Loading…

Accumulation of arsenic and lead in garden-grown vegetables: Factors and mitigation strategies

Pesticides containing lead and arsenic were widely used in the US through the 20th century. Legacy contamination from this use poses a health risk as interest in cultivation of abandoned agricultural lands has grown in recent years. We addressed these risks by quantifying Pb and As in soils and prod...

Full description

Saved in:
Bibliographic Details
Published in:The Science of the total environment 2018-11, Vol.640-641, p.273-283
Main Authors: Paltseva, Anna, Cheng, Zhongqi, Deeb, Maha, Groffman, Peter M., Shaw, Richard K., Maddaloni, Mark
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Pesticides containing lead and arsenic were widely used in the US through the 20th century. Legacy contamination from this use poses a health risk as interest in cultivation of abandoned agricultural lands has grown in recent years. We addressed these risks by quantifying Pb and As in soils and produce from a suburban farm in New Jersey, USA and examining the ability of phosphate-bearing amendments (bone meal, triple super phosphate, manure compost and raised bed soil) in combination with Fe and/or Mn amendments to stabilize these metals and prevent their movement into vegetables. Common produce (tomato, carrot, lettuce, and radish) was grown in soils with 133–307 mg Pb kg−1 and 19–73 mg As kg−1. Our results suggest that vegetables produced on these soils can have Pb and As at levels above health and safety standards, especially root and leafy green vegetables. Phosphate-bearing amendments can reduce extractable Pb but can increase extractable As in soils, and can have similar effects on vegetables. Iron amendment increased both extractable Pb and As, likely due to the presence of elemental sulfur in the Fe amendment, which lowered soil pH, while Mn amendment had the opposite effect. Most of the Pb and As in vegetables appear to be associated with soil particles adhered to the vegetables, and the contribution from uptake was relatively small except for plots treated with Fe-amendments and for carrots. Thus, proper crop selection, rigorous cleaning, and dust and dirt control are critical to reduce the risk of contaminant exposure through the consumption of garden produce. [Display omitted] •Soils can have elevated Pb and As due to past pesticide use.•Vegetables produced on these soils can have metals levels above safety standards.•Addition of P stabilizes Pb and mobilizes As.•Root and green leafy vegetables had the highest Pb/As due to soil particle adherence.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2018.05.296