Soil & Environmental Health (May 2024)

Effects of agro-climatic zones, soil orders, and irrigation types on the exchangeable cadmium in paddy soils

  • S. Sugathas,
  • N.A.S.A. Neththasinghe,
  • D.N. Sirisena,
  • R. Thilakasiri,
  • M. Ariyarathna,
  • H.K. Kadupitiya,
  • R. Chandrajith,
  • L.D.B. Suriyagoda

Journal volume & issue
Vol. 2, no. 2
p. 100078

Abstract

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Even though the concentrations of the total cadmium (Cd) in paddy soils from different countries have been reported, the exchangeable-Cd (Ex-Cd) concentrations in these soils are unknown despite its importance in agriculture. This study was conducted with a total of 5460 soil samples collected in Sri Lanka, representing six agro-climatic zones, six soil orders, and three irrigation types. The Ex-Cd concentrations in soil samples were extracted using 0.01 ​M CaCl2 and analyzed using an inductively coupled plasma-mass spectrophotometry. The Ex-Cd concentrations were <0.31–163 ​μg ​kg−1, with mean and median concentrations being 14.1 and 8.98 ​μg ​kg−1, respectively, which was affected by both agro-climatic and soil conditions. Samples from the Wet zone, particularly the Wet zone Low country, had higher Ex-Cd (24.1 ​μg ​kg−1) than those from the Dry zone Low country (11.6 ​μg ​kg−1). Among the soil orders, Histosols (21.3 ​μg ​kg−1) and Inceptisols (19.5 ​μg ​kg−1) had the highest Cd concentration while Vertisols had the lowest (6.3 ​ ​kg−1). The irrigation types only affected Ex-Cd concentrations in Dry zone Low country, but not in other agro-climatic zones. Overall, it is important to consider agro-climatic zones, soil orders, and irrigation types when implementing agronomic strategies to mitigate the risk associated with Cd accumulation in paddy fields.

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