Record Display for the EPA National Library Catalog

RECORD NUMBER: 29 OF 34

Main Title Toxic action of water soluble pollutants on freshwater fish /
Author Fromm, Paul Oliver,
CORP Author Michigan State Univ., East Lansing. Dept of Physiology.
Publisher [Environmental Protection Agency, Water Quality Office] : For sale by the Supt. of Docs., U.S. G.P.O.,
Year Published 1970
Report Number EPA-WQO-18050-DST; 10639,; 18050-DST-12/70
Stock Number PB-201 650
OCLC Number 54523744
Subjects Fishes--Effect of water pollution on ; Fishes--Physiology
Additional Subjects ( Water pollution ; Insecticides) ; ( Fishes ; Water pollution) ; ( Insecticides ; Aquatic biology) ; Chromium ; Diffusion ; Ammonia ; Toxicology ; Stress(Physiology) ; Trout ; Sodium ; Dieldrin ; Malathion ; Sulfonates ; Blood plasma ; Water pollution effects(Animals)
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
EMBD MF PB 201 650 NRMRL/GWERD Library/Ada,OK 06/04/2004
NTIS  PB-201 650 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation viii, 56 pages : illustrations ; 28 cm.
Abstract
Over a five year period experiments on rainbow trout indicated that exposure to chromium and to forced exercise caused a transient increase in plasma cortisol. Exposure to ammonia (a) caused a decrease in the rate of total nitrogen excretion and in ammonia excretion (b) caused some histopathological changes in trout gills but oxygen transport by hemoglobin was unaffected (c) caused a very slight increase in urea excretion by trout but a very significant rise in goldfish. Hyperexcitability observed in ammonia-exposed trout was not noticeable in the more resistant goldfish. Ammonia may kill fish by prevention of excretion of normal amounts of endogenous ammonia. Experiments with isolated-perfused gills of trout have shown among other things that (a) gill blood flow patterns are significantly affected by epinephrine (b) when perfused with Ringer solution there was a small but significant loss of sodium into the bath solution (c) perfusion fluid sodium and epinephrine appear to control sodium uptake by the gill (d) transfer of dieldrin into the vascular system occurred only when plasma protein, or more probably plasma lipoprotein was present in the perfusion fluid (e) short term exposure to dieldrin, rotenone, malathion and MS-222 reduced perfusion flow rate through isolated gills but exposure to 1 mg/L methoxychlor was without effect. Decrease in flow rate correlated well with lamellar perfusion. (Author)
Notes
"18050 DST 12/70." Prepared for the Water Quality Office, Environmental Protection Agency. Includes bibliographical references (pages 49-51). Microfiche.