TY - JOUR AU - Hegedűsová, Alžbeta AU - Jakabová, Silvia AU - Vargová, Andrea AU - Hegedűs, Ondrej AU - Pernyeszi, Tímea Judit PY - 2021/11/22 Y2 - 2024/03/28 TI - Use of phytoremediation techniques for elimination of lead from polluted soils JF - Nova Biotechnologica et Chimica JA - Nova Biotechnol. Chim. VL - 9 IS - 2 SE - Research Articles DO - 10.36547/nbc.1217 UR - https://journals.scicell.org/index.php/NBC/article/view/1217 SP - 125-132 AB - The effect of chelating agent – EDTA (ethylene-diamine-tetra-acetic acid) was used for induced phytoextraction to increase intensity of lead transfer from roots to aboveground parts of garden pea. Pot experiments with contaminated soil substrata (50 mg Pb.kg-1 and 100 mg Pb.kg-1) were established for experimental purposes in growth chamber. The results showed that application of 5 and 10 mmol EDTA.kg-1 to experimental variants with 100 mg Pb.kg-1 doubled the increase of lead uptake by pea roots in comparison with variants without EDTA addition, which was statistically confirmed. Intensive lead transfer was observed from roots to aboveground parts of pea after application of 5 and 10 mmol EDTA.kg-1 in variant with 50 mg Pb.kg-1 (40-fold increase), as well as in variant with 100 mg Pb.kg-1 (17-fold increase). The results showed that induced phytoextraction can improve the mobility of lead from soil to plant roots. Application of 5 mmol EDTA.kg-1 resulted to 40-fold increase of lead transfer to green plant parts, despite the fact, that garden pea does not belong to conventional metal hyperaccumulating plant species. Following the results, pea could be used for decontamination of arable soil. The optimal EDTA concentration seems to be 5 mmol.kg-1. Therefore, application of 10 mmol EDTA.kg-1 decreased root mass about 55%, which resulted to decrease the intensity of lead uptake. ER -