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199 results on '"Hemingway, Jordon"'

1. The triple oxygen isotope composition of marine sulfate and 130 million years of microbial control

Author

Waldeck, Anna R, Hemingway, Jordon D, Yao, Weiqi, Paytan, Adina, and Johnston, David T

Subjects
Earth Sciences, Geochemistry, Geology, Life Below Water, Oxygen Isotopes, Seawater, Sulfates, Sulfur Oxides, barite, marine sulfate, triple oxygen isotopes, Cenozoic, Cretaceous
Abstract

The triple oxygen isotope composition (Δ'17O) of sulfate minerals is widely used to constrain ancient atmospheric pO2/pCO2 and rates of gross primary production. The utility of this tool is based on a model that sulfate oxygen carries an isotope fingerprint of tropospheric O2 incorporated through oxidative weathering of reduced sulfur minerals, particularly pyrite. Work to date has targeted Proterozoic environments (2.5 billion to 0.542 billion years ago) where large isotope anomalies persist; younger timescale records, which would ground ancient environmental interpretation in what we know from modern Earth, are lacking. Here we present a high-resolution record of the [Formula: see text]O and Δ'17O in marine sulfate for the last 130 million years of Earth history. This record carries a Δ'17O close to 0o, suggesting that the marine sulfate reservoir is under strict control by biogeochemical cycling (namely, microbial sulfate reduction), as these reactions follow mass-dependent fractionation. We identify no discernible contribution from atmospheric oxygen on this timescale. We interpret a steady fractional contribution of microbial sulfur cycling (terrestrial and marine) over the last 100 million years, even as global weathering rates are thought to vary considerably.

Published
2022

5. Climate control on terrestrial biospheric carbon turnover

Author

Eglinton, Timothy I., Galy, Valier V., Hemingway, Jordon D., Feng, Xiaojuan, Bao, Hongyan, Blattmann, Thomas M., Dickens, Angela F., Gies, Hannah, Giosan, Liviu, Haghipour, Negar, Hou, Pengfei, Lupker, Maarten, McIntyre, Cameron P., Montluçon, Daniel B., Peucker-Ehrenbrink, Bernhard, Ponton, Camilo, Schefuß, Enno, Schwab, Melissa S., Voss, Britta M., Wacker, Lukas, Wu, Ying, and Zhao, Meixun

Published
2021

7. The geologic history of marine dissolved organic carbon from iron oxides

Author

Galili, Nir, primary, Bernasconi, Stefano, additional, Nissan, Alon, additional, Alcolombri, Uria, additional, Aquila, Giorgia, additional, Bella, Marcella Di, additional, Blattmann, Thomas, additional, Haghipour, Negar, additional, Italiano, Francesco, additional, Jaggi, Madalina, additional, Kaplan-Ashiri, Ifat, additional, Lechte, Maxwell, additional, Porter, Susannah, additional, Rudmin, Maxim, additional, Spencer, Robert, additional, Wohlwend, Stephan, additional, and Hemingway, Jordon, additional

Published
2024
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19. Clay hydroxyl isotopes show an enhanced hydrological cycle during the Paleocene-Eocene thermal maximum

Author

Walters, Greg, Kemp, Simon, Hemingway, Jordon, Johnston, David, Hodell, David, Walters, Gregory L [0000-0002-5642-5572], Kemp, Simon J [0000-0002-4604-0927], Hemingway, Jordon D [0000-0002-8299-2255], Hodell, David A [0000-0001-8537-1588], and Apollo - University of Cambridge Repository

Subjects
3103 Ecology, 37 Earth Sciences, 3709 Physical Geography and Environmental Geoscience, 3702 Climate Change Science, 31 Biological Sciences
Abstract

The Paleocene-Eocene Thermal Maximum (PETM) was an abrupt global warming event associated with a large injection of carbon into the ocean-atmosphere system, as evidenced by a diagnostic carbon isotope excursion (CIE). Evidence also suggests substantial hydrologic perturbations, but details have been hampered by a lack of appropriate proxies. To address this shortcoming, here we isolate and measure the isotopic composition of hydroxyl groups (OH-) in clay minerals from a highly expanded PETM section in the North Sea Basin, ogether with their bulk oxygen isotope composition. At this location, we show that hydroxyl O- and H-isotopes are less influenced than bulk values by clay compositional changes due to mixing and/or inherited signals and thus better track hydrologic variability. We find that clay OH- hydrogen-isotope values (δ2HOH) decrease slowly prior to the PETM and then abruptly by ~8 ‰ at the CIE onset. Coincident with an increase in relative kaolinite content, this indicates increased rainfall and weathering and implies an enhanced hydrologic cycle response to global warming, particularly during the early stages of the PETM. Subsequently, δ2HOH returns to pre-PETM values well before the end of the CIE, suggesting hydrologic changes in the North Sea were short-lived relative to carbon-cycle perturbations.

Published
2023
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22. Multi-molecular 14C evidence for mineral control on terrestrial carbon storage and export.

Author

Gies, Hannah, Lupker, Maarten, Galy, Valier, Hemingway, Jordon, Boehman, Brenna, Schwab, Melissa, Haghipour, Negar, and Eglinton, Timothy I.

Subjects
POLYCARBOXYLIC acids, CARBON cycle, CARBON isotopes, CARBON, MINERALS, CHLOROGENIC acid
Abstract

Compound- and compound class-specific radiocarbon analysis of source-diagnostic 'biomarker' molecules has emerged as a powerful tool to gain insights into terrestrial carbon cycling. While most studies thus far have focused on higher plant biomarkers (i.e. plant leaf-wax n-alkanoic acids and n-alkanes, lignin-derived phenols), tracing paedogenic carbon is crucial given the pivotal role of soils in modulating ecosystem carbon turnover and organic carbon (OC) export. Here, we determine the radiocarbon (14C) ages of glycerol dialkyl glycerol tetraethers (GDGTs) in riverine sediments and compare them to those of higher plant biomarkers as well as markers of pyrogenic (fire-derived) carbon (benzene polycarboxylic acids, BPCAs) to assess their potential as tracers of soil turnover and export. GDGT Δ14C follows similar relationships with basin properties as vegetation-derived lignin phenols and leaf-wax n-alkanoic acids, suggesting that the radiocarbon ages of these compounds are significantly impacted by intermittent soil storage. Systematic radiocarbon age offsets are observable between the studied biomarkers, which are likely caused by different mobilization pathways and/or stabilization by mineral association. This article is part of the Theo Murphy meeting issue 'Radiocarbon in the Anthropocene'. [ABSTRACT FROM AUTHOR]

Published
2023
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26. The geologic history of seawater DOC from marine iron oxides

Author

Galili, Nir, primary, Hemingway, Jordon, additional, Bernasconi, Stefano, additional, Blattmann, Thomas, additional, Haghipour, Negar, additional, Jaggi, Madalina, additional, Aquila, Giorgia, additional, Nissan, Alon, additional, Alcolombri, Uria, additional, Spencer, Robert, additional, Kurek, Martin, additional, Lechte, Maxwell, additional, and Porter, Susannah, additional

Published
2023
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34. New Zealand Weathering Sulfate

Author

Hemingway, Jordon

Subjects
inorganic chemicals, landslides, 17O, Geology, Geomorphology, FOS: Earth and related environmental sciences, sulfate, Biogeochemistry, 34S, Geochemistry, sulfur, Physical Sciences and Mathematics, Earth Sciences, weathering, population characteristics, 18O, oxygen, geographic locations
Abstract

This project concerns New Zealand weathering sulfate sulfur and oxygen isotopes

Published
2022
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38. Biomarker approaches for reconstructing terrestrial environmental change

Author

Inglis, Gordon, Bhattacharya, Tripti, Hemingway, Jordon, Hollingsworth, Emily, Feakins, Sarah, and Tierney, Jessica E.

Abstract

The response of the terrestrial biosphere to warming remains one of the most poorly understood and quantified aspects of the climate system. One way to test the behaviour of the Earth system in warm climate states is to examine the geological record. The abundance, distribution, and/or isotopic composition of source-specific organic molecules (“biomarkers”) have been used to reconstruct terrestrial paleoenvironmental change over a range of geological timescales. Here, we review new or recently improved biomarker approaches for reconstructing: (i) physical climate variables (land temperature, rainfall), (ii) ecosystem state variables (vegetation, fire regime), and (iii) biogeochemical variables (soil residence time, methane cycling). This review encompasses a range of key compound classes (e.g., lipids, lignin, and carbohydrates). In each section, we explore the concept behind key biomarker approaches and discuss their successes as paleoenvironmental indicators. We emphasize that analyzing several biomarkers in tandem can provide unique insights into the Earth System.

Published
2022

39. Vitamin B 12 -dependent biosynthesis ties amplified 2-methylhopanoid production during oceanic anoxic events to nitrification

Author

Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Elling, Felix J, Hemingway, Jordon D, Evans, Thomas W, Kharbush, Jenan J, Spieck, Eva, Summons, Roger E, Pearson, Ann, Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Elling, Felix J, Hemingway, Jordon D, Evans, Thomas W, Kharbush, Jenan J, Spieck, Eva, Summons, Roger E, and Pearson, Ann

Abstract

© 2020 National Academy of Sciences. All rights reserved. Bacterial hopanoid lipids are ubiquitous in the geologic record and serve as biomarkers for reconstructing Earth’s climatic and biogeochemical evolution. Specifically, the abundance of 2-methylhopanoids deposited during Mesozoic ocean anoxic events (OAEs) and other intervals has been interpreted to reflect proliferation of nitrogen-fixing marine cyanobacteria. However, there currently is no conclusive evidence for 2-methylhopanoid production by extant marine cyanobacteria. As an alternative explanation, here we report 2-methylhopanoid production by bacteria of the genus Nitrobacter, cosmopolitan nitrite oxidizers that inhabit nutrient-rich freshwater, brackish, and marine environments. The model organism Nitrobacter vulgaris produced only trace amounts of 2-methylhopanoids when grown in minimal medium or with added methionine, the presumed biosynthetic methyl donor. Supplementation of cultures with cobalamin (vitamin B12) increased nitrite oxidation rates and stimulated a 33-fold increase of 2-methylhopanoid abundance, indicating that the biosynthetic reaction mechanism is cobalamin dependent. Because Nitrobacter spp. cannot synthesize cobalamin, we postulate that they acquire it from organisms inhabiting a shared ecological niche—for example, ammonia-oxidizing archaea. We propose that during nutrient-rich conditions, cobalamin-based mutualism intensifies upper water column nitrification, thus promoting 2-methylhopanoid deposition. In contrast, anoxia underlying oligotrophic surface ocean conditions in restricted basins would prompt shoaling of anaerobic ammonium oxidation, leading to low observed 2-methylhopanoid abundances. The first scenario is consistent with hypotheses of enhanced nutrient loading during OAEs, while the second is consistent with the sedimentary record of Pliocene–Pleistocene Mediterranean sapropel events. We thus hypothesize that nitrogen cycling in the Pliocene–Pleistocene Mediterranean

Published
2022

41. Reforestation drastically reduces CO2 release from sulfide oxidation and its climatic sensitivity – Insight from a paired catchment approach at the Draix-Bleone Observatory

Author

Hilton, Robert, primary, Ogric, Mateja, additional, Dellinger, Mathieu, additional, Soulet, Guillaume, additional, Klotz, Sebastian, additional, Hemingway, Jordon, additional, Turchyn, Alexandra, additional, Le Bouteiller, Caroline, additional, and Schiffer, Christian, additional

Published
2022
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