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1,263 results on '"Sedimentology"'

1. Laboratory Observation of the Buffering Effect of Aragonite Dissolution at the Seafloor

Author

IVAU: Instituut voor Aardwetenschappen Utrecht, Geochemistry, Leerstoel Leseman, Sedimentology, GeoLab Algemeen, van de Mortel, H., Delaigue, L., Humphreys, M.P., Middelburg, J.J., Ossebaar, S., Bakker, K., Trabucho Alexandre, J.P., van Leeuwen ‐ Tolboom, A.W.E., Wolthers, M., Sulpis, O., IVAU: Instituut voor Aardwetenschappen Utrecht, Geochemistry, Leerstoel Leseman, Sedimentology, GeoLab Algemeen, van de Mortel, H., Delaigue, L., Humphreys, M.P., Middelburg, J.J., Ossebaar, S., Bakker, K., Trabucho Alexandre, J.P., van Leeuwen ‐ Tolboom, A.W.E., Wolthers, M., and Sulpis, O.

Published
2024

3. The glass ramp of Wrangellia: Late Triassic to Early Jurassic outer ramp environments of the McCarthy Formation, Alaska, U.S.A

Author

Veenma, Yorick P., McCabe, Kayla, Caruthers, Andrew H., Aberhan, Martin, Golding, Martyn, Marroquín, Selva M., Owens, Jeremy D., Them, Theodore R., Gill, Benjamin C., Trabucho Alexandre, João P., Sedimentology, and Sedimentology

Subjects
Geology
Abstract

The marine record of the Triassic–Jurassic boundary interval has been studied extensively in shallow-marine successions deposited along the margins of Pangea, particularly its Tethyan margins. Several of these successions show a facies change from carbonate-rich to carbonate-poor strata attributed to the consequences of igneous activity in the Central Atlantic Magmatic Province (CAMP), which included a biocalcification crisis and the end-Triassic mass extinction. Evidence for a decline in calcareous and an increase in biosiliceous sedimentation across the Triassic–Jurassic boundary interval is currently limited to the continental margins of Pangea with no data from the open Panthalassan Ocean, the largest ocean basin. Here, we present a facies analysis of the McCarthy Formation (Grotto Creek, southcentral Alaska), which represents Norian to Hettangian deepwater sedimentation on Wrangellia, then an isolated oceanic plateau in the tropical eastern Panthalassan Ocean. The facies associations defined in this study represent changes in the composition and rate of biogenic sediment shedding from shallow water to the outer ramp. The uppermost Norian to lowermost Hettangian represent an ∼ 8.9-Myr-long interval of sediment starvation dominated by pelagic sedimentation. Sedimentation rates during the Rhaetian were anomalously low compared to sedimentation rates in a similar lowermost Hettangian facies. Thus, we infer the likelihood of several short hiatuses in the Rhaetian, a result of reduced input of biogenic sediment. In the Hettangian, the boundary between the lower and upper members of the McCarthy Formation represents a change in the composition of shallow-water skeletal grains shed to the outer ramp from calcareous to biosiliceous. This change also coincides with an order-of-magnitude increase in sedimentation rates and represents the transition from a siliceous carbonate-ramp to a glass ramp ∼ 400 kyr after the Triassic–Jurassic boundary. Sets of large-scale low-angle cross-stratification in the Hettangian are interpreted as a bottom current–induced sediment drift (contouritic sedimentation). The biosiliceous composition of densites (turbidites) and contourites in the Hettangian upper member reflects the Early Jurassic dominance of siliceous sponges over Late Triassic shallow-water carbonate environments. This dominance was brought about by the end-Triassic mass extinction and the collapse of the carbonate factory, as well as increased silica flux to the ocean as a response to the weathering of CAMP basalts. The presence of a glass ramp on Wrangellia supports the hypothesis that global increases in oceanic silica concentrations promoted widespread biosiliceous sedimentation on ramps across the Triassic to Jurassic transition.

Published
2022

4. Microbial biosignatures in ancient deep‐sea hydrothermal sulfides

Author

Runge, Eric Alexander, Mansor, Muammar, Kappler, Andreas, Duda, Jan‐Peter, 2 Geomicrobiology, Department of Geosciences Tübingen University Tübingen Germany, and 1 Sedimentology and Organic Geochemistry, Department of Geosciences Tübingen University Tübingen Germany

Subjects
early Earth, hydrothermal vents, astrobiology, VMS, early life, General Earth and Planetary Sciences, ddc:560, SEDEX, black smoker, origin of life, Ecology, Evolution, Behavior and Systematics, General Environmental Science
Abstract

Deep‐sea hydrothermal systems provide ideal conditions for prebiotic reactions and ancient metabolic pathways and, therefore, might have played a pivotal role in the emergence of life. To understand this role better, it is paramount to examine fundamental interactions between hydrothermal processes, non‐living matter, and microbial life in deep time. However, the distribution and diversity of microbial communities in ancient deep‐sea hydrothermal systems are still poorly constrained, so evolutionary, and ecological relationships remain unclear. One important reason is an insufficient understanding of the formation of diagnostic microbial biosignatures in such settings and their preservation through geological time. This contribution centers around microbial biosignatures in Precambrian deep‐sea hydrothermal sulfide deposits. Intending to provide a valuable resource for scientists from across the natural sciences whose research is concerned with the origins of life, we first introduce different types of biosignatures that can be preserved over geological timescales (rock fabrics and textures, microfossils, mineral precipitates, carbonaceous matter, trace metal, and isotope geochemical signatures). We then review selected reports of biosignatures from Precambrian deep‐sea hydrothermal sulfide deposits and discuss their geobiological significance. Our survey highlights that Precambrian hydrothermal sulfide deposits potentially encode valuable information on environmental conditions, the presence and nature of microbial life, and the complex interactions between fluids, micro‐organisms, and minerals. It further emphasizes that the geobiological interpretation of these records is challenging and requires the concerted application of analytical and experimental methods from various fields, including geology, mineralogy, geochemistry, and microbiology. Well‐orchestrated multidisciplinary studies allow us to understand the formation and preservation of microbial biosignatures in deep‐sea hydrothermal sulfide systems and thus help unravel the fundamental geobiology of ancient settings. This, in turn, is critical for reconstructing life's emergence and early evolution on Earth and the search for life elsewhere in the universe., Bundesministerium für Bildung, Wissenschaft und Forschung http://dx.doi.org/10.13039/501100013699, Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659, Ministerium für Wissenschaft, Forschung und Kunst Baden‐Württemberg

Published
2022

6. The submarine Congo Canyon as a conduit for microplastics to the deep sea

Author

ESL General Section, Sedimentology, Pohl, Florian, Hildebrandt, Lars, O'Dell, Joey, Talling, Peter J., Baker, Megan L., El-Gareb, Fadi, La Nasa, Jacopo, De Falco, Francesca, Mattonai, Marco, Ruffell, Sean, Eggenhuisen, Joris, Modungo, Francesca, Pröfrock, Daniel, Pope, Ed, Silva Jacinto, Ricardo, Heijnen, Maarten, Hage, Sophie, Simmons, Stephen M., Hasenhündl, Martin, Heerema, Catharina J., ESL General Section, Sedimentology, Pohl, Florian, Hildebrandt, Lars, O'Dell, Joey, Talling, Peter J., Baker, Megan L., El-Gareb, Fadi, La Nasa, Jacopo, De Falco, Francesca, Mattonai, Marco, Ruffell, Sean, Eggenhuisen, Joris, Modungo, Francesca, Pröfrock, Daniel, Pope, Ed, Silva Jacinto, Ricardo, Heijnen, Maarten, Hage, Sophie, Simmons, Stephen M., Hasenhündl, Martin, and Heerema, Catharina J.

Published
2023

7. Controls on upstream-migrating bed forms in sandy submarine channels

Author

Sedimentology, Englert, Rebecca G., Vellinga, Age J., Cartigny, Matthieu J.B., Clare, Michael A., Eggenhuisen, Joris T., Hubbard, Stephen M., Sedimentology, Englert, Rebecca G., Vellinga, Age J., Cartigny, Matthieu J.B., Clare, Michael A., Eggenhuisen, Joris T., and Hubbard, Stephen M.

Published
2023

10. Multiscale characterization of an extensive stromatolites field: a new correlation horizon for the Crato Member, Araripe Basin, Brazil

Author

Sedimentology, Silveira, Luís Fernando, Borghi, Leonardo, Bobco, Fabia E.R., Araújo, Bruno Cesar, Kroth, Mateus, Duarte, Guilherme, Ferreira, Laís de Oliveira, Mendonça, Joalice de Oliveira, Sedimentology, Silveira, Luís Fernando, Borghi, Leonardo, Bobco, Fabia E.R., Araújo, Bruno Cesar, Kroth, Mateus, Duarte, Guilherme, Ferreira, Laís de Oliveira, and Mendonça, Joalice de Oliveira

Published
2023

11. The effect of sea‐level rise on estuary filling in scaled landscape experiments

Author

Sedimentology, Biogeomorphology of Rivers and Estuaries, Coastal dynamics, Fluvial systems and Global change, Weisscher, Steven A. H., Adema, Pelle H., Rossius, Jan‐Eike, Kleinhans, Maarten G., Sedimentology, Biogeomorphology of Rivers and Estuaries, Coastal dynamics, Fluvial systems and Global change, Weisscher, Steven A. H., Adema, Pelle H., Rossius, Jan‐Eike, and Kleinhans, Maarten G.

Published
2023

13. Transport and accumulation of litter in submarine canyons: a geoscience perspective

Author

Sedimentology, Pierdomenico, Martina, Bernhardt, Anne, Eggenhuisen, Joris T., Clare, Michael A., Lo Iacono, Claudio, Casalbore, Daniele, Davies, Jaime S., Kane, Ian, Huvenne, Veerle A.I., Harris, Peter T., Sedimentology, Pierdomenico, Martina, Bernhardt, Anne, Eggenhuisen, Joris T., Clare, Michael A., Lo Iacono, Claudio, Casalbore, Daniele, Davies, Jaime S., Kane, Ian, Huvenne, Veerle A.I., and Harris, Peter T.

Published
2023

14. Alternations of open and closed lakes in the Lower Aptian Codó Formation (Parnaíba Basin, Brazil)

Author

Sedimentology, Bobco, Fabia E.R., Trombetta, Mariane C., Ferreira, Laís de O., Silveira, Luís Fernando, Kroth, Mateus, Mendonça, Joalice de Oliveira, Mendonça Filho, João Graciano, Sedorko, Daniel, Araújo, Bruno Cesar, Borghi, Leonardo, Sedimentology, Bobco, Fabia E.R., Trombetta, Mariane C., Ferreira, Laís de O., Silveira, Luís Fernando, Kroth, Mateus, Mendonça, Joalice de Oliveira, Mendonça Filho, João Graciano, Sedorko, Daniel, Araújo, Bruno Cesar, and Borghi, Leonardo

Published
2023

16. A new subsurface record of the Pliensbachian-Toarcian, Lower Jurassic, of Yorkshire

Author

Trabucho-Alexandre, João P., Gröcke, Darren R., Atar, Elizabeth, Herringshaw, Liam, Jarvis, Ian, Sedimentology, and Sedimentology

Subjects
Geology, earth
Abstract

Here, we describe the upper Pliensbachian to middle Toarcian stratigraphy of the Dove's Nest borehole, which was drilled near Whitby, North Yorkshire, in 2013. The core represents a single, continuous vertical section through unweathered, immature Lower Jurassic sedimentary rocks. The thickness of the Lias Group formations in the Dove's Nest core is approximately the same as that exposed along the North Yorkshire coast between Hawsker Bottoms and Whitby. The studied succession consists of epeiric-neritic sediments and comprises cross-laminated very fine sandstones, (oolitic) ironstones, and argillaceous mudstones. Dark argillaceous mudstone is the dominant lithology. These sediments were deposited in the Cleveland Basin, a more subsident area of an epeiric sea, the Laurasian Sea. We present a set of geochemical data that includes organic carbon isotope ratios ( δ 13 C org ) and total organic carbon (TOC). The δ 13 C org record contains a negative excursion across the Pliensbachian–Toarcian boundary and another in the lower Toarcian that corresponds to the Toarcian Oceanic Anoxic Event (T-OAE). Below the T-OAE negative excursion, δ 13 C org values are less 13 C-depleted than above it. We find no evidence of a long-term δ 13 C org positive excursion. TOC values below the T-OAE negative excursion are lower than above it. Sedimentary evidence suggests that, during much of the Pliensbachian–Toarcian interval, the seafloor of the Cleveland Basin was above storm wave-base and that storm-driven bottom currents were responsible for much sediment erosion, transport, and redeposition during the interval of oceanic anoxia. The abrupt shifts observed in the δ 13 C org record (lower Toarcian) are likely to reflect the impact of erosion by storms on the morphology of the δ 13 C record of the T-OAE. Supplementary material: stratigraphic and geochemical data [organic carbon isotope ratios ( δ 13 C org ) and total organic carbon (TOC)] are available at https://doi.org/10.6084/m9.figshare.c.6154436

Published
2022

17. First source-to-sink monitoring shows dense head controls sediment flux and runout in turbidity currents

Author

Pope, Ed L., Cartigny, Matthieu J.B., Clare, Michael A., Talling, Peter J., Lintern, D. Gwyn, Vellinga, Age, Hage, Sophie, Açikalin, Sanem, Bailey, Lewis, Chapplow, Natasha, Chen, Ye, Eggenhuisen, Joris T., Hendry, Alison, Heerema, Catharina J., Heijnen, Maarten S., Hubbard, Stephen M., Hunt, James E., McGhee, Claire, Parsons, Daniel R., Simmons, Stephen M., Stacey, Cooper D., Vendettuoli, Daniela, Sedimentology, and Sedimentology

Subjects
Multidisciplinary, General
Abstract

Until recently, despite being one of the most important sediment transport phenomena on Earth, few direct measurements of turbidity currents existed. Consequently, their structure and evolution were poorly understood, particularly whether they are dense or dilute. Here, we analyze the largest number of turbidity currents monitored to date from source to sink. We show sediment transport and internal flow characteristic evolution as they runout. Observed frontal regions (heads) are fast (>1.5 m/s), thin (vol ), strongly stratified, and dominated by grain-to-grain interactions, or slower (vol ), and well mixed with turbulence supporting sediment. Between these end-members, a transitional flow head exists. Flow bodies are typically thick, slow, dilute, and well mixed. Flows with dense heads stretch and bulk up with dense heads transporting up to 1000 times more sediment than the dilute body. Dense heads can therefore control turbidity current sediment transport and runout into the deep sea.

Published
2022
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18. Restoration experiments in polymetallic nodule areas

Author

Gollner, Sabine, Haeckel, Matthias, Janssen, Felix, Lefaible, Nene, Molari, Massimiliano, Papadopoulou, Stavroula, Reichart, Gert Jan, Trabucho Alexandre, João, Vink, Annemiek, Vanreusel, Ann, Stratigraphy and paleontology, Sedimentology, Stratigraphy & paleontology, Stratigraphy and paleontology, Sedimentology, and Stratigraphy & paleontology

Subjects
0106 biological sciences, Nodule (geology), Mitigation, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, engineering.material, 01 natural sciences, Artificial nodules, Mining, Environmental Science(all), Ecosystem, 14. Life underwater, 0105 earth and related environmental sciences, General Environmental Science, Planning and Development, Hydrology, Minerals, Geography, 010604 marine biology & hydrobiology, Biogeochemistry, Sediment, Biota, Biodiversity, General Medicine, 15. Life on land, Deep sea, Habitat destruction, Habitat, Metals, 13. Climate action, Benthic zone, engineering
Abstract

Deep-seabed polymetallic nodule mining can have multiple adverse effects on benthic communities, such as permanent loss of habitat by removal of nodules and habitat modification of sediments. One tool to manage biodiversity risks is the mitigation hierarchy, including avoidance, minimization of impacts, rehabilitation and/or restoration, and offset. We initiated long-term restoration experiments at sites in polymetallic nodule exploration contract areas in the Clarion-Clipperton Zone that were (i) cleared of nodules by a preprototype mining vehicle, (ii) disturbed by dredge or sledge, (iii) undisturbed, and (iv) naturally devoid of nodules. To accommodate for habitat loss, we deployed >2000 artificial ceramic nodules to study the possible effect of substrate provision on the recovery of biota and its impact on sediment biogeochemistry. Seventy-five nodules were recovered after eight weeks and had not been colonized by any sessile epifauna. All other nodules will remain on the seafloor for several years before recovery. Furthermore, to account for habitat modification of the top sediment layer, sediment in an epibenthic sledge track was loosened by a metal rake to test the feasibility of sediment decompaction to facilitate soft-sediment recovery. Analyses of granulometry and nutrients one month after sediment decompaction revealed that sand fractions are proportionally lower within the decompacted samples, whereas total organic carbon values are higher. Considering the slow natural recovery rates of deep-sea communities, these experiments represent the beginning of a ~30-year study during which we expect to gain insights into the nature and timing of the development of hard-substrate communities and the influence of nodules on the recovery of disturbed sediment communities. Results will help us understand adverse long-term effects of nodule removal, providing an evidence base for setting criteria for the definition of "serious harm" to the environment. Furthermore, accompanying research is needed to define a robust ecosystem baseline in order to effectively identify restoration success. Integr Environ Assess Manag 2021;00:1-15. © 2021 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC).

Published
2022

19. Froude supercritical flow processes and sedimentary structures: New insights from experiments with a wide range of grain sizes

Author

Ono, Kenya, Plink-Björklund, Piret, Eggenhuisen, Joris T., Cartigny, Matthieu J.B., Sedimentology, and Sedimentology

Subjects
010506 paleontology, Bedform, sedimentary structure hierarchy, Stratigraphy, upward fining stratigraphy, Geology, Silt, 010502 geochemistry & geophysics, Supercritical flow, 01 natural sciences, Sedimentary structures, Cyclic steps, foreset and backset, Froude supercritical flow deposits, symbols.namesake, gravel lenses, Froude number, symbols, Sedimentary rock, Petrology, Hydraulic jump, scour and fill, Seabed, 0105 earth and related environmental sciences
Abstract

Recognition of Froude supercritical flow deposits in environments that range from rivers to the ocean floor has triggered a surge of interest in their flow processes, bedforms and sedimentary structures. Interpreting these supercritical flow deposits is especially important because they often represent the most powerful flows in the geological record. Insights from experiments are key to reconstruct palaeo-flow processes from the sedimentary record. So far, all experimentally produced supercritical flow deposits are of a narrow grain-size range (fine to medium sand), while deposits in the rock record often consist of a much wider grain-size distribution. This paper presents results of supercritical-flow experiments with a grain-size distribution from clay to gravel. These experiments show that cyclic step instabilities can produce more complex and a larger variety of sedimentary structures than the previously suggested backsets and ‘scour and fill’ structures. The sedimentary structures are composed of irregular lenses, mounds and wedges with backsets and foresets, as well as undulating planar to low-angle upstream and downstream dipping laminae. The experiments also demonstrate that the Froude number is not the only control on the sedimentary structures formed by supercritical-flow processes. Additional controls include the size and migration rate of the hydraulic jump and the substrate cohesion. This study further demonstrates that Froude supercritical flow promotes suspension transport of all grain sizes, including gravels. Surprisingly, it was observed that all grain sizes were rapidly deposited just downstream of hydraulic jumps, including silt and clay. These results expand the range of dynamic mud deposition into supercritical-flow conditions, where local transient shear stress reduction rather than overall flow waning conditions allow for deposition of fines. Comparison of the experimental deposits with outcrop datasets composed of conglomerates to mudstones, shows significant similarities and highlights the role of hydraulic jumps, rather than overall flow condition changes, in producing lithologically and geometrically complex stratigraphy.

Published
2021

20. New evidence for a long Rhaetian from a Panthalassan succession (Wrangell Mountains, Alaska) and regional differences in carbon cycle perturbations at the Triassic-Jurassic transition

Author

Sedimentology, Caruthers, Andrew H., Marroquín, Selva M., Gröcke, D.R., Golding, M.L., Aberhan, Martin, Them II, Theodore R., Veenma, Yorick, Owens, J.D., McRoberts, C. A., Friedman, R. M., Trop, J. M., Szűcs, D., Pálfy, J., Rioux, M., Trabucho-Alexandre, João, Gill, Benjamin C., Sedimentology, Caruthers, Andrew H., Marroquín, Selva M., Gröcke, D.R., Golding, M.L., Aberhan, Martin, Them II, Theodore R., Veenma, Yorick, Owens, J.D., McRoberts, C. A., Friedman, R. M., Trop, J. M., Szűcs, D., Pálfy, J., Rioux, M., Trabucho-Alexandre, João, and Gill, Benjamin C.

Published
2022

21. Restoration experiments in polymetallic nodule areas

Author

Stratigraphy and paleontology, Sedimentology, Stratigraphy & paleontology, Gollner, Sabine, Haeckel, Matthias, Janssen, Felix, Lefaible, Nene, Molari, Massimiliano, Papadopoulou, Stavroula, Reichart, Gert Jan, Trabucho Alexandre, João, Vink, Annemiek, Vanreusel, Ann, Stratigraphy and paleontology, Sedimentology, Stratigraphy & paleontology, Gollner, Sabine, Haeckel, Matthias, Janssen, Felix, Lefaible, Nene, Molari, Massimiliano, Papadopoulou, Stavroula, Reichart, Gert Jan, Trabucho Alexandre, João, Vink, Annemiek, and Vanreusel, Ann

Published
2022

22. Paleogeography of the West Burma Block and the eastern Neotethys Ocean: Constraints from Cenozoic sediments shed onto the Andaman-Nicobar ophiolites

Author

Mantle dynamics & theoretical geophysics, Sedimentology, Bandopadhyay, Pinaki C., van Hinsbergen, Douwe J.J., Bandyopadhyay, Debaditya, Licht, Alexis, Advokaat, Eldert L., Plunder, Alexis, Ghosh, Biswajit, Dasgupta, Arnab, Trabucho-Alexandre, João P., Mantle dynamics & theoretical geophysics, Sedimentology, Bandopadhyay, Pinaki C., van Hinsbergen, Douwe J.J., Bandyopadhyay, Debaditya, Licht, Alexis, Advokaat, Eldert L., Plunder, Alexis, Ghosh, Biswajit, Dasgupta, Arnab, and Trabucho-Alexandre, João P.

Published
2022

23. First source-to-sink monitoring shows dense head controls sediment flux and runout in turbidity currents

Author

Sedimentology, Pope, Ed L., Cartigny, Matthieu J.B., Clare, Michael A., Talling, Peter J., Lintern, D. Gwyn, Vellinga, Age, Hage, Sophie, Açikalin, Sanem, Bailey, Lewis, Chapplow, Natasha, Chen, Ye, Eggenhuisen, Joris T., Hendry, Alison, Heerema, Catharina J., Heijnen, Maarten S., Hubbard, Stephen M., Hunt, James E., McGhee, Claire, Parsons, Daniel R., Simmons, Stephen M., Stacey, Cooper D., Vendettuoli, Daniela, Sedimentology, Pope, Ed L., Cartigny, Matthieu J.B., Clare, Michael A., Talling, Peter J., Lintern, D. Gwyn, Vellinga, Age, Hage, Sophie, Açikalin, Sanem, Bailey, Lewis, Chapplow, Natasha, Chen, Ye, Eggenhuisen, Joris T., Hendry, Alison, Heerema, Catharina J., Heijnen, Maarten S., Hubbard, Stephen M., Hunt, James E., McGhee, Claire, Parsons, Daniel R., Simmons, Stephen M., Stacey, Cooper D., and Vendettuoli, Daniela

Published
2022

24. Fill, flush or shuffle: How is sediment carried through submarine channels to build lobes?

Author

Sedimentology, Heijnen, Maarten S., Clare, Michael A., Cartigny, Matthieu J.B., Talling, Peter J., Hage, Sophie, Pope, Ed L., Bailey, Lewis, Sumner, Esther, Gwyn Lintern, D., Stacey, Cooper, Parsons, Daniel R., Simmons, Stephen M., Chen, Ye, Hubbard, Stephen M., Eggenhuisen, Joris T., Kane, Ian, Hughes Clarke, John E., Sedimentology, Heijnen, Maarten S., Clare, Michael A., Cartigny, Matthieu J.B., Talling, Peter J., Hage, Sophie, Pope, Ed L., Bailey, Lewis, Sumner, Esther, Gwyn Lintern, D., Stacey, Cooper, Parsons, Daniel R., Simmons, Stephen M., Chen, Ye, Hubbard, Stephen M., Eggenhuisen, Joris T., Kane, Ian, and Hughes Clarke, John E.

Published
2022

27. The Sediment Budget Estimator (SBE): A process model for the stochastic estimation of fluxes and budgets of sediment through submarine channel systems

Author

Sedimentology, Eggenhuisen, Joris T., Tilston, Mike C., Stevenson, Christopher J., Hubbard, Stephen M., Cartigny, Matthieu J.B., Heijnen, Maarten S., de Leeuw, Jan, Pohl, Florian, Spychala, Yvonne T., Sedimentology, Eggenhuisen, Joris T., Tilston, Mike C., Stevenson, Christopher J., Hubbard, Stephen M., Cartigny, Matthieu J.B., Heijnen, Maarten S., de Leeuw, Jan, Pohl, Florian, and Spychala, Yvonne T.

Published
2022

29. The glass ramp of Wrangellia: Late Triassic to Early Jurassic outer ramp environments of the McCarthy Formation, Alaska, U.S.A.

Author

Sedimentology, Veenma, Yorick P., McCabe, Kayla, Caruthers, Andrew H., Aberhan, Martin, Golding, Martyn, Marroquín, Selva M., Owens, Jeremy D., Them, Theodore R., Gill, Benjamin C., Trabucho Alexandre, João P., Sedimentology, Veenma, Yorick P., McCabe, Kayla, Caruthers, Andrew H., Aberhan, Martin, Golding, Martyn, Marroquín, Selva M., Owens, Jeremy D., Them, Theodore R., Gill, Benjamin C., and Trabucho Alexandre, João P.

Published
2022

30. Blood, lead and spheres: A hindered settling equation for sedimentologists based on metadata analysis

Author

Baas, Jaco H., Baker, Megan L., Buffon, Patricia, Strachan, Lorna J., Bostock, Helen C, Hodgson, David, Eggenhuisen, Joris T., Spychala, Yvonne T., Sedimentology, and Sedimentology

Subjects
metadata analysis, hindered settling, Stratigraphy, Palaeontology, Paleontology, Geology, Environmental Science (miscellaneous), Oceanography, particle fall velocity
Abstract

A revision of the popular equation of Richardson and Zaki (1954a, Transactions of the Institute of Chemical Engineering, 32, 35–53) for the hindered settling of suspensions of non-cohesive particles in fluids is proposed, based on 548 data sets from a broad range of scientific disciplines. The new hindered settling equation enables predictions of settling velocity for a wide range of particle sizes and densities, and liquid densities and viscosities, but with a focus on sediment particles in water. The analysis of the relationship between hindered settling velocity and particle size presented here shows that the hindered settling effect increases as the particle size decreases, for example, a 50% reduction in settling velocity is reached for 0.025 mm silt and 4 mm pebbles at particle concentrations of 13% and 25% respectively. Moreover, hindered settling starts to influence the settling behaviour of sediment particles at volumetric concentrations of merely a few per cent. For example, the particle settling velocity in flows that carry 5% silt is reduced by at least 22%. These observations suggest that hindered settling greatly increases the efficiency of natural flows to transport sediment particles, but also particulate carbon and pollutants, such as plastics, over large distances.

Published
2022

31. Proximal to distal grain-size distribution of basin-floor lobes: A study from the Battfjellet Formation, Central Tertiary Basin, Svalbard

Author

Spychala, Yvonne T., Ramaaker, Thymen A.B., Eggenhuisen, Joris T., Grundvåg, Sten Andreas, Pohl, Florian, Wróblewska, Sara, Sedimentology, and Sedimentology

Subjects
Turbidity current, Stratigraphy, Stratification (water), Environmental Science (miscellaneous), Structural basin, Oceanography, flow processes, Sedimentary depositional environment, Paleontology, VDP::Matematikk og Naturvitenskap: 400::Geofag: 450, medicine, grain-size counting, Palaeogeography, thin sections, VDP::Mathematics and natural science: 400::Geosciences: 450, Palaeontology, palaeo-reconstruction, Geology, Lobe, Turbidite, medicine.anatomical_structure, Sedimentary rock, turbidites
Abstract

The grain-size distribution of sediment particles is an important aspect of the architecture of submarine fans and lobes. It governs depositional sand quality and reflects distribution of particulate organic carbon and pollutants. Documenting the grain-size distribution of these deep-marine sedimentary bodies can also offer us an insight into the flows that deposited them. Submarine lobes are commonly assumed to linearly fine from an apex, meaning there should be a proportional relationship between grain size and distance from the lobe apex. However, not much detailed quantitative work has been done to test this hypothesis. Exposure of a 5 km long dip-section of basin-floor lobes in Clinoform 12, Battfjellet Formation, Spitsbergen, enable the study of basinward grain-size evolution in lobe deposits. Furthermore, the dataset allows testing if there are any documentable grain-size differences between lobe sub-environments. For this purpose, the palaeogeography of Clinoform 12 was reconstructed and the youngest lobe, which was exposed in all collected logs, chosen to be evaluated for its grain-size trends. Photographed thin sections of 66 rock samples were analysed to obtain quantitative grain-size distributions. The results show that fining of lobe deposits occurs predominantly in the most proximal and most distal parts of the lobe, while the intermediate lobe, which is dominated by lobe off-axis deposits, is characterised by a relatively consistent grain-size range. Lobe sub-environments show statistically distinct grain-size distributions from lobe axis to lobe fringe. An explanation for these trends is the interplay of capacity and competence-driven deposition with the grain-size stratification of the flows. The outcomes of this study help to better understand the proximal to distal evolution of turbidity currents and their depositional patterns. They also provide important insights in reservoir potential of basin-floor fans at lobe scale.

Published
2021
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32. The Influence of Confining Topography Orientation on Experimental Turbidity Currents and Geological Implications

Author

Soutter, Euan L., Bell, Daniel, Cumberpatch, Zoë A., Ferguson, Ross A., Spychala, Yvonne T., Kane, Ian A., Eggenhuisen, Joris T., Sedimentology, and Sedimentology

Subjects
confined basins, Turbidity current, 010504 meteorology & atmospheric sciences, experimental, Sediment, Earth and Planetary Sciences(all), 010502 geochemistry & geophysics, Supercritical flow, 01 natural sciences, Onlap, seafloor topography, Seafloor spreading, Tectonics, supercritical, Erosion, General Earth and Planetary Sciences, lcsh:Q, lcsh:Science, Geomorphology, Deposition (chemistry), turbidity current, physical models, Geology, 0105 earth and related environmental sciences
Abstract

Turbidity currents distribute sediment across the seafloor, forming important archives of tectonic and climatic change on the Earth’s surface. Turbidity current deposition is affected by seafloor topography, therefore understanding the interaction of turbidity currents with topography increases our ability to interpret tectonic and climatic change from the stratigraphic record. Here, using Shields-scaled physical models of turbidity currents, we aim to better constrain the effect of confining topography on turbidity current deposition and erosion. The subaqueous topography consists of an erodible barrier orientated 1) parallel, 2) oblique and 3) perpendicular to the incoming flow. An unconfined control run generated a supercritical turbidity current that decelerated across the slope, forming a lobate deposit that thickened basinwards before abruptly thinning. Flow-parallel confinement resulted in erosion of the barrier by the flow, enhanced axial velocities, and generated a deposit that extended farther into the basin than when unconfined. Oblique confinement caused partial deflection and acceleration of the flow along the barrier, which resulted in a deposit that bifurcated around the barrier. Forced deceleration at the barrier resulted in thickened deposition on the slope. Frontal confinement resulted in onlap and lateral spreading at the barrier, along with erosion of the barrier and down-dip overspill that formed a deposit deeper in the basin. Acceleration down the back of the barrier by this overspill resulted in the generation of a plunge-pool at the foot of the barrier as the flow impacted the slope substrate. Observations from ancient and modern turbidity current systems can be explained by our physical models, such as: the deposition of thick sandstones upstream of topography, the deposition of thin sandstones high on confining slopes, and the complex variety of stacking patterns produced by confinement. These models also highlight the impact of flow criticality on confined turbidity currents, with topographically-forced transitions between supercritical and subcritical flow conditions suggested to impact the depositional patterns of these flows.

Published
2021

33. Identifying eolian dust in the geological record

Author

Meijer, Niels, Dupont-Nivet, Guillaume, Licht, Alexis, Trabucho-Alexandre, João, Bourquin, Sylvie, Abels, Hemmo A., Sedimentology, Sedimentology, Universität Potsdam, Géosciences Rennes (GR), Centre National de la Recherche Scientifique (CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES), Key Laboratory of Orogenic Belts and Crustal Evolution - Ministry of Education, Peking University [Beijing], University of Washington [Seattle], Utrecht University [Utrecht], Delft University of Technology (TU Delft), MAGIC 649081, ERC, University of Potsdam = Universität Potsdam, Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR), and Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Provenance, 010504 meteorology & atmospheric sciences, Loessite, Geochemistry, Loess, Earth and Planetary Sciences(all), 15. Life on land, Mineral dust, 010502 geochemistry & geophysics, Geologic record, 01 natural sciences, 13. Climate action, [SDU.STU.ST]Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, General Earth and Planetary Sciences, Aeolian processes, Sedimentary rock, Alluvium, Quaternary, Geology, 0105 earth and related environmental sciences
Abstract

International audience; Recognition of terrestrial dust in geological records is essential for reconstructing paleoenvironments and quantifying dust fluxes in the past. However, in contrast to eolian sands, silt-sized dust is difficult to recognize in pre-Quaternary records due to a lack of macroscopic features indicating eolian transport and mixing with alluvial sediments. Windblown dust deposits are commonly identified by comparing their sedimentological and petrological features with Quaternary examples of dust known as loess. Here, we review the characteristics of terrestrial dust deposits and conclude that most of these features are not exclusively windblown and may be formed by alluvial deposits as well. We therefore synthesize a set of criteria which enable a reliable identification and quantification of dust while acknowledging potential contributions of alluvial components. These methods include quartz-grain surface morphology analysis to distinguish eolian and alluvial transport modes, provenance studies to identify local and extrabasinal sources, grain-size-shape end-member modelling to quantify the various sedimentary contributions to the record, and a basin-scale stratigraphic approach to derive regional patterns and avoid interpretation of local phenomena. We reassess the Eocene to Pliocene records of the Chinese Loess Plateau and conclude that these strata represent both alluvial and eolian sediments deposited in extensive mudflat systems. Quaternary loess, by contrast, is almost exclusively composed of windblown dust. The early Pleistocene shift from mudflat to loess deposits is associated with a significant increase in accumulation rates, likely due to increased dust production upwind, overwhelming and blanketing the local mudflat systems in central China.

Published
2020

34. The influence of basin setting and turbidity current properties on the dimensions of submarine lobe elements

Author

Spychala, Yvonne T., Eggenhuisen, Joris T., Tilston, Mike, Pohl, Florian, Sedimentology, and Sedimentology

Subjects
Dewey Decimal Classification::500 | Naturwissenschaften::550 | Geowissenschaften, Length scale, 010506 paleontology, Turbidity current, Stratigraphy, Silt, 010502 geochemistry & geophysics, 01 natural sciences, Deposition (geology), experimental study, Sedimentary depositional environment, morphology, ddc:550, Geomorphology, Advection length, turbidity current, Seabed, 0105 earth and related environmental sciences, General Environmental Science, geography, geography.geographical_feature_category, Continental shelf, Sediment, Geology, sand bias, General Earth and Planetary Sciences, dimensions
Abstract

Submarine lobes have been identified within various deep-water settings, including the basin-floor, the base of slope and the continental slope. Their dimensions and geometries are postulated to be controlled by the topographic configuration of the seabed, sediment supply system and slope gradient. Ten experiments were conducted in a three-dimensional-flume to study the depositional characteristics of submarine lobes associated with: (i) different basin floor gradients (0 to 4°); (ii) different sediment concentrations of the parent turbidity current (11 to 19% vol); and (iii) varying discharge (25 to 40 m3 h−1). Most runs produced lobate deposits that onlapped onto the lower slope. Deposit length was proportional to basin-floor angle and sediment volume concentration. A higher amount of bypass is observed in the proximal area as the basin-floor angles get steeper and sediment concentrations higher. Deposits of runs with lower discharge could be traced higher upslope while runs with higher discharge produced an area of low deposition behind the channel mouth, i.e. discharge controlled whether lobe deposits were attached or detached from their channel-levée systems. A particle-advection-length scale analysis suggests that this approach can be used as a first order estimation of lobe element length. However, the estimations strongly depend on the average grain size used for calculations (for example, silt is still actively transported after all sand has been deposited) and the method cannot be used to locate the main depocentre. Furthermore, attempted reconstructions of turbidity current velocities from natural systems suggest that the method is not appropriate for use in inversions from more complex composite bodies such as lobes.

Published
2020

35. Experimental distributive fluvial systems: Bridging the gap between river and rock record

Author

Terwisscha van Scheltinga, Renske C., McMahon, William J., van Dijk, Wout M., Eggenhuisen, Joris T., Kleinhans, Maarten G., Biogeomorphology of Rivers and Estuaries, Sedimentology, Coastal dynamics, Fluvial systems and Global change, Biogeomorphology of Rivers and Estuaries, Sedimentology, and Coastal dynamics, Fluvial systems and Global change

Subjects
floodplain, 010504 meteorology & atmospheric sciences, Floodplain, Stratigraphy, Fluvial system, morphodynamics, Environmental Science (miscellaneous), 010502 geochemistry & geophysics, Geologic record, channels, Oceanography, 01 natural sciences, Bridging (programming), Geomorphology, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Palaeontology, lcsh:QE1-996.5, Paleontology, facies criteria, Geology, 15. Life on land, lcsh:Geology, Distributive property, avulsion, stratigraphic record, Beach morphodynamics
Abstract

A debate has called into question as to which fluvial channel patterns are most widely represented in the stratigraphic record, with some advocating that distributive fluvial systems (DFS) predominate and others that a broad diversity of fluvial styles may become preserved. Critical to both sides is the adequate recognition of original channel planform from geological outcrops separated from their formative processes by millions or even billions of years. In this study the river and rock record are linked through experimentally created DFSs with both aggrading channel beds and floodplains. This approach allows depositing processes and deposited strata to be studied in tandem. Proximal areas comprise coarse, amalgamated channel‐fills with scarce fine‐grained floodplain material. The overall spread of sandbody dimensions become far more varied in medial stretches, with an overall reduction in mean width and depth. In these areas channel‐fills may be sand‐rich or mud‐rich and, following avulsion, all channels are covered by floodplain sediment. Channels, levees and splays form discrete depositional bodies each with varying aspect ratios; a novel breadth of deposits and morphologies in aggrading experiments largely concurrent with proposed trends indicative of DFSs. The proportion of floodplain material increases distally, resulting in decreased interconnectedness of distal channel‐fills. Muddy floodplain sediments significantly change DFSs behaviour and subsequent stratigraphic architecture by enhancing bank stability and reducing avulsion through the filling of floodbasins. The laboratory methods utilised here open up the possibility of controlled experimentation on the effects and mechanisms of DFSs sedimentation, which is important since the modelled stratigraphic trends are rarely so tractable in ancient geological outcrop belts.

Published
2020

36. Entangled external and internal controls on submarine fan evolution: an experimental perspective

Author

Ferguson, Ross A., Kane, Ian A., Eggenhuisen, Joris T., Pohl, Florian, Tilston, Mike, Spychala, Yvonne T., Brunt, Rufus L., Sedimentology, and Sedimentology

Subjects
Turbidity current, Outcrop, Palaeontology, Stratigraphy, lcsh:QE1-996.5, Paleontology, Sediment, experimental modelling, Geology, Allogenic, Environmental Science (miscellaneous), Oceanography, Deposition (geology), sediment gravity flow, lcsh:Geology, Sedimentary depositional environment, autogenic, submarine fan architecture, Erosion, Sediment gravity flow, Progradation, Petrology
Abstract

Submarine fans are formed by sediment‐laden flows shed from continental margins into ocean basins. Their morphology represents the interplay of external controls such as tectonics, climate and sea level with internal processes including channel migration and lobe compensation. However, the nature of this interaction is poorly understood. Physical modelling was used to represent the evolution of a natural‐scale submarine fan deposited during an externally forced waxing‐to‐waning sediment supply cycle. This was achieved by running five successive experimental turbidity currents with incrementally increasing then decreasing sediment supply rates. Deposits built upon the deposits of earlier flows and the distribution of erosion and deposition after each flow was recorded using digital elevation models. Initially, increasing sediment supply rate (waxing phase) led to widening and deepening of the slope channel, with basin‐floor deposits compensationally stepping forwards into the basin, favouring topographic lows. When sediment supply rate was decreased (waning phase), the slope‐channel filled as the bulk of the deposit abruptly back‐stepped due to interaction with depositional topography. Therefore, despite flows in the waxing and waning phases of sediment supply having nominally identical input conditions (i.e. sediment concentration, supply rate, grain size, etc.), depositional relief led to development of markedly different deposits. This demonstrates how external controls can be preserved in the depositional record through the progradation of basin floor deposits but that internal processes such as compensational stacking progressively obscure this signal through time. This evolution serves as an additional potential mechanism to explain commonly observed coarsening and thickening‐upwards lobe deposits, with abrupt transition to thin fine‐grained deposits. Meanwhile within the slope channel, external forcing was more readily detectable through time, with less internally driven reorganization. This validates many existing conceptual models and outcrop observations that channels are more influenced by external forcing whilst internal processes dominate basin floor lobe deposits in submarine fans.

Published
2020

37. The influence of a slope break on turbidite deposits : an experimental investigation

Author

Pohl, F., Eggenhuisen, J. T., Cartigny, M. J.B., Tilston, M. C., de Leeuw, J., Hermidas, N., Sedimentology, and Sedimentology

Subjects
bepress|Physical Sciences and Mathematics, bepress|Physical Sciences and Mathematics|Earth Sciences|Sedimentology, Turbidity current, 010504 meteorology & atmospheric sciences, bepress|Physical Sciences and Mathematics|Earth Sciences, EarthArXiv|Physical Sciences and Mathematics|Earth Sciences, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Deposition (geology), Sedimentary depositional environment, Geochemistry and Petrology, Flume experiment, EarthArXiv|Physical Sciences and Mathematics|Earth Sciences|Sedimentology, Geomorphology, 0105 earth and related environmental sciences, Reservoir, Slope angle, Sediment, Geology, EarthArXiv|Physical Sciences and Mathematics, Turbidite, Stratigraphic trap, Flume, Upslope pinch-out, Initiation point, Shields scaling
Abstract

Bypassing turbidity currents can travel downslope without depositing any of their suspended sediment load. Along the way, they may encounter a slope break (i.e. an abrupt decrease in slope angle) that initiates sediment deposition. Depending on the initiation point of deposition (the upslope pinch-out), these turbidite deposits in slope-break systems can form potential reservoirs for hydrocarbons. Here we investigate the distribution of turbidite deposits as a function of the geometry of slope-break systems in flume experiments. Shields-scaled turbidity currents were released into a flume tank containing an upper and a lower slope reach separated by a slope break. These slope-break experiments were generating both depositional and bypassing flows solely based on variation in steepness of the lower and upper slope. Results show that the depositional pattern in a slope-break system is controlled by the steepness of the upper and lower slope, rather than the angle of the slope break. The steepness of the upper slope controls the upslope pinch-out, while the lower slope controls the deposit thickness downstream of the slope break.

Published
2020

38. Transport and burial of microplastics in deep-marine sediments by turbidity currents

Author

Pohl, Florian, Eggenhuisen, Joris T., Kane, Ian A., Clare, Michael A., Sedimentology, and Sedimentology

Subjects
Geologic Sediments, Microplastics, Turbidity current, Chemistry(all), Submarine canyon, 010501 environmental sciences, 01 natural sciences, Deep sea, Article, Settling, Humans, Environmental Chemistry, Ecosystem, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Continental shelf, Sediment, General Chemistry, Oceanography, Plastic pollution, Plastics, Water Pollutants, Chemical, Geology, Environmental Monitoring
Abstract

The threat posed by plastic pollution to marine ecosystems and human health is under increasing scrutiny. Much of the macro- and microplastic in the ocean ends up on the seafloor, with some of the highest concentrations reported in submarine canyons that intersect the continental shelf and directly connect to terrestrial plastic sources. Gravity-driven avalanches, known as turbidity currents, are the primary process for delivering terrestrial sediment and organic carbon to the deep sea through submarine canyons. However, the ability of turbidity currents to transport and bury plastics is essentially unstudied. Using flume experiments, we investigate how turbidity currents transport microplastics, and their role in differential burial of microplastic fragments and fibers. We show that microplastic fragments become relatively concentrated within the base of turbidity currents, whereas fibers are more homogeneously distributed throughout the flow. Surprisingly, the resultant deposits show an opposing trend, as they are enriched with fibers, rather than fragments. We explain this apparent contradiction by a depositional mechanism whereby fibers are preferentially removed from suspension and buried in the deposits as they are trapped between settling sand-grains. Our results suggest that turbidity currents potentially distribute and bury large quantities of microplastics in seafloor sediments.

Published
2020

39. Turbulent diffusion modelling of sediment in turbidity currents: an experimental validation of the Rouse approach

Author

Eggenhuisen, J.T., Tilston, M.C., de Leeuw, J., Pohl, F., Cartigny, M.J.B., Sedimentology, and Sedimentology

Subjects
geography, Molecular diffusion, geography.geographical_feature_category, Turbidity current, Turbulent diffusion, turbidity current reconstruction, Stratigraphy, lcsh:QE1-996.5, Flow (psychology), Grain‐size segregation, Paleontology, Sediment, Geology, Mechanics, Environmental Science (miscellaneous), Oceanography, Rouse modelling, lcsh:Geology, Thalweg, Water column, simplified sediment transport modelling, Levee
Abstract

The margins of submarine channels are characterized by deposits that fine away from the channel thalweg. This grain‐size trend is thought to reflect upward fining trends in the currents that formed the channels. This assumption enables reconstruction of turbidity currents from the geologic record, thereby providing insights into the overall sediment load of the system. It is common to assume that the density structure of a turbidity current can be modelled with simple diffusion models, such as the Rouse equation. Yet the Rouse equation was developed to describe how particles should be distributed through the water column in open‐channel flows, which fundamentally differ from turbidity currents in terms of their flow structure. Consequently, a rigorous appraisal of the Rouse model in deep‐marine settings is needed to validate the aforementioned flow reconstructions. The present study addresses this gap in the literature by providing a robust evaluation of the Rouse model's predictions of vertical particle segregation in two experimental turbidity currents that differ only in terms of their initial bed slopes (4° versus 8°). The concentration profiles of the coarsest sediment, which is suspended predominantly in the lower part of the flow, is accurately reproduced by the Rouse equation. Significant mismatches appear, however, in the concentration of finer grained sediment, especially towards the top of the flow. This problem is caused by the mixing with clear water at the top of turbidity currents. Caution is therefore advised in applying a Rouse model to levee overspill and levee‐crest deposits. Nonetheless, the Rouse model shows good agreement with laboratory measurements in the lower regions of the flow and for the coarser grains that are predominantly transported in the lower sections of submarine channels.

Published
2020

40. New evidence for a long Rhaetian from a Panthalassan succession (Wrangell Mountains, Alaska) and regional differences in carbon cycle perturbations at the Triassic-Jurassic transition

Author

Caruthers, Andrew H., Marroquín, Selva M., Gröcke, D.R., Golding, M.L., Aberhan, Martin, Them II, Theodore R., Veenma, Yorick, Owens, J.D., McRoberts, C. A., Friedman, R. M., Trop, J. M., Szűcs, D., Pálfy, J., Rioux, M., Trabucho-Alexandre, João, Gill, Benjamin C., Sedimentology, and Sedimentology

Subjects
Norian-Rhaetian boundary, Extinction event, biology, CAMP large igneous province, Wrangellia, Biostratigraphy, Panthalassa, biology.organism_classification, Overprinting, Triassic-Jurassic boundary, stable carbon isotopes, Paleontology, Geophysics, Stratigraphy, Space and Planetary Science, Geochemistry and Petrology, Phanerozoic, Earth and Planetary Sciences (miscellaneous), Sedimentary rock, Conodont, Geology, Zircon
Abstract

The end-Triassic mass extinction is one of the big five extinction events in Phanerozoic Earth history. It is linked with the emplacement of the Central Atlantic Magmatic Province and a host of interconnected environmental and climatic responses that caused profound deterioration of terrestrial and marine biospheres. Current understanding, however, is hampered by (i) a geographically limited set of localities and data; (ii) incomplete stratigraphic records caused by low relative sea-level in European sections during the Late Triassic and earliest Jurassic; and (iii) major discrepancies in the estimated duration of the latest Triassic Rhaetian that limit spatiotemporal evaluation of climatic and biotic responses locally and globally. Here, we investigate the Late Triassic–Early Jurassic time interval from a stratigraphically well-preserved sedimentary succession deposited in tropical oceanic Panthalassa. We present diverse new data from the lower McCarthy Formation exposed at Grotto Creek (Wrangell Mountains, southern Alaska), including ammonoid, bivalve, hydrozoan, and conodont biostratigraphy; organic carbon isotope ( δ 13 Corg) stratigraphy; and CA-ID TIMS zircon U–Pb dates. These data are consistent with a Norian-Rhaetian Boundary (NRB) of ∼209 Ma, providing new evidence to support a long duration of the Rhaetian. They also constrain the Triassic-Jurassic boundary (TJB) to a ∼6 m interval in the section. Our TJB δ 13 Corg record from Grotto Creek, in conjunction with previous data, demonstrates consistent features that not only appear correlative on a global scale but also shows local heterogeneities compared to some Tethyan records. Notably, smaller excursions within a large negative carbon isotope excursion [NCIE] known from Tethyan localities are absent in Panthalassan records. This new comparative isotopic record becomes useful for (i) distinguishing regional overprinting of the global signal; (ii) raising questions about the ubiquity of smaller-scale NCIEs across the TJB; and (iii) highlighting the largely unresolved regional vs. global scale of some presumed carbon cycle perturbations. These paleontological and geochemical data establish the Grotto Creek section as an important Upper Triassic to Lower Jurassic succession due to its paleogeographic position and complete marine record. Our record represents the best documentation of the NRB and TJB intervals from Wrangellia, and likely the entire North American Cordillera.

Published
2022

41. Optimisation of flow resistance and turbulent mixing over bed forms

Author

Arfaie, A., Burns, A. D., Dorrell, R. M., Ingham, D. B., Eggenhuisen, J. T., McCaffrey, W. D., Sedimentology, and Sedimentology

Subjects
Environmental Engineering, Materials science, 010504 meteorology & atmospheric sciences, Flow (psychology), Surface finish, Computational fluid dynamics, 010502 geochemistry & geophysics, Bed forms, 01 natural sciences, Turbulent flow, Physics::Fluid Dynamics, Fluid dynamics, Mixing (physics), 0105 earth and related environmental sciences, business.industry, Turbulence, Ecological Modeling, Turbulence modeling, Mechanics, Roughness, Linear function, Ecological Modelling, CFD, business, Software
Abstract

Previous work on the interplay between turbulent mixing and flow resistance for flows over periodic rib roughness elements is extended to consider the flow over idealized shapes representative of naturally occurring sedimentary bed forms. The primary motivation is to understand how bed form roughness affects the carrying capacity of sediment-bearing flows in environmental fluid dynamics applications, and in engineering applications involving the transport of particulate matter in pipelines. For all bed form shapes considered, it is found that flow resistance and turbulent mixing are strongly correlated, with maximum resistance coinciding with maximum mixing, as was previously found for the special case of rectangular roughness elements. Furthermore, it is found that the relation between flow resistance to eddy viscosity collapses to a single monotonically increasing linear function for all bed form shapes considered, indicating that the mixing characteristics of the flows are independent of the detailed morphology of individual roughness elements.

Published
2018

42. The effects of differential compaction on clinothem geometries and shelf-edge trajectories

Author

Beelen, Daan, Jackson, Christopher A.-L., Patruno, Stefano, Hodgson, David M., Trabucho-Alexandre, João, and Sedimentology

Subjects
Stratigraphy, Lithology, Facies, Trajectory, Compaction, Sediment, Geology, Structural basin, Petrology, Rotation (mathematics)
Abstract

The geometry of basin-margin strata documents changes in water depth, slope steepness, and sedimentary facies distributions. Their stacking patterns are widely used to define shelf-edge trajectories, which reflect long-term variations in sediment supply and relative sea-level change. Here, we present a new method to reconstruct the geometries and trajectories of clinoform-bearing basin-margin successions. Our sequential decompaction technique explicitly accounts for downdip lithology variations, which are inherent to basin-margin stratigraphy. Our case studies show that preferential compaction of distal, fine-grained foresets and bottomsets results in a vertical extension of basin-margin strata and a basinward rotation of the original shelf-edge trajectory. We discuss the implications these effects have for sea-level reconstructions and for predicting the timing of sediment transfer to the basin floor.

Published
2019

43. A myricaceous male inflorescence with pollen in situ from the middle Eocene of Europe

Author

Wilde, Volker, Frankenhäuser, Herbert, Lenz, Olaf Klaus, Senckenberg Forschungsinstitut und Naturmuseum, Frankfurt am Main, Germany, Johannes Gutenberg-Universität Mainz, Institut für Organismische und Molekulare Evolutionsbiologie, AG Diversität der Blütenpflanzen, Mainz, Germany, and Technische Universität Darmstadt, Institute of Applied Geosciences, Applied Sedimentology, Darmstadt, Germany

Subjects
ddc:561, Biodiversity, medicine.disease_cause, Myricaceae, Anthesis, Genus, Pollen, Botany, medicine, Catkin, Ecology, Evolution, Behavior and Systematics, Global and Planetary Change, Ecology, biology, Paleontology, Geology, biology.organism_classification, Palynology, Maar, Pollen morphology, Inflorescence, Fagales, Paleogene, Triatriopollenites
Abstract

The late middle Eocene lacustrine filling of a maar lake at Eckfeld (Eifel Hills, Rhineland-Palatinate, western Germany) has provided four specimens of male inflorescences (catkins) in different stages of anthesis, each with pollen preserved in situ. The appearance of the successive stages together with triporate pollen showing an irregular surface and a myricoid micro-ornamentation clearly suggests an assignment of the fossil catkins to the Myricaceae. The material is described as a new genus and new species and represents the oldest record of male catkins for the family. The in situ preserved pollen grains are comparable to dispersed grains of Triatriopollenites excelsus., Projekt DEAL

Published
2021

45. Flow-process controls on grain type distribution in an experimental turbidity current deposit: Implications for detrital signal preservation and microplastic distribution in submarine fans

Author

Sedimentology, Bell, Daniel, Soutter, Euan L., Cumberpatch, Zoë A., Ferguson, Ross A., Spychala, Yvonne T., Kane, Ian A., Eggenhuisen, Joris T., Sedimentology, Bell, Daniel, Soutter, Euan L., Cumberpatch, Zoë A., Ferguson, Ross A., Spychala, Yvonne T., Kane, Ian A., and Eggenhuisen, Joris T.

Published
2021

48. Archaean basin margin geology and crustal evolution: an East Pilbara traverse

Author

Nijman, Wouter, Kloppenburg, Armelle, de Vries, Sjoukje T., Sedimentology, and Sedimentology

Subjects
Basalt, 010504 meteorology & atmospheric sciences, Archean, Geology, Crust, Greenstone belt, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Onlap, Paleontology, Taverne, Mafic, Growth fault, 0105 earth and related environmental sciences
Abstract

A palinspastic reconstruction of a 100 km long traverse through Archaean rocks of the East Pilbara, Western Australia, includes new observations of the deformation preceding the now visible greenstone belt pattern. The restoration is time-calibrated with all available U–Pb datings. Between incompletely preserved basin sequences, two superposed Palaeoarchaean volcano-sedimentary basins (the Coongan and Salgash Basins) are separated by an eastwards time-transgressive interface tentatively interpreted as an onlap surface. For over 140 Ma, the basin margin architecture was structurally controlled by superposed extensional growth fault arrays (D 1 ) with associated dyke swarms in a curved pattern spatially not related to that of the actual distribution of granite domes and greenstone belts. The basins are interpreted to have formed by collapse after arching above hotspots due to phase transitions by mini-subduction of slabs of cooled water-saturated basalt towards the base of an originally c. 45 km mafic crust. At c. 3.31 Ga, the extension was replaced by plate-driven regional NW–SE compression (D 2 ) inferred from NW-over-SE shear and ramp-and-flat thrusts, partly reversing offsets of the D 1 extension. The recognition of widespread D 2 pre-doming compression is important because it triggered the c. 3.18 Ga start of formation of the dome-and-keel pattern (D 3 ) visible today, which culminated at c. 2.9 Ga. Supplementary material: Eight figures, numbered ‘Supplementary material fig. a–h’, and a GPS list of observation sites are available at: https://doi.org/10.6084/m9.figshare.c.3808243

Published
2017

49. New flow relaxation mechanism explains scour fields at the end of submarine channels

Author

Pohl, F., Eggenhuisen, J.T., Tilston, M.C., Cartigny, M.J.B., Sedimentology, and Sedimentology

Subjects
business.product_category, Turbidity current, 010504 meteorology & atmospheric sciences, Science, General Physics and Astronomy, 010502 geochemistry & geophysics, 01 natural sciences, Article, General Biochemistry, Genetics and Molecular Biology, 14. Life underwater, lcsh:Science, Seabed, 0105 earth and related environmental sciences, Shearing (physics), geography, Multidisciplinary, geography.geographical_feature_category, Physical oceanography, Submarine, General Chemistry, Mechanics, Sedimentology, Seafloor spreading, lcsh:Q, Funnel, Oceanic basin, business, Geology, Communication channel
Abstract

Particle-laden gravity flows, called turbidity currents, flow through river-like channels across the ocean floor. These submarine channels funnel sediment, nutrients, pollutants and organic carbon into ocean basins and can extend for over 1000’s of kilometers. Upon reaching the end of these channels, flows lose their confinement, decelerate, and deposit their sediment load; this is what we read in textbooks. However, sea floor observations have shown the opposite: turbidity currents tend to erode the seafloor upon losing confinement. Here we use a state-of-the-art scaling method to produce the first experimental turbidity currents that erode upon leaving a channel. The experiments reveal a novel flow mechanism, here called flow relaxation, that explains this erosion. Flow relaxation is rapid flow deformation resulting from the loss of confinement, which enhances basal shearing of the turbidity current and leads to scouring. This flow mechanism plays a key role in the propagation of submarine channel systems., The nature of erosion featured at the outlet of submarine channels is still a topic of debate. Here the authors present, based on scaled experiments, a novel flow mechanism for turbidity currents at the end of submarine channels and for the first time describe their erosional character.

Published
2019

50. Possible solutions to several enigmas of Cretaceous climate

Author

Hay, William W., DeConto, Robert M., de Boer, Poppe, Flögel, Sascha, Song, Ying, Stepashko, Andrei, Sedimentology, and Sedimentology

Subjects
010504 meteorology & atmospheric sciences, δ18O, Earth science, Cretaceous climate, Earth and Planetary Sciences(all), Wetland, Warm Arctic, 010502 geochemistry & geophysics, 01 natural sciences, Climate models, Continental margin, Paleoclimatology, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, 15. Life on land, Cretaceous, Paleotopography, Arctic, 13. Climate action, Greenhouse gas, Paleogeography, General Earth and Planetary Sciences, Climate model, Geology
Abstract

The nature of the warm climates of the Cretaceous has been enigmatic since the first numerical climate models were run in the late 1970s. Quantitative simulations of the paleoclimate have consistently failed to agree with information from plant and animal fossils and climate sensitive sediments. The ‘cold continental interior paradox’ (first described by DeConto et al. in Barrera E, Johnson C (eds) Evolution of the Cretaceous Ocean/climate system, vol 332. Geological Society of America Special Paper, Boulder, pp 391–406, 1999), has been an enigma, with extensive continental interiors, especially in northeast Asia, modeled as below freezing in spite of plant and other evidence to the contrary. We reconsider the paleoelevations of specific areas, particularly along the northeastern Siberian continental margin, where paleofloras indeed indicate higher temperatures than suggested by current climate models. Evidence for significant masses of ice on land during even the otherwise warmest times of the Cretaceous is solved by reinterpretation of the δ 18 O record of fossil plankton. The signal interpreted as an increase in ice volume on land is the same as the signal for an increase in the volume of groundwater reservoirs on land. The problem of a warm Arctic, where fossil floras indicate that they never experienced freezing conditions in winter, could not be solved by numerical simulations using higher CO 2 equivalent greenhouse gas concentrations. We propose a solution by assuming that paleoelevations were less than today and that there were much more extensive wetlands (lakes, meandering rivers, swamps, bogs) on the continents than previously assumed. Using ~ 8 × CO 2 equivalent greenhouse gas concentrations and assuming 50–75% water surfaces providing water vapor as a supplementary greenhouse gas on the continents reduces the meridional temperature gradients. Under these conditions the equatorial to polar region temperature gradients produce conditions compatible with fossil and sedimentological evidence.

Published
2019

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