• Title of article

    Influence of Biochar on Yield and Heavy Metal Accumulation in Roots of Brassica Rapa under Groundwater and Wastewater Irrigation

  • Author/Authors

    haider, feroza sardar bhadur khan women’s university - department of plant sciences, Quetta, pakistan , haider, feroza university of balochistan - department of botany, quetta, pakistan , gul, shamim mcgill university, ste-anne-de-bellevue, macdonald campus - department of natural resource sciences, quebec, canada , gul, shamim university of balochistan - department of botany, Quetta, Pakistan , hussain, javaid environmental protection agency, government of balochistan, Quetta, Pakistan , ghori, sadaf asalam sardar bahadur khan womenes university - department of environmental science, Quetta, Pakistan , shahwani, muhammad naeem balochistan university of information technology, engineering and management sciences (buitems) - faculty of life sciences, Quetta, Pakistan , murad, muhammad balochistan university of information technology, engineering and management sciences (buitems) - faculty of life sciences, Quetta, Pakistan , kakar, abdul manan university of balochistan - institute of biochemistry, Quetta, Pakistan

  • From page
    418
  • To page
    427
  • Abstract
    The present study investigated the influence of wood-derived and cow manure-derived biochars on the crop growth performance and accumulation of chromium, iron, manganese and zinc in the edible parts (roots) of Brassica rapa (turnip) under groundwater and wastewater irrigation. Biochars were applied at 0.25, 0.5 and 1 kg m^-2 to soil. Amendment of biochar increased significantly the aboveground plant biomass by 28% - 34.3% under groundwater and 18.3% - 30.4% under wastewater irrigation. Dry weight of root biomass increased by 16.1% - 20.2% under groundwater and by 21% - 31.2% under wastewater irrigation in response to biochar amendment. Wood-derived biochar at higher application rates and manure-derived biochar at all application rates showed significant influence on crop growth performance of B. rapa. Wood-derived biochar at all application rates and manure-derived biochar at higher application rate reduced significantly the concentration of iron and zinc in roots of B. rapa.
  • Keywords
    Biochar , Wastewater irrigation , Heavy metal accumulation , Yield , Brassica rapa
  • Journal title
    Sarhad Journal of Agriculture
  • Journal title
    Sarhad Journal of Agriculture
  • Record number

    2554158