The ability of the DGT soil phosphorus test to predict pasture response in Australian pasture soils – a preliminary assessment

Diffusive gradients in thin‐films ( DGT ) technology provides an alternative assessment of available phosphorus (P) for a range of crops, suggesting a preliminary examination of the performance of the new DGT ‐P test, compared to existing bicarbonate extractable Olsen and Colwell P tests, for pastures is justified. This study utilized historic data from the Australian National Reactive Phosphate Rock ( NRPR ) study (1992–1994) that included 25 experimental sites representing a wide range of soil types and climates used for pasture production. Stored (~19 yr) soil samples were analysed for DGT ‐P, Olsen P and a single point P buffering index ( PBI ) and re‐analysed for Colwell P. Results showed the traditional bicarbonate extractable Colwell ( r 2  = 0.45, P  < 0.001) and Olsen P ( r 2  = 0.27, P  < 0.001) methods predicted relative pasture P response more accurately, compared to the novel DGT ‐P test ( r 2  = 0.09, P  = 0.03) when all 3 yr of data were examined. We hypothesize that the harsher bicarbonate extraction used for the Olsen and Colwell methods more accurately reflects the ability of perennial pasture roots to access less labile forms of P, in contrast to the DGT ‐P test, which does not change the soil pH or dilute the soil and appears unable to fully account for a plants ability to solubilize P. Further studies are needed to compare the capacity of DGT ‐P to measure P availability in perennial pasture systems and to better understand the soil chemical differences between pasture and cropping systems.