Record Display for the EPA National Library Catalog

RECORD NUMBER: 2 OF 22

OLS Field Name OLS Field Data
Main Title Biological effects of copper and arsenic pollution /
Author Button, Don K. ; Dunke, S. S.
Other Authors
Author Title of a Work
Dunker, S. S.
CORP Author Alaska Univ., College. Inst. of Marine Science.
Publisher Institute of Marine Science, University of Alaska,
Year Published 1971
Report Number R71-8; EPA-WQO-18050-DLW; 10637,; 18050-DLW-04/71
Stock Number PB-201 648
OCLC Number 54523840
Subjects Copper--Physiological effect. ; Arsenic--Physiological effect. ; Water--Pollution--Physiological effect. ; Microorganisms--Physiology.
Additional Subjects ( Water pollution ; Marine microorganisms) ; ( Copper ; Water pollution) ; ( Arsenic ; Water pollution) ; ( Toxicology ; Water pollution) ; Phosphates ; Metabolism ; Manganese ; Antimetabolites ; Nutrients ; Trace elements ; Microbiology ; Marine biology ; Yeasts ; Water pollution effects(Animals)
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
EMBD MF PB 201 648 GWERD Library/Ada,OK 06/04/2004
NTIS  PB-201 648 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 01/01/1988
Collation 59 pages : illustrations ; 29 cm.
Abstract
Inhibitory effects of copper toward marine microorganisms were studied. Phosphate was found to prevent copper inhibition. Growth and phosphate flux kinetics were described. These phosphate limited systems were found to be copper sensitive only under conditions of manganese deficiency. Toxicity occurred in this normally rather resistant yeast and in hydrocarbon oxidizing microorganisms at about .000001 M. Arsenate was among a number of metabolic inhibitors found to inhibit phosphate transport; phosphate also competitively reduced arsenate uptake. Both arsenate and phosphate are accumulated by the same active transport system in which velocities increase as the hydrogen ion is increased, saturation of the system does not occur, and the transport temperature coefficient is very large. Both arsenate and copper are important at existing concentrations in the environment. When nutrients are dilute these antimetabolites prevent microbial metabolism thus affecting the steady state chemistry which they control. Toxicity levels of antimetabolites depend not only on populations and chelate concentrations but in a major way on free nutrients and trace metal levels. (Author)
Notes
"Final report to the Environmental Protection Agency, contract no. 18050 DLW." Includes bibliographical references. Microfiche.