809

Abstract

The Peña Colorada Formation records the early stage of Andean foreland sedimentation over ~1,000 km2 in the north westernmost Argentine plateau (21°51’ S - 66°12’ W). The aim of the present contribution is to provide a detailed stratigraphic characterization of these deposits and the description of their sedimentary environments. Detailed stratigraphic observations conducted to the division of the Peña Colorada Formation in two formal units, the Villa María and Peña Colorada formations. Subsequently, these two formations were divided into members according to sedimentary facies, textural tendencies, the alternating presence of quartz, carbonate and gypsum veins, and the distinctive cementation of deposits by iron carbonate, silica, and calcium carbonate. Data suggest that sedimentation would have taken place in alluvial plains near sourcing sediments that were being actively uplifted.

Published

2021

42. Marine Paleogene of the Koryak Upland, Northeast Asia: Stratigraphy, Mollusks, Correlation, and Geological Events.

Author

Gladenkov, Yu. B.

Subjects

*PALEOGENE, *UPLANDS, *MOLLUSKS, *STRATIGRAPHIC correlation, *MARINE transgression

Abstract

The Middle Eocene–Oligocene marine sediments and their underlying and overlapping sequences, which are confined to four Cenozoic troughs and two depressions located in the marginal parts of the Mesozoides of the Koryak Upland in the Northeast Asia, are considered. These rocks formed during significant marine transgression, which also spanned adjacent regions of Kamchatka, Sakhalin, and Japan. The division of ancient shelf zone rocks is based on mollusk assemblages, which made it possible to substantiate the correlation of stratigraphic horizons of the upper part of the Paleogene in the entire North Pacific region. The analysis of these assemblages indicated paleoclimate fluctuations (Eocene warming and Late Eocene–Oligocene cooling), which were responsible for the migration of marine paleobiota. [ABSTRACT FROM AUTHOR]

Published

2021

43. Magnetostratigraphic evidence for post-depositional distortion of osmium isotopic records in pelagic clay and its implications for mineral flux estimates.

Author

Usui, Yoichi and Yamazaki, Toshitsugu

Subjects

*OSMIUM, *CLAY minerals, *FLUX (Energy), *DIFFUSION processes, *ESTIMATES, *CLAY

Abstract

Chemical stratigraphy is useful for dating deep-sea sediments, which sometimes lack radiometric or biostratigraphic constraints. Oxic pelagic clay contains Fe–Mn oxyhydroxides that can retain seawater 187Os/188Os values, and its age can be estimated by fitting the isotopic ratios to the seawater 187Os/188Os curve. On the other hand, the stability of Fe–Mn oxyhydroxides is sensitive to redox change, and it is not clear whether the original 187Os/188Os values are always preserved in sediments. However, due to the lack of independent age constraints, the reliability of 187Os/188Os ages of pelagic clay has never been tested. Here we report inconsistency between magnetostratigraphic and 187Os/188Os ages in pelagic clay around Minamitorishima Island. In a ~ 5-m-thick interval, previous studies correlated 187Os/188Os data to a brief (< 1 million years) isotopic excursion in the late Eocene. Paleomagnetic measurements revealed at least 12 polarity zones in the interval, indicating a > 2.9–6.9 million years duration. Quartz and feldspars content showed that while the paleomagnetic chronology gives reasonable eolian flux estimates, the 187Os/188Os chronology leads to unrealistically high values. These results suggest that the low 187Os/188Os signal has diffused from an original thin layer to the current ~ 5-m interval, causing an underestimate of the deposition duration. The preservation of the polarity patterns indicates that a mechanical mixing such as bioturbation cannot be the main process for the diffusion, so diagenetic redistribution of Fe–Mn oxyhydroxides and associated Os may be responsible. The paleomagnetic chronology presented here also demands reconsiderations of the timing, accumulation rate, and origins of the high content of rare-earth elements and yttrium in pelagic clay around Minamitorishima Island. [ABSTRACT FROM AUTHOR]

Published

2021

44. The Paleogene of the Cis-Donets Monocline and Its Palynological Characteristics.

Author

Iakovleva, A. I. and Aleksandrova, G. N.

Subjects

*PALEOGENE, *DINOFLAGELLATE cysts, *OLIGOCENE Epoch, *EOCENE Epoch, *PALEOCENE Epoch

Abstract

The results of the palynological study of the Paleogene and the underlying Cretaceous sediments of the Cis-Donets Monocline, drilled by borehole 1238, are presented. Analysis of dinoflagellate cysts enabled the recognition of the Apectodinium hyperacanthum, Axiodinium augustum, and Ochetodinium romanum/Samlandia chlamydophora zone intervals and the Rhombodinium draco–Deflandrea spinulosa layers in the Paleogene part of the section. The age of regional formations and beds was updated: the Buzinovka Formation is dated by the early Thanetian; the Veshenskaya Formation is late Thanetian–earliest Ypresian age; the Surovikino and Osinovaya Beds are early–middle Ypresian; and the Ventsy and "Poltava" Beds are of the late Rupelian–Chattian age. Two major stratigraphic hiatuses, corresponding to the Maastrichtian–Selandian and the upper Ypresian–lower Rupelian, were recognized in the borehole 1238 section. The analysis of the quantitative fluctuations of different palynomorph groups through the section permitted to reconstruct changes in depositional environments of the Peri-Tethys Basin margin during the early and late Paleogene: the Buzinovka and Veshenskaya formations and the Surovikino and Osinovaya Beds were accumulated in an open-marine environments during the long late Paleocene–early Ypresian transgressive stage, whereas the Ventsy and "Poltava" beds were deposited in the half-landlocked basin during the Chattian. [ABSTRACT FROM AUTHOR]

Published

2021

45. A Review of the Mesozoic and Cenozoic Mammals of Mongolia.

Author

Lopatin, A. V.

Abstract

In Mongolia, fossil mammals are known from the Upper Jurassic, Lower and Upper Cretaceous, all series of the Paleogene and Neogene, as well as the Pleistocene. Over 335 new species and more than 185 new genera of fossil mammals (not including synonyms) were described from Mongolia up to the end of 2019. The most important results in the last hundred years of research, that most strongly influenced the development of mammal paleontology, have been: (1) the discoveries of extremely rich Paleogene and Neogene localities containing numerous fossils of various mammals by the Central Asian Expedition of the American Museum of Natural History (CAE AMNH) in 1922–1930, and subsequent expeditions; (2) the discovery and further study of the Late Cretaceous mammalian fauna by the CAE AMNH and the Mongolian Paleontological Expedition of the Academy of Sciences of the USSR (1946–1949), the Polish-Mongolian Paleontological Expedition (1963–1971) and the Joint Soviet-Mongolian (Russian-Mongolian) Paleontological Expedition (JSMPE, JRMPE); (3) the discovery by the JSMPE in the late 1960s–early 1970s of the Early Cretaceous Höövör mammalian fauna, at the time of its discovery the most diverse and richest in Asia; (4) the obtaining by the JSMPE of a large amount of data on the early Paleogene, the most important stage in the evolution of mammals; (5) detailed biostratigraphic study of the Oligocene and the Lower Miocene mammal fossils of the Valley of Lakes, as part of the Austrian-Mongolian project (1995–2018). [ABSTRACT FROM AUTHOR]

Published

2020

46. A new species of fossil Scutus Montfort, 1810 from New Zealand (Mollusca: Gastropoda: Fissurellidae).

Author

Gard, Henry J. L.

Abstract

A new fossil species of the genus Scutus (Scutus mirus n. sp.) is described from five Late Oligocene to Early Miocene (Waitakian to Altonian; 25.2–15.9 Ma) localities in the South Island, New Zealand. It is one of the oldest fossil species of Scutus known and probably inhabited very shallow, sub-tropical waters surrounding Zealandia during this time. The holotype of Scutus petrafixus Finlay, 1930 is re-examined; it is possibly from All Day Bay, Kakanui (Waitakian 25.2–21.7 Ma). The New Zealand species documented herein significantly expand our understanding of the fossil record of this shallow-marine molluscan lineage, and by proxy, also indicate the presence of very shallow coastal marine environments around the late Oligocene and early Miocene in southern Zealandia. [ABSTRACT FROM AUTHOR]

Published

2020

47. The value of a single character: the Paleogene European land snail Ferussina Grateloup, 1827 is likely a cyclophorid (Gastropoda, Caenogastropoda).

Author

Páll-Gergely, Barna and Neubauer, Thomas A.

Subjects

*NEOGASTROPODA, *SNAILS, *GASTROPODA, *PALEOGENE, *CHARACTER, *MORPHOLOGY

Abstract

Ferussina Grateloup, 1827 is a European Paleogene land snail genus, which is currently classified in its own family, the Ferussinidae Wenz, 1923 (1915), in the superfamily Cyclophoroidea. The shell of this genus is remarkable by its last quarter whorl turning towards the apex instead of away from it, which is an unusual trait in terrestrial snails. We show, however, that this trait has evolved at least nine times in terrestrial Eupulmonata and Caenogastropoda, and it does not justify distinction at the family level in any of the reported cases. This observation suggests the systematic position of Ferussina should not be based on the apexward-turning last quarter whorl alone but instead on the general morphology of the shell. As a result, we re-evaluate the systematic position of the Ferussinidae and treat it as a subfamily of the Cyclophoridae. [ABSTRACT FROM AUTHOR]

Published

2020

48. A new representative of the Hypertraguloidea (Tragulina, Ruminantia) from the Khoer-Dzan locality in Mongolia, with remarks on the relationships of the Hypertragulidae

Author

Vislobokova, I. A. (Inessa Anatolévna), American Museum of Natural History Library, and Vislobokova, I. A. (Inessa Anatolévna)

Subjects

Eocene, Hypertraguloidea, Mammals, Fossil, Mongolia, Oligocene, Paleontology, Praetragulus electus, Ruminants, Fossil

Published

1998

49. Relationships of the fossil and recent genera of rabbitfishes (Acanthuroidei: Siganidae)

Author

Tyler, James C., Bannikov, A F, Smithsonian Libraries, Tyler, James C., and Bannikov, A F

Subjects

Animals, Fossil, Eocene, Europe, Oligocene, Paleontology, Siganidae, Siganidae, Fossil

Published

1997

50. New Material of Karakoromys (Ctenodactylidae, Rodentia) from Late Eocene-Early Oligocene of Ulantatal (Nei Mongol): Taxonomy, Diversity, and Response to Climatic Change

Author

Wang, Rancheng Xu, Zhaoqun Zhang, Qian Li, and Bian

Subjects

Ulantatal, Eocene, Oligocene, Ctenodactylidae, biodiversity, aridification

Abstract

The Eocene-Oligocene Transition (EOT) was one of the most profound climate changes in the Cenozoic era, characterized by global cooling around 34 million years ago. This time period also witnessed major faunal turnovers, such as the “Mongolian Remodeling” of Asia, characterized by the dominance of rodents and lagomorphs after the EOT. Previous studies have primarily focused on overall faunal change across the EOT. Here, we examined one genus, the earliest ctenodactylid Karakoromys, based on rich fossils from continuous sections at Ulantatal, Nei Mongol, magnetostragraphically dated to latest Eocene-Early Oligocene. Based on a systematic paleontological study of these fossils, we recognized four species of Karakoromys (Karakoromys decussus, K. arcanus, K. chelkaris, and K. conjunctus sp. nov.), indicating a relatively high diversity of the most primitive ctenodactylids during the latest Eocene-Early Oligocene (~34.9–30.8 Ma). The turnover of ctenodactylids primarily occurred during a regional aridification event around 31 Ma rather than during the EOT cooling event, suggesting that regional precipitation variation in the semi-arid area may have played a more important role than global temperature change in the evolution of early ctenodactylids.

Published

2023