TY  - CHAP
AU  - Ranđelović, Dragana
AU  - Jakovljević, Ksenija
AU  - Zeremski, Tijana
PY  - 2022
UR  - http://fiver.ifvcns.rs/handle/123456789/3170
AB  - Phytotechnologies have showed potential for sustainable and low-cost use in remediation of contaminated lands. In order to increase effectivness of the phytoremediation process on contaminated sites assisted phytoremediation techniques are developed. One of such procedures is use of chelating agents, able to effectively mobilize metals into the soil solution and bioavailable forms, where they can consequently be uptaken by selected plant species. Various types of chelates, both synthetic and natural, can be used in this process. Chelate-assisted phytoremediation process includes interactions between soil, targeted element(s), chelate and plant in complex processes of solution and transport of elements from soil and their uptake and translocation in plants. Different researches acknowledged efficient element uptake from contaminated soils into selected plant species accompanied with use of adequate chelating agents, especially for sites with low initial mobility of contaminants. However, chelate-assistant phytoremediation is still prone to several limitation and drawbacks. Leaching of mobilized metals from chelate-treated soils is often reported, sometimes also accompanied with leaching of soil macronutrients.
PB  - Elsevier
T2  - Assisted Phytoremediation
T1  - Chelate-assisted phytoremediation
EP  - 154
SP  - 131
DO  - 10.1016/B978-0-12-822893-7.00004-5
DO  - 10.1016/C2019-0-04894-7
ER  - 

@inbook{
author = "Ranđelović, Dragana and Jakovljević, Ksenija and Zeremski, Tijana",
year = "2022",
abstract = "Phytotechnologies have showed potential for sustainable and low-cost use in remediation of contaminated lands. In order to increase effectivness of the phytoremediation process on contaminated sites assisted phytoremediation techniques are developed. One of such procedures is use of chelating agents, able to effectively mobilize metals into the soil solution and bioavailable forms, where they can consequently be uptaken by selected plant species. Various types of chelates, both synthetic and natural, can be used in this process. Chelate-assisted phytoremediation process includes interactions between soil, targeted element(s), chelate and plant in complex processes of solution and transport of elements from soil and their uptake and translocation in plants. Different researches acknowledged efficient element uptake from contaminated soils into selected plant species accompanied with use of adequate chelating agents, especially for sites with low initial mobility of contaminants. However, chelate-assistant phytoremediation is still prone to several limitation and drawbacks. Leaching of mobilized metals from chelate-treated soils is often reported, sometimes also accompanied with leaching of soil macronutrients.",
publisher = "Elsevier",
journal = "Assisted Phytoremediation",
booktitle = "Chelate-assisted phytoremediation",
pages = "154-131",
doi = "10.1016/B978-0-12-822893-7.00004-5, 10.1016/C2019-0-04894-7"
}

Ranđelović, D., Jakovljević, K.,& Zeremski, T.. (2022). Chelate-assisted phytoremediation. in Assisted Phytoremediation
Elsevier., 131-154.
https://doi.org/10.1016/B978-0-12-822893-7.00004-5

Ranđelović D, Jakovljević K, Zeremski T. Chelate-assisted phytoremediation. in Assisted Phytoremediation. 2022;:131-154.
doi:10.1016/B978-0-12-822893-7.00004-5 .

Ranđelović, Dragana, Jakovljević, Ksenija, Zeremski, Tijana, "Chelate-assisted phytoremediation" in Assisted Phytoremediation (2022):131-154,
https://doi.org/10.1016/B978-0-12-822893-7.00004-5 . .

TY  - JOUR
AU  - Zeremski, Tijana
AU  - Ranđelović, Dragana
AU  - Jakovljević, Ksenija
AU  - Marjanović-Jeromela, Ana
AU  - Milić, Stanko
PY  - 2021
UR  - http://fiver.ifvcns.rs/handle/123456789/2380
AB  - The genus Brassica is recognized for including species with phytoaccumulation potential and a large amount of research has been carried out in this area under a variety of conditions, from laboratory experiments to field trials, with spiked or naturally contaminated soils, using one or multi-element contaminated soil, generating various and sometimes contradictory results with limited practical applications. To date, the actual field potential of Brassica species and the feasibility of a complete phytoextraction process have not been fully evaluated. Therefore, the aim of this study was to summarize the results of the experiments that have been performed with a view to analyzing real potentials and limitations. The reduced biomass and low metal mobility in the soil have been addressed by the development of chemically or biologically assisted phytoremediation technologies, the use of soil amendments, and the application of crop management strategies. Certain issues, such as the fate of harvested biomass or the performance of species in multi-metal-contaminated soils, remain to be solved by future research. Potential improvements to current experimental settings include testing species grown to full maturity, using a greater amount of soil in experiments, conducting more trials under real field conditions, developing improved crop management systems, and optimizing solutions for harvested biomass disposal.
PB  - Basel : MDPI
T2  - Plants
T1  - Brassica species in phytoextractions: real potentials and challenges
SP  - 2340
VL  - 10
DO  - 10.3390/plants10112340
ER  - 

@article{
author = "Zeremski, Tijana and Ranđelović, Dragana and Jakovljević, Ksenija and Marjanović-Jeromela, Ana and Milić, Stanko",
year = "2021",
abstract = "The genus Brassica is recognized for including species with phytoaccumulation potential and a large amount of research has been carried out in this area under a variety of conditions, from laboratory experiments to field trials, with spiked or naturally contaminated soils, using one or multi-element contaminated soil, generating various and sometimes contradictory results with limited practical applications. To date, the actual field potential of Brassica species and the feasibility of a complete phytoextraction process have not been fully evaluated. Therefore, the aim of this study was to summarize the results of the experiments that have been performed with a view to analyzing real potentials and limitations. The reduced biomass and low metal mobility in the soil have been addressed by the development of chemically or biologically assisted phytoremediation technologies, the use of soil amendments, and the application of crop management strategies. Certain issues, such as the fate of harvested biomass or the performance of species in multi-metal-contaminated soils, remain to be solved by future research. Potential improvements to current experimental settings include testing species grown to full maturity, using a greater amount of soil in experiments, conducting more trials under real field conditions, developing improved crop management systems, and optimizing solutions for harvested biomass disposal.",
publisher = "Basel : MDPI",
journal = "Plants",
title = "Brassica species in phytoextractions: real potentials and challenges",
pages = "2340",
volume = "10",
doi = "10.3390/plants10112340"
}

Zeremski, T., Ranđelović, D., Jakovljević, K., Marjanović-Jeromela, A.,& Milić, S.. (2021). Brassica species in phytoextractions: real potentials and challenges. in Plants
Basel : MDPI., 10, 2340.
https://doi.org/10.3390/plants10112340

Zeremski T, Ranđelović D, Jakovljević K, Marjanović-Jeromela A, Milić S. Brassica species in phytoextractions: real potentials and challenges. in Plants. 2021;10:2340.
doi:10.3390/plants10112340 .

Zeremski, Tijana, Ranđelović, Dragana, Jakovljević, Ksenija, Marjanović-Jeromela, Ana, Milić, Stanko, "Brassica species in phytoextractions: real potentials and challenges" in Plants, 10 (2021):2340,
https://doi.org/10.3390/plants10112340 . .