Wildfire-Derived Pyrogenic Carbon Modulates Organic Matter and Microbial Functioning in a Fluvial Ecosystem

Abstract: Wildfires produce large amounts of pyrogenic carbon (PyC), including particulate charcoal, known for its chemical recalcitrance and sorption affinity for organic molecules. Wildfire-derived PyC is highly mobile in the landscape and can be transported to fluvial networks where it may impact natural dissolved organic matter (DOM) and microbial biofilms. The effects of PyC on freshwater ecosystems and carbon cycling therein remain poorly investigated. To address this research gap, we used in-stream flumes with a… Show more

“…Long term release of CO 2 from PBC might be a significant loss process of C leading to isotopic enrichment of the residual PBC pool. Another study exploring the effect of pyrogenic C on stream biogeochemistry observed the release of dissolved organic matter from pyrogenic C (Bistarelli et al., 2021). The reactivity of PBC in aquatic systems provides fresh insights into its ability to actively participate in the global C cycle and the limited ability to sequester C as otherwise anticipated.…”

Isotopic Evidence for Degradation of Particulate Black Carbon in the Ocean

“…Long term release of CO 2 from PBC might be a significant loss process of C leading to isotopic enrichment of the residual PBC pool. Another study exploring the effect of pyrogenic C on stream biogeochemistry observed the release of dissolved organic matter from pyrogenic C (Bistarelli et al., 2021). The reactivity of PBC in aquatic systems provides fresh insights into its ability to actively participate in the global C cycle and the limited ability to sequester C as otherwise anticipated.…”

Isotopic Evidence for Degradation of Particulate Black Carbon in the Ocean