Water mint (Mentha aquatica L.) belongs to the arsenic tolerant plant species suitable for cultivation

in Central European climate conditions. Therefore, its possible application for remediation of contaminated soil

was investigated in pot and field experiments. Two M. aquatica plants of different origin, i) commercially market-available mint plants, and ii) plants habituated at the arsenic contaminated former mining area in southern

Tuscany (Italy) were tested for their arsenic uptake, transformation, and speciation. The total arsenic concentrations in the experimental soils varied from 21 to 1573 mg As kg-1, the mobile fractions did not exceed 2% of total

soil arsenic. The mint plants originating from the contaminated area were able to remove ~400 µg of arsenic

per pot, whereas the commercial plant removed a significantly lower amount (~300 µg of arsenic per pot). Only

arsenite and arsenate, but no organoarsenic compounds were identified in both stems and leaves. Arsenate was

the predominant arsenic compound and reached up to 80% regardless of the origin of the mint plants. Although

M. aquatica seems to be able to grow in contaminated soils without symptoms of phytotoxicity, its efficiency to

remove arsenic from the soil is limited as can be demonstrated by total elimination of As from individual pots

not exceeding 0.1%. Moreover, the application of plants originating from the contaminated site did not result in

sufficient increase of potential phytoextraction efficiency of M. aquatica. Although not suitable for phytoextraction the M. aquatica plants can be used as vegetation cover of the contaminated soil at the former mining areas

The article deals with the problems of induction of the anatomical and morphological structure of plants of different life forms under the conditions of a long-term chronic action of ionising radiation on the territory of the Northern nuclear power plant. Currently, the study and assessment of the radioecological situation on the territory of the former Semipalatinsk nuclear test site, taking into account the ecological state of natural plant and animal populations, is of particular importance. The study of the reaction of living organisms, be it plants or animals, to different doses of chronic ionising radiation makes it possible to assess and diagnose the state of environmental quality, and these organisms themselves can serve as bioindicators of pollution. On the territory of the Semipalatinsk test site, at the experimental site “Balapan”, 3 sections with meadow type of soil were studied: polluted section no. 1 – the northwestern shore of Lake Chagan, polluted section no. 2 – the north-eastern shore of Lake Chagan, and control section no. 3. For structural analysis, the study recorded the vegetative organs of plant species with an increased radiation background. It was found that when the EDR (exposure dose rate) of gamma radiation increases and the plant growth is stimulated. In the conditions of radioactive contamination, with an increase in the activity of alpha, beta and gamma radiation, plants response and changes occur in the internal structure of their vegetative organs. Such adaptive features arise under the influence of a complex of environmental factors, including radiation pollution.