Derivation of reliable empirical models describing lead transfer from metal-polluted soils to radish (Raphanus sativa L.): Determining factors and soil criteria

Sci Total Environ. 2018 Feb 1:613-614:72-80. doi: 10.1016/j.scitotenv.2017.08.306. Epub 2017 Sep 26.

Abstract

Reliable models describing Pb transfer from soils to food crops are useful in the improvement of soil protection guidelines. This study provides mechanistic insights from in-situ soil solution measurement on the Pb uptake in the root tissues (RF) of radish, grown in 25 representative Pb-contaminated agricultural soils. Lead speciation and regression analysis indicate that >88.6% of the variation in RF Pb is attributable to free Pb2+ activity (aPb2+) in the soil solution, which is predominantly controlled by pH and DOC. Higher DOC would increase the total dissolved Pb (CSol-Pb) in the soil solution but reduce the bioavailability of Pb to radish. CSol-Pb performs poorly in predicting RF Pb unless pH and DOC are included. However, 0.01M CaCl2 extractable Pb (CCC-Pb) alone can satisfactorily predict RF Pb, attributable to the fact that CCC-Pb is consistent with aPb2+. CCC-Pb can be predicted using CSol-Pb and pH. Total soil Pb (CT-Pb), or 0.43M HNO3 extractable Pb (CNA-Pb) has a strong, non-linear correlation with CSol-Pb or CCC-Pb and it is therefore not surprising that CT-Pb or CNA-Pb, together with pH and CEC, can also satisfactorily predict RF Pb. Derived models are effective in identification of soils where RF Pb exceeds the food quality standard (FQS). Soil Pb criteria based on CT-Pb, CNA-Pb and CCC-Pb are derived by inverse use of empirical models. The derived Pb criterion (target value) based on CCC-Pb is 0.02mgkg-1 and the stricter criterion (safe value) is 0.01mgkg-1, which allows a 5% probability for RF Pb to exceed FQS. Safe values based on CT-Pb and CNA-Pb ranged from 26 to 1036mgkg-1 and 9 to 745mgkg-1, respectively.

Keywords: Bioavailability; Dissolved organic matter; Peeled radish; Smelting soils; Soil solution.

MeSH terms

  • Lead / metabolism*
  • Raphanus / metabolism*
  • Soil
  • Soil Pollutants / metabolism*

Substances

  • Soil
  • Soil Pollutants
  • Lead