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The Interactions of Cu++ and CN with Paraquat Phytotoxicity to a Chlorella

Published online by Cambridge University Press:  12 June 2017

Sue-Fei Tsay ,
Jhy-Mei Lee  and
J. Q. Lynd
Sue-Fei Tsay
Affiliation:
Oklahoma State University, Stillwater
Jhy-Mei Lee
Affiliation:
Oklahoma State University, Stillwater
J. Q. Lynd
Affiliation:
Oklahoma State University, Stillwater
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Abstract

The interactions between copper (Cu++) and cyanide (CN) with 1,1′-dimethyl-4,4′-bipyridinium ion (paraquat) on phytotoxicity to Chlorella pyrenoidosa Chick, IAC 251, were determined by measuring chlorophyll absorbance at 434 and 670 mμ. Cu++ inhibited phytotoxicity and CN accelerated paraquat activity with highly significant mutually antagonistic interactions occurring between Cu++ (2 ppm) and CN (16 ppm) at paraquat levels to 2 ppm.

Type
Research Article
Information
Weed Science , Volume 18 , Issue 5 , September 1970 , pp. 596 - 598
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

1. Barnes, D. L. and Lynd, J. Q. 1967. Factors in paraquat induced chlorosis with Phaseolus foliar tissues. Agron. J. 59:364366.Google Scholar
2. Black, Clanton C. Jr. and Myers, Larry. 1966. Some biochemical aspects of the mechanism of herbicidal activity. Weeds 14:331338.CrossRefGoogle Scholar
3. Brian, R. C. 1964. The metabolism of herbicides. Weed Res. 4:105117.CrossRefGoogle Scholar
4. Calderbank, A. 1968. The bipyridylium herbicides. Adv. in Pest Contr. Res. 8:128235.Google Scholar
5. Frieden, Earl. 1968. The biochemistry of copper. Sci. Amer. 128:103114.Google Scholar
6. Funderburk, H. H. Jr. and Lawrence, J. M. 1964. Mode of action and metabolism of diquat and paraquat. Weeds 12: 259264.CrossRefGoogle Scholar
7. Homer, R. F., Mees, G. C., and Tomplison, T. E. 1960. Mode of action of dipyridyl quaternary salts as herbicides. Food Agr. 6:309315.Google Scholar
8. Merkle, M. G., Leinweber, C. L., and Bovey, R. W. 1965. The influence of light, oxygen, and temperature on the herbicidal properties of paraquat. Plant Physiol. 40:832835.Google Scholar
9. Murray, Don S., Rieck, Walter L., and Lynd, J. Q. 1969. Microbial degradation of five substituted urea herbicides. Weed Sci. 17:5255.CrossRefGoogle Scholar