TOXICOLOGICAL EVALUATION OF THE EFFECTS OF WASTE-TO-ENERGY ASH-CONCRETE ON 2 MARINE SPECIES

The toxicological effects of waste-to-energy ash-concrete on survivors hip, growth, and fecundity (end-point parameters) of Mysidopsis bahia and on survivorship and growth of Menidia beryllina were evaluated wit h the 7-d static-renewal toxicity test. Leachate (10-, 5-, and 1-d) an d elutriate (100, 50, 25, 12.5, and 6.25%) solutions were prepared fro m experimental ash-concrete test cylinders constructed from concrete w ith additions of either bottom ash (mix BA), mixed bottom ash and scru bber residue (70:30%; mix BA:SR), or mixed bottom ash and fly ash (60: 40%, mix BA:FA). Control experiments with concrete (without ash) and p H (7-9.5) were conducted to assess any toxic effects of the stabilizat ion process. pH did not affect end-point parameters of Mysidopsis bahi a or Menidia beryllina. However, the 100% elutriate solution made from concrete reduced survivorship of Mysidopsis bahia. For experiments wi th ash-concrete test cylinders with the BA mixture, 10-d leachate solu tion reduced survivorship of Mysidopsis bahia and the 100% elutriate s olutions reduced survivorship of Mysidopsis bahia and Menidia beryllin a. With the BA:SR mixture, the 100 and 50% elutriate solutions reduced survivorship of Mysidopsis bahia, and the 10-d leachate solution redu ced survivorship of Menidia beryllina. The BA:FA 10- and 5-d leachate solutions and the 100, 50, and 25% elutriate solutions reduced survivo rship of Mysidopsis bahia.