Hannah Marchant’s research while affiliated with University of Bremen and other places

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Publications (1)


Sample locations of seawater and Yedoma permafrost. Erosion rates of permafrost underlain coastlines are indicated (based on Lantuit et al., 2020).
Experimental setup for both sample‐ and monitoring‐vials, displaying quantities of Yedoma slurry, (filtered) seawater, and number of replicates. Monitoring vials include additional optodes for in situ pH and O2 measurements. Figure has been created using BioRender.com.
Cumulative concentrations of (a) dissolved inorganic carbon (DIC) plus carbon dioxide (DIC + CO2) and (b) corresponding F¹⁴C signatures (right). Propagated 1σ uncertainties are displayed in both panels (detail see supplement).
Dissolved inorganic carbon production (circles with solid lines) and corresponding F¹⁴C signature (rhombuses with dashed lines) in seawater + Yedoma (SW + YE) over 85 days, the displayed values are based on the data presented in panels (a) and (b) of Figure 3. Error bars indicate propagated 1σ uncertainties for both data sets (for details see supplement).
Cumulative concentrations of aqueous parameters. (a) Dissolved organic carbon (DOC; circles with solid lines) and total dissolved nitrogen (TDN; rhombuses with dashed lines); (b) ammonium (NH4⁺; circles with solid lines) and phosphate (PO4³⁻; rhombuses with dashed lines). Propagated 1σ uncertainties are displayed in both panels (detail see supplement).

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Microbial Communities Degrade Ancient Permafrost‐Derived Organic Matter in Arctic Seawater
  • Article
  • Full-text available

July 2024

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245 Reads

Manuel Ruben

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Hannah Marchant

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The Arctic is experiencing rapid warming, which among other processes results in increasing erosion of coastal permafrost and the release of ancient organic carbon (OC) into the Arctic Ocean, which in turn might result in greenhouse gas emissions following its decomposition. Supply of terrigenous organic matter to the ocean affects near‐shore nutrient concentrations and the composition of microbial communities—highlighting the need to understand the fate of permafrost‐derived carbon in this fragile ecosystem. We incubated material from coastal Yedoma permafrost for 85 days in seawater collected during the Arctic Century expedition. During this experiment, 2.8 ± 1.4% of OC from coastal Yedoma was respired to CO2. Radiocarbon analysis revealed that 88 ± 15% of the released CO2 originated from ancient material (∼40,000 years), indicating that degradation of permafrost OC reintroduces old carbon into the short‐term carbon cycle. Hence, the permafrost climate feedback may be enhanced in the coming decades when coastal erosion accelerates. Additionally, 0.9 ± 0.3% of Yedoma OC was leached as dissolved OC. The observed net production of inorganic nitrogen during the incubation could potentially provide a negative feedback by stimulating primary production. Bacterial community analysis showed a succession of primary responders to biolabile substrates (e.g., Psychrobacter and Colwellia) followed by secondary consumers of less biolabile substrates (e.g., Maribacter and Pseudohongiella), plus a potential establishment of permafrost associated‐bacteria on particles. Overall, our data show that OC input from thawing permafrost stimulates bacterial dynamics, with likely implications for regional biogeochemical cycles and the Earth's climate.

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