Rachel Fern, Kim Withers, Paul Zimba, Tony Wood, Lee Schoech
Southeastern Naturalist 14 (4), (1 December 2015) https://doi.org/10.1656/058.014.0413
During the Deepwater Horizon incident in 2010, ∼1.8 million gallons of Corexit® dispersants were approved for use directly onto the released oil. Callinectes sapidus (Blue Crab) megalopae are pelagic and, therefore, likely to be one of the first organisms exposed to spilled oil and applied dispersants in open-ocean and nearshore waters. In this study, we examined acute toxicity of Corexit 9500, Corexit 9527, and MicroBlaze® (a microbial surfactant) alone and in combination with crude oil. We adapted methods from the established 48-h copepod toxicological assay and exposed Blue Crab megalopae for 48 h to varying dosages of each treatment. Oil treated with dispersant was more toxic than either oil or dispersant alone (48-h LC50 = 29.8 mg/L vs. 55.9 mg/L and 37.5–59.1 mg/L, respectively), and MicroBlaze was essentially non-toxic (48-h LC50: 7643 mg/L). Corexit 9527 was more toxic than Corexit 9500 both in solutions with oil and alone (48-h LC50 = 37.5 mg/L vs. 51.8 mg/L and 59.1 mg/L, respectively). Exposure to these toxicants not only induced mortality at certain dosage levels, but life-stage transitioning also seemed to be effected. The decreased ability to metamorphose, however, was not affected in a typical gradient manner, as with mortality; those that were exposed to a toxicant, overall, exhibited a decreased occurrence of metamorphosis (37% average decrease). This study provides essential baseline data needed for further investigations to determine optimal dosing of dispersants and balancing of dispersant use and dosage with anticipated crab-fishery impacts.