Your search keyword '"Bralower, Timothy J."' showing total 50 results

1. The first day of the Cenozoic.

Author

Gulick, Sean P. S., Bralower, Timothy J., Ormö, Jens, Halle, Brendon, Grice, Kliti, Schaefer, Bettina, Lyons, Shelby, Freeman, Katherine H., Morgan, Joanna V., Artemieva, Natalia, Kaskesi, Pim, de Graaff, Sietze J., Whalen, Michael T., Collins, Gareth S., Tikoo, Sonia M., Verhagen, Christina, Christeson, Gail L., Claeys, Philippe, Coolen, Marco J. L., and Goderis, Steven

Subjects

*DRILL core analysis, *CAP rock, *GLOBAL cooling, *POLYCYCLIC aromatic hydrocarbons, *EVAPORITES

Abstract

Highly expanded Cretaceous-Paleogene (K-Pg) boundary section from the Chicxulub peak ring, recovered by International Ocean Discovery Program (IODP)-International Continental Scientific Drilling Program (ICDP) Expedition 364, provides an unprecedented window into the immediate aftermath of the impact. Site M0077 includes ~130 m of impact melt rock and suevite deposited the first day of the Cenozoic covered by <1 m of micrite-rich carbonate deposited over subsequent weeks to years. We present an interpreted series of events based on analyses of these drill cores. Within minutes of the impact, centrally uplifted basement rock collapsed outward to forma peak ring capped in melt rock. Within tens of minutes, the peak ring was covered in ~40 m of brecciated impact melt rock and coarsegrained suevite, including clasts possibly generated by melt-water interactions during ocean resurge. Within an hour, resurge crested the peak ring, depositing a 10-m-thick layer of suevite with increased particle roundness and sorting.Within hours, the full resurge deposit formed through settling and seiches, resulting in an 80-m-thick fining-upward, sorted suevite in the flooded crater. Within a day, the reflected rim-wave tsunami reached the crater, depositing a cross-bedded sand-to-fine gravel layer enriched in polycyclic aromatic hydrocarbons overlain by charcoal fragments. Generation of a deep crater open to the ocean allowed rapid flooding and sediment accumulation rates among the highest known in the geologic record. The high-resolution section provides insight into the impact environmental effects, including charcoal as evidence for impactinduced wildfires and a paucity of sulfur-rich evaporites from the target supporting rapid global cooling and darkness as extinction mechanisms. [ABSTRACT FROM AUTHOR]

Published

2019

2. Impact of dissolution on the sedimentary record of the Paleocene-Eocene thermal maximum.

Author

Bralower, Timothy J., Kelly, D. Clay, Gibbs, Samantha, Farley, Kenneth, Eccles, Laurie, Lindemann, T. Logan, and Smith, Gregory J.

Subjects

*DISSOLUTION (Chemistry), *SEDIMENTS, *PALEOCENE-Eocene thermal maximum, *CARBON, *NANNOFOSSILS, *BOTTOM water (Oceanography)

Abstract

The input of massive amounts of carbon to the atmosphere and ocean at the Paleocene-Eocene Thermal Maximum (PETM; ~55.53 Ma) resulted in pervasive carbonate dissolution at the seafloor. At many sites this dissolution also penetrated into the underlying sediment column. The magnitude of dissolution at and below the seafloor, a process known as chemical erosion, and its effect on the stratigraphy of the PETM, are notoriously difficult to constrain. Here, we illuminate the impact of dissolution by analyzing the complete spectrum of sedimentological grain sizes across the PETM at three deep-sea sites characterized by a range of bottom water dissolution intensity. We show that the grain size spectrum provides a measure of the sediment fraction lost during dissolution. We compare these data with dissolution and other proxy records, electron micrograph observations of samples and lithology. The complete data set indicates that the two sites with slower carbonate accumulation, and less active bioturbation, are characterized by significant chemical erosion. At the third site, higher carbonate accumulation rates, more active bioturbation, and possibly winnowing have limited the impacts of dissolution. However, grain size data suggest that bioturbation and winnowing were not sufficiently intense to diminish the fidelity of isotopic and microfossil assemblage records. [ABSTRACT FROM AUTHOR]

Published

2014

3. Response of nannoplankton to early Eocene ocean destratification

Author

Schneider, Leah J., Bralower, Timothy J., and Kump, Lee R.

Subjects

*PLANKTON, *NANNOFOSSILS, *CARBON cycle, *PLANT nutrients, *MULTIVARIATE analysis, *CARBON isotopes, *OXYGEN isotopes, *EOCENE stratigraphic geology, *PALEOCEANOGRAPHY

Abstract

Abstract: Nannoplankton play a significant role in the global carbon cycle; changes in the composition of the assemblage can influence primary productivity, carbon burial, and ultimately climate. Here counts of nannofossils in Eocene samples document one of the largest nannoplankton assemblage turnovers of the Cenozoic Era. This event is marked by the global expansion of Reticulofenestra at the termination of the early Eocene climatic optimum (EECO), and continues through the progressive cooling to the earliest Oligocene glaciation. To understand the mechanisms driving this assemblage shift we use multivariate statistical techniques and carbon and oxygen isotope records from localities worldwide. We find that the turnover in the global nannofossil assemblage is tied to thermal destratification of the ocean and a coincident decrease in the efficiency of the oceanic biologic pump at the height of the EECO. We propose that increased vertical mixing and increased nutrient supply to surface waters during the EECO caused a shift in the trophic structure towards enhanced productivity, influencing the global nannoplankton population. [Copyright &y& Elsevier]

Published

2011

4. Toward an orbital chronology for the early Aptian Oceanic Anoxic Event (OAE1a, ~120 Ma)

Author

Li, Yong-Xiang, Bralower, Timothy J., Montañez, Isabel P., Osleger, David A., Arthur, Michael A., Bice, David M., Herbert, Timothy D., Erba, Elisabetta, and Premoli Silva, Isabella

Subjects

*CLIMATE change, *CLIMATOLOGY, *CARBON, *MARINE sediments

Abstract

Abstract: The early Aptian Oceanic Anoxic Event (OAE1a, 120 Ma) represents a geologically brief time interval in the mid-Cretaceous greenhouse world that is characterized by increased organic carbon accumulation in marine sediments, sudden biotic changes, and abrupt carbon-isotope excursions indicative of significant perturbations to global carbon cycling. The brevity of these drastic environmental changes (<106 year) and the typically 106 year temporal resolution of the available chronologies, however, represent a critical gap in our knowledge of OAE1a. We have conducted a high-resolution investigation of three widely distributed sections, including the Cismon APTICORE in Italy, Santa Rosa Canyon in northeastern Mexico, and Deep Sea Drilling Project (DSDP) Site 398 off the Iberian margin in the North Atlantic Ocean, which represent a range of depositional environments where condensed and moderately expanded OAE1a intervals are recorded. The objectives of this study are to establish orbital chronologies for these sections and to construct a common, high-resolution timescale for OAE1a. Spectral analyses of the closely-spaced (corresponding to ~5 to 10 kyr) measurements of calcium carbonate content of the APTICORE, magnetic susceptibility (MS) and anhysteretic remanent magnetization (ARM) of the Santa Rosa samples, and MS, ARM and ARM/IRM, where IRM is isothermal remanent magnetization, of Site 398 samples reveal statistically significant cycles. These cycles exhibit periodicity ratios and modulation patterns similar to those of the mid-Cretaceous orbital cycles, suggesting that orbital variations may have modulated depositional processes. Orbital control allows us to estimate the duration of unique, globally identifiable stages of OAE1a. Although OAE1a had a duration of ~1.0 to 1.3 Myr, the initial perturbation represented by the negative carbon-isotope excursion was rapid, lasting for ~27–44 kyr. This estimate could serve as a basis for constraining triggering mechanisms for OAE1a. [Copyright &y& Elsevier]

Published

2008

5. Shelf and open-ocean calcareous phytoplankton assemblages across the Paleocene-Eocene Thermal Maximum: Implications for global productivity gradients.

Author

Gibbs, Samantha J., Bralower, Timothy J., Bown, Paul R., Zachos, James C., and Bybell, Laurel M.

Subjects

*GLOBAL warming, *CARBON cycle, *GEOLOGICAL surveys, *BIOGEOCHEMICAL cycles, *GREENHOUSE effect, *ASTRONOMICAL perturbation, *PHYTOPLANKTON, *PLANTS, *ALGAE

Abstract

Abrupt global warming and profound perturbation of the carbon cycle during the Paleocene-Eocene Thermal Maximum (PETM, ca. 55 Ma) have been linked to a massive release of carbon into the ocean-atmosphere system. Increased phytoplankton productivity has been invoked to cause subsequent CO2 drawdown, cooling, and environmental recovery. However, interpretations of geochemical and biotic data differ on when and where this increased productivity occurred. Here we present high-resolution nannofossil assemblage data from a shelf section (the U.S. Geological Survey [USGS] drill hole at Wilson Lake, New Jersey) and an open-ocean location (Ocean Drilling Program [ODP] Site 1209, paleoequatorial Pacific). These data combined with published biotic records indicate a transient steepening of shelf-offshelf trophic gradients across the PETM onset and peak, with a decrease in open-ocean productivity coeval with increased nutrient availability in shelf areas. Productivity levels recovered in the open ocean during the later stages of the event, which, coupled with intensified continental weathering rates, may have played an important role in carbon sequestration and CO2 drawdown. [ABSTRACT FROM AUTHOR]

Published

2006

6. Evidence of changes in surface water temperature and productivity at the Cenomanian/Turonian Boundary.

Author

Eleson, Jason W. and Bralower, Timothy J.

Subjects

*NANNOFOSSILS, *GEOLOGICAL basins, *WATER temperature, *EUTROPHICATION, *HYPOXEMIA

Abstract

Calcareous nannofossil assemblages were investigated across the Oceanic Anoxic Event (OAE) at the Cenomanian/Turonian Boundary (CTB) in a section from the Western Interior Basin and a borehole from the New Jersey coastal plain. The objective was to determine the surface-water response to environmental perturbations during the OAE. A decrease in surface water fertility at the two localities is suggested by an increase in relative abundances of taxa with oligotrophic affinities and a concomitant decrease in taxa with mesotrophic or eutrophic affinities. Oligotrophy and anoxia at both localities are likely responses to increased water-column stratification associated with the incursion of warmer waters from lower latitudes. [ABSTRACT FROM AUTHOR]

Published

2005

7. Paleoceanographic significance of high-resolution carbon isotope records across the Cenomanian–Turonian boundary in the Western Interior and New Jersey coastal plain, USA

Author

Bowman, Andrew R. and Bralower, Timothy J.

Subjects

*CARBON isotopes, *COASTS, *PALEOCEANOGRAPHY

Abstract

Abstract: Carbon isotope measurements have been made on bulk carbonate and organic matter in three sections across the Cenomanian–Turonian boundary. The stratigraphy records the positive carbon isotopic excursion that is associated with the major oceanic anoxic event (OAE2). Comparison of TOC and isotopic data in sections from a range of different environments suggests that the positive excursion is a response to increased burial of organic matter in the deep ocean. The lack of coupled negative shifts in δ13Corg and δ13Ccarb records at the onset of OAE2 does not support a causal role for volcanism or methane hydrate dissociation. [Copyright &y& Elsevier]

Published

2005

8. Sedimentary trace element constraints on the role of North Atlantic Igneous Province volcanism in late Paleocene–early Eocene environmental change

Author

Thomas, Deborah J. and Bralower, Timothy J.

Subjects

*GLOBAL warming, *GLOBAL temperature changes, *VOLCANISM, *GEODYNAMICS

Abstract

Abstract: A growing body of geologic evidence suggests that emplacement of the North Atlantic Igneous Province (NAIP) played a major role in global warming during the early Paleogene as well as in the transient Paleocene–Eocene thermal maximum (PETM) event. A ∼5 million year record of major and trace element abundances spanning 56 to 51 Ma at Deep Sea Drilling Project Sites 401 and 549 confirms that the majority of NAIP volcanism occurred as subaerial flows. Thus the trace element records provide constraints on the nature and scope of the environmental impact of the NAIP during the late Paleocene–early Eocene interval. Subaerial volcanism would have injected mantle CO2 directly into the atmosphere, resulting in a more immediate increase in atmospheric greenhouse gas abundances than CO2 input through submarine volcanism. The lack of significant hydrothermalism contradicts recently proposed mechanisms for thermally destabilizing methane hydrate reservoirs during the PETM. Any connection between NAIP volcanism and PETM warming had to occur through the atmosphere. [Copyright &y& Elsevier]

Published

2005

9. Nannofossil assemblage fluctuations during the Paleocene–Eocene Thermal Maximum at Sites 213 (Indian Ocean) and 401 (North Atlantic Ocean): palaeoceanographic implications

Author

Tremolada, Fabrizio and Bralower, Timothy J.

Subjects

*GLOBAL warming, *NANNOFOSSILS, *FOSSIL algae, *OCEANOGRAPHIC research

Abstract

The Paleocene–Eocene Thermal Maximum (PETM) was an abrupt global warming event at ∼55 Ma. This event had profound effects on the biosphere. Quantitative investigations of calcareous nannofossil assemblages were performed across the PETM, at Deep Sea Drilling Project Site 213, in the tropical Indian Ocean, and Site 401, in the Bay of Biscay, North Atlantic Ocean, at a temperate latitude. Calcareous nannofossil assemblages from both sites show major changes before, during, and after the PETM. Fluctuations at Site 213 are affected by selective dissolution of the least robust taxa. By contrast, assemblages in the lower part of the PETM at Site 401 show less diagenetic alteration and display high abundances of genera such as Discoaster, Fasciculithus, and Ericsonia. These taxa reflect relatively warm and, probably, oligotrophic surface waters. Abundances of the genus Chiasmolithus, an indicator of relatively cool and eutrophic waters, decreased dramatically. The upper portion of the PETM is characterized by an increase in the abundance of Toweius spp. and Zygrhablithus bijugatus, interpreted as a return to cooler and more eutrophic conditions. The elimination of Fasciculithus was probably due to competition with the holococcolith species, Z. bijugatus, which occupied the same ecological niche. The occurrences of long-armed and asymmetrical Discoaster species such as Discoaster araneus, Discoaster anartios, and Discoaster okadai, and Rhomboaster species, such as Rhomboaster calcitrapa and Rhomboaster cuspis, are characteristic of the PETM interval. [Copyright &y& Elsevier]

Published

2004

10. Neodymium isotopic reconstruction of late Paleocene–early Eocene thermohaline circulation

Author

Thomas, Deborah J., Bralower, Timothy J., and Jones, Charles E.

Subjects

*DRILLING platforms, *SEAWATER

Abstract

High-resolution, fish tooth Nd isotopic records for eight Deep Sea Drilling Project and Ocean Drilling Program sites were used to reconstruct the nature of late Paleocene–early Eocene deep-water circulation. The goal of this reconstruction was to test the hypothesis that a change in thermohaline circulation patterns caused the abrupt 4–5°C warming of deep and bottom waters at the Paleocene/Eocene boundary – the Paleocene–Eocene thermal maximum (PETM) event. The combined set of records indicates a deep-water mass common to the North and South Atlantic, Southern and Indian oceans characterized by mean ∊Nd values of ∼−8.7, and different water masses found in the central Pacific Ocean (∊Nd∼−4.3) and Caribbean Sea (∊Nd∼1.2). The geographic pattern of Nd isotopic values before and during the PETM suggests a Southern Ocean deep-water formation site for deep and bottom waters in the Atlantic and Indian ocean basins. The Nd data do not contain evidence for a change in the composition of deep waters prior to the onset of the PETM. This finding is consistent with the pattern of warming established by recently published stable isotope records, suggesting that deep- and bottom-water warming during the PETM was gradual and the consequence of surface-water warming in regions of downwelling. [Copyright &y& Elsevier]

Published

2003

11. The Cretaceous-Tertiary boundary cocktail: Chicxculub impact triggers margin collapse and...

Author

Bralower, Timothy J., Paull, Charles K., and Leckie, R. Mark

Subjects

*CRETACEOUS-Paleogene boundary

Abstract

Focuses on the Cretaceous-Tertiary (K-T) boundary cocktail, suggesting that Chicxulub impact triggers margin collapse and extensive sediment gravity flows. Reference to the basis of calcerous nannofossil biostratigraphy; Details on microfossil reworking; Relationship of the K-T boundary cocktail to the Chicxulum impact.

Published

1998

12. Rapid diversification of planktonic foraminifera in the...

Author

Kelly, D. Clay and Bralower, Timothy J.

Subjects

*GEOLOGY, *PLANKTON, *MORPHOLOGY

Abstract

Reports on the findings of an study of the planktonic foraminiferal and calcareous nannoplankton responses in the tropical Pacific (ODP Site 865) during the late Paleocene thermal maximum. Study methodology; Findings revealed that near-surface dwelling planktonic foraminifera experienced changes; Applications of single-specimen stable isotope data; Evolutionary and paleoecological implications; Paleoceanographic interpretations.

Published

1996

13. Preparing a New Generation of Face Earth's Future.

Author

Bralower, Timothy J., Feiss, P. Geoffrey, and Manduca, Cathryn A.

Subjects

*EARTH science education, *COLLEGE curriculum, *CURRICULUM, *COLLEGE students, *ECOLOGICAL disturbances

Abstract

The article presents an examination of recent developments that are transforming the field of earth system science in the U.S. Within this context, the authors make the case for raising the status of earth system science within college curricula. With growing awareness of environmental problems, they stress that earth system science must establish its place in college curricula to ensure that a new generation of citizens and scientists is prepared to meet future challenges.

Published

2008

14. Earth science: Volcanic cause of catastrophe.

Author

Bralower, Timothy J.

Subjects

*ANOXIC zones, *VOLCANISM, *CRETACEOUS paleoceanography, *PLANKTON blooms, *OCEANOGRAPHY, *GLOBAL warming research

Abstract

This article discusses the role of volcanism in a period of oxygen deprivation, or anoxia, in the oceans during the Cretaceous period. This period of volcanism resulted in mass extinctions of oceanic life and the creation of the large igneous province, which forms the floor of the Caribbean Sea. Two hypotheses, which are not mutually exclusive, regarding the relationship between volcanism and anoxia are noted. The first relates to the release of iron by volcanism, which caused a plankton bloom and later anoxic conditions as the plankton decomposed. The second hypothesis is that global warming led to anoxia.

Published

2008

15. Origin of a global carbonate layer deposited in the aftermath of the Cretaceous-Paleogene boundary impact.

Author

Bralower, Timothy J., Cosmidis, Julie, Heaney, Peter J., Kump, Lee R., Morgan, Joanna V., Harper, Dustin T., Lyons, Shelby L., Freeman, Katherine H., Grice, Kliti, Wendler, Jens E., Zachos, James C., Artemieva, Natalia, Chen, Si Athena, Gulick, Sean P.S., House, Christopher H., Jones, Heather L., Lowery, Christopher M., Nims, Christine, Schaefer, Bettina, and Thomas, Ellen

Subjects

*CRETACEOUS-Paleogene boundary, *CALCITE crystals, *PALEOGENE, *IMPACT craters, *CRYSTAL morphology, *CARBONATES, *MASS extinctions

Abstract

• A carbonate layer is an important global feature of the Cretaceous-Paleogene boundary. • Micrite is composed of diverse crystal morphologies suggesting a range of origins. • Crystals resemble precipitates from solution and carbonation of vaporized CaO. • Crystals associated with fossil organics resemble calcite precipitated by bacteria. • The layer likely represents global microbial blooms in supersaturated oceans. Microcrystalline calcite (micrite) dominates the sedimentary record of the aftermath of the Cretaceous–Paleogene (K–Pg) impact at 31 sites globally, with records ranging from the deep ocean to the Chicxulub impact crater, over intervals ranging from a few centimeters to more than seventeen meters. This micrite-rich layer provides important information about the chemistry and biology of the oceans after the impact. Detailed high-resolution scanning electron microscopy demonstrates that the layer contains abundant calcite crystals in the micron size range with a variety of forms. Crystals are often constructed of delicate, oriented agglomerates of sub-micrometer mesocrystals indicative of rapid precipitation. We compare the form of crystals with natural and experimental calcite to shed light on their origin. Close to the crater, a significant part of the micrite may derive from the initial backreaction of CaO vaporized during impact. In more distal sites, simple interlocking rhombohedral crystals resemble calcite precipitated from solution. Globally, we found unique calcite crystals associated with fossilized extracellular materials that strikingly resemble calcite precipitated by various types of bacteria in natural and laboratory settings. The micrite-rich layer contains abundant bacterial and eukaryotic algal biomarkers and most likely represents global microbial blooms initiated within millennia of the K–Pg mass extinction. Cyanobacteria and non-haptophyte microalgae likely proliferated as dominant primary producers in cold immediate post-impact environments. As surface-water saturation state rose over the following millennia due to the loss of eukaryotic carbonate producers and continuing river input of alkalinity, "whitings" induced by cyanobacteria replaced calcareous nannoplankton as major carbonate producers. We postulate that the blooms grew in supersaturated surface waters as evidenced by crystals that resemble calcite precipitates from solution. The microbial biomass may have served as a food source enabling survival of a portion of the marine biota, ultimately including life on the deep seafloor. Although the dominance of cyanobacterial and algal photosynthesis would have weakened the biological pump, it still would have removed sufficient nutrients from surface waters thus conditioning the ocean for the recovery of biota at higher trophic levels. [ABSTRACT FROM AUTHOR]

Published

2020

16. Investigating assessment types in an online climate change class: moderating and mediating effects.

Author

Millet, April L., Dinç, Emre, and Bralower, Timothy J.

Subjects

*MULTIPLE regression analysis, *BLOOM'S taxonomy, *PATH analysis (Statistics), *ONLINE education, *ACADEMIC achievement

Abstract

This study aimed to examine the effect of four types of assessment on overall student success in an online college-level climate change course. Quizzes, midterms, lab assignments, and a capstone project as well as knowledge check questions were used to assess different aspects of student learning, consistent with Bloom’s taxonomy hierarchy. Quizzes and midterms assess basic knowledge, including remembering and understanding concepts, laboratory assignments require students to analyze and integrate concepts, and the capstone allows students to evaluate their understanding and create new content. Binary logistic regression, multiple regression analysis, continuous-by-continuous interaction modeling, and path analysis were used to investigate the moderating and mediating effects of these assessment types. We found both direct and indirect positive interactions as well as one negative interaction. Positive interactions were identified between quiz and lab assignment achievement and between capstone achievement and lab assignment achievement. The total score for correctly answered knowledge check questions positively affected quiz and lab assignment achievements. The interaction between capstone project achievement and total score for correctly answered knowledge check questions showed a negative interaction. Finally, the total score for correctly answered knowledge-check questions had an indirect positive effect on overall student success in the course. Results show that different types of assessment in an online course are complementary and amplify student learning. [ABSTRACT FROM AUTHOR]

Published

2024

17. Paleoceanographic Significance of Calcareous Nannofossil Assemblages in the Tropic Shale of Utah during Oceanic Anoxic Event 2 at the Cenomanian/Turonian Boundary.

Author

Fortiz, Victoria, Oakes, Rosie, Boudinot, F. Garrett, Jones, Matthew M., Leckie, R. Mark, Parker, Amanda, Sageman, Bradley B., Sepúlveda, Julio, and Bralower, Timothy J.

Subjects

*ANOXIC zones, *SHALE, *WATER masses, *DRILL cores, *OCEAN temperature, *ECOSYSTEM dynamics, *TRACE metals

Abstract

Oceanic Anoxic Event 2 (OAE2) at the Cenomanian/Turonian Boundary (CTB: 93.9Ma) involved the global deposition of organic carbon-rich sediments, a distinctive positive shift in carbon isotope values, and significant species turnover, including changes in calcareous nannofossil assemblages. While it is thought that volcanismtriggered organic C-rich sediment deposition during OAE2, it is unclear whether enhanced productivity, increased stratification, of some combination of the two increased organicmatter preservation. Calcareous nannofossil assemblages have the potential to qualitatively assess changes in ocean nutrient and temperature conditions to disentangle such ecological dynamics during OAE2. Here we study an expanded section of the Tropic Shale in a drill core in southern Utah near thewestern margin of theWestern Interior Seaway (WIS) to understand how circulation changed during the event and how this may have influenced primary productivity and organic carbon burial. Relative abundance data of well-preserved nannoplankton are complemented with measurements of trace metal, and organic carbon and carbonate concentrations to determine changes in temperature and water column structure, as well as controls on surface water productivity. Detailed statistical analysis helps refine species paleoecologies combined with information from planktic and benthic foraminiferal assemblages and organic biomarkers. Changes in calcareous nannofossil assemblages indicate that near the start of OAE2 the westernWIS surface ocean actually cooled for a short time. Following this, surface waters became warmer and more stratified as a Tethyan water mass invaded the seaway. Assemblages suggest that warmth persisted for much of the OAE2 interval, while stratification waxed and waned. The local seaway cooled near the end of OAE2 as Boreal water masses streamed along the western margin. Variations, including the decrease in the abundance of Biscutum constans and short-lived peaks in the abundance of Eprolithus spp. are super regional or possibly global in extent. There is no correlation between calcareous nannofossil assemblages and trace metal concentrations, suggesting they were unaffected by volcanism-related nutrient inputs. Assemblages support other data that suggest increased stratification influenced organic carbon burial in theWestern Interior Seaway, and possibly elsewhere, during OAE2. [ABSTRACT FROM AUTHOR]

Published

2024

18. Paleogene Earth perturbations in the US Atlantic Coastal Plain (PEP-US): coring transects of hyperthermals to understand past carbon injections and ecosystem responses.

Author

Robinson, Marci M., Miller, Kenneth G., Babila, Tali L., Bralower, Timothy J., Browning, James V., Cramwinckel, Marlow J., Doubrawa, Monika, Foster, Gavin L., Fung, Megan K., Kinney, Sean, Makarova, Maria, McLaughlin, Peter P., Pearson, Paul N., Röhl, Ursula, Schaller, Morgan F., Self-Trail, Jean M., Sluijs, Appy, Westerhold, Thomas, Wright, James D., and Zachos, James C.

Subjects

*COASTAL plains, *PALEOGENE, *CARBON emissions, *HYDROLOGIC cycle, *WILDFIRES, *CARBON cycle, *CORE materials, *ECOSYSTEMS, *ECOLOGICAL impact

Abstract

The release of over 4500 Gt (gigatonnes) of carbon at the Paleocene–Eocene boundary provides the closest geological analog to modern anthropogenic CO 2 emissions. The cause(s) of and responses to the resulting Paleocene–Eocene Thermal Maximum (PETM) and attendant carbon isotopic excursion (CIE) remain enigmatic and intriguing despite over 30 years of intense study. CIE records from the deep sea are generally thin due to its short duration and slow sedimentation rates, and they are truncated due to corrosive bottom waters dissolving carbonate sediments. In contrast, PETM coastal plain sections along the US mid-Atlantic margin are thick, generally having an expanded record of the CIE. Drilling here presents an opportunity to study the PETM onset to a level of detail that could transform our understanding of this important event. Previous drilling in this region provided important insights, but existing cores are either depleted or contain stratigraphic gaps. New core material is needed for well-resolved marine climate records. To plan new drilling, members of the international scientific community attended a multi-staged, hybrid scientific drilling workshop in 2022 designed to maximize not only scientifically and demographically diverse participation but also to protect participants' health and safety during the global pandemic and to reduce our carbon footprint. The resulting plan identified 10 sites for drill holes that would penetrate the Cretaceous–Paleogene (K–Pg) boundary, targeting the pre-onset excursion (POE), the CIE onset, the rapidly deposited Marlboro Clay that records a very thick CIE body, and other Eocene hyperthermals. The workshop participants developed several primary scientific objectives related to investigating the nature and the cause(s) of the CIE onset as well as the biotic effects of the PETM on the paleoshelf. Additional objectives focus on the evidence for widespread wildfires and changes in the hydrological cycle, shelf morphology, and sea level during the PETM as well as the desire to study both underlying K–Pg sediments and overlying post-Eocene records of extreme hyperthermal climate events. All objectives address our overarching research question: what was the Earth system response to a rapid carbon cycle perturbation? [ABSTRACT FROM AUTHOR]

Published

2024

19. Rapid macrobenthic diversification and stabilization after the end-Cretaceous mass extinction event.

Author

Rodríguez-Tovar, Francisco J., Lowery, Christopher M., Bralower, Timothy J., Gulick, Sean P. S., and Jones, Heather L.

Subjects

*MASS extinctions, *TRACE fossils, *IMPACT craters, *BIOTIC communities, *CHONDRITES

Abstract

Previous ichnological analysis at the Chicxulub impact crater, Yucatán Peninsula, México (International Ocean Discovery Program [IODP]/International Continental Scientific Drilling Program [ICDP] Site M0077), showed a surprisingly rapid initial tracemaker community recovery after the end-Cretaceous (Cretaceous-Paleogene [K-Pg]) mass extinction event. Here, we found that full recovery was also rapid, with the establishment of a well-developed tiered community within -700 k.y. Several stages of recovery were observed, with distinct phases of stabilization and diversification, ending in the development of a trace fossil assemblage mainly consisting of abundant Zoophycos, Chondrites, and Planolites, assigned to the Zoophycos ichnofacies. The increase in diversity is associated with higher abundance, larger forms, and a deeper and more complex tiering structure. Such rapid recovery suggests that favorable paleoenvironmental conditions were quickly reestablished within the impact basin, enabling colonization of the substrate. Comparison with the end-Permian extinction reveals similarities during recovery, yet postextinction recovery was significantly faster after the K-Pg event. The rapid recovery has significant implications for the evolution of macrobenthic biota after the K-Pg event. Our results have relevance in understanding how communities recovered after the K-Pg impact and how this event differed from other mass extinction events. [ABSTRACT FROM AUTHOR]

Published

2020

20. Organic matter from the Chicxulub crater exacerbated the K-Pg impact winter.

Author

Lyons, Shelby L., Karp, Allison T., Bralower, Timothy J., Grice, Kliti, Schaefer, Bettina, Gulick, Sean P. S., Morgan, Joanna V., and Freeman, Katherine H.

Subjects

*ORGANIC compounds, *SULFATE aerosols, *CRETACEOUS-Paleogene boundary, *POLYCYCLIC aromatic hydrocarbons, *BIOLOGICAL extinction

Abstract

An asteroid impact in the Yucatán Peninsula set off a sequence of events that led to the Cretaceous-Paleogene (K-Pg) mass extinction of 76% species, including the nonavian dinosaurs. The impact hit a carbonate platform and released sulfate aerosols and dust into Earth's upper atmosphere, which cooled and darkened the planet--a scenario known as an impact winter. Organic burn markers are observed in K-Pg boundary records globally, but their source is debated. If some were derived from sedimentary carbon, and not solely wildfires, it implies soot from the target rock also contributed to the impact winter. Characteristics of polycyclic aromatic hydrocarbons (PAHs) in the Chicxulub crater sediments and at two deep ocean sites indicate a fossil carbon source that experienced rapid heating, consistent with organic matter ejected during the formation of the crater. Furthermore, PAH size distributions proximal and distal to the crater indicate the ejected carbon was dispersed globally by atmospheric processes. Molecular and charcoal evidence indicates wildfires were also present but more delayed and protracted and likely played a less acute role in biotic extinctions than previously suggested. Based on stratigraphy near the crater, between 7.5 x 1014 and 2.5 x 1015 g of black carbon was released from the target and ejected into the atmosphere, where it circulated the globe within a few hours. This carbon, together with sulfate aerosols and dust, initiated an impact winter and global darkening that curtailed photosynthesis and is widely considered to have caused the K-Pg mass extinction. [ABSTRACT FROM AUTHOR]

Published

2020

21. Delayed calcareous nannoplankton boom-bust successions in the earliest Paleocene Chicxulub (Mexico) impact crater.

Author

Jones, Heather L., Lowery, Christopher M., and Bralower, Timothy J.

Subjects

*MASS extinctions, *IMPACT craters, *COINCIDENCE

Abstract

The Cretaceous-Paleogene (K-Pg; 66 Ma) mass extinction was caused by a bolide impact on the Yucatán platform near modern Chicxulub, Mexico. Calcareous nannoplankton, a dominant group of primary producers, were almost eradicated at this time. Post-impact nannoplankton assemblages from Northern Hemisphere sites were characterized by a shortlived series of high-dominance, low-diversity acmes ("boom-bust" successions), which likely represent an unstable post-impact environment. Although these boom-bust successions are a global signal, the mechanisms that controlled the taxonomic switchovers between acmes are currently unknown. Here, we present detailed analyses of calcareous nannoplankton and planktic foraminiferal assemblages in a new K-Pg section from the peak ring of the Chicxulub crater. We show that although nannoplankton assemblages resemble the typical series of acmes at Tethyan sites, the termination of the "disaster" acme in the crater is delayed by at least 500 k.y. The coincidence between shifts in the dominant planktic foraminiferal trophic group and switchovers in nannoplankton boom-bust taxa suggests that this series of acmes may represent a gradual trend toward oligotrophy driven by the global restoration of biological pump efficiency. Thus, the global diachroneity of boom-bust successions likely reflects the differential pacing of biological pump restoration between oceanic basins and settings. [ABSTRACT FROM AUTHOR]

Published

2019

22. Isotopes from fossil coronulid barnacle shells record evidence of migration in multiple Pleistocene whale populations.

Author

Taylor, Larry D., O'Dea, Aaron, Bralower, Timothy J., and Finnegan, Seth

Subjects

*WHALE populations, *ISOTOPES, *BARNACLES, *PLEISTOCENE Epoch, *CETACEA

Abstract

Migration is an integral feature of modern mysticete whale ecology, and the demands of migration may have played a key role in shaping mysticete evolutionary history. Constraining when migration became established and assessing how it has changed through time may yield valuable insight into the evolution of mysticete whales and the oceans in which they lived. However, there are currently few data which directly assess prehistoric mysticete migrations. Here we show that calcite δ18O profiles of two species of modern whale barnacles (coronulids) accurately reflect the known migration routes of their host whales. We then analyze well-preserved fossil coronulids from three different locations along the eastern Pacific coast, finding that δ18O profiles from these fossils exhibit trends and ranges similar to modern specimens. Our results demonstrate that migration is an ancient behavior within the humpback and gray whale lineages and that multiple Pleistocene populations were undertaking migrations of an extent similar to those of the present day. [ABSTRACT FROM AUTHOR]

Published

2019

23. THE LATE PALEOCENE THERMAL MAXIMUM: ANCIENT GLOBAL WARMING AT MODERN RATES?

Author

Bralower, Timothy J., Sloan, Lisa, and Zachos, James

Subjects

*GLOBAL warming, *PALEOCENE stratigraphic geology

Abstract

One of the most abrupt and dramatic ancient global warming events took place ∼55 Ma in the late Paleocene epoch. This event, known as the Late Paleocene Thermal Maximum (LPTM), involved warming of high latitude and subtropical oceanic surface waters by up to 6°C and deep waters by up to 8°C. Deep-water warming and consequent oxygen deficiency led to the most severe mass extinction of deep-sea faunas in the last 90 million years. By contrast, the LPTM is also associated with major speciation of planktic foraminifers and terrestrial mammals. The event corresponds to a large (3 per mil), negative carbon isotope excursion (CIE) that suggests major changes in the nature of carbon cycling. The CIE has been used to correlate the LPTM between terrestrial and marine sediments. Current estimates of the duration of the LPTM range between 50–200 thousands of years. The onset of the event, including the full magnitude of the CIE, is thought to span 2–10 thousands of years. This initial rate of CO2 input is comparable with anthropogenic input of fossil fuels. Possible sources of CO2 and warming mechanisms include dissociation of methane hydrates along continental margins and a major episode of effusive volcanism in the North Atlantic. For causal mechanisms to be fully tested, however, more precise estimates of the duration of the onset are required. In this talk, a state-of-the-art chronology of the LPTM was presented along with a comparison of LPTM and modern CO2 input and warming rates. [ABSTRACT FROM AUTHOR]

Published

1999

24. Reply.

Author

Bralower, Timothy J., Thomas, Deborah J., Thomas, Ellen, and Zachos, James C.

Subjects

*PALEOCENE stratigraphic geology, *VOLCANISM

Abstract

Presents a reply relating to the article `High-Resolutions Records of the Late Paleocene Thermal Maximum and Circum-Caribbean volcanism: Is There a Causal Link?' Discussion on the late Paleocene thermal maximum in the Caribbean; Reference to the carbon isotope excursion; Decrease of CaCO3 in deep sea.

Published

1998

25. Life before impact in the Chicxulub area: unique marine ichnological signatures preserved in crater suevite.

Author

Rodríguez-Tovar, Francisco J., Kaskes, Pim, Ormö, Jens, Gulick, Sean P. S., Whalen, Michael T., Jones, Heather L., Lowery, Christopher M., Bralower, Timothy J., Smit, Jan, King Jr., David T., Goderis, Steven, and Claeys, Philippe

Subjects

*BRECCIA, *TRACE fossils, *ICHNOLOGY, *MASS extinctions, *MICROPALEONTOLOGY, *CHONDRITES

Abstract

To fully assess the resilience and recovery of life in response to the Cretaceous–Paleogene (K-Pg) boundary mass extinction ~ 66 million years ago, it is paramount to understand biodiversity prior to the Chicxulub impact event. The peak ring of the Chicxulub impact structure offshore the Yucatán Peninsula (México) was recently drilled and extracted a ~ 100 m thick impact-generated, melt-bearing, polymict breccia (crater suevite), which preserved carbonate clasts with common biogenic structures. We pieced this information to reproduce for the first time the macrobenthic tracemaker community and marine paleoenvironment prior to a large impact event at the crater area by combining paleoichnology with micropaleontology. A variable macrobenthic tracemaker community was present prior to the impact (Cenomanian–Maastrichtian), which included soft bodied organisms such as annelids, crustaceans and bivalves, mainly colonizing softgrounds in marine oxygenated, nutrient rich, conditions. Trace fossil assemblage from these upper Cretaceous core lithologies, with dominant Planolites and frequent Chondrites, corresponds well with that in the overlying post-impact Paleogene sediments. This reveals that the K-Pg impact event had no significant effects (i.e., extinction) on the composition of the macroinvertebrate tracemaker community in the Chicxulub region. [ABSTRACT FROM AUTHOR]

Published

2022

26. The impact of lithification on the diversity, size distribution, and recovery dynamics of marine invertebrate assemblages.

Author

Sessa, Jocelyn A., Patzkowsky, Mark E., and Bralower, Timothy J.

Subjects

*MARINE invertebrates, *MARINE sediments, *SEDIMENTS, *MOLLUSKS, *SAMPLING (Process), *CENOZOIC stratigraphic geology

Abstract

Lithified marine sediments are not equitably distributed through time, raising the possibility that lithification masks biological signals when data from unlithified and lithified sediments are compared or combined. Using mollusk-dominated assemblages from the early Cenozoic of the Gulf Coastal Plain, we find that lithification conceals small taxa, decreases taxonomic resolution, and exacerbates the undersampling of rare taxa. Lithified assemblages appear less diverse and have less even abundance distributions than coeval unlithified samples. These limitations cannot be overcome by standardization procedures, nor are they likely to be circumvented by collecting larger samples. The effects of this bias, however, can be mitigated by restricting analyses to a single lithification state or to specific size classes. Since lithification selectively obscures small taxa, the magnitude of this bias will be most severe when organisms are particularly small, such as in the aftermath of mass extinctions. In the study area, lithification artificially protracts the recovery period following the Cretaceous-Paleogene mass extinction by ~7 m.y. [ABSTRACT FROM AUTHOR]

Published

2009

27. Microfossil and geochemical records reveal high-productivity paleoenvironments in the Cretaceous Western Interior Seaway during Oceanic Anoxic Event 2.

Author

Bryant, Raquel, Leckie, R. Mark, Bralower, Timothy J., Jones, Matthew M., and Sageman, Bradley B.

Subjects

*FOSSIL microorganisms, *CARBON cycle, *CHEMOSTRATIGRAPHY, *EUPHOTIC zone, *CARBON isotopes, *WATER masses, CARTHAGE (Extinct city)

Abstract

Oceanic Anoxic Event 2 (OAE2; ~94.5 Ma) occurred in the latest Cenomanian and represents a perturbation to the global carbon cycle. The event is geochemically recorded in shales and limestones of the Western Interior Basin of North America and is additionally marked by foraminiferal bio-events (e.g., turnovers, extinctions). These bio-events are attributed to changing paleoceanographic conditions and circulation patterns in the Western Interior Seaway related to the onset of OAE2. Here we investigate the paleoenvironment near the southwestern edge of the seaway during OAE2 by integrating microfossil and geochemical records from the lower beds of the Tokay Tongue (Mancos Shale) at Carthage, New Mexico, USA. We demonstrate that this locality represents an expanded section of OAE2 based on temporal constraints from carbon isotope chemostratigraphy and the occurrence of regional marker ash-fall deposits (bentonites), limestones and other carbonate-rich beds. Prior to the onset of OAE2, a unique assemblage of benthic foraminiferal morphologies suggests the presence of a distinct water mass in the southwestern part of the seaway compared to coeval neritic and distal sites. Microfossil assemblages record the Benthonic Zone, a typical OAE2 bio-event, with some distinctions. The event is still identifiable and thereby useful in marking the earliest stages of OAE2. Early in OAE2, calcareous nannofossil and foraminiferal assemblages indicate intervals of high productivity. The dominance of biserial planktic foraminifera (Planoheterohelix spp.) suggests the development of photic zone euxinia with intensification of OAE2. During OAE2, epifaunal trochospiral benthic foraminifera (Gavelinella dakotaensis) suggest intervals of improved conditions related to food availability and seafloor ventilation. Later, as increased surface water productivity and subsequent food availability prevailed at the seafloor through the end of the OAE2 interval, benthic foraminifera were abundant and assemblages were dominated by infaunal, low oxygen tolerant species (Neobulimina albertensis), suggesting prevailing dysoxia. We attribute differences in the expression of bio-events and foraminiferal community composition at Carthage to the influence of freshwater runoff from the western margin that drove high-productivity conditions throughout OAE2. [ABSTRACT FROM AUTHOR]

Published

2021

28. Paleoceanographic changes across the Jurassic/Cretaceous boundary: The calcareous phytoplankton response

Author

Tremolada, Fabrizio, Bornemann, André, Bralower, Timothy J., Koeberl, Christian, and van de Schootbrugge, Bas

Subjects

*ISOTOPES, *PHOTOSYNTHETIC oxygen evolution, *STABLE isotopes, *PALEOECOLOGY

Abstract

Abstract: Calcareous nannoplankton experienced rapid diversification at the Jurassic/Cretaceous boundary, including the appearance of several highly successful and long-ranging Cretaceous genera. This study examines, at high-resolution, calcareous nannofossil assemblages and bulk-rock oxygen and carbon isotopes of lower Tithonian to lower Berriasian (∼151 to 142 Ma) sediments recovered in Deep Sea Drilling Project Hole 534A, central Atlantic Ocean. The results show major changes in assemblage composition and abundance of three genera (Conusphaera, Nannoconus, and Polycostella). Conusphaera dominates the nannolith assemblage in the late middle Tithonian (“Conusphaera world”), while the nannoconid dominance (“Nannoconus world”) began in the Berriasian. The acme peak of the genus Polycostella in the late Tithonian partially superimposes that of Conusphaera. Although these genera are indicators of warm, oligotrophic surface waters, stable isotope data suggest that the individual taxa may flourish in slightly different ecological regimes. Nannoconus flourished under warmer and possibly more nutrient-depleted surface waters than Polycostella, a genus that thrived in relatively cooler waters. These findings imply paleoceanographic changes across the J/K boundary interval with a cooling in the late Tithonian, followed by a temperature increase in the Berriasian. Because the transfer of these heavily calcified nannolith taxa to the seafloor is more efficient than that of average coccolithophorids, the J/K evolutionary event changed carbonate cycling and burial in the oceans. [Copyright &y& Elsevier]

Published

2006

29. Nannofossil evolutionary events in the mid-Pliocene: an assessment of the degree of synchrony in the extinctions of Reticulofenestra pseudoumbilicus and Sphenolithus abies

Author

Gibbs, Samantha J., Young, Jeremy R., Bralower, Timothy J., and Shackleton, Nicholas J.

Subjects

*ENVIRONMENTAL engineering, *FOSSILS, *PLEISTOCENE stratigraphic geology, *PALEONTOLOGY

Abstract

Abstract: The mid-Pliocene was an interval of subtle reorganisation within the nannoplankton community, including the prominent and biostratigraphically important last occurrences of Sphenolithus abies and Reticulofenestra pseudoumbilicus. The transition is part of the Pliocene to Recent ‘attrition’ of nannofossil species that resulted from changes in the distribution of trophic resources, and deep-water and surface-water current systems, likely associated with the initiation of Northern Hemisphere glaciation. The extinctions of Sphenolithus abies and Reticulofenestra pseudoumbilicus were analysed in detail at ODP Sites 659, 662, and 926 in the equatorial and subequatorial Atlantic. These taxa show significantly different patterns of duration and timing of decline based on high-resolution abundance records and calibration with oxygen isotope stratigraphy. The initiation of abundance decline between 3.71 and 3.67 Ma and the extinction of S. abies between 3.56 and 3.52 Ma are diachronous. This extinction may have been a response to the intensification of glacial intervals at this time. In contrast, the last occurrence of R. pseudoumbilicus at 3.81–3.82 Ma appears to be a valid example of biostratigraphic (although not necessarily biological) synchrony in the fossil record. Direct environmental forcing is not attributable for the extinction of R. pseudoumbilicus; however, indirect physical and/or biological environmental stress may explain the observed patterns. [Copyright &y& Elsevier]

Published

2005

30. Cretaceous strontium isotope stratigraphy using marine barite.

Author

Mearon, Sarah, Paytan, Adina, and Bralower, Timothy J.

Subjects

*STRONTIUM, *STRATIGRAPHIC geology, *BARITE

Abstract

The strontium isotope ratios ([sup 87]Sr/[sup 86]Sr) of marine barite microcrystals separated from Cretaceous sedimentary deposits from Ocean Drilling Program and Deep Sea Drilling Project sites from the Pacific and Indian Oceans have been compared to the composite Sr isotope curve of McArthur et al. The barite in these cores accurately recorded the seawater [sup 87]Sr/[sup 86]Sr ratio, thereby reaffirming the composite Cretaceous strontium curve. Moreover, marine barite is a more reliable recorder of [sup 87]Sr/[sup 86]Sr than is carbonate in sedimentary deposits with high clay content, thereby providing an opportunity for Sr isotope stratigraphy and dating in carbonate-poor or diagenetically altered sections. We have used the barite-derived Sr isotope record to refine the biostratigraphic age models of the sites investigated. [ABSTRACT FROM AUTHOR]

Published

2003

31. Warming the fuel for the fire: Evidence for the thermal dissociation of methane hydrate during the Paleocene-Eocene thermal maximum.

Author

Thomas, Deborah J., Zachos, James C., Bralower, Timothy J., Thomas, Ellen, and Bohaty, Steven

Subjects

*PALEOCENE stratigraphic geology, *EOCENE stratigraphic geology, *METHANE

Abstract

Presents evidence for the thermal dissociation of methane hydrate during the Paleocene-Eocene thermal maximum. High-resolution stable isotope records based on analyses of single planktonic and benthic foraminiferal shells from Ocean Drilling Program Site 690, Weddel Sea, Southern Ocean; Geologically instantaneous initial carbon isotope excursion.

Published

2002

32. Magnetostratigraphy of mid-Cretaceous limestones from the Sierra Madre of northeastern Mexico.

Author

Clement, Bradford M., Poetisi, Ewald, Bralower, Timothy J., CoBabe, Emily, and Longoria, Jose

Subjects

*PALEOMAGNETISM, *LIMESTONE, *SULFIDE minerals

Abstract

Examines the magnetostratigraphy of mid-Cretaceous limestones from the Sierra Madre of northeastern Mexico. Characteristics of sulphide mineral and magnetite-titanomagnetite mineral; Details on characteristic remanent magnetization inclinations; Aspects of Laramide deformation.

Published

2000

33. Probing the hydrothermal system of the Chicxulub impact crater.

Author

Kring, David A., Tikoo, Sonia M., Schmieder, Martin, Riller, Ulrich, Rebolledo-Vieyra, Mario, Simpson, Sarah L., Osinski, Gordon R., Gattacceca, Jérôme, Wittmann, Axel, Verhagen, Christina M., Cockell, Charles S., Coolen, Marco J. L., Longstaffe, Fred J., Gulick, Sean P. S., Morgan, Joanna V., Bralower, Timothy J., Chenot, Elise, Christeson, Gail L., Claeys, Philippe, and Ferrière, Ludovic

Subjects

*IMPACT craters, *EARTH sciences, *SUBMARINE geology, *SULFIDE minerals, *LUNAR craters, *SILICATE minerals, *LIFE sciences, *GEOLOGICAL surveys

Abstract

The article informs about Probing the hydrothermal system of the Chicxulub peak-ring crater and multiring basin. Topics discusserd include information on International Ocean Discovery Program (IODP) and International Continental Scientific Drilling Program (ICDP) Expedition; and chemical and mineral alteration in the Chicxulub crater was previously detected within a few centimeter-size rock fragments from a petroleum exploration borehole.

Published

2020

34. Microbial life in the nascent Chicxulub crater.

Author

Schaefer, Bettina, Grice, Kliti, Coolen, Marco J. L., Summons, Roger E., Xingqian Cui, Bauersachs, Thorsten, Schwark, Lorenz, Böttcher, Michael E., Bralower, Timothy J., Lyons, Shelby L., Freeman, Katherine H., Cockell, Charles S., Gulick, Sean P. S., Morgan, Joanna V., Whalen, Michael T., Lowery, Christopher M., and Vajda, Vivi

Subjects

*MICROORGANISMS, *EUPHOTIC zone, *SULFUR bacteria, *MICROBIAL mats, *CYANOBACTERIAL blooms

Abstract

The Chicxulub crater was formed by an asteroid impact at ca. 66 Ma. The impact is considered to have contributed to the end-Cretaceous mass extinction and reduced productivity in the world's oceans due to a transient cessation of photosynthesis. Here, biomarker profiles extracted from crater core material reveal exceptional insights into the post-impact upheaval and rapid recovery of microbial life. In the immediate hours to days after the impact, ocean resurge flooded the crater and a subsequent tsunami delivered debris from the surrounding carbonate ramp. Deposited material, including biomarkers diagnostic for land plants, cyanobacteria, and photosynthetic sulfur bacteria, appears to have been mobilized by wave energy from coastal microbial mats. As that energy subsided, days to months later, blooms of unicellular cyanobacteria were fueled by terrigenous nutrients. Approximately 200 k.y. later, the nutrient supply waned and the basin returned to oligotrophic conditions, as evident from N2- fixing cyanobacteria biomarkers. At 1 m.y. after impact, the abundance of photosynthetic sulfur bacteria supported the development of water-column photic zone euxinia within the crater. [ABSTRACT FROM AUTHOR]

Published

2020

35. On impact and volcanism across the Cretaceous-Paleogene boundary.

Author

Hull, Pincelli M., Bornemann, André, Penman, Donald E., Henehan, Michael J., Norris, Richard D., Wilson, Paul A., Blum, Peter, Alegret, Laia, Batenburg, Sietske J., Bown, Paul R., Bralower, Timothy J., Cournede, Cecile, Deutsch, Alexander, Donner, Barbara, Friedrich, Oliver, Jehle, Sofie, Kim, Hojung, Kroon, Dick, Lippert, Peter C., and Loroch, Dominik

Subjects

*VOLCANISM, *PALEOGENE, *CARBON cycle, *CARBON dioxide, *GLOBAL warming

Abstract

The cause of the end-Cretaceous mass extinction is vigorously debated, owing to the occurrence of a very large bolide impact and flood basalt volcanism near the boundary. Disentangling their relative importance is complicated by uncertainty regarding kill mechanisms and the relative timing of volcanogenic outgassing, impact, and extinction. We used carbon cycle modeling and paleotemperature records to constrain the timing of volcanogenic outgassing. We found support for major outgassing beginning and ending distinctly before the impact, with only the impact coinciding with mass extinction and biologically amplified carbon cycle change. Our models show that these extinction-related carbon cycle changes would have allowed the ocean to absorb massive amounts of carbon dioxide, thus limiting the global warming otherwise expected from postextinction volcanism. [ABSTRACT FROM AUTHOR]

Published

2020

36. Astronomical pacing of relative sea level during Oceanic Anoxic Event 2: Preliminary studies of the expanded SH#1 Core, Utah, USA.

Author

Jones, Matthew M., Sageman, Bradley B., Oakes, Rosie L., Parker, Amanda L., Leckie, R. Mark, Bralower, Timothy J., Sepúlveda, Julio, and Fortiz, Victoria

Subjects

*CHEMOSTRATIGRAPHY, *SEA level, *SEQUENCE stratigraphy, *CARBON cycle, *CARBON isotopes, *OCEAN acidification, *GLOBAL warming

Abstract

Proximal marine strata of the North American Western Interior Basin (WIB) preserve a rich record of biotic turnover during Oceanic Anoxic Event 2 (OAE2; ca. 94 Ma), a pronounced Late Cretaceous carbon cycle perturbation interpreted to reflect global warming, widespread hypoxia, and possible ocean acidification. To develop a more robust synthesis of paleobiologic and geochemical data sets spanning this Earth-life transition, we drilled the 131 m Smoky Hollow #1 Core (SH#1), on the Kaiparowits Plateau of southern Utah, USA, recovering the Cenomanian-Turonian Boundary (CTB) interval in the Tropic Shale Formation. A 17.5 m positive excursion in high-resolution bulk carbon isotope chemostratigraphy (δ13Corg) of SH#1 characterizes the most expanded OAE2 record recovered from the mid-latitudes of the WIB. Depleted values in a paired carbonate carbon isotope (δ13Ccarb) chemostratigraphy cyclically punctuate the OAE2 excursion. These depletions correspond to intervals in the core with a higher degree of carbonate diagenesis and correlate well to an existing sequence stratigraphic framework of flooding surfaces in the shoreface facies of the Markagunt Plateau (~100 km west). We detect statistically significant evidence for astronomical cycles in the δ13Ccarb data set, imparted by diagenesis at flooding surfaces, and develop a floating astronomical time scale (ATS) for the study interval. Stable eccentricity cycles (405 k.y.) align with stratigraphic sequences and associated trends in sedimentation rate, and short eccentricity cycles (~100 k.y.) pace nested parasequences. These results confirm an astronomical signal and, therefore, climatic forcing of relative sea level during OAE2 in the WIB. Furthermore, cross-basin correlation of the ATS and expanded δ13C chemostratigraphy of SH#1 suggests that these transgressive-regressive parasequences modulated siliciclastic sediment delivery in the seaway and contributed to deposition of prominent rhythmically bedded CTB units across the WIB, including the Bridge Creek Limestone. The presented approach to analysis of these proximal offshore siliciclastic facies links early diagenetic influences on chemostratigraphy to astronomically modulated sequence stratigraphic horizons, and helps to resolve rates of paleobiologic and paleoenvironmental change during a significant Mesozoic carbon cycle perturbation. [ABSTRACT FROM AUTHOR]

Published

2019

37. Effects of size-dependent sediment mixing on deep-sea records of the Paleocene-Eocene Thermal Maximum.

Author

Hupp, Brittany N., Kelly, D. Clay, Zachos, James C., and Bralower, Timothy J.

Subjects

*CARBON isotopes, *SEDIMENTS, *CARBON cycle, *GLOBAL warming, *REGIONAL economic disparities, *RECORDS

Abstract

Stratigraphic features of the carbon isotope excursion (CIE) marking the Paleocene-Eocene Thermal Maximum (PETM; ca. 55.8 Ma) are used to study ocean-climate change and carbon cycling during this ancient global warming event. Yet discrepancies in its timing and amplitude exist between bulk-carbonate and planktic-foraminifera d13C records. Here we examine these disparities through the lens of d13C compositions of size-segregated planktic shells across the pre-CIE to CIE transition in the iconic PETM section of Ocean Drilling Program Site 690 in the Weddell Sea. Our results show that the stratigraphic position of the CIE onset is dependent upon shell size, which we attribute to preferential mixing of smaller shells with pre-CIE d13C values up into the overlying CIE interval. Hence, the transitory loss of size-dependent d13C signatures in photosymbiotic planktic foraminifera is a taphonomic artifact, not a geochemical signal of symbiont "bleaching" during the PETM. Our results also indicate that many salient features of the Site 690 bulk-carbonate d13C record are aberrations caused by size-dependent sediment mixing, and as such, should not be viewed as primary signals of ocean-climate change during what is arguably one of the best ancient analogs for future ocean-climate change. [ABSTRACT FROM AUTHOR]

Published

2019

38. OCEAN DRILLING PERSPECTIVES ON Meteorite Impacts.

Author

Lowery, Christopher M., Morgan, Joanna V., Gulick, Sean P. S., Bralower, Timothy J., and Christeson, Gail L.

Subjects

*IMPACT craters, *OSMIUM isotopes, *METEORITES, *MAMMAL evolution, *FOSSIL collection, *OCEAN, *MARINE sediments

Abstract

Extraterrestrial impacts that reshape the surfaces of rocky bodies are ubiquitous in the solar system. On early Earth, impact structures may have nurtured the evolution of life. More recently, a large meteorite impact off the Yucatán Peninsula in Mexico at the end of the Cretaceous caused the disappearance of 75% of species known from the fossil record, including non-avian dinosaurs, and cleared the way for the dominance of mammals and the eventual evolution of humans. Understanding the fundamental processes associated with impact events is critical to understanding the history of life on Earth, and the potential for life in our solar system and beyond. Scientific ocean drilling has generated a large amount of unique data on impact processes. In particular, the Yucatán Chicxulub impact is the single largest and most significant impact event that can be studied by sampling in modern ocean basins, and marine sediment cores have been instrumental in quantifying its environmental, climatological, and biological effects. Drilling in the Chicxulub crater has significantly advanced our understanding of fundamental impact processes, notably the formation of peak rings in large impact craters, but these data have also raised new questions to be addressed with future drilling. Within the Chicxulub crater, the nature and thickness of the melt sheet in the central basin is unknown, and an expanded Paleocene hemipelagic section would provide insights to both the recovery of life and the climatic changes that followed the impact. Globally, new cores collected from today's central Pacific could directly sample the downrange ejecta of this northeast-southwest trending impact. Extraterrestrial impacts have been controversially suggested as primary drivers for many important paleoclimatic and environmental events throughout Earth history. However, marine sediment archives collected via scientific ocean drilling and geochemical proxies (e.g., osmium isotopes) provide a long-term archive of major impact events in recent Earth history and show that, other than the end-Cretaceous, impacts do not appear to drive significant environmental changes. [ABSTRACT FROM AUTHOR]

Published

2019

39. The planktonic foraminiferal response to the Paleocene-Eocene thermal maximum on the Atlantic coastal plain.

Author

Livsey, Caitlin M., Babila, Tali L., Robinson, Marci M., and Bralower, Timothy J.

Subjects

*FORAMINIFERA, *PALEOCENE Epoch, *STRATIGRAPHIC geology, *CARBON isotopes, *GLOBAL warming

Abstract

Abstract Planktonic foraminiferal assemblages in two cores from Maryland and New Jersey show evidence for significant changes in surface ocean habitats on the continental shelf during the Paleocene-Eocene Thermal Maximum (PETM). At both sites, significant assemblage shifts occur immediately before the onset of the event. These changes include the appearance of abundant triserial/biserial species as well as rare excursion taxa, which are limited to the interval of the carbon isotope excursion at deep-sea sites. The assemblage shifts signal the development of new habitats immediately prior to the onset of the PETM, likely involving warming, surface ocean acidification, increased stratification and oligotrophy. A sharp increase in diversity at the onset of the event is interpreted as a further increase in stratification and warming, as well as increased water depth and more eutrophic conditions. Finally, we observe variant morphologies of several planktonic foraminifera, which may also signal the response of the assemblage to environmental perturbation. Highlights • Planktonic foraminiferal assemblage shifts occur before and during the onset of the PETM on the Coastal Plain • "Excursion" species Acarinina sibaiyaensis appears on the Atlantic Coastal Plain prior to the CIE • Observations of variant morphologies may signal environmental perturbation on the coastal plain [ABSTRACT FROM AUTHOR]

Published

2019

40. Signatures of intra-crater seiches of IODP-ICDP expedition 364 (Site m0077) in the Chicxulub crater.

Author

Smit, Jan, Whalen, Michael T., Bralower, Timothy J., Kaskes, Pim, de Graaff, Sietze J., de Beeck, Sander Op, Vandijck, Ruben, de Winter, Niels J., Goderis, Steven, Vellekoop, Johan, and Claeys, Philippe

Subjects

*SEICHES

Published

2018

41. Capturing the global signature of surface ocean acidification during the Palaeocene–Eocene Thermal Maximum.

Author

Babila, Tali L., Penman, Donald E., Hönisch, Bärbel, Kelly, D. Clay, Bralower, Timothy J., Rosenthal, Yair, and Zachos, James C.

Subjects

*OCEAN acidification, *PALEOCENE-Eocene thermal maximum, *FORAMINIFERA

Abstract

Geologically abrupt carbon perturbations such as the Palaeocene–Eocene Thermal Maximum (PETM, approx. 56 Ma) are the closest geological points of comparison to current anthropogenic carbon emissions. Associated with the rapid carbon release during this event are profound environmental changes in the oceans including warming, deoxygenation and acidification. To evaluate the global extent of surface ocean acidification during the PETM, we present a compilation of new and published surface ocean carbonate chemistry and pH reconstructions from various palaeoceanographic settings. We use boron to calcium ratios (B/Ca) and boron isotopes (δ11B) in surface- and thermocline-dwelling planktonic foraminifera to reconstruct ocean carbonate chemistry and pH. Our records exhibit a B/Ca reduction of 30–40% and a δ11B decline of 1.0–1.2‰ coeval with the carbon isotope excursion. The tight coupling between boron proxies and carbon isotope records is consistent with the interpretation that oceanic absorption of the carbon released at the onset of the PETM resulted in widespread surface ocean acidification. The remarkable similarity among records from different ocean regions suggests that the degree of ocean carbonate change was globally near uniform. We attribute the global extent of surface ocean acidification to elevated atmospheric carbon dioxide levels during the main phase of the PETM. [ABSTRACT FROM AUTHOR]

Published

2018

42. Palaeoclimatology (Communication arising): Tropical temperatures in greenhouse episodes.

Author

Zachos, James C., Arthur, Michael A., Bralower, Timothy J., and Spero, Howard J.

Subjects

*GREENHOUSE effect, *SEDIMENTS

Abstract

Reconstruction from oxygen-isotope data of global sea-surface temperatures (SSTs) that prevailed during periods when greenhouse-gas levels were higher than at present (that is, in the early Eocene and Cretaceous epochs) indicates that temperatures were significantly warmer than present in mid- to high latitudes, but similar to or slightly cooler in the tropics. However, Pearson and colleagues claim, on the basis of oxygen-isotope data from planktonic foraminifers recovered from clay beds in Tanzania and other localities, that the tropics were warm during the Eocene, attributing the discrepancy between these and previous tropical SST estimates to the effects of diagenetic overprinting of the latter. Here we note some potential flaws in their interpretation of the new oxygen-isotope data. [ABSTRACT FROM AUTHOR]

Published

2002

43. New age constraints for the Salamanca Formation and lower Río Chico Group in the western San Jorge Basin, Patagonia, Argentina: Implications for Cretaceous-Paleogene extinction recovery and land mammal age correlations.

Author

Clyde, William C., Wilf, Peter, Iglesias, Ari, Slingerland, Rudy L., Barnum, Timothy, Bijl, Peter K., Bralower, Timothy J., Brinkhuis, Henk, Comer, Emily E., Huber, Brian T., Ibañez-Mejia, Mauricio, Jicha, Brian R., Marcelo Krause, J., Schueth, Jonathan D., Singer, Bradley S., Raigemborn, María Sol, Schmitz, Mark D., Sluijs, Appy, and del Carmen Zamaloa, María

Subjects

*FOSSIL microorganisms, *GEOLOGICAL formations, *MICROPALEONTOLOGY, *LASER ablation, *SEQUENCE stratigraphy, *INDUCTIVELY coupled plasma mass spectrometry

Abstract

The Salamanca Formation of the San Jorge Basin (Patagonia, Argentina) preserves critical records of Southern Hemisphere Paleo cene biotas, but its age remains poorly resolved, with estimates ranging from Late Cretaceous to middle Paleocene. We report a multi-disciplinary geochronologic study of the Salamanca Formation and overlying Río Chico Group in the western part of the basin . New constraints include (1) an 40Ar/39Ar age determination of 67.31 ±0.55 Ma from a basalt fl ow underlying the Salamanca Formation, (2) micropaleontological results indicating an early Danian age for the base of the Salamanca Formation, (3) laser ablation HR-MC-ICP-MS (high resolutionmulti collector-inductively coupled plasmamass spectrometry) U-Pb ages and a highresolution TIMS (thermal ionization mass spectrometry) age of 61.984 ±0.041(0.074) [0.100] Ma for zircons from volcanic ash beds in the Peñas Coloradas Formation (Río Chico Group), and (4) paleomagnetic results indicating that the Salamanca Formation in this area is entirely of normal polarity, with reversals occurring in the Río Chico Group. Placing these new age constraints in the context of a sequence stratigraphic model for the basin, we correlate the Salamanca Formation in the study area to Chrons C29n and C28n, with the Banco Negro Inferior (BNI), a mature widespread fossiliferous paleosol unit at the top of the Salamanca Formation, corresponding to the top of Chron C28n. The diverse paleo botanical assemblages from this area are here assigned to C28n (64.67- 63.49 Ma), 2-3 million years older than previously thought, adding to growing evidence for rapid Southern Hemisphere fl oral recovery after the Cretaceous-Paleogene extinction. Important Peligran and "Carodnia" zone vertebrate fossil assemblages from coastal BNI and Peñas Coloradas exposures are likely older than previously thought and correlate to the early Torrejonian and early Tiffanian North American Land Mammal Ages, respectively. [ABSTRACT FROM AUTHOR]

Published

2014

44. Ocean acidification and surface water carbonate production across the Paleocene–Eocene thermal maximum

Author

Gibbs, Samantha J., Stoll, Heather M., Bown, Paul R., and Bralower, Timothy J.

Subjects

*OCEAN acidification, *CARBONATES, *PALEOCEANOGRAPHY, *OCEAN-atmosphere interaction, *CARBON cycle, *SEAWATER composition, *TRACE elements, *NANNOFOSSILS, *GEOLOGICAL time scales

Abstract

Abstract: The addition of massive amounts of carbon to the ocean–atmosphere system at the Paleocene–Eocene thermal maximum (PETM, ∼55Ma) caused deep-ocean acidification, evidenced by widespread dissolution of sea floor carbonate sediments. Because of the strong effect of this dissolution on the preserved record of calcium carbonate it has been difficult to evaluate whether changes in surface water chemistry affected carbonate production at the same time. Here, we investigate the production of biogenic carbonate in surface waters by testing a method which combines fossil calcareous nannoplankton counts with taxon-specific Sr/Ca data, an indicator of coccolithophore production. Reconstructed nannoplankton production at Ocean Drilling Program (ODP) Sites 690 (Southern Ocean), 1209 (Pacific Ocean) and Bass River (New Jersey) did not appear to vary significantly across the PETM indicating that on geological timescales there is no evidence for interruption of phytoplankton carbonate production, despite the major assemblage shifts associated with this interval. Either levels of carbonate chemistry change in surface waters were relatively low, perhaps a function of CO2 emission rates, or calcareous nannoplankton were relatively insensitive to these changes compared with their response to other environmental parameters, namely temperature and nutrient availability. [Copyright &y& Elsevier]

Published

2010

45. The Chicxulub Asteroid Impact and Mass Extinction at the Cretaceous-Paleogene Boundary.

Author

Schulte, Peter, Alegret, Laia, Arenillas, Ignado, Arz, José A., Barton, Penny J., Bown, Paul R., Bralower, Timothy J., Christeson, Gail L., Claeys, Philippe, Cockell, Charles S., Collins, Gareth S., Deutsch, Alexander, Goldin, Tamara J., Goto, Kazuhisa, Grajales-Nishimura, José M., Grieve, Richard A. F., Gulick, Sean P. S., Johnson, Kirk R., Kiessling, Wolfgang, and Koeberl, Christian

Subjects

*DINOSAUR extinction, *ASTEROIDS, *IMPACT of asteroids with Earth, *BIOLOGICAL extinction, *CRETACEOUS stratigraphic geology

Abstract

The Cretaceous-Paleogene boundary ∼65.5 million years ago marks one of the three largest mass extinctions in the past 500 million years. The extinction event coincided with a large asteroid impact at Chicxulub, Mexico, and occurred within the time of Deccan flood basalt volcanism in India. Here, we synthesize records of the global stratigraphy across this boundary to assess the proposed causes of the mass extinction. Notably, a single ejecta-rich deposit compositionally linked to the Chicxulub impact is globally distributed at the Cretaceous-Paleogene boundary. The temporal match between the ejecta layer and the onset of the extinctions and the agreement of ecological patterns in the fossil record with modeled environmental perturbations (for example, darkness and cooling) lead us to conclude that the Chicxulub impact triggered the mass extinction. [ABSTRACT FROM AUTHOR]

Published

2010

46. Nannoplankton Extinction and Origination Across the Paleocene-Eocene Thermal Maximum.

Author

Gibbs, Samantha J., Bown, Paul R., Sessa, Jocelyn A., Bralower, Timothy J., and Wilson, Paul A.

Subjects

*PHYTOPLANKTON, *CALCIFICATION, *GLOBAL warming, *AQUATIC biodiversity, *BIODIVERSITY, *GLOBAL temperature changes, *PLANKTON, *PLANTS, *GLOBAL environmental change

Abstract

The Paleocene-Eocene Thermal Maximum (PETM, ∼55 million years ago) was an interval of global warming and ocean acidification attributed to rapid release and oxidation of buried carbon. We show that the onset of the PETM coincided with a prominent increase in the origination and extinction of calcareous phytoplankton. Yet major perturbation of the surface-water saturation state across the PETM was not detrimental to the survival of most calcareous nannoplankton taxa and did not impart a calcification or ecological bias to the pattern of evolutionary turnover. Instead, the rate of environmental change appears to have driven turnover, preferentially affecting rare taxa living close to their viable limits. [ABSTRACT FROM AUTHOR]

Published

2006

47. A Transient Rise in Tropical Sea Surface Temperature Duringthe Paleocene-Eocene Thermal Maximum.

Author

Zachos, James C., Wara, Michael W., Bohaty, Steven, Delaney, Margaret L., Petrizzo, Maria Rose, Brill, Amanda, Bralower, Timothy J., and Premoli-Silva, Isabella

Subjects

*PROXY statements, *GREENHOUSE effect, *FORAMINIFERA, *PALEOCENE stratigraphic geology, *OXYGEN

Abstract

The Paleocene-Eocene Thermal Maximum (PETM) has been attributed to a rapid rise in greenhouse gas levels. If so, warming should have occurred at all latitudes, although amplified toward the poles. Existing records reveal an increase in high-latitude sea surface temperatures (SSTs) (8° to 10°C) and in bottom water temperatures (4° to 5°C). To date, however, the character of the tropical SST response during this event remains unconstrained. Here we address this deficiency by using paired oxygen isotope and minor element (magnesium/calcium) ratios of planktonic foraminifera from a tropical Pacific core to estimate changes in SST. Using mixed-layer foraminifera, we found that the combined proxies imply a 4° to 5°C rise in Pacific SST during the PETM. These results would necessitate a rise in atmospheric pCO[sub2] to levels three to four times as high as those estimated for the late Paleocene. [ABSTRACT FROM AUTHOR]

Published

2003

48. Winding down the Chicxulub impact: The transition between impact and normal marine sedimentation near ground zero.

Author

Whalen, Michael T., Gulick, Sean P.S., Lowery, Christopher M., Bralower, Timothy J., Morgan, Joanna V., Grice, Kliti, Schaefer, Bettina, Smit, Jan, Ormö, Jens, Wittmann, Axel, Kring, David A., Lyons, Shelby, and Goderis, Steven

Subjects

*SEDIMENTATION & deposition, *CRETACEOUS-Paleogene boundary, *WATER meters, *TRACE fossils, *CARBON isotopes, *LUNAR craters, *BRECCIA, *IMPACT craters

Abstract

The Chicxulub impact led to the formation of a ~ 200-km wide by ~1-km deep crater on México's Yucatán Peninsula. Over a period of hours after the impact the ocean re-entered and covered the impact basin beneath several hundred meters of water. A suite of impactites were deposited across the crater during crater formation, and by the resurge, tsunami and seiche events that followed. International Ocean Discovery Program/International Continental Scientific Drilling Program Expedition 364 drilled into the peak ring of the Chicxulub crater, and recovered ~130 m of impact deposits and a 75-cm thick, fine-grained, carbonate-rich "Transitional Unit", above which normal marine sedimentation resumed. Here, we describe the results of analyses of the uppermost impact breccia (suevite) and the Transitional Unit, which suggests a gradual waning of energy recorded by this local K-Pg boundary sequence. The dominant depositional motif in the upper suevite and the Transitional Unit is of rapid sedimentation characterized by graded bedding, local cross bedding, and evidence of oscillatory currents. The lower Transitional Unit records the change from deposition of dominantly sand-sized to mainly silt to clay sized material with impact debris that decreases in both grain size and abundance upward. The middle part of the Transitional Unit is interrupted by a 20 cm thick soft sediment slump overlain by graded and oscillatory current cross-laminated beds. The uppermost Transitional Unit is also soft sediment deformed, contains trace fossils, and an increasing abundance of planktic foraminifer and calcareous nannoplankton survivors. The Transitional Unit, as with similar deposits in other marine target impact craters, records the final phases of impact-related sedimentation prior to resumption of normal marine conditions. Petrographic and stable isotopic analyses of carbon from organic matter provide insight into post-impact processes. δ13C org values are between terrestrial and marine end members with fluctuations of 1–3‰. Timing of deposition of the Transitional Unit is complicated to ascertain. The repetitive normally graded laminae, both below and above the soft sediment deformed interval, record rapid deposition from currents driven by tsunami and seiches, processes that likely operated for weeks to potentially years post-impact due to subsequent continental margin collapse events. Highly siderophile element-enrichment at the top of the unit is likely from fine-grained ejecta that circulated in the atmosphere for several years prior to settling. The Transitional Unit is thus an exquisite record of the final phases of impact-related sedimentation related to one of the most consequential events in Earth history. [ABSTRACT FROM AUTHOR]

Published

2020

49. Neritic ecosystem response to Oceanic Anoxic Event 2 in the Cretaceous Western Interior Seaway, USA.

Author

Boudinot, F. Garrett, Dildar, Nadia, Leckie, R. Mark, Parker, Amanda, Jones, Matthew M., Sageman, Bradley B., Bralower, Timothy J., and Sepúlveda, Julio

Subjects

*EUPHOTIC zone, *MARINE productivity, *BLACK shales, *ANOXIC waters, *MARINE ecology, *ALGAL communities

Abstract

Cretaceous oceanic anoxic events (OAEs) were periods of geologically short (<1 million years) global change characterized by elevated temperatures, changes in ocean biogeochemistry, ecological turnover, and the global-scale deposition of black shales. After decades of OAE research, the intensity and spatiotemporal heterogeneity of ocean anoxia and its direct effects on marine ecology remain areas of active study. We present high-resolution organic geochemical and foraminiferal records from the western margin of the Western Interior Seaway (WIS) during the Cenomanian-Turonian Oceanic Anoxic Event 2 (OAE2, ~94 Ma) that indicate reorganization of a neritic ecosystem in response to sea-level rise, and dynamic changes in redox conditions that were likely driven by enhanced marine productivity. A significant transgression prior to OAE2 decreased terrestrial organic matter input and led to enhanced productivity, anoxic bottom waters and sediments, and episodic photic zone euxinia. During the middle of OAE2, further enhanced productivity led to the " Heterohelix shift" in planktic foraminifera, the " Gavelinella acme" in benthic foraminifera, and deoxygenation in sediments, bottom waters, and the upper water column. The combined use of high-temporal resolution algal, bacterial, and terrestrial biomarkers, in addition to foraminiferal records, demonstrates the sensitivity of marine autotrophic and heterotrophic communities to sea-level rise and variable water column oxygenation in marginal marine settings during hyperthermal events. Furthermore, our results reveal the temporal and spatial heterogeneity of anoxia during OAE2 in the WIS. This study highlights widespread shallow marine feedbacks during global change that may affect neritic ecosystems under future warming scenarios. • Marine productivity and anoxia/euxinia was enhanced by transgressions. • Algal, bacterial, and foraminiferal assemblages changed with anoxia/euxinia. • First direct comparison of foraminiferal and biomarker records during OAE2 in WIS. [ABSTRACT FROM AUTHOR]

Published

2020

50. Cretaceous Extinctions: Evidence Overlooked.

Author

SCHULTE, PETER, ALEGRET, LAIA, ARENILLAS, IGNACIO, ARZ, JOSÉ A., BARTON, PENNY J., BOWN, PAUL R., BRALOWER, TIMOTHY J., CHRISTESON, GAIL L., CLAEYS, PHILIPPE, COCKELL, CHARLES S., COLLINS, GARETH S., DEUTSCH, ALEXANDER, GOLDIN, TAMARA J., GOTO, KAZUHISA, GRAJALES-NISHIMURA, JOSÉ M., GRIEVE, RICHARD A. F., GULICK, SEAN P. S., JOHNSON, KIRK R., KIESSLING, WOLFGANG, and KOEBERL, CHRISTIAN

Subjects

*LETTERS to the editor, *EVOLUTION research

Abstract

A response by authors P. Schulte et al. to letters to the editor about their article “The Chicxulub Asteroid Impact and Mass Extinction at the Cretaceous-Paleogene Boundary,” in the March 5, 2010 issue is presented.

Published

2010