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Communications in Soil Science and Plant Analysis Volume 49, 2018 - Issue 16
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Original Articles

Determining Symbiotic Nitrogen Fixation in Dry Bean Cultivars Using Ureide Method and Isotope Dilution Techniques

Debankur SanyalDepartment of Soil Science, North Dakota State University, Fargo, ND, USACorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-0826-5727View further author information
ORCID Icon,
Robert Jay GoosDepartment of Soil Science, North Dakota State University, Fargo, ND, USAView further author information
&
Amitava ChatterjeeDepartment of Soil Science, North Dakota State University, Fargo, ND, USAView further author information
Pages 2042-2052 | Received 06 Feb 2018, Accepted 22 Jun 2018, Published online: 09 Jul 2018

References

  • Agoyi, E. E., E. Afutu, F. J. Chadare, J. B. Tumuhairwe, G. Chigeza, and P. Tukamuhabwa. 2017. Ureide essay to assess N2-fixation abilities of soybean (Glycine Max) genotypes under different Bradyrhizobium strains. Agriculture & Food Security10:65–72.
  • Akter, Z., B. B. Pageni, N. Z. Lupwayi, and P. M. Balasubramanian. 2014. Biological nitrogen fixation and nifH Gene expression in dry beans (Phaseolus vulgaris L.). Canadian Journal of Plant Science 94 (2):203–12.
  • Andraus, M. P., A. A. Cardoso, and E. P. B. Ferreira. 2016. Differences in nodulation and grain yield on common bean cultivars with different growth cycles. Communications in Soil Science and Plant Analysis 47 (9):1148–61.
  • Barrie, A. 1991. New methodologies in stable isotope analysis. In Stable isotopes in plant nutrition, soil fertility and environmental studies, vol. I. Vienna, Austria. Crewe (UK): Europa Scientific Ltd.
  • Boddey, R. M., M. Phillip, R. L. Victoria, and E. Matswi. 1984. Nitrogen fixation by nodulated soybean under tropical field condotions estimated by the 15N isotope dilution technique. Advances in Agronomy 16 (6):583–88.
  • Boddey, R. M., O. C. De Oliveira, B. J. R. Alves, and S. Urquiaga. February, 1995. Field application of the 15N isotope dilution technique for the reliable quantification of plant-associated biological nitrogen fixation. Fertilizer Research 42 (1):77–87.
  • Boldt, R., and R. Zrenner. 2003. Purine and pyrimidine biosynthesis in higher plants. Physiologia Plantarum 117 (3):297–304.
  • Buttery, B. R., S. J. Park, and W. I. Findlay. 1987. Growth and yield of white bean (Phaseolus vulgaris L.) in response to nitrogen, phosphorus and potassium fertilizer and to inoculation with Rhizobium. Canadian Journal of Plant Science 67 (2):425–32.
  • Carranca, C., A. De Varennes, and D. Rolston. 1999. Biological nitrogen fixation by fababean, pea, and chickpea under field conditions, estimated by the 15N isotope dilution technique. European Journal of Agronomy 10:49–56.
  • Cataldo, D. A., M. Maroon, L. E. Schrader, and V. L. Youngs. 1975. Rapid colorimetric determination of nitrate in plant tissue by nitration of salicylic acid. Communications in Soil Science and Plant Analysis 6(1):71–80.
  • Chalk, P. M. 2018. The role of 15N-depleted fertilizers as tracers in N cycling studies in agroecosystems. Nutrient Cycling in Agroecosystems. doi:10.1007/s10705-018-9927-5.
  • Chaverra, M. H., and P. H. Graham. 1992. Cultivar variation in traits affecting early nodulations on common bean. Crop Science 32 (6):1432–36.
  • Ciafardini, G., and C. Barbieri. 1984. A new soybean inoculation system: The distribution of the symbiont in coverage. Information Agriculture 19:63–65.
  • Coleto, I., M. Pineda, A. P. Rodiño, A. M. De Ron, and J. M. Alamillo. 2014. Comparison of inhibition of N2 fixation and ureide accumulation under water deficit in four common bean genotypes of contrasting drought tolerance. Annals of Botany 113 (6):1071–82.
  • Danso, S. K. A. 1986. Estimation of N2-fixation by isotope dilution: An appraisal of techniques involving 15N enrichment and their application—comments. Soil Biology and Biochemistry 18 (3):243–44.
  • Díaz-Leal, J. L., G. Gálvez-Valdivieso, J. Fernández, M. Pineda, and J. M. Alamillo. 2012. Developmental effects on ureide levels are mediated by tissue-specific regulation of allantoinase in Phaseolus vulgaris L. Journal of Experimental Botany 63 (11):4095–106.
  • Farid, M., and A. Navabi. 2015. N2 fixation ability of different dry bean genotypes. Canadian Journal of Plant Science 95 (6):1243–57.
  • Farid, M., H. J. Earl, K. P. Pauls, and A. Navabi. 2017. Response to selection for improved nitrogen fixation in common bean (Phaseolus vulgaris L.). Euphytica 213 (4):1–13.
  • FAOSTAT. 2014. Food and agriculture organization of the United Nations. http://www.fao.org/faostat/en/?#home (accessed December 2016).
  • Franco, A. A., J. C. Pereira, and C. A. Neyra. 1979. Seasonal patterns of nitrate reductase and nitrogenase activities in Phaseolus vulgaris L. Plant Physiology 63 (3):421–24.
  • Goos, R. J., N. Abdraimova, and B. E. Johnson. 2015. Method for determination of ureides in soybean tissues. Communications in Soil Science and Plant Analysis 46 (4):424–29.
  • Graham, P. H. 1981. Some problems of nodulation and symbiotic nitrogen fixation in Phaseolus vulgaris L.: A review. Field Crops Research 4:C: 93–112.
  • Hardarson, G., and C. Atkins. 2003. Optimising biological N2 fixation by legumes in farming systems. Plant and Soil 252 (1):41–54.
  • Harmsen, K., and S. Garabet. 2003. A comparison of the isotope-dilution and the difference method for estimating fertilizer nitrogen recovery fractions in crops. III. Experimental. NJAS - Wageningen Journal of Life Sciences 51 (3):237–61.
  • Heilig, J. A., J. S. Beaver, E. M. Wright, Q. Song, and J. D. Kelly. 2017. QTL analysis of symbiotic nitrogen fixation in a black bean population. Crop Science 57 (1):118–29.
  • Herridge, D. F. 1982. Use of the ureide technique to describe the nitrogen economy of field-grown soybeans. Plant Physiology 70 (1):7–11.
  • Herridge, D. F., C. A. Atkins, J. S. Pate, and R. M. Rainbird. 1978. Allantoin and allantoic acid in the nitrogen economy of the cowpea (Vigna Unguiculata L. Walp.). Plant Physiology 62 (4):495–98.
  • Herridge, D. F., and M. B. Peoples. 1990. Ureide assay for measuring nitrogen fixation by nodulated soybean calibrated by N methods. Plant Physiology 93 (2):495–503.
  • Herridge, D. F., M. B. Peoples, and R. M. Boddey. 2008. Global inputs of biological nitrogen fixation in agricultural systems. Plant and Soil 311 (1–2):1–18.
  • Hynes, R. K., K. A. Craig, D. Covert, R. J. Rennie, and R. S. Smith. 1995. Liquid rhizobia1 inoculants for lentil and field pea. Journal of Production Agriculture 8 (4):547–52.
  • Kipe-Nolt, J. A., H. Vargas, and K. E. Giller. 1993. Nitrogen fixation in breeding lines of Phaseolus vulgaris L. In Enhancement of biological nitrogen fixation of common bean in latin america: Results from an FAO/IAEA Co-ordinated research programme, 1986–1991, ed. F. A. Bliss and G. Hardarson, 103–06. Dordrecht: Springer Netherlands.
  • Knodel, J. J., P. B. Beauzay, D. W. Franzen, H. J. Kandel, S. G. Markell, and J. M. Osorno. 2015. 2014 dry bean grower survey of pest problems and pesticide use in Minnesota and North Dakota, vol.Doc. E-152. Fargo, ND: North Dakota State University Extension Service.
  • Matsumoto, T., M. Yatazawa, and Y. Yamamoto. 1977. Incorporation of 15N into allantoin in nodulated soybean plants supplied with 15N2. Plant and Cell Physiology 18 (2):459–62.
  • McAuliffe, C., D. S. Chamblee, H. Uribe-Arango, and W. W. Woodhouse. 1958. Influence of inorganic nitrogen on nitrogen fixation by legumes as revealed by N15. Agronomy Journal 50 (6):334–37.
  • Mengel, K., E. A. Kirkby, H. Kosegarten, and T. Appel. 2001. Nitrogen. In Principles of plant nutrition, ed. K. Mengel, E. A. Kirkby, H. Kosegarten, and T. Appel, 397–434. Dordrecht: Springer Netherlands.
  • Miranda, B. D., and F. A. Bliss. 1991. Selection for increased seed nitrogen accumulation in common bean: Implications for improving dinitrogen fixation and seed yield. Plant Breeding 106 (4):301–11.
  • Müller, S. H., and P. A. A. Pereira. November, 1995. Nitrogen fixation of common bean (Phaseolus vulgaris L.) as Affected by mineral nitrogen supply at different growth stages. Plant and Soil 177 (1):55–61.
  • NASS. 2016. https://www.nass.usda.gov/ (accessed December 2017).
  • Nguyen, M.-L., J. Luo, and B. Quin. 2018. The role of nitrogen stable isotopes to investigate soil nitrogen transformations and cycling in agricultural systems. In In Soil nitrogen uses and environmental impacts, ed. R. Lal, and B. A. Stewart, 40–63. Boca Raton, FL: CRC Press.
  • Ohyama, T. 2010. Nitrogen as a major essential element of plants. Nitrogen assimilation in plants. Signpost, Trivandrum, Kerala, India.
  • Park, S. J., and B. R. Buttery. 2006. Registration of ineffective nodulation mutant R69 and nonnodulation mutant R99 common bean genetic stocks. Crop Science 46 (3):1415–16.
  • Pate, J. S., C. A. Atkins, S. T. White, R. M. Rainbird, and K. C. Woo. 1980. Nitrogen nutrition and xylem transport of nitrogen in ureide producing grain legumes. Plant Physiology 65 (5):961–65.
  • Piha, M. I., and D. N. Munns. June, 1987. Nitrogen fixation potential of beans (Phaseolus vulgaris L.) compared with other grain legumes under controlled conditions. Plant and Soil 98 (2):169–82.
  • Rennie, R. J. 1982. Quantifying dinitrogen (N2) fixation in soybeans by 15N isotope dilution: The question of the nonfixing control plant. Canadian Journal of Botany 60 (6):856–61.
  • Rennie, R. J., and G. A. Kemp. 1982. N2-fixation in field beans quantified by 15N isotope dilution. II. Effect of cultivars of beans. Agronomy Journal 75 (4):645–49.
  • Ronner, E., A. C. Franke, B. Vanlauwe, M. Dianda, E. Edeh, B. Ukem, A. Bala, J. Van Heerwaarden, and K. E. Giller. 2016. Understanding variability in soybean yield and response to P-Fertilizer and Rhizobium inoculants on farmers’ fields in Northern Nigeria. Field Crops Research 186:133–45.
  • SAS Institute (version 9.4). 2013. SAS Institute, Cary, NC, USA.
  • Singleton, P., H. Keyser, and E. Sande. 2002. Development and evaluation of liquid inoculants. In Inoculants and nitrogen fixation of legumes in Vietnam, 52–66. Canberra, Australia: ACIAR.
  • Singleton, P. W., and J. W. Tavares. 1986. Inoculation response of legumes in relation to the number and effectiveness of indigenous Rhizobium populations. Applied and Environmental Microbiology 51 (5):1013–18.
  • Sprent, J. I. 2001. Nodulation in legumes. Royal Botanic Gardens: Kew.
  • Tajini, F., J. J. Drevon, L. Lamouchi, M. E. Aouani, and M. Trabelsi. 2008. Response of common bean lines to inoculation: Comparison between the Rhizobium tropici CIAT899 and the native Rhizobium etli 12a3 and their persistence in tunisian soils. World Journal of Microbiology and Biotechnology 24 (3):407–17.
  • Thies, J. E., P. W. Singleton, and B. B. Bohlool. 1991. Influence of the size of indigenous rhizobial populations on establishment and symbiotic performance of introduced rhizobia on field-grown legumes. Applied and Enviromental Microbiology 57:19–28.
  • Thilakarathna, M. S., and M. N. Raizada. 2017. A meta-analysis of the effectiveness of diverse rhizobia inoculants on soybean traits under field conditions. Soil Biology and Biochemistry 105:177–96.
  • Triboi, E., and A.-M. Triboi-Blondel. 2014. Towards sustainable, self-supporting agriculture: Biological nitrogen factories as a key for future cropping systems. In Soil as world heritage, ed. D. Dent, 329–42. Dordrecht: Springer Netherlands.
  • Unkovich, M., D. Herridge, M. Peoples, G. Cadisch, B. Boddey, K. Giller, B. Alves, P. Chalk, and others. 2008. Measuring plant-associated nitrogen fixation in agricultural systems. Australian Centre for International Agricultural Research (ACIAR).Canberra, Australia: ACIAR.
  • USDA-ERS. 2016. https://www.ers.usda.gov/ (accessed December 2017).
  • Weiser, G. C., K. F. Grafton, and D. L. Berryhill. 1985. Nodulation of dry beans by commercial and indigenous strains of Rhizobium phaseoli. Agronomy Journal 859:1983–86.
  • Youseif, S., F. A. El-Megeed, and S. Saleh. 2017. Improvement of faba bean yield using Rhizobium/Agrobacterium inoculant in low-fertility sandy soil. Agronomy 7 (1):2.
  • Zrenner, R., M. Stitt, U. Sonnewald, and R. Boldt. 2006. Pyrimidine and purine biosynthesis and degradation in plants. Annual Review of Plant Biology 57 (1):805–36.

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