Knowledge Network Node

Effect of Lead Zinc Interaction on Size of Microbial Biomass in Red SoilEnglish Full Text

K. S. KHAN and HUANG CHANGYONG College of Natural Resources and Environmental Sciences, Zhejiang Agricultural University, Hangzhou 310029 (China)

Abstract: A laboratory incubation experiment was conducted to evaluate the effects of lead and zinc applied alone or in various combinations on the size of microbial biomass in a red soil. Treatments included the application of lead at six different levels i.e., 0 (background), 100, 200, 300, 450 and 600 μg g -1 soil along with each of the four levels of zinc (0, 50, 150 or 250 μg g -1 soil). Application of lead or zinc alone to soil significantly ( P <0.001) affected the soil microbial biomass. The microbial biomass carbon (C mic ), biomass nitrogen (N mic ) and biomass phosphorus (P mic ) decreased sharply in soils contaminated with lead or zinc. Combined application of lead and zinc resulted in a greater biocidal effect on soil microbial biomass, which was significantly higher ( P <0.001) than that when either lead or zinc was applied alone. Consistent increase in the biomass C:N and decline in the biomass C:P ratios were also observed with the increased metal (Pb and Zn) toxicity in the soil.
  • Series:

    (D) Agriculture; (A) Mathematics/ Physics/ Mechanics/ Astronomy

  • Subject:

    Physical Geography and Topography; Fundamental Science of Agriculture; Agronomy

  • Classification Code:

    S154.4

  • Mobile Reading
    Read on your phone instantly
    Step 1

    Scan QR Codes

    "Mobile CNKI-CNKI Express" App

    Step 2

    Open“CNKI Express”

    and click the scan icon in the upper left corner of the homepage.

    Step 3

    Scan QR Codes

    Read this article on your phone.

  • CAJ Download
  • PDF Download

Download the mobile appuse the app to scan this coderead the article.

Tips: Please download CAJViewer to view CAJ format full text.

Download: 21 Pagecount: 6 Size: 78k

Related Literature
  • Similar Article
  • Reader Recommendation
  • Associated Author