Cm. Borkert et al., ZINC AND COPPER TOXICITY IN PEANUT, SOYBEAN, RICE, AND CORN IN SOIL MIXTURES, Communications in soil science and plant analysis, 29(19-20), 1998, pp. 2991-3005
Applications of zinc (Zn) and copper (Cu) at excessive rates may resul
t in phytotoxicity. Experiments were conducted with mixtures of soils
that were similar except for their Zn and Cu levels. The critical toxi
city levels (CTL) in the soils and plants for these elements were dete
rmined. Peanut (Arachis hypogaea L.), soybean [Glycine max (L.) Merr.]
, corn (Zea mays L.), and rice (Oryza sativa L.) were the crops grown.
One soil mixture had Mehlich 3-extractable Zn concentrations up to 30
0 mg dm(-3) with no corresponding increase in soil Cu; two soil mixtur
es had soil Zn concentrations up to 400 and 800 mg dm(-3) with a corre
sponding increase in soil Cu up to 20 and 25 mg dm(-3), respectively;
and four soil mixtures had no increase in soil Zn, but had Mehlich 1-e
xtractable Cu concentrations from 6 to 286 mg kg(-1). Under a given se
t of greenhouse conditions, the estimated Mehlich 3-extractable Zn CTL
was 36 mg d(m-)3 for peanut, 70 mg dm(-3) for soybean, between 160 an
d 320 mg dm(-3) for rice, and > 300 mg dm(-3) for corn. No soil Cu CTL
was apparent for peanut or soybean, but for corn it was 17 mg dm(-3)
and for rice 13 mg dm(-3). With different greenhouse procedures and th
e Mehlich 1 extractant, the soil CTL for rice was only 4.4 mg kg(-1).
Therefore, peanut and soybean were more sensitive to Zn toxicity, wher
eas corn and rice were more sensitive to Cu toxicity. Plant Zn CTL for
peanut was 230 mg kg(-1), while that for soybean was 140 mg kg(-1). C
opper appeared to be toxic to corn and rice at plant concentrations ex
ceeding 20 mg kg(-1).