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Atrazine, Bifenox, and Shade Effects on Crownvetch (Coronilla varia) Nodulation and Nodule Activity

Published online by Cambridge University Press:  12 June 2017

John Cardina
Affiliation:
The Pennsylvania State Univ., Univ. Park, PA 16802
Nathan L. Hartwig
Affiliation:
The Pennsylvania State Univ., Univ. Park, PA 16802

Abstract

Studies were conducted to determine whether photosynthesis-inhibiting herbicides atrazine or bifenox, and shade affect the number, weight, senescence, and N fixation activity of nodules on the roots of the perennial legume crownvetch. Atrazine and bifenox were applied at rates of 2.24 kg ai/ha to shaded and unshaded plots. The shade was varied during the growing season to simulate changing irradiance levels beneath a corn canopy. Atrazine and bifenox treatments reduced nodule number to 13 and 42% of the untreated control, respectively, in 1980, and 18 and 35% in 1981. Shade treatments reduced nodule number to a low of 40% of the control in 1980 and 50% in 1981. Combined effects of herbicides and shade on nodule numbers were more than additive. Nodule fresh weights were reduced an average of 37% by herbicide treatments and 39% by shade treatments. Sloughed nodule numbers decreased in the herbicide and shaded treatments, suggesting that the reduction in nodule numbers was due to fewer nodules being produced. Nodule numbers were reduced a greater percentage by herbicides and shade than was herbage dry matter production. Specific nodule activity (SNA) did not differ in nodules from the atrazine, bifenox, or shade treatments on the six sampling dates in 1980 or on two of three sampling dates in 1981.

Type
Special Topics
Copyright
Copyright © 1988 by the Weed Science Society of America 

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References

Literature Cited

1. Anderson, J. R. 1978. Pesticide effect on non-target soil microorganisms. Page 313 in Hill, I. R. and Wright, S.J.L., eds. Pesticide Microbiol. Academic Press, New York.Google Scholar
2. Avrov, O. E., Belous, A. G., Zurbiana, N. S., and Zaveryukhin, V. I. 1968. The effects of various herbicides on nodule bacteria of soybean. Khim. Sel'sk. Khoz. 6:767768.Google Scholar
3. Cardina, J. and Hartwig, N. L. 1980. Suppression of crownvetch for no-till corn. Proc. Northeast. Weed Sci. Soc. 34:5355.Google Scholar
4. Cardina, J., Hartwig, N. L., and Lukezic, F. L. 1986. Herbicide effects on crownvetch rhizobia and nodule activity. Weed Sci. 34:338343.CrossRefGoogle Scholar
5. Chu, A.C.P. and Robertson, A. G. 1974. The effects of shading and defoliation on nodulation and nitrogen fixation by white clover. Plant Soil 41:509519.Google Scholar
6. Fisher, D. J., Hays, A. L., and Jones, C. A., 1978. Effects of some surfactant Fungicides on Rhizobium trifolii and its symbiotic relationship with white clover. Ann. Appl. Biol. 90:7384.Google Scholar
7. Hardy, R.W.F., Holsten, R. D., Jackson, E. K., and Burns, R. C. 1968. The acetylene-ethylene assay for nitrogen fixation: Laboratory and field evaluation. Plant Physiol. 43:11851207.Google Scholar
8. Kumar, S., Pahwa, S. K., Promila, K., and Sharma, H. R., 1981. Effect of simazine and prometryne on the growth and nodulation of chickpea (Cicer arietinum L.). J. Agric. Sci. 97:663.Google Scholar
9. Lawn, R. J. and Brun, W. A. 1974. Symbiotic nitrogen fixation in soybeans. I. Effect of photosynthetic source-sink manipulation. Crop Sci. 14:1116.CrossRefGoogle Scholar
10. Reddy, M. and Chatterjee, B. B. 1973. Nodulation in soybean (Glycine max) grown as a pure culture and mixed crop. Indian J. Agron. 18:410415.Google Scholar
11. Sprent, J. I. 1979. The biology of nitrogen-fixing organisms. McGraw-Hill Book Co., London.Google Scholar
12. Trang, K. M. and Giddens, J. 1980. Shading and temperature as environmental factors affecting growth, nodulation, and symbiotic nitrogen fixation by soybeans. Agron. J. 72:305308.CrossRefGoogle Scholar
13. Wahua, T.A.T. and Miller, D. A. 1978. Effects of shading on the nitrogen fixation, yield, and plant composition of field grown soybeans. Agron. J. 70:387392.Google Scholar