Optimization of extraction methods for quantification of microcystin in drinking water treatment residuals: Implications for safe land application.

Cyanobacterial harmful algal blooms (CyanoHABs) in freshwater have increased the burden on drinking water treatment plants (DWTPs) to supply high-quality water and manage drinking water treatment residuals (DWTRs). Land application of CyanoHAB-affected DWTRs could lead to microcystin (MC) accumulation in crops, posing public health risks. However, studies on MC recoveries from DWTRs remain limited. This study focused on optimizing methods for MC quantification from DWTR matrices, testing five solvents and two pretreatment methods. Results showed that 75 % acidified methanol (MeOH) was optimal for MC-LR recovery from freshly generated DWTRs, while MeOH + 0.3 % TFA was most effective for aged or lagoon samples, requiring no pretreatment. Using these optimized methods, recoveries of additional MC congeners (MC-RR, -YR, -LW) and nodularin were evaluated, both individually and as an equal mixture. In the equal mixture, recoveries ranged between 16.37 % and 99.62 % with the lowest recovery observed for MC-YR (16.37 %) in lagoon sludge. Lastly, MC levels in DWTR samples from three DWTPs were assessed, with at least one sample nearing the Ohio EPA's threshold of 130 µg/kg total MC for land application. These findings emphasize the need for matrix-specific optimization (e.g., fresh vs. lagoon) to improve cyanotoxin analysis in DWTRs.