Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-29T10:10:30.148Z Has data issue: false hasContentIssue false
  • English
  • Français

Growth And Development Of Indeterminate Bush And Climbing Cultivars of Phaseolus vulgaris L. Inoculated with Rhizobium

Published online by Cambridge University Press:  27 March 2009

P. H. Graham  and
J. C. Rosas
P. H. Graham
Affiliation:
Oentro International de Agricultura Tropical (CIAT), A. A, 67–13, Call, Colombia
J. C. Rosas
Affiliation:
Oentro International de Agricultura Tropical (CIAT), A. A, 67–13, Call, Colombia
Get access Rights & Permissions [Opens in a new window]

Summary

Twenty cultivars of P. vulgaris differing in growth habit, and inoculated with an efficient strain of R. phaseoli, were sampled weekly in the period 22—99 days after planting. Acetylene reduction and specific nodule activity were similar to or better than those reported for other grain legumes, and were higher than achieved by a soya-bean cultivar. Though the period of active fixation was limited, nitrogen gains estimated at 25—30 kg/ha/growing cycle were obtained. Climbing beans were superior to bush beans in acetylene reduction and specific nodule activity, but differed little in nodule development. Two varieties, Cargamanto and Sangretoro, were outstanding in fixation. Differences between varieties in nodule to root ratio, and in rate of N accumulation in the leaves were shown. Both groups of plants stored appreciable starch in the stem after flowering. The results are related to the need for N fertilization in Latin America.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 88 , Issue 2 , April 1977 , pp. 503 - 508
Copyright
Copyright © Cambridge University Press 1977

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Brakel, J. (1966). La fixation symbiotique de l'azote chez le haricot (Phaseolus vulgarisL.). Comparaisondel'activité fixatrioe de diverges souohes. Bulletin des Becherches agronomiques de Oembloux 34, 525–33.Google Scholar
Dart, P. J. & Day, J. M. (1971). Effects of inoculation temperature and oxygen tension on nitrogenase activity of legume root-nodules. Plant and Soil, special vol., pp. 167–84.CrossRefGoogle Scholar
Dart, P. J., Day, J. M. & Harris, D. (1972). Assay of nitrogenase activity by acetylene reduction. International Atomic Energy Agency. Publ. no. 149, pp. 85100.Google Scholar
Date, R. A. (1965). Legume inoculation and legume inoculant production FAO Technical Report, no. 2012, 33 pp.Google Scholar
Fao Production Yearbook (1974). pp. 74–5.Google Scholar
Fontes, L. A. N. (1972). Note on the effects of the application of nitrogen and phosphate fertilisers, lime and inoculant on a crop of beans (Phaseolus vulgarisL.). Revista Geres 19, 211–16.Google Scholar
Franco, A. A. & Dobereiner, J. (1967). Especifidad de hospedeira na simbiose con Bhizobium feijao e influencia de diferentes nutrientes. Pesquisa Agropecuaria Brasiliera 2, 467–74.Google Scholar
Graham, P. H. & Hubbell, D. H. (1975). Legume- Bhizobiutn relationships in tropical agriculture. Florida Agricultural Experiment Station Journal Series, no. 5439, pp. 921.Google Scholar
Habish, H. A. & Ishag, H. N. (1974). Nodulation of legumes in the Sudan. III. Response of haricot bean to inoculation. Experimental Agriculture 10, 4550.CrossRefGoogle Scholar
Hardy, R. W. F., Burns, R. C., Hebert, R. R., Holsten, R. D. & Jackson, E. K. (1971). Biological nitrogen fixation: a key to world protein. Plant and Soil, special vol., pp. 561—90.CrossRefGoogle Scholar
Hardy, R. W. F., Holsten, R. D., Jackson, E. K. & Burns, R. C. (1968). The acetylene-ethylene assay for Na fixation: laboratory and field evaluation. Plant Physiology 43, 11851205.CrossRefGoogle Scholar
Holl, F. B. (1975). Host plant control of the inheritance of dinitrogen fixation in the Pisum-Bhizobium symbiosis. Euphytica 24, 767–70.CrossRefGoogle Scholar
Imrie, C. (1975). The use of agar tube culture for early selection for nodulation of Desmodium intortum. Euphytica, 24, 625–31.CrossRefGoogle Scholar
Janssen, K. A. & Vitosh, M. L. (1974). Effect of lime, sulphur and molybdenum on nitrogen fixation and yield in dark red kidney beans. Agronomy Journal 66, 736–40.CrossRefGoogle Scholar
La Rue, T. A. G. & Kraz, W. G. W. (1973). Estimation of nitrogenase in intact legumes. Canadian Journal of Microbiology 19, 304–5.CrossRefGoogle ScholarPubMed
Lawn, R. J. & Brun, W. A. (1974). Symbiotio nitrogen fixation in soybeans. I. Effect of photosynthetio source sink manipulations. Crop Science 14, 1116.CrossRefGoogle Scholar
Lawrie, A. C. & Wheeler, C. T. (1973). The supply of photosynthetio assimilates to nodules of Pisum sativum L. in relation to the fixation of nitrogen. New Phytology 72, 1341–8.CrossRefGoogle Scholar
Morales, V. M., Graham, P. H. & Cavallo, R. (1973). Influencia del metodo de y el encalamiento del suelo de Carimagua (Llanos Orientales, Colombia) en la nodulacin de leguminosas. Turrialba 23, 52–5.Google Scholar
Nutman, P. S. (1949). Nuclear and cytoplasmic inheritance of resistance to infection by nodule bacteria in red clover. Heredity 3, 263–91.CrossRefGoogle ScholarPubMed
Pessanha, G. G., Franco, A. A., Dobereineb, J., Gboszmann, A. & Souza, D. P. P. (1970). Correlacão negativa da nodulão com a producão de feijão (Phaseolus vulgaris L.) em solos onde o N não é fator limitante. V. Reunião Latinoamericano de Bhizobium, Rio de Janeiro 1970, pp. 3645.Google Scholar
Pillay, A. R. & Mamet, J. R. (1972). Bhizobium. 1. Preliminary field studies on groundnuts (Arachia hypogea) and dwarf beans (Phaseolus vulgaris L.) in Mauritius. Bevue Agricole et Sucriere de Vile Maurice 51, 242–8.Google Scholar
Sprent, J. I. (1976). Nitrogen fixation by legumes subjected to water and light stresses. In Symbiotic Nitrogen Fixation in Plants (ed. Nutman, P. S.), pp. 405–20. Cambridge University Press.Google Scholar
Williams, L. F. & Lynch, D. L. (1954). Inheritance of anon-nodulatingcharaoterin the soybean. Agronomy Journal 46, 28–9.CrossRefGoogle Scholar
Yoshida, S., Fobno, D. A. & Cock, J. H. (1971). Laboratory Manual for Physiological Studies of Bice. Los Bafios, Phillipines: IRRI., 61 DD.Google Scholar