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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

The impact of Squoxin on aquatic invertebrates and an assessment of its fate in the aquatic environment

Staley, George Stephen January 1977 (has links)
Squoxin, 1,1'-methylenedi-2-naphthol, is a pesticide developed to eradicate the northern squawfish, Ptychocheilus oregonensis. Investigations concerning the acute toxicity of the pesticide to aquatic invertebrates and an assessment of its fate in aquatic ecosystems are reported. Squoxin was found to be much less toxic to aquatic invertebrates than it was to squawfish. It was proposed that the toxicity of squoxin to aquatic invertebrates is inversely proportional to their adaptations to habitats having low levels of oxygen availability. The most sensitive invertebrate species tested was the blackfly larva, Simulium canadense, which is distributed in streams having high current velocity and abundant dissolved oxygen. These larvae exhibit an LC50 value of 60 ug/l in 48 hours. Chaoborus trivittatus larvae, known to tolerate anoxic conditions, were resistant to treatments up to 10 mg/1, exhibiting a maximum response of 30 percent in 96 hours. The degradation of Squoxin was monitored in surface waters of diverse origin. Degradation was most severe in water having a high pH and high alkalinity. Degradation was also found to occur due to the presence of dissolved organic compounds of high molecular weight. Freshwater bacteria did not exhibit any ability to utilize Squoxin as a carbon source in short term tests. A 100 ug/l Squoxin treatment depressed the natural heterotrophic activity of bacteria by nearly 25 percent based on studies of uptake of ¹⁴C-glucose over a 2 hour period. ¹⁴C-Squoxm residues initially adsorbed to phyto-plankton and organic sediment in simple laboratory microcosms. However, the residues steadily desorbed from these components and became increasingly soluble throughout the test period. Daphnia pulex and Hyalella azetca in the microcosms took up Squoxin rapidly in the first 24 hours after treatment. Uptake then levelled off and tissue concentration of Squoxin increased only at a very slow rate during the remainder of the test. Only small amounts of Squoxin were transferred to organisms feeding on contaminated food items when compared to the dose obtained from a contact exposure. C. trivittatus fed contaminated D. pulex retained only 6 percent of the ingested Squoxin residues. These residues, however, appeared to be retained for a longer period than tissue residues gained through a contact exposure. Invertebrates exhibited an ability to excrete Squoxin residues given time and an uncontaminated environment. D. pulex excreted over 90 percent of the toxicant in 96 hours; H. azteca required 275 hours. It was postulated that because of Squoxin's water solubility, low partition coefficient, rapid degradation, and the ability of a wide variety of organisms to excrete it, the toxicant would not be biologically magnified to a significant degree in aquatic ecosystems. / Science, Faculty of / Zoology, Department of / Graduate
2

Toxicity, Selectivity, and Efficacy of Squoxin (1,1'-Methylendi-2-Napthol) to Fishes in Utah Waters

Pitman, Dexter R. 01 May 1978 (has links)
Squoxin (1,1'-Methylendi-2-napthol) was tested in laboratory and field bioassays to evaluate its biological activity to rainbow trout (Salmo gairdneri), cutthroat trout (Salmo clarki), Utah chub (Gila atraria), carp (Cyprinus carpio), reside shiner (Richardsonius balteatus), and mountain sucker (Catostomus platyrhynchus) under various conditions of water quality and temperature. The compound was toxic to all species and most effective from greatest to least to mountain sucker, reside shiner, Utah chub, cutthroat trout, and rainbow trout and carp. Selectively and safety indices for Utah chub compared with the two species of trout indicated a selective control potential for squoxin in hard water at 12.1C and very hard water at 5.6C and 18C. Efficacy of squoxin for selective control of Utah chub in trout waters was similar to the selective control of the sea lamprey (Petromyzon marinus) with 3-trifluoromethyl-4-nitophenol (TFM) in which selection of time and place precedes toxicant use. The toxicity of squoxin was affected more by water temperature than by different water hardnesses or pH. The cumulative effects of various biological, chemical, and physical factors in field tests significantly reduced the toxicity of squoxin to fish.

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