Effects of phosphorus on shoot and root growth, partitioning, and phosphorus utilization efficiency in Lantana

Abstract

This study was undertaken to critically analyze the effects of reduced phosphorus (P) on shoot and root growth, partitioning, and phosphorus utilization efficiency (PUtE) in lantana (Lantana camara ‘New Gold’).Plants were grown in a 1:1 mixture of perlite and vermiculite with complete nutrient solutions containing a range of P concentrations considered to be deficient (1 mg·L-1), low (3 and 5 mg·L-1), adequate (10 mg·L-1), and high (20 and 30 mg·L-1).Higher P supply had most dramatic effect on increasing the number of leaves and leaf surface area, subsequently leading to a disproportionate increase in shoot biomass than root biomass.Increasing P from1 to 30 mg·L-1 linearly (P < 0.0001) increased shoot dry weight (DW) during vegetative growth, and logarithmically (P < 0.0001) during reproductive growth.Regardless of plant growth stage, biomass of roots and flowers (inflorescences) logarithmically increased (P < 0.0001) with increasing P concentrations.Plants grown with lower P allocated more biomass to roots than shoots, resulting in a higher root-to-shoot ratio.Increasing P concentration to 20mg·L-1 increased the accumulation of P in all plant parts, but predominantly in shoots, whereas further increasing the concentration increased the accumulation primarily in roots and flowers.Higher P accumulation in plant tissues did not strongly contribute to the biomass production.Phosphorus utilization efficiency was higher with lower P supply in all plant tissues.P-deficient roots had the highest PUtE and specific root length (SRL), and retained higher proportion of P compared with nondeficient roots.Our results indicate that P concentration at 20 mg·L-1 is sufficient to maintain optimal vegetative growth while reproductive growth does not require P concentrations over 10 mg·L-1 as it stimulates greater level of P accumulation in plant parts with little or no effect on growth and flowering, and biomass accumulation in lantana.