Incidence and diversity of phosphate-solubilising bacteria are linked to phosphorus status in grassland soils

The extent to which soil phosphorus (P) status affected the incidence of soil phosphate-solubilising bacteria (PSB) and their taxonomic abundance and diversity was examined at three long-term fertiliser trials (Whatawhata, Winchmore and Ballantrae) in New Zealand. Bacteria were isolated from rhizosphere (ryegrass and clover) and non-rhizosphere soils differing in P status. The P-solubilising phenotype was determined on agar supplemented with sparingly-soluble mineral phosphates (Ca2OH(PO4)3 and CaHPO4). The frequency of P-solubilisation in the bacterial population was significantly greater (P < 0.001) in soils of low-P status, demonstrating a selection pressure for this trait based on soil P availability. P-solubilising bacteria from high-P level soils and soils which had not received P fertiliser (nil-P soils) were identified based on 16S rRNA-gene sequence analysis. Across the samples, the P-solubilising community was very rich with 39 genera of PSB found, spanning 24 families and 4 phyla. At Ballantrae and Winchmore, the PSB composition differed (P < 0.05) across soil P status, which was associated with an alteration in abundance of Actinobacteria, Pseudomonadaceae and Moraxellaceae. The phylogenetic composition of PSB differed significantly (P < 0.05) between sites, however nearly half the families were common across all sites, constituting a ‘core community’ of P-solubilising bacteria for these New Zealand pasture soils. As the abundance and composition of P-solubilising bacteria are under strong selection pressure affected through farm management strategies, better understanding of their ecology provides the opportunity to increase the availability of soil P for plant-uptake.