“…Thermally altered plant biomass (char) is ubiquitous in the environment and has long been recognized as an important geosorbent for organic compounds and inorganic species, including pollutants. − More recent work has revealed that chars are also redox-active by accepting and donating electrons and, thereby, participate in biogeochemical electron transfer processes and pollutant redox transformations. − Chars accept electrons from anaerobic microbial respiration or from inorganic reductants in the environment (e.g., hydrogen sulfide). ,,,,− ,,,, Following reduction, chars may then transfer electrons to both organic and inorganic pollutants, thereby facilitating their reductive transformation. ,,− ,,,, Chars are also involved in electron transfer between microbial cells , or from metal-reducing bacteria to hematite or ferrihydrite. , In addition, electron transfer to and from chars was shown to mitigate emissions of the radiatively active trace gas N 2 O from agricultural soils. , The important role of chars in redox reactions has led to considerable interest in characterizing the redox chemistry and reactivity of chars. However, chars also release dissolved organic carbon (DOC), which herein we refer to as pyrogenic dissolved organic matter (pyDOM) (operationally defined as DOC from bulk chars that passes through 0.45 μm filters). − The released amounts of pyDOM are considered significant in the global carbon cycle: for instance, pyDOM is estimated to contribute ∼10% of the riverine flux of DOC to the oceans. , Yet, compared to bulk chars and non-pyrogenic DOM, only a few studies have characterized ...…”