Abstract
For intact daphnids reared in circumstances of controlled trace element exposure, one consequence of insufficient zinc (Zn) is an increased demand on the animal's pool of available selenium (Se). This demand is manifested by the type of cuticle deterioration associated with Se deficiency and by a depression of reproduction. In the presence of 25 parts per billion (ppb) Zn, 1 ppb Se eliminates these symptoms. In the absence of detectable Zn, 5 ppb Se eliminates overt cuticle damage and substantially increases reproduction. A shortening of life span resulting from Zn deprivation is not ameliorated by Se addition. We suggest that the interplay between Zn and Se concentrations reflects an underlying interplay between interdependent, but distinct, metabolic pathways; i.e., (for Se) glutathione peroxidase and (for Zn) Cu,Zn-superoxide dismutase-each offering protection against free radical damage. Because they are not necessarily localized in a given tissue, the key to recognition of such subtle, complex trace nutrient interactions has been use of intact animals in circumstances of control previously attainable only in tissue cultures.
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