Litcius/Paper detail

Will Phosphate Bio-Solubilization Stimulate Biological Nitrogen Fixation in Grain Legumes?

Walid Janati, Bouchra Benmrid, Wissal Elhaissoufi, Youssef Zeroual, Joshua Nasielski, Adnane Bargaz

2021Frontiers in Agronomy54 citationsDOIOpen Access PDF

Abstract

Biological nitrogen fixation (BNF) refers to a bacterially mediated process by which atmospheric N 2 is reduced, either symbiotically or non-symbiotically, into ammonia (NH 3 ) in the presence of the enzyme complex nitrogenase. In N 2 -fixing grain legumes, BNF is often hampered under low phosphorus (P) availability. The P status of legumes, particularly nodules, as well as P availability in the rhizosphere, play a vital role in regulating BNF. Aside from increasing P availability via fertilization, other plant traits (i.e., extensive rooting system and their spatial distribution, hyper-nodulation, root exudates, rhizosphere acidification, and heterogeneity) contribute to greater P uptake and hence more effective BNF. The positive interaction between P availability and BNF can be exploited through beneficial soil P solubilizing microorganisms (PSM). These microorganisms can increase plant-available P by modifying either rhizosphere soil processes or promoting plant traits, which lead to increased P uptake by the production of plant growth-promoting substances, both of which could indirectly influence the efficiency of BNF in legumes. In this review, we report on the importance of microbial P bio-solubilization as a pathway for improving BNF in grain legumes via PSM and P solubilizing bacteria (PSB). Because BNF in legumes is a P-requiring agro-ecological process, the ability of soil PSB to synergize with the rhizobial strains is likely a key belowground process worth investigating for advanced research aiming to improve rhizosphere biological functions necessary for sustainable legume-based cropping systems.

Topics & Concepts

RhizosphereNitrogen fixationNitrogenaseBiologyAgronomyMicroorganismLegumeRhizobacteriaDiazotrophRhizobiaBulk soilBeneficial organismNitrogen cyclePhosphoriteBotanyBacteriaNitrogenChemistryFertilizerGeneticsOrganic chemistryLegume Nitrogen Fixing SymbiosisAgronomic Practices and Intercropping SystemsNematode management and characterization studies