• Title of article

    erformance of fertigation technique for phosphorus application in cotton

  • Author/Authors

    Aslam, M. Nuclear Institute of Agricultrue - Soil Science Division, Pakistan , Memon, M.Y. Nuclear Institute of Agricultrue - Soil Science Division, Pakistan , Khan, P. Nuclear Institute of Agricultrue - Soil Science Division, Pakistan , Imtiaz, M. Nuclear Institute of Agricultrue - Soil Science Division, Pakistan , Nizamuddin Nuclear Institute of Agricultrue - Soil Science Division, Pakistan

  • From page
    45
  • To page
    48
  • Abstract
    Low native soil phosphorus availability coupled with poor utilization of added phosphorus is one of the major constraints limiting the productivity of the crops. With a view of addressing this issue, field studies were conducted to compare the relative efficacy of broadcast and fertigation techniques for phosphorus application during 2005-2006 using cotton as a test crop. Two methods of phosphorus application i.e. broadcast and fertigation were evaluated using five levels of P2O5 (0, 30, 45, 60 and 75 kg P2O5 ha^ -1). Fertigation showed an edge over broadcast method at all levels of phosphorus application. The highest seed cotton yield was recorded with 75 kg P2O5 ha^-1. Fertilizer phosphorus applied at the rate of 60 kg ha^-1 through fertigation produced 3.4 tons ha^-1 of seed cotton yield, which was statistically identical to 3.3 tons recorded with 75 kg ha^-1 of broadcast phosphorus. Agronomic performance of phosphorus was influenced considerably by either method of fertilizer application. The seed cotton yield per kg of fertigation phosphorus was 48% higher than the corresponding broadcast application. The results of these studies showed that fertigation was the most efficient method of phosphorus application compared with the conventional broadcast application of fertilizers.
  • Keywords
    Fertigation , broadcast , phosphorus , cotton (Gossypium hirsutum L.)
  • Journal title
    Soil an‎d Environment
  • Journal title
    Soil an‎d Environment
  • Record number

    2689642