Rape genotypic differences in P uptake and utilization from phosphate rocks in an Andisol of Chile

A main constraint to agricultural productivity in the southern regionsof Chile is the low available soil P exacerbated by the high P sorptioncapacityof the predominant Andisols. Therefore, substantial amounts of P fertilizersmust be applied to obtain optimum growth and crop yields. One cost-effectivestrategy followed to supply P to crops grown in these soils is the directapplication of the local Bahia Inglesa PR source. However, a more sustainablestrategy would be to combine the use of the local PR with the crop species andcultivars that are able to grow in these acid soils and can utilize efficientlyPR. Rape is reported to be very efficient in utilising P from PR sources due toits capacity to exude organic acids to the rhizosphere. Therefore, the presentstudy was conducted to evaluate the ability of five rape cultivars grown in anAndisol of southern Chile in utilising P from two PR sources (Bahia Inglesa andBayovar) and triple superphosphate, a water-soluble P fertilizer. It was foundthat rape was able to absorb significant amounts of P from the PR sources andmuch less from the TSP and soil P. Both Bahia Inglesa and Bayovar PRs werefoundto be as effective as TSP for the rape genotypes in the Andisol Pemehue. Theuseof the ³²P isotope technique enabled to assess the ability of thegenotypes tested to utilize P from the different P fertilizers applied. Thegenotypes G2 and G3 showed increased P acquisition from the PR than thegenotypeG5. Combined utilization of P efficient genotypes and direct application of theBahia Inglesa PR seems to be a promising technology for attaining sustainableagricultural productivity in the Andisols of Chile. Further field trials forvalidating these findings at the level of cropping systems are needed. Thisagronomic testing should be accompanied by in-depth studies to assess therelative importance of the morphological and physiological traits determining ahigher P efficiency.