Abstract
Second-generation biofuel crop miscanthus is one of the most promising plants tested for phytomanagement of contaminated sites. In this preliminary pot case study, the most used hybrid Miscanthus x giganteus was cultivated in three different real contaminated soils: agricultural soil contaminated with Cd; post-military soil slightly contaminated with Zn, Pb and Cd; and soil contaminated by petroleum industry with metals and hydrocarbons. The stress response of plants and soil microbial communities was monitored to receive data that are important for successful phytomanagement application. With metals only, the plant grew well, and chlorophyll fluorescence measurement proved their good vitality. Changes in leaf anatomy (leaf thickness and sclerenchyma cells area) were additionally determined in post-military soil compared to agricultural. On the contrary, in petroleum-contaminated soil, the biomass yield was too reduced and also physiological parameters were significantly decreased. The response of microbial communities also differed. In agricultural soil, no microbial stress was determined. In post-military soil, it became reduced during the experiment, and in petroleum contamination, it increased year-on-year. It could be concluded that miscanthus is suitable for cultivation in metals contaminated soils with potential for microbial communities support, but in soil contaminated by the petroleum industry, its application did not seem meaningful.
Highlights
Contamination of soil is one of the most severe current environmental issues
Soil pH ranged from slightly acidic (AGR) and neutral (MIL) to slightly alkaline (OIL)
The concentration of available P in agricultural soil (AGR) soil was very high, and on the contrary, it was low in military soil (MIL) and oil-polluted soil (OIL) soil compared to Czech legislative agronomic standards [50]
Summary
Contamination of soil is one of the most severe current environmental issues. A wide range of chemical compounds has been contaminating soil resources for a couple of centuries with industry development, intensification of agriculture, and other human activities. Petroleum hydrocarbons, pesticides and solvents were identified as the most common ones. These contaminated areas may affect ecosystems’ functions, and they can cause several health problems [1]. With proper decontamination management, some of these sites represent non-food agronomy production opportunities. Growing energy crops in different marginal lands is a very actual topic because of limited sources of good quality agricultural soil [2]
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