High phosphorus at seedling stage decreases the post-transplanting fertiliser requirement of cucumber (Cucumis sativus L.)

High rates of phosphorus (P) are generally applied to vegetable crops, but this carries a risk of polluting the environment. There has been little research to define optimum soil P levels and strategies to reduce P requirements in the field. We hypothesized that high rates of P fertilization at the seedling stage followed by lower rates later could reduce total P fertilizer use in cucumber (Cucumis sativus L.). In this study, we explored the optimum P application via pot experiments in which three P levels at the seedling stage (0, 80, and 240 mg P kg(-1) soil) were used in factorial combination with three P levels after transplanting (0, 80, and 160 mg P kg(-1) soil). Results showed that P applied in the seedling stage was much more effective at maintaining optimal growth than in the field after transplanting. For example, 72 mg P pot(-1) applied in the mode 240/0 (P application rates at the seedling vs transplant stages) produced a biomass dry weight (DW) of 17.7 g pot(-1), whereas 360 mg P pot(-1) applied in the mode 0/80 produced only 13.8 gpot(-1). An ancillary study measured the depletion of P from solution by cucumber seedlings between 13 and 21 days after sowing. Over this period V-max (the maximum uptake velocity) decreased from 1.18 to 0.50 nmol g(-1) root dry weights(-1), while K-m (the half-saturation constant where uptake is 50% of V-max) increased from 5.60 to 8.141 mu M. That indicates that since cucumber plants have a high capacity to absorb P as seedlings, it would be expected to reduce the P requirement in field soils. There are therefore efficiencies in applying higher P at the seedling stage and lower levels later. (C) 2015 Elsevier B.V. All rights reserved.