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A Note on Rhizobium Inoculation of Beans (Phaseolus vulgaris) using the Fluid Drill Technique

Published online by Cambridge University Press:  03 October 2008

J. M. Hardaker
Affiliation:
National Vegetable Research Station, Wellesbourne, Warwick
R. C. Hardwick
Affiliation:
National Vegetable Research Station, Wellesbourne, Warwick

Summary

The conventional method of inoculating Phaseolus vulgaris with Rhizobium phaseoli, using a peat carrier and dry seeds, was compared with a method using a slurry inoculation of germinating seeds, which were subsequently sown with a fluid drill. The mean number of nodules per plant 28 days after sowing was 0·64 (uninoculated control), 2·14 (dry seed), and 7·0 (fluid drill), differences between treatments being significant at P=0·01. Two varieties included in the experiment gave similar responses, and it is concluded that the fluid drill technique has a useful potential as a method of ensuring good inoculation of legume seedlings.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1978

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References

REFERENCES

Anon. (1976). National Vegetable Research Station NPK Predictor.Google Scholar
Bleasdale, J. K. A. (1976). Am. Veg. Grow. 24, 10.Google Scholar
Chandler, M., Dart, P. J., Hepper, C. M., Kumarasinghe, R. & Nutman, P. S. (1975). In Nitrogen. Rothamst. Subject Day Rep. 32.Google Scholar
Currah, I. E., Gray, D. & Thomas, T. H. (1974). Ann. app. Biol. 76, 311.CrossRefGoogle Scholar
Dart, J. M., Davis, P. E., Eaglesham, A. R. J. & Nutman, P. S. (1976). In Nitrogen. Rothamst. Subject Day Rep. 29.Google Scholar
Davis, P. E. & Eaglesham, A. R. J. (1975). A. Rep. Rothamst. Exp. Sta. 1, 284.Google Scholar
Eaglesham, A. R. J. & Dart, J. M. (1974). A. Rep. Rothamst. Exp. Sta. 1, 246.Google Scholar
Elliot, J. G. (1966). U.K. Patent Specification 1,045, 732.Google Scholar
Gane, A. J. (1968). A. Rep. Pea Growing Res. Org. 38.Google Scholar
Gane, A. J. (1969). A. Rep. Pea Growing Res. Org. 47.Google Scholar
Greenwood, D. J., Cleaver, T. J. & Turner, M. K. (1974). In Proc. Fertil. Soc. 145.Google Scholar
Habish, H. A. & Ishag, H. M. (1974). Expl Agric. 10, 45.CrossRefGoogle Scholar
Øyjord, E. (1963). J. agric. Engng Res. 8, 35.Google Scholar
Roughley, R. J. (1970). Pl. Soil 32, 675.CrossRefGoogle Scholar
Salter, P. J. & Darby, R. J. (1975). A. Rep. Nat. Veg. Res. Sta. 67.Google Scholar
Southwood, T. R. E. (1966). In Ecological Methods. London: Methuen.Google Scholar