142 BIOLOGICAL TREATMENT OF WASTEWATER
growth of the culture unaffected by the toxic substance. In
some cases, such as cyanide and phenol, the toxic substances
may be used as substrate. Rates of acclimation to lethal fac-
tors vary greatly. Thus, the toxicity to microorganisms may
result due to excess concentrations of substrate itself, the
presence of inhibiting substances or factors in the environ-
ment and/or the production of toxic by-products. 19 – 23
The influence of a toxicant on microorganisms depends
not only on its concentration in water, but also on its rate
of absorption, its distribution, binding or localization in the
cell, inactivation through biotransformation and ultimate
excretion. The biotransformations may be synthetic or non-
synthetic. The nonsynthetic transformations involve oxida-
tion, reduction or hydrolysis. The synthetic transformation
involve the coupling of a toxicant or its metabolite with a
carbohydrate, an amino acid, or a derivative of one of these.
According to Warren^19 , the additive interaction of two toxic
substances of equal toxicity, mixed in different proportions,
may show combined toxicity as shown in Figure 8. The com-
bined effects may be supra-additive, infra-additive, no inter-
action or antagonism. The relative toxicity of the mixture is
measured as the reciprocal of median tolerance limit.
Many wastewater constituents are toxic to microorgan-
isms. A fundamental axiom of toxicity states that all com-
pounds are toxic if given to a text organism at a sufficiently
high dose. By definition, the compounds that exert a delete-
rious influence on the living microorganisms in a biological
treatment unit are said to be toxic to those microorganisms.
At high concentrations, these substances kill the microbes
whereas at sublethal concentrations, the activity of microbes
is reduced. The toxic substances may be present in the influent
stream or may be produced due to antagonistic interactions.
Biological treatment is fast becoming a preferred option
for treating toxic organic and inorganic wastes in any form;
SUPRA-ADDITIVE INTERACTION
STRICTLY ADDITIVE INTERACTION
INFRA-ADDITIVE INTERACTION
NO INTERACTION
ANTAGONISM
SOLUTION COMBINATIONS
RELATIVE TOXICITY, 1/
TL
m
SOL. B
SOL. A
0
0
25
75
50
50
25
75
100
100
FIGURE 8 Possible kinds of interactions between two hypothetical toxicants, A and B.
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