Organic sulfur from source to sink in low‐sulfate Lake Superior

Abstract: Organic sulfur plays a crucial role in the biogeochemistry of aquatic sediments, especially in low sulfate (< 500 μM) environments like freshwater lakes and the Earth's early oceans. To better understand organic sulfur cycling in these systems, we followed organic sulfur in the sulfate‐poor (< 40 μM) iron‐rich (30–80 μM) sediments of Lake Superior from source to sink. We identified microbial populations with shotgun metagenomic sequencing and characterized geochemical species in porewater and solid phase… Show more

“…low concentrations of Fe sulfides), suggesting that the EXAFS analysis is highly sensitive to the presence of sulfides, or is perhaps interfered with by an unknown phase. Sulfide abundance is limited by the small sulfate reservoir in the water column available for reduction (Lambrecht et al, 2018), though a contribution from an organic sulfur reservoir cannot be ruled out (e.g., Phillips et al, 2023).…”

Direct precipitation of siderite in ferruginous environments

“…low concentrations of Fe sulfides), suggesting that the EXAFS analysis is highly sensitive to the presence of sulfides, or is perhaps interfered with by an unknown phase. Sulfide abundance is limited by the small sulfate reservoir in the water column available for reduction (Lambrecht et al, 2018), though a contribution from an organic sulfur reservoir cannot be ruled out (e.g., Phillips et al, 2023).…”

Direct precipitation of siderite in ferruginous environments

Sediment pore waters