Kelden Pehr scite author profile

Middle-to-late Ediacaran (575–541 Ma) marine sedimentary rocks record the first appearance of macroscopic, multicellular body fossils, yet little is known about the environments and food sources that sustained this enigmatic fauna. Here, we perform a lipid biomarker and stable isotope (δ15Ntotal and δ13CTOC) investigation of exceptionally immature late Ediacaran strata (<560 Ma) from multiple locations across Baltica. Our results show that the biomarker assemblages encompass an exceptionally wide range of hopane/sterane ratios (1.6–119), which is a broad measure of bacterial/eukaryotic source organism inputs. These include some unusually high hopane/sterane ratios (22–119), particularly during the peak in diversity and abundance of the Ediacara biota. A high contribution of bacteria to the overall low productivity may have bolstered a microbial loop, locally sustaining dissolved organic matter as an important organic nutrient. These oligotrophic, shallow-marine conditions extended over hundreds of kilometers across Baltica and persisted for more than 10 million years.

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Discovery of active off-axis hydrothermal vents at 9° 54′N East Pacific Rise

McDermott

Parnell‐Turner

Barreyre

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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Comprehensive knowledge of the distribution of active hydrothermal vent fields along midocean ridges is essential to understanding global chemical and heat fluxes and endemic faunal distributions. However, current knowledge is biased by a historical preference for on-axis surveys. A scarcity of high-resolution bathymetric surveys in off-axis regions limits vent identification, which implies that the number of vents may be underestimated. Here, we present the discovery of an active, high-temperature, off-axis hydrothermal field on a fast-spreading ridge. The vent field is located 750 m east of the East Pacific Rise axis and ∼7 km north of on-axis vents at 9° 50′N, which are situated in a 50- to 100-m-wide trough. This site is currently the largest vent field known on the East Pacific Rise between 9 and 10° N. Its proximity to a normal fault suggests that hydrothermal fluid pathways are tectonically controlled. Geochemical evidence reveals deep fluid circulation to depths only 160 m above the axial magma lens. Relative to on-axis vents at 9° 50′N, these off-axis fluids attain higher temperatures and pressures. This tectonically controlled vent field may therefore exhibit greater stability in fluid composition, in contrast to more dynamic, dike-controlled, on-axis vents. The location of this site indicates that high-temperature convective circulation cells extend to greater distances off axis than previously realized. Thorough high-resolution mapping is necessary to understand the distribution, frequency, and physical controls on active off-axis vent fields so that their contribution to global heat and chemical fluxes and role in metacommunity dynamics can be determined.

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Preservation and Distributions of Covalently Bound Polyaromatic Hydrocarbons in Ancient Biogenic Kerogens and Insoluble Organic Macromolecules

Pehr

Bisquera

Bishop³

et al. 2021

Astrobiology

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Exceptional Preservation of Lipid Biomarkers Reveals New Insights Into Late Ediacaran Oligotrophic Shallow-Marine Communities and Environments on Baltica

Pehr¹,

Love²,

Kuznetsov³

et al. 2017

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Potential energy sources for the deep continental biosphere in isolated anoxic brines

Dowd

Schuler²,

Santelli³

et al. 2022

Earth and Planetary Science Letters

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Kelden Pehr

Ediacara biota flourished in oligotrophic and bacterially dominated marine environments across Baltica

Discovery of active off-axis hydrothermal vents at 9° 54′N East Pacific Rise

Preservation and Distributions of Covalently Bound Polyaromatic Hydrocarbons in Ancient Biogenic Kerogens and Insoluble Organic Macromolecules

Exceptional Preservation of Lipid Biomarkers Reveals New Insights Into Late Ediacaran Oligotrophic Shallow-Marine Communities and Environments on Baltica

Potential energy sources for the deep continental biosphere in isolated anoxic brines

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