Summary
Biological nitrogen fixation is considered an important trait of cowpeas (Vigna unguiculata (L.) Walp. var. ‘California Blackeye’ No. 5) for economical production yet the process does not alone provide the quantity of nitrogen required by the plant for maximum productivity. Two experiments were undertaken to determine the potential of an increase in nodule mass and number of bacteroids resulting in increased nitrogen fixation. Cowpeas were grown in a glasshouse for 7 weeks under conditions forcing near total dependence on biological nitrogen fixation for growth. Nodule mass on the roots was varied by inoculating seeds with various ratios of effective and ineffective rhizobia that could be identified serologically and by the color of nodule formed. The results of both experiments demonstrated a linear relationship between total nodule mass formed by the effective rhizobia and quantity of nitrogen fixed. The regression coefficients were high in both experiments (r=0.99** and 0.91**). The relationship between total nitrogen fixed and total number of bacteroids of the effective strain was not consistent. In one experiment the regression coefficient was 0.93** but in the other experiment it was 0.65**. From these results it appears that there is good potential for increasing nitrogen fixation in cowpeas by increasing nodule mass. An increase in nodule mass would also result in an increase in the number of bacteroids.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Boonkerd Nantakorn and Weaver R W 1982 Survivial of cowpea rhizobia in soil as affected by soil temperature and moisture. Appl. Environ. Microbiol. 43, 585–589.
Dobereiner Johanna 1966 Evaluation of nitrogen fixation in legumes by the regression of total plant nitrogen with nodule weight. Nature 210, 850–852.
Eaglesham Allan R J, Ahmad Mohamed H, Hassouna Salah and Goldman Barbara J 1982 Cowpea rhizobia producing dark nodules: use in competition studies. Appl. Environ. Microbiol. 44, 611–618.
Eaglesham A R J, Hassouna S and Seegers R 1983 Fertilizer-N effects on N2 fixation by cowpea and soybean. Agron. J. 75, 61–66.
Kawamura A Jr 1977 Fluorescent antibody techniques and their applications. 2nd edition, Univ. Park Press, Baltimore.
Nelson D W and Sommers L E 1973 Determination of total nitrogen in plant material. Agron. J. 65, 109–112.
Schmidt E L, Bankole R O and Bohlool B B 1968 Fluorescent-antibody approach to study of rhizobia in soil. J. Bacteriol. 95, 1987–1992.
Sen Dipankar and Weaver R W 1981 A comparison of nitrogen-fixing ability of peanut, cowpea, and siratro plants nodulated by different strains of Rhizobium. Plant and Soil 60, 317–319.
Sen Dipankar and Weaver R W 1984 A basis for different rates of N2-fixation by the same strains of Rhizobium in peanut and cowpea root nodules. Plant Science Letters 34, 239–246.
Singleton P W and Stockinger K R 1983 Compensation against ineffective nodulation in soybean. Crop Science 23, 69–72.
Weaver R W and Frederick L R 1982 Rhizobium.In Methods of Soil Analysis, Part 2. Chemical and Microbiological Properties. Ed. A L Page. Agronomy 9 (2nd edition): pp 1043–1070. Am. Soc. of Agron., Madison, Wis.
Zary K W, Miller J C Jr, Weaver R W and Barnes L W 1978 Interspecific variability for nitrogen fixation in southern peas (Vigna unguiculata (L.) Walp.) J. Am. Soc. Hort. Sci. 103, 806–808.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Wadisirisuk, P., Weaver, R.W. Importance of bacteroid number in nodules and effective nodule mass to dinitrogen fixation by cowpeas. Plant Soil 87, 223–231 (1985). https://doi.org/10.1007/BF02181861
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF02181861