posted on 2023-02-24, 19:04authored byEmma A.
J. Blackburn, Sarah E. Dickson-Anderson, William B. Anderson, Monica B. Emelko
Elevated/altered levels of dissolved organic matter (DOM)
in water
can be challenging to treat after wildfire. Biologically mediated
treatment removes some DOM; here, its ability to remove elevated/altered
postfire dissolved organic carbon (DOC) resulting from wildfire ash
was investigated for the first time. Treatment of wildfire ash-amended
(low, moderate, high) source waters by bench-scale biofilters was
evaluated in duplicate. Turbidity and DOC were typically well-removed
(effluent turbidity ≤0.3 NTU; average DOC removal ∼20%)
in all biofilters during periods of stable source water quality. Daily
DOC removal across all biofilters (ash-amended and controls) was generally
consistent, suggesting that (i) the biofilter DOC biodegradation capacity
was not deleteriously impacted by the ash and (ii) the biofilters
buffered the ash-associated increases in water extractable organic
matter. DOM fractionation indicates this was because the biodegradable
low molecular weight neutral fractions of DOM, which increased with
ash addition, were reduced by biofiltration while humic substances
were largely recalcitrant. Thus, biological filtration was resilient
to wildfire ash-associated DOM threats to drinking water treatment,
but operational resilience may be compromised if the balance between
readily removed and recalcitrant fractions of DOM change, as was observed
during brief periods herein.