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5. Preface: Special Issue on Probing the Open Ocean With the Research Sailing Yacht Eugen Seibold for Climate Geochemistry.

Author

Schiebel, Ralf, Aardema, Hedy M., Calleja, Maria Ll., Dragoneas, Antonis, Heins, Lena, Hrabe de Angelis, Isabella, Pöhlker, Christopher, Slagter, Hans, Vonhof, Hubert, Walter, David, Arns, Anthea I., Adolphs, Nils, Auderset, Alexandra, Basic, Sanja, Bieler, Aaron, Brüwer, Jan D., Chaabane, Sonia, Cheng, Yafang, Chiliński, Michal T., and Cybulski, Jonathan D.

Subjects
BIOGEOCHEMICAL cycles, GREENHOUSE gases, GEOCHEMISTRY, WATER sampling, SEA water analysis
Abstract

The 72‐foot sailing yacht Eugen Seibold is a new research platform for contamination‐free sampling of the water column and atmosphere for biological, chemical, and physical properties, and the exchange processes between the two realms. Ultimate goal of the project is a better understanding of the modern and past ocean and climate. Operations started in 2019 in the Northeast Atlantic, and will focus on the Tropical Eastern Pacific from 2023 until 2025. Laboratories for air and seawater analyses are equipped with down‐sized and automated state‐of‐the‐art technology for a comprehensive description of the marine carbon system including CO2 concentration in the air and sea surface, pH, macro‐, and micro‐nutrient concentration (e.g., Fe, Cd), trace metals, and calcareous plankton. Air samples are obtained from ca. 13 m above sea surface and analyzed for particles (incl. black carbon and aerosols) and greenhouse gases. Plankton nets and seawater probes are deployed over the custom‐made A‐frame at the stern of the boat. Near Real‐Time Transfer of underway data via satellite connection allows dynamic expedition planning to maximize gain of information. Data and samples are analyzed in collaboration with the international expert research community. Quality controlled data are published for open access. The entire suite of data facilitates refined proxy calibration of paleoceanographic and paleoclimate archives at high temporal and spatial resolution in relation to seawater and atmospheric parameters. Plain Language Summary: The new research sailing yacht Eugen Seibold (ES) enables clean, contamination‐free sampling of air and seawater to better understand the interactions between ocean and climate. For example, the oceans remove increasingly less carbon dioxide (CO2) from the atmosphere the more saturated they are with CO2 (ocean acidification). However, a detailed systematic understanding of air‐sea exchange processes remains to be developed. We analyze air and seawater as well as the exchange of greenhouse gases and other substances such as aerosols and soot (black carbon) between air and seawater at high resolution using modern materials and technologies. Scaled‐down, energy‐efficient, and automated probes developed over the past decade are being used to measure around 50 different characteristics of the marine environment. The work deck at the stern of the boat allows the use of custom‐made water samplers and plankton nets to study the ocean to below 1,000 m depth. In addition, the new data enables a better understanding of past ocean archives, such as the marine plankton accumulated in seafloor sediments, to reconstruct past climate changes. From 2019 to 2022, the S/Y ES sailed in the eastern North Atlantic and will operate in the tropical eastern Pacific until 2025. Key Points: New research platform for contamination‐free sampling of the water column and atmosphere of biological, chemical, and physical propertiesComprehensive marine geochemical analyzes including carbon (e.g., CO2) in air and sea surfaceProxy calibration of paleoclimate archives at high temporal and spatial resolution in relation to seawater and atmospheric parameters [ABSTRACT FROM AUTHOR]

Published
2024
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6. A marine record of Patagonian ice sheet changes over the past 140,000 years

Author

Hagemann, Julia R., primary, Lamy, Frank, additional, Arz, Helge W., additional, Lembke-Jene, Lester, additional, Auderset, Alexandra, additional, Harada, Naomi, additional, Ho, Sze Ling, additional, Iwasaki, Shinya, additional, Kaiser, Jérôme, additional, Lange, Carina B., additional, Murayama, Masafumi, additional, Nagashima, Kana, additional, Nowaczyk, Norbert, additional, Martínez-García, Alfredo, additional, and Tiedemann, Ralf, additional

Published
2024
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7. Sea Level Modulation of Atlantic Nitrogen Fixation Over Glacial Cycles

Author

Auderset, Alexandra, Fripiat, François, Creel, Roger C., Oesch, Lukas, Studer, Anja S., Repschläger, Janne, Hathorne, Ed C., Vonhof, Hubert, Schiebel, Ralf, Gordon, Laura, Lawrence, Kira, Ren, Haojia Abby, Haug, Gerald H., Sigman, Daniel M., Martínez‐García, Alfredo, Auderset, Alexandra, Fripiat, François, Creel, Roger C., Oesch, Lukas, Studer, Anja S., Repschläger, Janne, Hathorne, Ed C., Vonhof, Hubert, Schiebel, Ralf, Gordon, Laura, Lawrence, Kira, Ren, Haojia Abby, Haug, Gerald H., Sigman, Daniel M., and Martínez‐García, Alfredo

Abstract

N2 fixation in low-latitude surface waters dominates the input of fixed nitrogen (N) to the global ocean, sustaining ocean fertility. In the Caribbean Sea, higher foraminifera-bound (FB-)delta 15N indicates a decline in N2 fixation during ice ages, but its cause and broader implications are unclear. Here, we report three additional Atlantic FB-delta 15N records, from the subtropical North and South Atlantic gyres (MSM58-50 and DSDP Site 516) and the equatorial Atlantic (ODP Site 662). Similar glacial and interglacial delta 15N in the equatorial Atlantic suggests a stable delta 15N for the nitrate below the gyre thermoclines. The North Atlantic record shows a FB-delta 15N rise during the ice ages, resembling a previously published FB-delta 15N record from the South China Sea. The commonality among the FB-delta 15N records is that they resemble sea level-driven variation in regional shelf area, with high FB-delta 15N (inferred reduction in N2 fixation) during periods of low shelf area. The South China Sea shows the largest delta 15N signal, the subtropical North Atlantic shows less, and the South Atlantic shows the least, the same ordering as the ice age reductions in continental shelf area in the different regions. Reduced shelf sedimentary denitrification would have increased the nitrogen-to-phosphorus ratio of the nutrient supply to open ocean surface waters, leading to decreased N2 fixation and thus higher gyre thermocline nitrate delta 15N, explaining the higher FB-delta 15N of peak ice ages. These observations identify shelf sediment denitrification as an important regional driver of modern N2 fixation and imply strong basin-scale coupling of fixed nitrogen losses and inputs. Nitrogen fixation plays the crucial role in the ocean of supplying bioavailable nitrogen (N), a major nutrient for phytoplankton growth. Variations in nitrogen fixation over time can, therefore, significantly impact ocean productivity and, consequently, carbon sequestration in the ocean int

Published
2024
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8. A marine record of Patagonian ice sheet changes over the past 140,000 years

Author

Hagemann, Julia R., Lamy, Frank, Arz, Helge W., Lembke-jene, Lester, Auderset, Alexandra, Harada, Naomi, Ho, Sze Ling, Iwasaki, Shinya, Kaiser, Jérôme, Lange, Carina B., Murayama, Masafumi, Nagashima, Kana, Nowaczyk, Norbert, Martínez-garcía, Alfredo, Tiedemann, Ralf, Hagemann, Julia R., Lamy, Frank, Arz, Helge W., Lembke-jene, Lester, Auderset, Alexandra, Harada, Naomi, Ho, Sze Ling, Iwasaki, Shinya, Kaiser, Jérôme, Lange, Carina B., Murayama, Masafumi, Nagashima, Kana, Nowaczyk, Norbert, Martínez-garcía, Alfredo, and Tiedemann, Ralf

Abstract

Terrestrial glacial records from the Patagonian Andes and New Zealand Alps document quasi-synchronous Southern Hemisphere–wide glacier advances during the late Quaternary. However, these records are inherently incomplete. Here, we provide a continuous marine record of western–central Patagonian ice sheet (PIS) extent over a complete glacial–interglacial cycle back into the penultimate glacial (~140 ka). Sediment core MR16-09 PC03, located at 46°S and ~150 km offshore Chile, received high terrestrial sediment and meltwater input when the central PIS extended westward. We use biomarkers, foraminiferal oxygen isotopes, and major elemental data to reconstruct terrestrial sediment and freshwater input related to PIS variations. Our sediment record documents three intervals of general PIS marginal fluctuations, during Marine Isotope Stage (MIS) 6 (140 to 135 ka), MIS 4 (~70 to 60 ka), and late MIS 3 to MIS 2 (~40 to 18 ka). These higher terrigenous input intervals occurred during sea-level low stands, when the western PIS covered most of the Chilean fjords, which today retain glaciofluvial sediments. During these intervals, high-amplitude phases of enhanced sediment supply occur at millennial timescales, reflecting increased ice discharge most likely due to a growing PIS. We assign the late MIS 3 to MIS 2 phases and, by inference, older advances to Antarctic cold stages. We conclude that the increased sediment/meltwater release during Southern Hemisphere millennial-scale cold phases was likely related to higher precipitation caused by enhanced westerly winds at the northwestern margin of the PIS. Our records complement terrestrial archives and provide evidence for PIS climate sensitivity.

Published
2024
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9. The southward migration of the Antarctic Circumpolar Current enhanced oceanic degassing of carbon dioxide during the last two deglaciations

Author

Marine palynology and palaeoceanography, IVAU: Instituut voor Aardwetenschappen Utrecht, Ai, Xuyuan E., Thöle, Lena M., Auderset, Alexandra, Schmitt, Mareike, Moretti, Simone, Studer, Anja S., Michel, Elisabeth, Wegmann, Martin, Mazaud, Alain, Bijl, Peter K., Sigman, Daniel M., Martínez-García, Alfredo, Jaccard, Samuel L., Marine palynology and palaeoceanography, IVAU: Instituut voor Aardwetenschappen Utrecht, Ai, Xuyuan E., Thöle, Lena M., Auderset, Alexandra, Schmitt, Mareike, Moretti, Simone, Studer, Anja S., Michel, Elisabeth, Wegmann, Martin, Mazaud, Alain, Bijl, Peter K., Sigman, Daniel M., Martínez-García, Alfredo, and Jaccard, Samuel L.

Published
2024

10. Oxygen rise in the tropical upper ocean during the Paleocene-Eocene Thermal Maximum

Author

Moretti, Simone, primary, Auderset, Alexandra, additional, Deutsch, Curtis, additional, Schmitz, Ronja, additional, Gerber, Lukas, additional, Thomas, Ellen, additional, Luciani, Valeria, additional, Petrizzo, Maria Rose, additional, Schiebel, Ralf, additional, Tripati, Aradhna, additional, Sexton, Philip, additional, Norris, Richard, additional, D’Onofrio, Roberta, additional, Zachos, James, additional, Sigman, Daniel M., additional, Haug, Gerald H., additional, and Martínez-García, Alfredo, additional

Published
2024
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11. Reviews and syntheses: Review of proxies for low-oxygen paleoceanographic reconstructions

Author

Hoogakker, Babette, primary, Davis, Catherine, additional, Wang, Yi, additional, Kusch, Stepanie, additional, Nilsson-Kerr, Katrina, additional, Hardisty, Dalton, additional, Jacobel, Allison, additional, Reyes Macaya, Dharma, additional, Glock, Nicolaas, additional, Ni, Sha, additional, Sepúlveda, Julio, additional, Ren, Abby, additional, Auderset, Alexandra, additional, Hess, Anya, additional, Meissner, Katrina, additional, Cardich, Jorge, additional, Anderson, Robert, additional, Barras, Christine, additional, Basak, Chandranath, additional, Bradbury, Harold, additional, Brinkmann, Inda, additional, Castillo, Alexis, additional, Cook, Madelyn, additional, Costa, Kassandra, additional, Choquel, Constance, additional, Diz, Paula, additional, Donnenfield, Jonas, additional, Elling, Felix, additional, Erdem, Zeynep, additional, Filipsson, Helena, additional, Garrido, Sebastian, additional, Gottschalk, Julia, additional, Govindankutty Menon, Anjaly, additional, Groeneveld, Jeroen, additional, Hallman, Christian, additional, Hendy, Ingrid, additional, Henneham, Rick, additional, Lu, Wanyi, additional, Lynch-Stieglitz, Jean, additional, Matos, Lelia, additional, Martínez-García, Alfredo, additional, Molina, Giulia, additional, Muñoz, Práxedes, additional, Moretti, Simone, additional, Morford, Jennifer, additional, Nuber, Sophie, additional, Radionovskaya, Svetlana, additional, Raven, Morgan, additional, Somes, Christopher, additional, Studer, Anja, additional, Tachikawa, Kazuyo, additional, Tapia, Raúl, additional, Tetard, Martin, additional, Vollmer, Tyler, additional, Wu, Shuzhuang, additional, Zhang, Yan, additional, Zheng, Xin-Yuan, additional, and Zhou, Yuxin, additional

Published
2024
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12. Supplementary material to "Reviews and syntheses: Review of proxies for low-oxygen paleoceanographic reconstructions "

Author

Hoogakker, Babette, primary, Davis, Catherine, additional, Wang, Yi, additional, Kusch, Stepanie, additional, Nilsson-Kerr, Katrina, additional, Hardisty, Dalton, additional, Jacobel, Allison, additional, Reyes Macaya, Dharma, additional, Glock, Nicolaas, additional, Ni, Sha, additional, Sepúlveda, Julio, additional, Ren, Abby, additional, Auderset, Alexandra, additional, Hess, Anya, additional, Meissner, Katrina, additional, Cardich, Jorge, additional, Anderson, Robert, additional, Barras, Christine, additional, Basak, Chandranath, additional, Bradbury, Harold, additional, Brinkmann, Inda, additional, Castillo, Alexis, additional, Cook, Madelyn, additional, Costa, Kassandra, additional, Choquel, Constance, additional, Diz, Paula, additional, Donnenfield, Jonas, additional, Elling, Felix, additional, Erdem, Zeynep, additional, Filipsson, Helena, additional, Garrido, Sebastian, additional, Gottschalk, Julia, additional, Govindankutty Menon, Anjaly, additional, Groeneveld, Jeroen, additional, Hallman, Christian, additional, Hendy, Ingrid, additional, Henneham, Rick, additional, Lu, Wanyi, additional, Lynch-Stieglitz, Jean, additional, Matos, Lelia, additional, Martínez-García, Alfredo, additional, Molina, Giulia, additional, Muñoz, Práxedes, additional, Moretti, Simone, additional, Morford, Jennifer, additional, Nuber, Sophie, additional, Radionovskaya, Svetlana, additional, Raven, Morgan, additional, Somes, Christopher, additional, Studer, Anja, additional, Tachikawa, Kazuyo, additional, Tapia, Raúl, additional, Tetard, Martin, additional, Vollmer, Tyler, additional, Wu, Shuzhuang, additional, Zhang, Yan, additional, Zheng, Xin-Yuan, additional, and Zhou, Yuxin, additional

Published
2024
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13. Analytical improvements and assessment of long‐term performance of the oxidation–denitrifier method

Author

Moretti, Simone, primary, Duprey, Nicolas N., additional, Foreman, Alan D., additional, Arns, Anthea, additional, Brömme, Sven, additional, Jung, Jonathan, additional, Ai, Xuyuan E., additional, Auderset, Alexandra, additional, Bieler, Aaron L., additional, Eck, Camino, additional, Farmer, Jesse, additional, Hinnenberg, Barbara, additional, Lacerra, Matthew, additional, Leichliter, Jennifer, additional, Lüdecke, Tina, additional, Oleynik, Sergey, additional, Rubach, Florian, additional, Schmitt, Mareike, additional, Vink, Marissa, additional, Wald, Tanja, additional, Yehudai, Maayan, additional, Sigman, Daniel M., additional, and Martínez‐García, Alfredo, additional

Published
2023
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15. Reconstruction of warm-season temperatures in central Europe during the past 60 000 years from lacustrine branched glycerol dialkyl glycerol tetraethers (brGDGTs).

Author

Zander, Paul D., Böhl, Daniel, Sirocko, Frank, Auderset, Alexandra, Haug, Gerald H., and Martínez-García, Alfredo

Subjects
GLYCERYL ethers, GLACIATION, VOLCANIC fields, ICE cores, CLIMATE change, ANOXIC waters, LAKE sediments, WINTER
Abstract

Millennial-scale climate variations during the last glacial period, such as Dansgaard–Oeschger (DO) cycles and Heinrich events, have been extensively studied using ice core and marine proxy records. However, there is a limited understanding of the magnitude of these temperature fluctuations in continental regions, and questions remain about the seasonal signal of these climate events. This study presents a 60 000-year-long temperature reconstruction based on branched glycerol dialkyl glycerol tetraethers (brGDGTs) extracted from lake sediments from the Eifel Volcanic Field, Germany. brGDGTs are bacterial membrane-spanning lipids that are known to have a strong relationship with temperature, making them suitable for temperature reconstructions. We test several temperature calibration models on modern samples taken from soils and multiple maar lakes. We find a negative bias in brGDGT-based temperature estimates associated with water depth and anoxic conditions that can be corrected for by accounting for a brGDGT isomer that is only produced in anoxic conditions. The corrected temperature reconstruction correlates with proxy and climate model estimates of temperature spanning the same time period, validating the calibration approach we selected. However, millennial-scale variability is significantly dampened in the brGDGT record, and in contrast to other Northern Hemisphere climate records, during several Heinrich stadials, temperatures actually increase. We demonstrate that these apparent discrepancies can be explained by the unique seasonal response of the brGDGT paleothermometer to temperatures of months above freezing (TMAF). Our data support the view that warm-season temperatures in Europe varied minimally during the last glacial period and that abrupt millennial-scale events were defined by colder, longer winters. Our continuous high-resolution temperature reconstruction provides important information about the magnitude of seasonal climate variability during the last glacial period that can be used to test climate models and inform studies of paleoecological change. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Analytical improvements and assessment of long‐term performance of the oxidation–denitrifier method.

Author

Moretti, Simone, Duprey, Nicolas N., Foreman, Alan D., Arns, Anthea, Brömme, Sven, Jung, Jonathan, Ai, Xuyuan E., Auderset, Alexandra, Bieler, Aaron L., Eck, Camino, Farmer, Jesse, Hinnenberg, Barbara, Lacerra, Matthew, Leichliter, Jennifer, Lüdecke, Tina, Oleynik, Sergey, Rubach, Florian, Schmitt, Mareike, Vink, Marissa, and Wald, Tanja

Subjects
AMINO acid analysis, DENTAL enamel, NITROGEN analysis
Abstract

The analysis of the nitrogen (N) isotopic composition of organic matter bound to fossil biomineral structures (BB‐δ15N) using the oxidation–denitrifier (O–D) method provides a novel tool to study past changes in N cycling processes. Methods: We report a set of methodological improvements to the O–D method, including (a) a method for sealing the reaction vials in which the oxidation of organic N to NO3− takes place, (b) a recipe for bypassing the pH adjustment step before the bacterial conversion of NO3− to N2O, and (c) a method for storing recrystallized dipotassium peroxodisulfate (K2S2O8) under Ar atmosphere. Results: The new sealing method eliminates the occasional contamination and vial breakage that occurred previously while increasing sample throughput. The protocol for bypassing pH adjustment does not affect BB‐δ15N, and it significantly reduces the processing time. Storage of K2S2O8 reagent under Ar atmosphere produces stable oxidation blanks over more than 3.5 years. We report analytical blanks, accuracy, and precision for this methodology from eight users over the course of ~3.5 years of analyses at the Max Planck Institute for Chemistry. Our method produces analytical blanks characterized by low N content (0.30 ± 0.13 nmol N, 1σ, n = 195) and stable δ15N (−2.20 ± 3.13‰, n = 195). The analysis of reference amino acid standards USGS 40 and USGS 65 indicates an overall accuracy of −0.23 ± 0.35‰ (1σ, n = 891). The analysis of in‐house fossil standards gives similar analytical precision (1σ) across a range of BB‐δ15N values and biominerals: zooxanthellate coral standard PO‐1 (6.08 ± 0.21‰, n = 267), azooxanthellate coral standard LO‐1 (10.20 ± 0.28‰, n = 258), foraminifera standard MF‐1 (5.92 ± 0.28‰, n = 243), and tooth enamel AG‐Lox (4.06 ± 0.49‰, n = 78). Conclusions: The methodological improvements significantly increase sample throughput without compromising analytical precision or accuracy down to 1 nmol of N. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Reviews and syntheses: Review of proxies for low-oxygen paleoceanographic reconstructions.

Author

Hoogakker, Babette, Davis, Catherine, Wang, Yi, Kusch, Stepanie, Nilsson-Kerr, Katrina, Hardisty, Dalton, Jacobel, Allison, Macaya, Dharma Reyes, Glock, Nicolaas, Ni, Sha, Sepúlveda, Julio, Ren, Abby, Auderset, Alexandra, Hess, Anya, Meissner, Katrina, Cardich, Jorge, Anderson, Robert, Barras, Christine, Basak, Chandranath, and Bradbury, Harold

Subjects
OXYGEN content of seawater, NITROGEN isotopes, OXYGENATION (Chemistry), CARBON isotopes, DATA warehousing, OXYGEN
Abstract

A growing body of observations reveals rapid changes in both the total inventory and distribution of marine oxygen over the later half of the 21st century, leading to increased interest in extending oxygenation records into the past. Use of paleo-oxygen proxies have the potential to extend the spatial and temporal range of current records, bound pre-anthropogenic baselines, provide datasets necessary to test climate models under different boundary conditions, and ultimately understand how ocean oxygenation responds beyond decadal scale changes. This review seeks to summarize the current state-of-knowledge about proxies for reconstructing Cenozoic marine oxygen: sedimentary features, sedimentary redox-sensitive trace elements and isotopes, biomarkers, nitrogen isotopes, foraminiferal trace elements, foraminifera assemblages, foraminifera morphometrics, and benthic foraminifera carbon isotope gradients. Taking stock of each proxy reveals some common limitations in that the majority of proxies function best at low-oxygen concentrations and many reflect multiple environmental drivers. We also highlight recent breakthroughs in geochemistry and proxy approaches for constraining pelagic (in addition to benthic) oxygenation that are rapidly advancing the field. In light of both the emergence of new proxies and the persistent multiple driver problem, the need for multi-proxy approaches and FAIR data storage and sharing is emphasized. Continued refinement of proxy approaches and both proxy-proxy and proxy-model comparisons are likely to support the growing needs of both oceanographer and paleoceanographers interested in paleo-oxygenation records. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Reviews and syntheses: Review of proxies for low-oxygen paleoceanographic reconstructions.

Author

Hoogakker, Babette A. A., Davis, Catherine, Yi Wang, Kusch, Stephanie, Nilsson-Kerr, Katrina, Hardisty, Dalton S., Jacobel, Allison, Reyes Macaya, Dharma, Glock, Nicolaas, Sha Ni, Sepúlveda, Julio, Ren, Abby, Auderset, Alexandra, Hess, Anya, Meissner, Katrin, Cardich, Jorge, Anderson, Robert, Barras, Christine, Basak, Chandranath, and Bradbury, Harold J.

Subjects
OXYGEN content of seawater, NITROGEN isotopes, OXYGENATION (Chemistry), CARBON isotopes, DATA warehousing, OXYGEN
Abstract

A growing body of observations reveals rapid changes in both the total inventory and distribution of marine oxygen over the later half of the 21st century, leading to increased interest in extending oxygenation records into the past. Use of paleo-oxygen proxies have the potential to extend the spatial and temporal range of current records, bound pre-anthropogenic baselines, provide datasets necessary to test climate models under different boundary conditions, and ultimately understand how ocean oxygenation responds beyond decadal scale changes. This review seeks to summarize the current state-ofknowledge about proxies for reconstructing Cenozoic marine oxygen: sedimentary features, sedimentary redox-sensitive trace elements and isotopes, biomarkers, nitrogen isotopes, foraminiferal trace elements, foraminifera assemblages, foraminifera morphometrics, and benthic foraminifera carbon isotope gradients. Taking stock of each proxy reveals some common limitations in that the majority of proxies function best at low-oxygen concentrations and many reflect multiple environmental drivers. We also highlight recent breakthroughs in geochemistry and proxy approaches for constraining pelagic (in addition to benthic) oxygenation that are rapidly advancing the field. In light of both the emergence of new proxies and the persistent multiple driver problem, the need for multi-proxy approaches and FAIR data storage and sharing is emphasized. Continued refinement of proxy approaches and both proxy-proxy and proxy-model comparisons are likely to support the growing needs of both oceanographer and paleoceanographers interested in paleo-oxygenation records. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Reconstruction of warm season temperatures in central Europe during the past 60,000 years from lacustrine GDGTs.

Author

Zander, Paul D., Böhl, Daniel, Sirocko, Frank, Auderset, Alexandra, Haug, Gerald, and García, Alfredo Martínez

Abstract

Millennial-scale climate variations during the last glacial period, such as Dansgaard--Oeschger (D/O) cycles and Heinrich events, have been extensively studied using ice core and marine proxy records. However, there is a limited understanding of the magnitude of these temperature fluctuations in continental regions, and questions remain about the seasonal signal of these climate events. This study presents a 60,000-year long temperature reconstruction based on branched glycerol dialkyl glycerol tetraethers (brGDGTs) extracted from lake sediments from the Eifel volcanic field, Germany. brGDGTs are bacterial membrane lipids that are known to have strong relationship with temperature, making them suitable for temperature reconstructions. We test several temperature calibration models on modern samples taken from soils and multiple maar lakes. We find a bias associated with water depth and anoxic conditions that can be corrected for by accounting for a brGDGT isomer that is only produced in anoxic conditions. The corrected temperature reconstruction correlates with proxy and model temperature record spanning the same time period, validating the calibration model. However, millennial-scale variability is significantly dampened in the brGDGT record, and in contrast to other northern hemisphere climate records, during several Heinrich stadials, temperatures actually increase. We demonstrate that these apparent discrepancies can be explained by the unique seasonal response of the brGDGT paleothermometer to temperatures of months above freezing (TMAF). Our data support the view that warm season temperatures in Europe varied minimally during the last glacial period, and that abrupt millennial-scale events were defined by colder, longer winters. Our continuous high-resolution temperature reconstruction provides important information about the magnitude of seasonal climate variability during the last glacial period that can be used to test climate models and inform studies of paleoecological change. [ABSTRACT FROM AUTHOR]

Published
2023
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24. A marine record of Patagonian ice sheet changes over the past 140 ka

Author

Hagemann, Julia Rieke, primary, Lamy, Frank, additional, Arz, Helge W., additional, Lembke-Jene, Lester, additional, Martínez-Garcia, Alfredo, additional, Auderset, Alexandra, additional, Harada, Naomi, additional, Ho, Ling, additional, Iwasaki, Shinya, additional, Kaiser, Jérôme, additional, Lange, Carina B., additional, Masafumi, Murayama, additional, Nagashima, Kana, additional, Nowaczyk, Norbert, additional, and Tiedemann, Ralf, additional

Published
2023
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26. Meridional migration of the Antarctic Circumpolar Current over the last glacial cycle

Author

Ai, Xuyuan, primary, Thöle, Lena, additional, Auderset, Alexandra, additional, Schmitt, Mareike, additional, Moretti, Simone, additional, Studer, Anja, additional, Michel, Elisabeth, additional, Wegmann, Martin, additional, Mazaud, Alain, additional, Bijl, Peter, additional, Sigman, Daniel, additional, Martinez-Garcia, Alfredo, additional, and Jaccard, Samuel, additional

Published
2023
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27. North Atlantic N2 Fixation during the Pliocene-Pleistocene Transition

Author

Yehudai, Maayan, primary, Farmer, Jesse, additional, Straub, Marietta, additional, Schiebel, Ralf, additional, Auderset, Alexandra, additional, Lawrence, Kira, additional, Sigman, Daniel, additional, Studer, Anja, additional, Ogretmen, Nazik, additional, Haug, Gerald, additional, and Martinez-Garcia, Alfredo, additional

Published
2023
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28. Oceanic nutrient rise and the late Miocene inception of Pacific oxygen-deficient zones

Author

Wang, Xingchen Tony, primary, Wang, Yuwei, additional, Auderset, Alexandra, additional, Sigman, Daniel M., additional, Ren, Haojia, additional, Martínez-García, Alfredo, additional, Haug, Gerald H., additional, Su, Zhan, additional, Zhang, Yi Ge, additional, Rasmussen, Birger, additional, Sessions, Alex L., additional, and Fischer, Woodward W., additional

Published
2022
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29. Laboratory Assessment of the Impact of Chemical Oxidation, Mineral Dissolution, and Heating on the Nitrogen Isotopic Composition of Fossil‐Bound Organic Matter

Author

Martínez‐García, Alfredo, primary, Jung, Jonathan, additional, Ai, Xuyuan E., additional, Sigman, Daniel M., additional, Auderset, Alexandra, additional, Duprey, Nicolas N., additional, Foreman, Alan, additional, Fripiat, François, additional, Leichliter, Jennifer, additional, Lüdecke, Tina, additional, Moretti, Simone, additional, and Wald, Tanja, additional

Published
2022
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31. Laboratory Assessment of the Impact of Chemical Oxidation, Mineral Dissolution, and Heating on the Nitrogen Isotopic Composition of Fossil-bound Organic Matter

Author

Martinez-Garcia, Alfredo, primary, Jung, Jonathan, additional, Ai, Xuyuan Ellen, additional, Sigman, Daniel M., additional, Auderset, Alexandra, additional, Duprey, Nicolas N., additional, Foreman, Alan, additional, Fripiat, Francois, additional, Leichliter, Jennifer, additional, Lüdecke, Tina, additional, Moretti, Simone, additional, and Wald, Tanja, additional

Published
2022
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32. Laboratory Assessment of the Impact of Chemical Oxidation, Mineral Dissolution, and Heating on the Nitrogen Isotopic Composition of Fossil-bound Organic Matter

Author

Martínez‐García, Alfredo, Jung, Jonathan, Ai, Xuyuan E., Sigman, Daniel M., Auderset, Alexandra, Duprey, Nicolas N., Foreman, Alan, Fripiat, François, Leichliter, Jennifer, Lüdecke, Tina, Moretti, Simone, Wald, Tanja, 1 Max Planck Institute for Chemistry Mainz Germany, and 2 Princeton University Princeton NJ USA

Subjects
nitrogen isotopes, Geophysics, corals, Geochemistry and Petrology, ddc:551.9, foraminifera, diagenesis, diatoms, teeth
Abstract

Fossil‐bound organic material holds great potential for the reconstruction of past changes in nitrogen (N) cycling. Here, with a series of laboratory experiments, we assess the potential effect of oxidative degradation, fossil dissolution, and thermal alteration on the fossil‐bound N isotopic composition of different fossil types, including deep and shallow water scleractinian corals, foraminifera, diatoms and tooth enamel. Our experiments show that exposure to different oxidizing reagents does not significantly affect the N isotopic composition or N content of any of the fossil types analyzed, demonstrating that organic matter is well protected from changes in the surrounding environment by the mineral matrix. In addition, we show that partial dissolution (of up to 70%–90%) of fossil aragonite, calcite, opal, or enamel matrixes has a negligible effect on the N isotopic composition and N content of the fossils. These results suggest that the isotopic composition of fossil‐bound organic material is relatively uniform, and also that N exposed during dissolution is lost without significant isotopic discrimination. Finally, our heating experiments show negligible changes in the N isotopic composition and N content of all fossil types at 100°C. At 200°C and hotter, any N loss and associated nitrogen isotope changes appear to be directly linked to the sensitivity of the mineral matrix to thermal stress, which depends on the biomineral type. These results suggest that, so long as high temperature does not compromise the mineral structure, the biomineral matrix acts as a closed system with respect to N, and the N isotopic composition of the fossil remains unchanged., Plain Language Summary: The ratio of the heavy and light isotopes of nitrogen (15N and 14N) in the organic material contained within the mineral structure of fossils can be used to reconstruct past changes in biological and chemical processes. With a series of laboratory experiments, we evaluate the potential effects of chemical conditions, fossil dissolution, and heating on the nitrogen isotopic composition (15N/14N ratio) of corals, foraminifera, diatoms and tooth enamel. Our results indicate that these processes do not have a significant effect on the 15N/14N of fossils, suggesting that the mineral matrix provides a barrier that isolates a fossil's organic nitrogen from the surrounding environment, preventing alteration of its 15N/14N. In addition, we show that if part of the fossil‐bound organic nitrogen is exposed by dissolution or heating, it is lost without affecting the 15N/14N of the organic material that remains in the mineral. These findings imply that the original 15N/14N ratio incorporated by the organism is preserved in the geologic record. Therefore, measurements of the nitrogen isotopes on fossils can provide faithful biological, ecological, and environmental information about the past., Key Points: Fossil‐bound organic matter is well protected by the mineral matrix from chemical changes in the surrounding environment. Partial dissolution of fossil calcite, aragonite, opal, and enamel has a negligible effect on their N isotopic composition and N content. During heating, fossil N content and isotopic composition remains unchanged if the structure of the inorganic matrix is not compromised., Max Planck Society, Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659, US National Science Foundation, Paul Crutzen Nobel Prize Fellowship, https://doi.org/10.5281/zenodo.6884681

Published
2022

33. Migration of the Antarctic Polar Front over the last glacial cycle

Author

Thöle, Lena, Ai, Xuyuan, Auderset, Alexandra, Schmitt, Mareike, Moretti, Simone, Studer, Anja, Michel, Elisabeth, Wegmann, Martin, Mazaud, Alain, Bijl, Peter, Sigman, Daniel, Martinez-garcia, Alfredo, Jaccard, Samuel L., Thöle, Lena, Ai, Xuyuan, Auderset, Alexandra, Schmitt, Mareike, Moretti, Simone, Studer, Anja, Michel, Elisabeth, Wegmann, Martin, Mazaud, Alain, Bijl, Peter, Sigman, Daniel, Martinez-garcia, Alfredo, and Jaccard, Samuel L.

Abstract

The Southern Hemisphere Westerly Winds (SWW) drive upwelling south of the Antarctic Polar Front (PF) that vents CO2 to the atmosphere. During the ice ages, a northward (equatorward) shift of the PF may have reduced this CO2 venting, helping to explain the lower atmospheric CO2 concentration of those times. However, evidence of PF migration is lacking. Here, we report biomarker–based sea surface temperature (SST) reconstructions from two marine sediment cores at different latitudes in the Southern Indian Ocean across the last glacial cycle. Using a quantitative framework for the effect of the PF on meridional SST gradient, we show that the PF underwent an equatorward shift during the ice ages. The PF latitude reconstruction, when compared with other data, also suggests a role for Earth’s axial tilt in the strength and latitude range of SWW-driven upwelling, which may explain previously noted deviations in atmospheric CO2 from a simple correlation with Antarctic climate.

Published
2022
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35. Migration of the Antarctic Polar Front over the last glacial cycle

Author

Thöle, Lena, primary, Ai, Xuyuan, additional, Auderset, Alexandra, additional, Schmitt, Mareike, additional, Moretti, Simone, additional, Studer, Anja, additional, Michel, Elisabeth, additional, Wegmann, Martin, additional, Mazaud, Alain, additional, Bijl, Peter, additional, Sigman, Daniel, additional, Martinez-Garcia, Alfredo, additional, and Jaccard, Samuel L., additional

Published
2022
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36. Contracted oxygen-deficient zones during Cenozoic climate optima

Author

Auderset, Alexandra, primary, Moretti, Simone, additional, Taphorn, Björn, additional, Ebner, Pia-Rebecca, additional, Kast, Emma, additional, Wang, Xingchen, additional, Schiebel, Ralf, additional, Sigman, Daniel, additional, Haug, Gerald, additional, and Martinez-Garcia, Alfredo, additional

Published
2022
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37. Oceanic nutrient rise and the late Miocene inception of Pacific oxygen-deficient zones.

Author

Xingchen Tony Wang, Yuwei Wang, Auderset, Alexandra, Sigman, Daniel M., Haojia Ren, Martínez-García, Alfredo, Haug, Gerald H., Zhang Su, Yi Ge Zhang, Rasmussen, Birger, Sessions, Alex L., and Fischer, Woodward W.

Subjects
MIOCENE Epoch, NITROGEN isotopes, OCEAN circulation, GLOBAL warming, IRON
Abstract

The modern Pacific Ocean hosts the largest oxygen-deficient zones (ODZs), where oxygen concentrations are so low that nitrate is used to respire organic matter. The history of the ODZs may offer key insights into ocean deoxygenation under future global warming. In a 12-My record from the southeastern Pacific, we observe a >10‰ increase in foraminifera-bound nitrogen isotopes (15N/14N) since the late Miocene (8 to 9 Mya), indicating large ODZs expansion. Coinciding with this change, we find a major increase in the nutrient content of the ocean, reconstructed from phosphorus and iron measurements of hydrothermal sediments at the same site. Whereas global warming studies cast seawater oxygen concentrations as mainly dependent on climate and ocean circulation, our findings indicate that modern ODZs are underpinned by historically high concentrations of seawater phosphate. [ABSTRACT FROM AUTHOR]

Published
2022
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38. Preface: Special Issue on Probing the Open Ocean With the Research Sailing Yacht Eugen Seiboldfor Climate Geochemistry

Author

Schiebel, Ralf, Aardema, Hedy M., Calleja, Maria Ll., Dragoneas, Antonis, Heins, Lena, Hrabe de Angelis, Isabella, Pöhlker, Christopher, Slagter, Hans, Vonhof, Hubert, Walter, David, Arns, Anthea I., Adolphs, Nils, Auderset, Alexandra, Basic, Sanja, Bieler, Aaron, Brüwer, Jan D., Chaabane, Sonia, Cheng, Yafang, Chiliński, Michal T., Cybulski, Jonathan D., Disper, Thomas, Duprey, Nicolas, Eichele, Gregor, Fiedler, Björn, Fischer, Alexa, Foreman, Alan D., Fuchs, Bernhard M., Galer, Steve, Härri, Jana, Jochum, Klaus Peter, Jost, Adrian, Jung, Jonathan, Kleta, Henry, Lammel, Gerhard, Larink, Otto, Leibold, Patrick, Martínez‐García, Alfredo, Moretti, Simone, Müller, Jann‐Gerrit, Nillius, Björn, Pan, Xihao, Raj, Subha S., Repschläger, Janne, Rodrigues, Elizandro, Ruff, S. Emil, Schmitt, Mareike, Schmitter, Janine L., Lara, Andrew Sellers, Silva, Péricles, Smart, Sandi M., Sörgel, Matthias, Stoll, Brigitte, Su, Hang, Vogt, Meike, Wald, Tanja, Weber, Bettina, Weber, Jens, Weis, Ulrike, Amann, Rudolf, Arístegui, Javier, Dittmar, Thorsten, González, Melchor, O’Dea, Aaron, Pöschl, Ulrich, and Haug, Gerald H.

Abstract

The 72‐foot sailing yacht Eugen Seiboldis a new research platform for contamination‐free sampling of the water column and atmosphere for biological, chemical, and physical properties, and the exchange processes between the two realms. Ultimate goal of the project is a better understanding of the modern and past ocean and climate. Operations started in 2019 in the Northeast Atlantic, and will focus on the Tropical Eastern Pacific from 2023 until 2025. Laboratories for air and seawater analyses are equipped with down‐sized and automated state‐of‐the‐art technology for a comprehensive description of the marine carbon system including CO2concentration in the air and sea surface, pH, macro‐, and micro‐nutrient concentration (e.g., Fe, Cd), trace metals, and calcareous plankton. Air samples are obtained from ca. 13 m above sea surface and analyzed for particles (incl. black carbon and aerosols) and greenhouse gases. Plankton nets and seawater probes are deployed over the custom‐made A‐frame at the stern of the boat. Near Real‐Time Transfer of underway data via satellite connection allows dynamic expedition planning to maximize gain of information. Data and samples are analyzed in collaboration with the international expert research community. Quality controlled data are published for open access. The entire suite of data facilitates refined proxy calibration of paleoceanographic and paleoclimate archives at high temporal and spatial resolution in relation to seawater and atmospheric parameters. The new research sailing yacht Eugen Seibold(ES) enables clean, contamination‐free sampling of air and seawater to better understand the interactions between ocean and climate. For example, the oceans remove increasingly less carbon dioxide (CO2) from the atmosphere the more saturated they are with CO2(ocean acidification). However, a detailed systematic understanding of air‐sea exchange processes remains to be developed. We analyze air and seawater as well as the exchange of greenhouse gases and other substances such as aerosols and soot (black carbon) between air and seawater at high resolution using modern materials and technologies. Scaled‐down, energy‐efficient, and automated probes developed over the past decade are being used to measure around 50 different characteristics of the marine environment. The work deck at the stern of the boat allows the use of custom‐made water samplers and plankton nets to study the ocean to below 1,000 m depth. In addition, the new data enables a better understanding of past ocean archives, such as the marine plankton accumulated in seafloor sediments, to reconstruct past climate changes. From 2019 to 2022, the S/Y ESsailed in the eastern North Atlantic and will operate in the tropical eastern Pacific until 2025. New research platform for contamination‐free sampling of the water column and atmosphere of biological, chemical, and physical propertiesComprehensive marine geochemical analyzes including carbon (e.g., CO2) in air and sea surfaceProxy calibration of paleoclimate archives at high temporal and spatial resolution in relation to seawater and atmospheric parameters New research platform for contamination‐free sampling of the water column and atmosphere of biological, chemical, and physical properties Comprehensive marine geochemical analyzes including carbon (e.g., CO2) in air and sea surface Proxy calibration of paleoclimate archives at high temporal and spatial resolution in relation to seawater and atmospheric parameters

Published
2024
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39. Nutrient cycling in the oligotrophic ocean over the past 65 million years

Author

Auderset, Alexandra

Subjects
Alkenones, Cenozoic, Nitrogen isotopes, Foraminifera, Biomarker, Miocene, BIOGEOCHEMISTRY, Nitrogen cycle, Eocene, glacial/interglacial cycles, Earth sciences, GDGTs, PALEOCEANOGRAPHY, Temperature reconstructions
Abstract

Nitrogen (N) holds a central position in ocean biogeochemistry due to its role as a limiting nutrient for biological productivity in the ocean and its resultant influence on the marine carbon cycle. Nitrogen isotopes represent a powerful tool to investigate changes in the marine N-cycle across different timescales. However, their use in geochemical studies has been traditionally limited by the potential diagenetic artifact related to changes in organic matter preservation through geologic time. Over the past ten years, the analysis of the isotopic com- position of organic matter protected within the mineral structure of planktonic foraminifera shells (foraminifera bound, FB) has emerged as a way to circumvent diagenetic overprints of classical techniques. The objective of this thesis is to use this novel technique to study the evolution of the N-cycle over previously unexplored periods of the Cenozoic, with a particular focus on the late Pleistocene glacial cycles (Chapter 3), the Mid Miocene (Chapter 4), and the Mid Eocene Climate Optimum (Chapter 7). Foraminifera-bound N isotope measurements (FB-d15N) are complemented by the development of a new method for organic biomarker extraction (Chapter 5), which has allowed the analysis of a significant number of samples, and provided new constraints on climate evolution across the studied time periods (Chapters 6 and 8). In Chapter 3, we show a pervasive coupling between low-latitude N-fixation and ocean circulation changes that control the supply of excess phosphorous (P) to the surface ocean in the Atlantic Ocean. Our data suggest decreased N-fixation in the North and South Atlantic oligotrophic gyres during periods when the supply of excess P by Antarctic Intermediate Water (AAIW) is suppressed by Glacial North Atlantic Intermediate Water (GNAIW). In contrast, precessional changes in the strength of equatorial upwelling - which in turn drive the supply of excess P - appear to be particularly important to N-fixation in the Caribbean Sea, noticeably weaker in the northern gyre, and negligible in the southern gyre. In Chapter 4, we report the first FB-d15N spanning the last 25 million years (Ma) from three sediment cores located in the subtropical gyres of the South Atlantic (DSDP 516), Pacific (ODP 872) and Indian Ocean (ODP 754). We find a substantial drop in FB-d15N values during the Mid Miocene Climatic Optimum (MMCO) and a significant reduction in the d15N gradient between the Pacific and Atlantic Ocean. We propose that these changes are best explained by a combination of (i) an increase in sedimentary denitrification rates triggered by the expansion of continental shelves associated with the MMCO sea level rise and enhanced continental weathering; (ii) a decrease in water column denitrification caused by tectonically-driven ocean circulation changes, which increased the supply of oxygen to the subsurface ocean and (iii) an increase in N-fixation as a response to the excess P supply from sedimentary denitrification. After the MMCO, the isotopic gradient between the Pacific and Atlantic basins increased, reaching its maximum during the Pliocene epoch. This is interpreted as the impact of ocean circulation changes associated with the closing of low-latitude oceanic gateways during the Miocene, and the subsequent influence of these changes on water column denitrification in the Pacific. Chapter 7 focuses on the Mid Eocene Climatic Optimum (MECO), a short-term episode of climate warming that occurred at ca. 40 Ma. The warming event shows a 3-4 permil decrease in FB-d15N in the South Atlantic gyre. Similar to the MMCO, this change in FB-d15N is possibly related to upper ocean stratification and increased N-fixation in the subtropical oligotrophic gyre and/or an increase in sedimentary denitrification in shallow seas and subsurface waters in shelf areas. In parallel to the efforts above, we developed a new extraction and separation method for organic biomarkers in Chapter 5. In Chapter 6, we reconstructed biomarker-based sea surface temperatures (SST) on mid-latitude core sites across the Cenozoic. The combination of newly derived and previously published GDGT-SST data demonstrate that warm tropical SST expanded significantly towards the poles in both hemispheres, resulting in a reduced temperature gradient between mid- and low-latitudes during most of the Cenozoic. In Chapter 8, we detected an increase in methanotrophy on two Pacific sediment cores in the Mid Miocene suggesting that methane release could have potentially reinforced the CO2 greenhouse gas effect during the MMCO.

Published
2020
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42. Colombia, Doctoral Excursion, Earth Sciences Department ETH Zurich, August 21-September 5, 2018

Author

Auderset, Alexandra, Cafagna, Fabio, Echeverria Pazos, Leonardo, Elison, Patrick, Erlanger, Erica, Fomin, Ilya, Guitián, José, Hawemann, Friedrich, Kueter, Nico, Mandl, Maximilian, Mejía, Luz María, Moretti, Simone, Oestreicher, Nicolas Kyochi, Ott, Richard, Paneva, Nadezhda, Petschnig, Paul, Preuss, Simon, Reitano, Riccardo, Renz, Tobias, Revels, Brandi N., Wang, Yanyan, Winterberg, Sascha, Zhang, Hongrui, Erlanger, Erica, and Ott, Richard

Published
2018
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43. Glacial-interglacial dust and export production records from the Southern Indian Ocean

Author

Thöle, Lena M., primary, Amsler, H. Eri, additional, Moretti, Simone, additional, Auderset, Alexandra, additional, Gilgannon, James, additional, Lippold, Jörg, additional, Vogel, Hendrik, additional, Crosta, Xavier, additional, Mazaud, Alain, additional, Michel, Elisabeth, additional, Martínez-García, Alfredo, additional, and Jaccard, Samuel L., additional

Published
2019
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46. Nutrient cycling in the oligotrophic ocean over the past 65 million years

Author

Auderset, Alexandra; id_orcid 0000-0002-6316-4980

Subjects
PALEOCEANOGRAPHY, BIOGEOCHEMISTRY, Nitrogen cycle, Nitrogen isotopes, Foraminifera, Temperature reconstructions, Biomarker, Alkenones, GDGTs, glacial/interglacial cycles, Miocene, Eocene, Cenozoic, Earth sciences
Abstract

Nitrogen (N) holds a central position in ocean biogeochemistry due to its role as a limiting nutrient for biological productivity in the ocean and its resultant influence on the marine carbon cycle. Nitrogen isotopes represent a powerful tool to investigate changes in the marine N-cycle across different timescales. However, their use in geochemical studies has been traditionally limited by the potential diagenetic artifact related to changes in organic matter preservation through geologic time. Over the past ten years, the analysis of the isotopic com- position of organic matter protected within the mineral structure of planktonic foraminifera shells (foraminifera bound, FB) has emerged as a way to circumvent diagenetic overprints of classical techniques. The objective of this thesis is to use this novel technique to study the evolution of the N-cycle over previously unexplored periods of the Cenozoic, with a particular focus on the late Pleistocene glacial cycles (Chapter 3), the Mid Miocene (Chapter 4), and the Mid Eocene Climate Optimum (Chapter 7). Foraminifera-bound N isotope measurements (FB-d15N) are complemented by the development of a new method for organic biomarker extraction (Chapter 5), which has allowed the analysis of a significant number of samples, and provided new constraints on climate evolution across the studied time periods (Chapters 6 and 8). In Chapter 3, we show a pervasive coupling between low-latitude N-fixation and ocean circulation changes that control the supply of excess phosphorous (P) to the surface ocean in the Atlantic Ocean. Our data suggest decreased N-fixation in the North and South Atlantic oligotrophic gyres during periods when the supply of excess P by Antarctic Intermediate Water (AAIW) is suppressed by Glacial North Atlantic Intermediate Water (GNAIW). In contrast, precessional changes in the strength of equatorial upwelling - which in turn drive the supply of excess P - appear to be particularly important to N-fixation in the Caribbean Sea, noticeably weaker in the northern gyre, and negligible in the southern gyre. In Chapter 4, we report the first FB-d15N spanning the last 25 million years (Ma) from three sediment cores located in the subtropical gyres of the South Atlantic (DSDP 516), Pacific (ODP 872) and Indian Ocean (ODP 754). We find a substantial drop in FB-d15N values during the Mid Miocene Climatic Optimum (MMCO) and a significant reduction in the d15N gradient between the Pacific and Atlantic Ocean. We propose that these changes are best explained by a combination of (i) an increase in sedimentary denitrification rates triggered by the expansion of continental shelves associated with the MMCO sea level rise and enhanced continental weathering; (ii) a decrease in water column denitrification caused by tectonically-driven ocean circulation changes, which increased the supply of oxygen to the subsurface ocean and (iii) an increase in N-fixation as a response to the excess P supply from sedimentary denitrification. After the MMCO, the isotopic gradient between the Pacific and Atlantic basins increased, reaching its maximum during the Pliocene epoch. This is interpreted as the impact of ocean circulation changes associated with the closing of low-latitude oceanic gateways during the Miocene, and the subsequent influence of these changes on water column denitrification in the Pacific. Chapter 7 focuses on the Mid Eocene Climatic Optimum (MECO), a short-term episode of climate warming that occurred at ca. 40 Ma. The warming event shows a 3-4 permil decrease in FB-d15N in the South Atlantic gyre. Similar to the MMCO, this change in FB-d15N is possibly related to upper ocean stratification and increased N-fixation in the subtropical oligotrophic gyre and/or an increase in sedimentary denitrification in shallow seas and subsurface waters in shelf areas. In parallel to the efforts above, we developed a new extraction and separation method for organic biomarkers in Chapter 5. In Chapter 6, we reconstructed biomarker-based sea surface temperatures (SST) on mid-latitude core sites across the Cenozoic. The combination of newly derived and previously published GDGT-SST data demonstrate that warm tropical SST expanded significantly towards the poles in both hemispheres, resulting in a reduced temperature gradient between mid- and low-latitudes during most of the Cenozoic. In Chapter 8, we detected an increase in methanotrophy on two Pacific sediment cores in the Mid Miocene suggesting that methane release could have potentially reinforced the CO2 greenhouse gas effect during the MMCO.

Published
2020

47. Glacial-interglacial dust and export production records from the Southern Indian Ocean

Author

Thöle, Lena, Amsler, H. Eri, Moretti, Simone, Auderset, Alexandra, Gilgannon, James, Lippold, Jörg, Vogel, Hendrik, Crosta, Xavier, Mazaud, Alain, Michel, Elisabeth, Martinez-Garcia, Alfredo, and Jaccard, Samuel L.

Subjects
13. Climate action, 550 Earth sciences & geology, 14. Life underwater
Abstract

We present 230Th-normalized dust and export production fluxes for two contrasted marine sediment cores spanning the Antarctic Polar Front, close to the Kerguelen Plateau in the Southern Indian Ocean, covering the last glacial cycle. We report glacial lithogenic fluxes comparable to the South Atlantic and higher than in the South Pacific sectors of the Southern Ocean. Structural and temporal discrepancies with dust reconstructions from Antarctic ice cores and the Atlantic and Pacific sectors of the Subantarctic Zone (SAZ) point towards Southern Africa and/or the Kerguelen Plateau as an additional source of lithogenic material to the Southern Indian Ocean during the last ice age. In the SAZ, export production proxies respond to iron (Fe) fertilization with total organic carbon (TOC) fluxes as high as those previously reported from the Atlantic sector of the Southern Ocean. However, the correlation between export production and dust proxies is weaker than in the other sectors, and shows a muted response of export production during peak glacials. We hypothesize that this muted response may be related to macronutrient (co-)limitation imposed on phytoplankton growth possibly induced by a northward displacement of wind-driven upwelling and/or the polar frontal system during peak glacials. The Antarctic Zone (AZ) record depicts the typical pattern of enhanced export production during interglacials and comparatively low productivity during glacials suggesting a decrease in the supply of macronutrients to the AZ surface during ice ages compared to warm periods, as previously proposed. However, a muted response of opal fluxes during marine isotope stage (MIS) 5e argues for a southward migration of the frontal system during warmer MIS 5e, possibly causing silicic acid (co-)limitation at this site.

48. Gulf Stream intensification after the early Pliocene shoaling of the Central American Seaway

Author

Auderset, Alexandra, Martinez-Garcia, Alfredo, Tiedemann, Ralf, Hasenfratz, Adam, Eglinton, Tim I., Schiebel, Ralf, Sigman, Daniel M., and Haug, Gerald H.

Subjects
13. Climate action, 550 Earth sciences & geology, 14. Life underwater
Abstract

The shoaling of the Central American Seaway (CAS) around 4.6 Ma (million years ago) is thought to have enhanced the Gulf Stream, strengthening the Atlantic Meridional Overturning Circulation and potentially influencing the evolution of Pliocene climate. Paleoclimate records indicate a buildup of heat and salt in the Caribbean and changes in the formation of North Atlantic Deep Water (NADW) associated with a major step in the shoaling of the CAS at 4.6 Ma. However, so far, direct evidence supporting an intensification of the Gulf Stream is scarce. Here we report new North Atlantic early Pliocene (5.3–3.9 Ma) records of sea surface temperature (SST) reconstructed using the UK37’ and TEX86 paleotemperature indices. Based on new sediment trap measurements near the study site, we suggest that in this particular region, the two paleothermometers record SST during different seasons: spring for UK37’ and summer for TEX86. At 4.6 and 4.2 Ma, our results indicate substantial increases in SST and salinity during summer but not spring, pointing to a significant intensification of the Gulf Stream and its extension, the North Atlantic Current, after the shoaling of the CAS. The divergence of the UK37’ and TEX86 temperature trends in those intervals suggests that the Gulf Stream intensification contributed to the strong North Atlantic seasonality that is observed today

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