In order to study the accumulation

In order to study the accumulation of heavy metals in forage crops which depends on their concentration in a soil, toxicants were applied to the experimental plots at the beginning of investigations before the sowing of crops by spitting of the separate nitrate salt solutions. The amount of elements applied to the soil of experimental sites was calculated accounting values of limited permissible concentrations of metals in a soil (Pb—30 mg/kg, Cd—1.0 mg/kg, Cu—23.0 mg/kg, Zn—110 mg/kg) (Goncharuk and Sydorenko, 1968) and their clarck content (Background content of heavy metals in soils of Ukraine, 1997).

Damage effects on crops have not been allowed. The following concentrations of elements were used:

Cu and Zn: 25, 50, 100 mg/kg of soil (Cu25, Cu50, Cu100 and Zn25, Zn50, Zn100); Cd: 0.5, 1. 2 mg/kg of soil (Cd0.5, Cd1, Cd2) and Pb: 25, 50, 75 mg/kg of soil (Pb25, Pb50, Pb75).
Soil of the experimental sites was dug over thoroughly.

Collection of conjugated samples of soil and plants was carried out by the envelope method (5 points) at the vegetative stage of budding-beginning of flowering in three replicas. The content of heavy metals in soil and plants was determined by atomic absorption spectrometry using a “Spectrum AA250 Plus”-VARIAN spectrometer (Barer and Amacher, 1982 and Burau, 1982). Error of elements determination are as follows: for Cd—5.28%, Zn—11.33%, Pb—4.56%, Cu—1.15%.

The soil-to-plant transfer factor (TF) was defined as follows:

View the MathML source
Turn MathJax on

Agrochemical analysis of soils was carried out by standard techniques (Arinushkina, 1970).

Absorption capacity (T) is calculated by addition of the sum of exchangeable bases (S) to hydrolytic acidity (HH): T=S+HH. pH of the salt extract is detected potentiometrically. Exchangeable calcium is determined potentiometrically. Humus is determined by the Turine technique based on the organic matter oxidation with chromic acid till the carbon dioxide formation. Determination of mobile phosphorus is carried out by the Kirsanov technique. Exchangeable potassium is determined by the method of Maslova. Agrochemical characteristics of soils in the experimental sites are given in Table 1.

Statistical pattern of soil and plants contamination by heavy metals, which characterize casual component of contamination variability, were analyzed on the basis of measurement results. In order to estimate a steadiness of contamination of the experimental sites, a method elaborated by Khomutinin et al., 2002 was used. The experimental site was divided into the regular grid of 25 sub-sites with a definite subinterval. Samples of soils and crops were collected in the junction points of the grid. The more dense the grid, the more correct is the determination. Lognormal distribution can be used well for the assessment of soil and herbage pollution in the context of non-gradient pollution. Approximation of soils and plants pollution by the above law of probabilities can give rather satisfactory results.

Thus, it may be accepted that the pollution of soils and plants in relatively ungradiently polluted sites is occasional and obeys the law of lognormal distribution of probabilities, and soil and plants samples used for determination of an average meaning of pollution are statistically independent.