Dt. Gardiner et al., EFFECTS OF REPEATED SEWAGE-SLUDGE APPLICATIONS ON PLANT ACCUMULATION OF HEAVY-METALS, Agriculture, ecosystems & environment, 55(1), 1995, pp. 1-6
This study evaluated plant absorption of heavy metals from various sew
age sludge treatments. Three anaerobically digested municipal sludges
(Chicago, Salt Lake City, and Idaho Falls) were added to field plots o
f the calcareous Millville soil (Typic Haploxeroll) and planted to 'La
rker' spring barley (Hordeum vulgare L.) and Swiss chard (Beta vulgari
s, L. var. 'Cicla'). Each sludge was added yearly at 20 Mg ha(-1) for
5 years; the Chicago sludge was also added once (the first year) at 10
0 Mg ha(-1), and also at 40 Mg ha(-1) the first and third years. Incre
ased sludge additions increased metal concentrations in barley and Swi
ss chard. The first year, adding 21.2 kg Cd ha(-1) in 100 Mg ha(-1) of
Chicago sludge increased plant Cd concentrations about six-fold (from
0.11 to 0.64 mg kg(-1) in grain and from 0.7 to 4.4 mg kg(-1) in Swis
s chard). In subsequent years the increase in Cd was smaller. The rela
tively small Cd additions in 20 Mg ha(-1) of Salt Lake and Idaho Falls
sludges did not increase Cd in barley grain. Concentrations of Zn, Cu
, and Ni did not increase as greatly as Cd following sludge addition.
Although only a few individual barley grain samples exceeded the recom
mended maximum of 0.5 mg Cd kg(-1) for feeds, most of the barley leaf
and Swiss chard samples were much higher in Cd than the 0.5 mg kg(-1)
level. The Zn, Cu, and Ni levels in the crops were below suggested thr
eshold values.