Your search keyword '"Heimhofer, Ulrich"' showing total 9 results

1. Coupled δ13C and 87Sr/86Sr chemostratigraphy of Kimmeridgian shoal-water deposits: A new composite record from the Lower Saxony Basin, Germany.

Author

Zuo, Fanfan, Heimhofer, Ulrich, Huck, Stefan, Bodin, Stéphane, Erbacher, Jochen, and Bai, Huaqing

Subjects

*CARBONATES, *BIOSTRATIGRAPHY, *CHEMOSTRATIGRAPHY, *KIMMERIDGIAN Stage, *STRATIGRAPHIC geology

Abstract

Abstract Correlation of shallow-marine carbonate deposits with their coeval pelagic counterparts is often hampered by the lack of open-marine stratigraphic marker fossils and by the restrictions of regional biostratigraphic schemes. These difficulties can partly be overcome by the use of coupled δ13C and 87Sr/86Sr chemostratigraphy based on pristine shell calcite and bulk rock material. Here, a new high-resolution chemostratigraphic framework covering Kimmeridgian strata is presented based on three stratigraphic sections located in the Subboreal Lower Saxony Basin (LSB) of Northern Germany. Combined with sedimentological data, the bulk rock δ13C signal is critically evaluated for both diagenetic alteration and local environmental effects. In general, the δ13C signatures are considered to predominantly record the global marine signal. Diagenetic and facies-related discrepancies are restricted to dolomitic supratidal back ramp and intertidal back ramp deposits, respectively. Strontium-isotope stratigraphic data, obtained from diagenetically screened low-Mg calcite shells, refine the existing ostracod biostratigraphic scheme in the Lower Saxony Basin (LSB) and contribute to the existing global strontium-isotope dataset of the Kimmeridgian. These new results confirm the potential of well-preserved low-Mg calcite from shallow-marine settings to preserve a global marine Sr-isotope signal. Calibrated by the integrated biostratigraphic and strontium-isotope results, a high-resolution composite δ13C record for Kimmeridgian shoal-water deposits is established. Comparison of the new composite δ13C curve from the Subboreal Lower Saxony Basin (LSB) with existing Kimmeridgian records from the peri-Tethyan and Western Tethyan realms provides new insights into the long-term global carbon cycle during the Kimmeridgian. [ABSTRACT FROM AUTHOR]

Published

2018

2. Sedimentology and depositional sequences of a Kimmeridgian carbonate ramp system, Lower Saxony Basin, Northern Germany.

Author

Zuo, Fanfan, Heimhofer, Ulrich, Huck, Stefan, Luppold, Friedrich Wilhelm, Wings, Oliver, and Erbacher, Jochen

Subjects

*SEDIMENTOLOGY, *CARBONATES, *FOSSILS, *BIOSTRATIGRAPHY, *VERTEBRATES

Abstract

Shallow-marine Kimmeridgian (Late Jurassic) deposits in the Lower Saxony Basin (LSB) composed of alternating limestone, marl and claystone attract great palaeontological interest due to their rich invertebrate and vertebrate assemblages. Unfortunately, the absence of open-marine marker fossils and numerous sedimentary gaps in combination with lateral facies changes hamper the precise stratigraphic correlation of these strata on both a local and global scale. Here, an integrated approach combining carbonate microfacies analysis, ostracod biostratigraphy and high-resolution sequence stratigraphy is applied to two Kimmeridgian sections (Langenberg and Bisperode, 60 km apart) in the southeastern LSB. High-resolution carbonate microfacies analysis enables the definition of 19 microfacies types and seven microfacies associations, which can be arranged into facies belts along a carbonate ramp. Vertical microfacies, bed thickness and diagnostic surfaces define stacking patterns that are interpreted as small-, medium- and large-scale sequences. The ostracod biostratigraphic framework established in this study provides the required stratigraphic control. Correlation of the two studied sections reveals a more proximal setting for Bisperode than Langenberg and an overall shallowing-up trend from mid-ramp to proximal inner ramp developed in both sections. Furthermore, the majority of the medium-scale sequence boundaries defined in this study can be found in similar biostratigraphic positions in other European basins. Synsedimentary tectonics combined with high sediment accumulation rates can be identified as important controlling factors for the distribution and composition of the Kimmeridgian deposits in the LSB based on detailed correlation on both a regional and super-regional scale. [ABSTRACT FROM AUTHOR]

Published

2018

3. A Southern Hemisphere record of global trace-metal drawdown and orbital modulation of organic-matter burial across the Cenomanian-Turonian boundary (Ocean Drilling Program Site 1138, Kerguelen Plateau).

Author

Dickson, Alexander J., Saker‐Clark, Matthew, Jenkyns, Hugh C., Bottini, Cinzia, Erba, Elisabetta, Russo, Fabio, Gorbanenko, Olga, Naafs, Bernhard D. A., Pancost, Richard D., Robinson, Stuart A., Boorn, Sander H.J.M, Idiz, Erdem, and Heimhofer, Ulrich

Subjects

STRATIGRAPHIC geology, GLOBAL environmental change, CHEMOSTRATIGRAPHY, BIOSTRATIGRAPHY

Abstract

Despite its assumed global nature, there are very few detailed stratigraphic records of the late Cenomanian to the early Turonian Oceanic Anoxic Event 2 from the Southern Hemisphere. A highly resolved record of environmental changes across the Cenomanian-Turonian boundary interval is presented from Ocean Drilling Program Site 1138 on the central Kerguelen Plateau (southern Indian Ocean). The new data lead to three key observations. Firstly, detailed biostratigraphy and chemostratigraphy indicate that the record of Oceanic Anoxic Event 2 is not complete, with a hiatus spanning the onset of the event. A decrease in glauconite and highly weathered clays after the onset of Oceanic Anoxic Event 2 marks the end of the hiatus interval, which can be explained by a relative sea-level rise that increased sediment accommodation space on the Kerguelen Plateau margin. This change in depositional environment controlled the timing of the delayed peak in organic-matter burial during Oceanic Anoxic Event 2 at Site 1138 compared with other Oceanic Anoxic Event 2 locations worldwide. A second key observation is the presence of cyclic fluctuations in the quantity and composition of organic matter being buried on the central Kerguelen Plateau throughout the latter stages of Oceanic Anoxic Event 2 and the early Turonian. A close correspondence between organic matter, sedimentary elemental compositions and sediments recording sea-floor oxygenation suggests that the cycles were mainly productivity-driven phenomena. Available age-control points constrain the periodicity of the coupled changes in sedimentary parameters to ca 20 to 70 ka, suggesting a link between carbon burial and astronomically forced climatic variations (precession or obliquity) in the Southern Hemisphere mid-latitudes both during, and after, Oceanic Anoxic Event 2: fluctuations that were superimposed on the impact of global-scale processes. Finally, trace-metal data from the black-shale unit at Site 1138 provide the first evidence from outside of the proto-North Atlantic region for a global drawdown of seawater trace-metal (Mo) inventories during Oceanic Anoxic Event 2. [ABSTRACT FROM AUTHOR]

Published

2017

4. Response of terrestrial paleoenvironments to past changes in climate and carbon-cycling: Insights from palynology and stable isotope geochemistry

Author

Heimhofer, Ulrich, Hochuli, Peter A., and Weissert, Helmut

Subjects

PALYNOLOGIE (PALÄONTOLOGIE), BIOSTRATIGRAPHIE, BITUMENS + BITUMINOUS SCHISTS + OIL SHALES (PETROGRAPHY), ANOXISCHE UND HYPOXISCHE BECKEN (ABLAGERUNGSMILIEU), PALYNOLOGY (PALAEONTOLOGY), ddc:550, SÜDOSTFRANKREICH, CARBON CYCLE (GEOCHEMISTRY), ANOXIC AND HYPOXIC BASINS (SEDIMENTARY ENVIRONMENT), ISOTOPE STRATIGRAPHY (STRATIGRAPHY), PALAEOCLIMATOLOGY, SOUTHEASTERN FRANCE, BIOSTRATIGRAPHY, LITHOSTRATIGRAPHY, LITHOSTRATIGRAPHIE, Paleontology, paleozoology, PALÄOKLIMATOLOGIE, CRETACEOUS (STRATIGRAPHY), KREIDE (STRATIGRAPHIE), ISOTOPENSTRATIGRAPHIE (STRATIGRAPHIE), KOHLENSTOFFKREISLAUF (GEOCHEMIE), BITUMEN + BITUMINÖSE SCHIEFER + ÖLSCHIEFER (PETROGRAPHIE), ALGARVE (PORTUGAL), Earth sciences, ddc:560

Published

2004

5. New records of Early Cretaceous angiosperm pollen from Portuguese coastal deposits: Implications for the timing of the early angiosperm radiation

Author

Heimhofer, Ulrich, Hochuli, Peter A., Burla, Stefan, and Weissert, Helmut

Subjects

*PALYNOLOGY, *POLLINATION, *PALEOBOTANY, *PLANT spores

Abstract

Abstract: Detailed and continuous palynological records from two well-dated successions in the Portuguese Algarve and Lusitanian Basins document the diversification of early angiosperm pollen during the Late Barremian to Middle Albian time interval. Based on dinoflagellate cyst biostratigraphy, an accurate stratigraphic framework has been established for the studied near-shore deposits resulting in distinct changes of the stratigraphic position of individual units. The qualitative and quantitative analysis of the palynofloras of the two sections revealed a total of 66 different types of angiosperm pollen. Most of them (55 taxa) are monoaperturate grains of magnoliid or monocot affinity. In both records, eudicots, represented by various tri- and polyaperturate taxa (11 taxa), are restricted to the Albian part of the sections. Angiosperm pollen grains display a distinct increase in both, diversity and relative abundance between the Late Barremian and the Middle Albian. Comparison with published palynofloras from other areas shows strong similarities with regard to floral composition and the timing of first appearances of particular angiosperm pollen forms. Our results indicate a new age interpretation of the well-known angiosperm mesofossil floras from the Portuguese Beira Litoral region which have been interpreted as Barremian or possibly Aptian in age. Several lines of evidence, including sequence- and biostratigraphy as well as palynology, indicate a post-Aptian age for these assemblages, hence demonstrating a major radiation phase during the Early Albian. [Copyright &y& Elsevier]

Published

2007

6. Biochemostratigraphy of an upper Albian–Turonian succession from the southeastern Neo-Tethys margin, SW Iran.

Author

Navidtalab, Amin, Heimhofer, Ulrich, Huck, Stefan, Omidvar, Mahboobeh, Rahimpour-Bonab, Hossain, Aharipour, Reza, and Shakeri, Alireza

Subjects

*CHEMOSTRATIGRAPHY, *BIOSTRATIGRAPHY, *OCEAN temperature, *CARBON isotopes, *LATITUDE, *BULK solids, *SEA level, *STRATIGRAPHIC geology

Abstract

A Neo-Tethyan upper Albian–Turonian (hemi-)pelagic carbonate succession (Sarvak Formation), accessible in outcrop in the Zagros, SW Iran, was investigated using sedimentology, microfacies analysis, planktonic foraminifera biostratigraphy, and carbon-isotope stratigraphy. The succession contains six biozones including Thalmanninella (Th.) appenninica , Th. globotruncanoides , Rotalipora cushmani, Whiteinella archaeocretacea, Helvetoglobotruncana Helvetica , and Marginotruncana schneegansi. Some of these biozones show variable stratigraphic positions throughout the Tethyan and Boreal realms that hinder correlation of the studied Iranian section with European reference sections. Therefore, the correlation of the existing biostratigraphic framework was complemented by carbonate carbon-isotope stratigraphy based on bulk carbonate material. Despite the low resolution of the presented carbon-isotope record, pronounced global events including the late Turonian Events, Cenomanian/Turonian Boundary (CTB) Event (OAE 2), and Albian/Cenomanian Boundary (ACB) Event can be distinguished. The δ13C excursions provide global synchronous time-lines for correlation. The distinguished biozones were compared among the sections regarding their stratigraphic positions relative to these time-lines. The correlation tentatively suggests that the biostratigraphic datum marking the ACB is diachronous with an SE–NW trend. First appearance datum (FAD) of Th. appenninica varies from the upper Albian to the lower Cenomanian. The FAD of Th. globotruncanoides is also variable from the upper Albian to the lower Cenomanian. However, the middle Cenomanian–Turonian biozones including Rotalipora cushmani and Whiteinella archaeocretacea zones are synchronous. Elevated p CO 2 contributed to the gradual increase of the SST (sea surface temperature) during the Cenomanian, and the dramatic climax at the earliest Turonian. This trend closely correlates with the change from the diachronous ACB-biozones to synchronous CTB-biozones. Possibly, increasing SSTs provided temperature-tolerance range for the species throughout different latitudes, and assisted their rapid distribution. Moreover, the warming raised the sea level from the latest Albian to Turonian that inundated landbridges, resulting in an enhanced marine circulation and faster distribution of planktonic species throughout the Neo-Tethys Ocean. • Southern Neo-Tethys δ13C curve reveals several events in the late Albian–Turonian. • The Albian/Cenomanian Boundary (ACB) Event was distinguished. • The Cenomanian/Turonian Boundary (CTB) and the Late Turonian events were detected. • ACB-biozones are diachronous while CTB-biozones are synchronous. • Change from diachronous to synchronous biozones occurred by removal of landbridges. [ABSTRACT FROM AUTHOR]

Published

2019

7. Albian angiosperm pollen from shallow marine strata in the Lusitanian Basin, Portugal.

Author

Horikx, Maurits, Hochuli, Peter A., Feist-Burkhardt, Susanne, and Heimhofer, Ulrich

Subjects

*ANGIOSPERMS, *CRETACEOUS Period, *CROP diversification, *MONOCOTYLEDONS, *EUDICOTS

Abstract

The evolution of angiosperms significantly changed the composition of the terrestrial vegetation during the mid-Cretaceous. In contrast to the wealth of information available on the biology and systematic relationships of early angiosperms, the temporal patterns of their evolution and radiation are poorly constrained. Here we present a continuous angiosperm pollen record from well-dated shallow marine deposits in the Lusitanian Basin, Portugal. The São Julião section provides a solid stratigraphic framework to track angiosperm pollen distribution patterns from the early Albian to early Cenomanian at mid-latitudes. In comparison to previous angiosperm pollen records from the Lusitanian basin, the section shows an extended late Albian succession and provides new insights into the diversification of early angiosperms during this important interval. Productive palynological samples were analysed and 79 different angiosperm pollen types have been recorded. Throughout the Albian angiosperm pollen represent only a minor component of the total palynoflora. The early Albian pollen record is characterized by highly diverse assemblages of monoaperturate pollen of monocot or “magnoliid” affinity and by the first appearance of polyporate and tricolpate pollen of eudicot affinity. A distinct diversification phase among tri- and poly-aperturate pollen (e.g., Cretacaeiporites , Retitrescolpites , Rousea , Striatopollis and Tricolpites ) and the presence of conspicuous pollen grains assigned to Dichastopollenites characterize the middle and late Albian palynological assemblages. Thus, the section records a striking sequence of appearances of important angiosperm pollen morphologies. Monocolpates, polyporates and tricolpates appear in the early Albian whereas tricolporates appear from the early part of the late Albian onwards. Furthermore, well-constrained biostratigraphic ranges of selected angiosperm pollen from mid-latitudes are presented. In view of these new data, the temporal framework of the palynological Subzones II-B and II-C in the Potomac Group succession from the Atlantic Coastal Plain, eastern USA is revised to a middle to late Albian age. [ABSTRACT FROM AUTHOR]

Published

2016

8. Response of proto-North Atlantic carbonate-platform ecosystems to OAE1a-related stressors.

Author

Huck, Stefan, Stein, Melody, Immenhauser, Adrian, Skelton, Peter W., Christ, Nicolas, Föllmi, Karl B., and Heimhofer, Ulrich

Subjects

*BIOSTRATIGRAPHY, *GEOCHEMISTRY, *OXYGEN isotopes, *PERTURBATION theory, *PETROLOGY

Abstract

Integrated biostratigraphic–chemostratigraphic studies provide evidence that the proto-North Atlantic realm witnessed major changes in carbonate platform production in the run-up of the Early Aptian oceanic anoxic event (OAE) 1a. Whereas pervasive growth of Lithocodium microencrusters represents an early harbinger of OAE1a-related environmental perturbation, the subsequent replacement of oligotrophic rudist-coral-nerineid by mesotrophic orbitolinid-oyster communities was clearly associated with the event itself. In order to test the supra-regional relevance of this major community replacement, two shallow-water sections in the southern Lusitanian Basin (Portugal) are investigated by means of geochemistry (carbon and oxygen isotopes), cement petrography and detailed sedimentological analysis. The focus is on a regional, prominent discontinuity surface (S4) at the transition between oligotrophic and mesotrophic carbonate platform production, which might indicate that the major biotic change could have been associated with a phase of non-sedimentation and possibly erosion. The studied sections (São Julião, Crismina) provide evidence that the major Early Aptian biotic turnover was preceded by numerous subordinate but significant changes in platform ecology, which mirrored a series of progressive short-term environmental changes in the course of OAE1 . Several transient mass occurrences of orbitolinids indicate repeated phases of ecological stress arguably due to enhanced nutrient input and deepening. Small-scale sea-level changes at parasequence level below the major discontinuity surface are revealed by alternations of rudist assemblages dominated by clinger or recumbent forms as well as intercalated hardground and subaerial exposure stages. Expanded phases of subaerial exposure, however, can be largely ruled out following the geochemical and cement-petrographic data presented here. Enhanced continent-derived siliciclastic input characterising the lower orbitolinid-oyster dominated limestones is in support of a shift to more humid conditions during the middle Early Aptian. This is in line with palaeoclimatic data, which propose a southward movement of the mid-latitude arid climate belt during this time. The documented rapid replacement of oligotrophic assemblages by various environmental-stress adapted carbonate platform communities might be seen as explanation for ongoing Early Aptian proto-North Atlantic carbonate production during a time of widespread platform demise and drowning in the northern Tethyan realm. [ABSTRACT FROM AUTHOR]

Published

2014

9. Climate and vegetation history of western Portugal inferred from Albian near-shore deposits (Galé Formation, Lusitanian Basin)

Author

Jorge Dinis, Peter A. Hochuli, Ulrich Heimhofer, Thierry Adatte, Felix Oberli, Stefan Burla, Helmut Weissert, University of Zurich, and Heimhofer, Ulrich

Subjects

Dewey Decimal Classification::500 | Naturwissenschaften::550 | Geowissenschaften, Ecological succession, 10125 Paleontological Institute and Museum, Faro [Portugal], Biostratigraphy, Structural basin, vegetation cover, Palaeoclimate, palaeoclimate, Paleontology, paleoclimate, Paleoclimatology, ddc:550, palynology, Atlantic Ocean, Albian Stage, Sr-isotopes, Palynology, Clay mineralogy, Portugal, 1907 Geology, vegetation history, clay mineralogy, Shore, geography, geography.geographical_feature_category, Lisboa [Portugal], Geology, Albian, Lusitanian Basin, Vegetation, Ostreidae, climate variation, strontium isotope, Cretaceous, clay mineral, nearshore environment, 560 Fossils & prehistoric life, climate conditions, biostratigraphy, community structure, Algarve Basin

Abstract

Geological magazine, 149 (6), ISSN:0016-7568, ISSN:1469-5081

Published

2017