Your search keyword '"Potassium Cyanide toxicity"' showing total 5 results

1. Detecting total toxicity in water using a mediated biosensor system with flow injection.

Author

Yong D, Liu C, Zhu C, Yu D, Liu L, Zhai J, and Dong S

Subjects

2,4-Dinitrophenol analysis, 2,4-Dinitrophenol toxicity, Arsenic Trioxide, Arsenicals analysis, Biosensing Techniques instrumentation, Environmental Monitoring instrumentation, Equipment Design, Escherichia coli growth & development, Ferrocyanides chemistry, Flow Injection Analysis, Oxides analysis, Oxides toxicity, Potassium Cyanide analysis, Potassium Cyanide toxicity, Pseudomonas putida growth & development, Salicylic Acid analysis, Salicylic Acid toxicity, Water, Water Pollutants, Chemical toxicity, Biosensing Techniques methods, Environmental Monitoring methods, Escherichia coli drug effects, Pseudomonas putida drug effects, Water Pollutants, Chemical analysis

Abstract

A novel total toxicity detection method based on a mediated biosensor system with flow injection (MB-FI) was developed to rapidly and reliably detect respiration inhibitors (i.e., As2O3, KCN, salicylic acid (SA), 2,4-dintirophenol (DNP)) in water. The mediated biosensor toxicity assessment using microorganisms immobilized in calcium alginate filaments can greatly simplify the testing process and save time. In the MB-FI system, ferricyanide together with a respiration inhibitor was injected into the bioreactor, inhibiting the respiration of the immobilized microorganisms. The degree of inhibition was measured by determining the ferrocyanide generated in the effluent, expressed as the 50% inhibition concentration (IC50). The IC50 values for the four respiration inhibitors obtained using this method were comparable to those obtained using the classic method, confirming that this approach is an alternative alert method. More importantly, this constructed biosensor system with flow injection will facilitate the application and commercialization of this toxicity monitoring technology., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

2. Removal of cyanide by woody plants.

Author

Larsen M, Trapp S, and Pirandello A

Subjects

Asparagine biosynthesis, Kinetics, Potassium Cyanide toxicity, Salix drug effects, Trees chemistry, Trees drug effects, Potassium Cyanide pharmacokinetics, Salix chemistry, Water Pollution, Chemical prevention & control

Abstract

Hydrogen cyanide is a high volume production chemical that causes severe environmental problems. The toxicity of potassium cyanide (KCN) to basket willow trees (Salix viminalis) was tested. In aqueous solution, 2 mg CN l(-1) as KCN depressed the transpiration after 72 h about 50%. Trees exposed to 0.4 mg CN l(-1) in aqueous solution showed initially a depression of transpiration, but recovered. Doses of 8 and 20 mg CN l(-1) in aqueous solution were quickly mortal to the trees. At the end of the test, almost all cyanide had disappeared from the solutions. Levels of cyanide in plants were related to the toxicity, with no elevated levels of cyanide in plants exposed to 0.4 mg CN l(-1). Willows grown in sand survived 423.5 h irrigation with 20 mg CN l(-1). Willows grown in sand irrigated with 50 mg CN l(-1) died within a few days. The roots of the surviving willows were able to consume about 10 mg CN kg fresh weight(-1)h(-1). Vascular plants possess the enzymes beta-cyanoalanine synthase and beta-cyanoalanine hydrolase, which convert free cyanide to the amino acid asparagine. The in vivo capacity of woody plants (willow, poplar, elder, rose, birch) to remove cyanide was evaluated. Tests were performed with detached leaves and roots in KCN solutions of different concentrations. The highest removal capacity was obtained for basket willow hybrids (Salix viminalis x schwerinii). The Michaelis-Menten kinetics was determined. Realistic values of the half-saturation constant, K(M), were between 0.6 and 1.7 mg CN l(-1); the maximum metabolic capacity, v(max), was around 9.3 mg CN kg fresh weight(-1)h(-1). The removal of cyanide by plants might be useful in phytoremediation and treatment of wastewater from gold mining.

Published

2004

3. A growth inhibition test with sewage bacteria--results of an international ring test 1995.

Author

Strotmann UJ and Pagga U

Subjects

Bacteria drug effects, Dichlorophen toxicity, Potassium Cyanide toxicity, Reference Values, Bacteria growth & development, Sewage microbiology, Water Purification methods

Abstract

A bacterial toxicity test method using the determination of growth inhibition of sewage bacteria within an incubation period of 6 hours will be standardized at ISO. A ring test was performed with 24 participants using 3.5-dichlorophenol and potassium cyanide as test substances. The analysis of the test results showed that the method is very accurate and appropriate for determining the bacterial toxicity of chemical compounds. Due to the results obtained 3.5-dichlorophenol was proposed as a reference substance.

Published

1996

4. A possible mechanism for the increase in brain tyrosine levels induced by cyanide in mice.

Author

Yamamoto HA

Subjects

Adenosine Triphosphate metabolism, Ammonia blood, Animals, Brain metabolism, Cyanides blood, Glutamate Dehydrogenase drug effects, Glutamate Dehydrogenase metabolism, Liver drug effects, Liver enzymology, Male, Mice, Mice, Inbred Strains, NAD metabolism, Potassium Cyanide toxicity, Tyrosine blood, Tyrosine Transaminase drug effects, Tyrosine Transaminase metabolism, Brain drug effects, Cyanides toxicity, Tyrosine metabolism

Abstract

Subcutaneous administration of cyanide significantly increased blood tyrosine levels of mice in a dose dependent manner. Tyrosine aminotransferase activity in liver of mice was significantly decreased in the presence of cyanide (8, 10, 20, 40, 50, 65, 80 and 100 microM), also in a concentration-dependent manner, with a positive correlation between the percentage increase of blood tyrosine levels and the percentage decrease of hepatic tyrosine aminotransferase activity. These results suggest that the increased tyrosine levels induced in blood by cyanide may be related to its inhibition of tyrosine aminotransferase activity in the liver. Cyanide decreased hepatic ATP content and increased blood ammonia levels and brain tyrosine in a dose-dependent manner. As it is known that hyperammonaemia increases the uptake of neutral amino acids such as tyrosine into the brain from blood, the mechanism by which tyrosine levels increase in the brain may be based on increases of both tyrosine and ammonia levels in blood.

Published

1992

5. Toxicity of potassium cyanide added to fresh fruit and juice.

Author

Chadha RK, Bryce F, Lawrence JF, Conacher HB, and Arnold D

Subjects

Administration, Oral, Animals, Female, Hydrogen-Ion Concentration, Male, Potassium Cyanide chemistry, Rats, Rats, Inbred Strains, Beverages, Fruit, Potassium Cyanide toxicity

Abstract

To investigate the toxicity of potassium cyanide in fresh fruit and juice, male and female Wistar rats were orally dosed with fruit homogenates or juices containing 3 x LD50 of potassium cyanide. These were given in single doses at various intervals after spiking. The dosing solutions were analysed for cyanide using a cyanide test kit. There was a good correlation between the toxic signs in rats and the cyanide remaining in dosing solutions. The toxicity of spiked apple and honeydew melon diminished with time, while spiked grape and both grape and apple juices maintained their toxicity during the 4-hr studies. The pH of the samples both before and after spiking seemed to be an important factor in determining the toxicity.

Published

1991