H. Kaupp et al., Retention and mobility of atmospheric particle-associated organic pollutant PCDD/Fs and PAHs in maize leaves, NEW PHYTOL, 148(3), 2000, pp. 473-480
The fate of polychlorinated dibenzo-p-dioxins and dibenzofurans and polycyc
lic aromatic hydrocarbons deposited to maize leaves under ambient condition
s was investigated, with focus on those compounds that are primarily associ
ated with particles in the atmosphere, leaf samples collected from mature m
aize plants over an 8-wk period were subjected to four extraction procedure
s: (1) rinsing with distilled water; (2) shaking in aqueous EDTA solution;
(3) immersion in chloroform/methanol; (4) soxhlet extraction with toluene.
Of the compounds deposited primarily in association with particles, > 20%,
of the total leaf contamination was present in the first two aqueous extrac
ts, indicating that only a small portion of these substances was subject to
ready erosion from the leaf surfaces. Some 50 60% of the chemical was pres
ent in the third extract, while 20 40% was found in the final extract. The
chemical in the final extract was Ilo longer associated with particles, sin
ce these had been removed with the first three extractions. This chemical m
ust have desorbed from the particles with which it was originally deposited
, and migrated through the epicuticular waxes. Model calculations indicated
that 15-35% of the chemical in the third extract had also desorbed from th
e particles, and there was evidence that polychlorinated dibenzo-p-dioxins
and dibenzofurans desorb more readily than polycyclic aromatic hydrocarbons
. It is concluded that desorption of chemical from particles and subsequent
transport through the cuticle is an important process determining plant ac
cumulation of organic contaminants associated with atmospheric particles.