ucg and fish

Founds the following paper which studied UCG toxicity and how it affected fish.

http://www.springerlink.com/content/k0u8607511717020/

G. M. DeGraeve1 , R. L. Overcast1 and H. L. Bergman1

(1) Department of Zoology and Physiology, University Station, The University of Wyoming, Box 3166, 82071 Laramie, WY

Received: 20 August 1979 Accepted: 23 November 1979

Abstract The acute and embryo-larval toxicity of the Laramie Energy Technology Center's Hanna-3 underground coal gasification (UCG) condenser water and its constituents were studied in continuous-flow bioassays. The 96-hr LC50 dilution values for untreated Hanna-3 UCG condenser water were 0.1% for rainbow trout, 0.11% for fathead minnows and the 48-hr LC50 dilution forDaphnia pulicaria was 0.18%. Separate 96-hr acute tests with phenol, ammonia, and ammonia plus phenol showed that these two constituents, acting synergistically, were the major constituents affecting the acute toxicity of this coal conversion effluent to fishDaphnia pulicaria, on the other hand, was relatively insensitive to phenol exposure; the primary constituent of Hanna-3 UCG condenser water affecting this species was ammonia.
A previously described model was used for predicting the toxicity of effluents with high concentrations of phenol and ammonia to confirm our hypothesis that the acute toxicity of Hanna-3 UCG condenser water to fish was primarily due to the presence of phenol and ammonia. Using the Hanna-3 concentrations of phenol and ammonia in this formula, it was calculated that the 96-hr LC50 values for rainbow trout and fathead minnows exposed to Hanna-3 condenser water would be 0.11% and 0.28%, respectively; values which are near the observed acute toxicity of Hanna-3 condenser water.
In a 30-day embryo-larval exposure, fathead minnow egg hatchability, growth, and survival were significantly reduced at 0.04%, 0.02% and 0.01% Hanna-3 condenser water, respectively. At a Hanna-3 dilution of 0.01%, the phenol and un-ionized ammonia concentrations were calculated to be 0.23 mg/L and 0.14 mg/L, respectively. The phenol and un-ionized ammonia concentrations are within ranges expected to produce the long-term effects which were observed.
Work funded under an Interagency Agreement between the U.S. Department of Energy and the U.S. Environmental Protection Agency under Contract No. DE-AS20-79 LC 01761 to the Rocky Mountain Institute of Energy and Environment, University of Wyoming.



Don't seem to be a problem there . . . .