Biological nitrogen fixation is not a major contributor to the nitrogen demand of a commercially growth South African sugarcane cultivar

G. Hoefsloot, A.J. Termorshuizen, D.A. Watt, M.D. Cramer

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38 Citations (Scopus)

Abstract

It has previously been reported that endophytic diazotrophic bacteria contribute significantly to the nitrogen budgets of some graminaceous species. In this study the contribution of biological nitrogen fixation to the N-budget of a South African sugarcane cultivar was evaluated using 15N natural abundance, acetylene reduction and 15N incorporation. Plants were also screened for the presence of endophytic diazotrophic bacteria using acetylene reduction and nifH-gene targeted PCR with the pure bacterial strains. 15N natural abundance studies on field-grown sugarcane indicated that the plants did not rely extensively on biological nitrogen fixation. Furthermore, no evidence was found for significant N2-fixation or nitrogenase activity in field-grown or glasshouse-grown plants using 15N incorporation measurements and acetylene reduction assays. Seven endophytic bacterial strains were isolated from glasshouse-grown and field-grown plants and cultured on N-free medium. The diazotrophic character of these seven strains could not be confirmed using acetylene reduction and PCR screening for nifH. Thus, although biological nitrogen fixation may occur in South African sugarcane varieties, the contribution of this N-source in the tested cultivar was not significant.
Original languageEnglish
Pages (from-to)85-96
JournalPlant and Soil
Volume277
Issue number1-2
DOIs
Publication statusPublished - 2005

Keywords

  • n-15 natural-abundance
  • gluconacetobacter-diazotrophicus
  • acetobacter-diazotrophicus
  • fixing bacterium
  • plant-growth
  • n-2-fixing bacteria
  • n-2 fixation
  • in-vitro
  • sp-nov.
  • cane

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