Issue 8, 2021

Uptake of perfluorinated alkyl acids by crops: results from a field study

Abstract

Four crops with different edible plant parts (radish, lettuce, pea and maize) were grown in outdoor lysimeters on soil spiked with 13 perfluorinated alkyl acids (PFAAs) at 4 different levels. PFAA concentrations were measured in soil, soil pore water, and different plant parts at harvest. Edible part/soil concentration factors ranged over seven orders of magnitude and decreased strongly with increasing PFAA chain length, by a factor of 10 for each additional fluorinated carbon (nCF) for pea. Three processes were responsible for most of the variability. The first was sorption to soil; calculating whole plant concentration factors on the basis of concentration in pore water instead of soil reduced the variability from five orders of magnitude to two. Second, the journey of the PFAAs with the transpiration stream to the leaves was hindered by retention in the roots driven by sorption; root retention factors increased by a factor 1.7 for each nCF. Third, transfer of PFAAs from the leaves to the fruit via the phloem flow was also hindered – presumably by sorption; fruit/leaf concentration factors decreased by a factor 2.5 for each nCF. A simple mathematical model based on the above principles described the measured concentrations in roots, leaves, fruits and radish bulbs within a factor 4 in most cases. This indicates that the great diversity in PFAA transfer from soil to crops can be largely described with simple concepts for four markedly different species.

Graphical abstract: Uptake of perfluorinated alkyl acids by crops: results from a field study

Supplementary files

Article information

Article type
Paper
Submitted
25 Apr 2021
Accepted
05 Jul 2021
First published
14 Jul 2021
This article is Open Access
Creative Commons BY license

Environ. Sci.: Processes Impacts, 2021,23, 1158-1170

Uptake of perfluorinated alkyl acids by crops: results from a field study

S. Felizeter, H. Jürling, M. Kotthoff, P. De Voogt and M. S. McLachlan, Environ. Sci.: Processes Impacts, 2021, 23, 1158 DOI: 10.1039/D1EM00166C

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