Ocena zmian toksyczności gleby skażonej niklem i substancjami ropopochodnymi w procesach fitoremediacji

Kluk, D.; Steliga, Teresa

doi:10.18668/ng.2016.04.02

Cited by 8 publications

(6 citation statements)

References 8 publications

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“…It is also important to note that a toxic substance is less harmful if it occurs individually. If, in addition to excessive salinity, other pollutants appear in the water, then their synergistic toxicity will outweigh the harmfulness of salinity alone [24].…”

Section: Resultsmentioning

confidence: 99%

Can Winter Road De-Icing Affect Mortality of Organisms in Aquatic Ecosystems? An Experimental Approach

Frąk

Bednarczyk

2021

Water

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Road maintenance in winter using de-icing agents, which is widely used in Eastern Europe, is the cause of water salinization in neighbouring environments, which might lead to biodiversity loss in aquatic ecosystems. In this study, we investigated NaCl toxicity to test young organisms: Daphnia magna and Poecilla reticulata (standard tests organisms). The salinity of NaCl was measured by electrolytic conductivity (EC). It was statistically demonstrated that the test solutions should be prepared using natural water. For D. magna the NOEC was 7.17 mS/cm and the LC50 9.76 mS/cm. Poecilla reticulata showed resistance to salinity up to a conductivity of 25.2 mS/cm, and no lethal effects were recorded for any individual in the test population. The study showed that winter salinities recorded in inland waters (without emergencies such as sudden influx of pollutants due to industrial accidents) are unlikely to affect fish but may be hazardous to small plankton. However, the high dare of D. magna may result in a reduction of planktivorous fish.

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Section: Resultsmentioning

confidence: 99%

Can Winter Road De-Icing Affect Mortality of Organisms in Aquatic Ecosystems? An Experimental Approach

Frąk

Bednarczyk

2021

Water

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“…Aktualnie nie ma jednej całościowo znormalizowanej metodyki umożliwiającej identyfikację i ilościowe oznaczania wszystkich rodzajów zanieczyszczeń ropopochodnych w glebie. Przegląd prac opublikowanych na przełomie ostatnich lat wykazuje dużą rozbieżność w metodyce ich oznaczania [1,3,4,6,7,[9][10][11][12][13][14][15][16][17][18][19][20]. Usystematyzowanie metodyki badań w zakresie analityki WWA i TPH umożliwi zaprezentowanie wiarygodnej metody ich oznaczania.…”

Section: Wprowadzenieunclassified

“…Oczyszczanie analitów z substancji polarnych przeprowadzono przy zastosowaniu kolumienek SPE wypełnionych złożem Florisil [11]. Przed użyciem kolumienki złoże kondycjonowano poprzez przemycie 2 ml metanolu.…”

Section: Izolacja Ropopochodnych Składników Tph Z Glebyunclassified

Efektywna metoda identyfikacji zanieczyszczeń ropopochodnych (TPH) i wielopierścieniowych węglowodorów aromatycznych (WWA) w glebach

Kluk

Steliga

2017

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Efektywna metoda identyfikacji zanieczyszczeń ropopochodnych (TPH) i wielopierścieniowych węglowodorów aromatycznych (WWA) w glebach W artykule przedstawiono metodykę oznaczania substancji ropopochodnych (TPH i WWA) w glebach. Opisano sposoby izolacji TPH i WWA z gleb za pomocą technik ekstrakcji rozpuszczalnikowej. Zanieczyszczenia ropopochodne TPH z matrycy glebowej wydzielono metodą ekstrakcji rozpuszczalnikowej, zmodyfikowaną poprzez zastosowanie ultradźwięków. Natomiast WWA wydzielono metodą ekstrakcji Soxhleta. Wykazano, że najwyższą efektywność ekstrakcji analitów z matrycy glebowej uzyskano przy zastosowaniu dichlorometanu (dla TPH) oraz eteru naftowego (dla WWA). Oczyszczenie/ rozdział analitu wykonano metodą ekstrakcji do fazy stałej SPE w oparciu o zasadę chromatograficznej separacji selektywnej adsorpcji i selektywnej elucji. Do badań stosowano kolumienki z wypełnieniami: florisil (oczyszczenie analitu ze związków polarnych) oraz CN/SiOH (selektywne wydzielenie WWA). Wydzielone z gleby TPH i WWA oznaczono metodą chromatografii gazowej. Opracowana metodyka jest wiarygodna i może być rekomendowana do stosowania podczas prac związanych z monitoringiem składu gleb potencjalnie skażonych substancjami ropopochodnymi.Słowa kluczowe: substancje ropopochodne, wielopierścieniowe węglowodory aromatyczne WWA, gleba.An effective method for the identification of total petroleum hydrocarbons (TPH) and polycyclic aromatic hydrocarbons (PAHs) in soilsThe article presents the methodology for the determination of petroleum substances (TPH and PAHs) in soils. Describes methods of isolating TPH and PAH from soils by solvent extraction techniques. TPH derived from the soil matrix was separated by solvent extraction, modified by ultrasound. While the PAHs were isolated by Soxhlet extraction. It has been shown that the highest efficiency of extraction of analytes from the soil matrix was obtained using dichloromethane (for TPH) and petroleum ether (for PAHs). The purification/separation of the analyte was made by SPE solid phase extraction based on the principle of chromatographic selective adsorption separation and selective elution. Columns packed with florisil (purification of the analyte from polar pollutants) and with CN/SiOH (selective separation of PAHs) were used for the studies. TPH and PAHs separated from the soil were determined using gas chromatography. The developed methodology is reliable and can be recommended for use during monitoring of soil compositions which can be potentially hydrocarbon contaminated.Key words: total petroleum hydrocarbons, polycyclic aromatic hydrocarbons, soil. DOI: 10.18668/NG.2017.07.06 Wprowadzenie Działalność człowieka od wieków powoduje zmiany w środowisku, zmniejsza jego zasoby, modyfikuje naturalne cechy i powoduje wprowadzanie do środowiska obcych, niewystępujących naturalnie substancji. Niejednokrotnie mamy do czynienia z przedostawaniem się nadmiernych ilości szkodliwych substancji do środowiska gruntowo-wodnego, co znacznie spowalnia lub całkowicie zatrzymuje naturalne pr...

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“…There are plants that are very effective in removing toxic substances with ability to efficiently collect and integrate them into their own cells (phytoextraction), capable of active metabolism and degradation (phytodegradation), collection of contaminants, their transpiration and evaporation in a modified form (phytoevaporation), adsorption or precipitation of xenobiotics on the root surface collection and accumulation of impurities in root tissues (rhizofiltration), or stabilization (phytostabilization) of harmful compounds (Marecik et al, 2006;Grobelak et al, 2010;Posmyk and Urbaniak, 2014). Vegetation with the ability to purify soil contaminated with heavy metals in the presence of petroleum substances appears to have enormous potential that can be used on a wide scale to restore utility value of contaminated areas in the long term (Atagana, 2011;Gałązka and Gałązka, 2016;Kluk and Steliga, 2016). However, to achieve this objective, an attempt should be made to select available vegetation on the basis of tests carried out in laboratory conditions.…”

mentioning

confidence: 99%

Potential of Helianthus annuus for phytoremediation of lead, zinc, total petroleum hydrocarbons (TPH) and polycyclic aromatic hydrocarbons (PAHs) contaminated soil

Kluk¹,

Steliga²

2019

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This paper describes the results regarding effectiveness of treatment of soils contaminated with heavy metals (lead, zinc), total petroleum hydrocarbons (TPH) and polycyclic aromatic hydrocarbons (PAHs): naphthalene (Nap), phenanthrene (Phe), fluoranthene (Flt), chrysene(Chr), in the process of phytoremediation carried out a laboratory scale with the plant Helianthus annuus. The reason behind the work was to investigate how plant vegetation can reduce the concentration of heavy metals in the soil and how the presence of petroleum substances and polycyclic aromatic hydrocarbons affect the efficiency of their removal. The analysis was based on the dynamics of cleaning the contaminated soils which contained periodic testing on physical, chemical and toxicological properties of: uncontaminated soil, soil contaminated with TPH and PAHs, soil contaminated with heavy metals, soil contaminated with heavy metals and petroleum substances. Phytoremediation of soils and its effectiveness in pot experiments was assessed based on physical and chemical soil analyses as well as five microbiotests applying organisms belonging to three trophic levels: producers (Phytotoxkit TM and Spirodela Duckweed Toxkit), consumers (Ostracodtoxkit TM) and decomposers (Microtox ® STP, MARA). The conducted research has shown that combining the results of chemical analyzes and biological tests on contaminated soils enable a real ecotoxicological assessment of environmental hazards. Six-month long phytoremediation of soils contaminated with heavy metals (Pb, Zn), and heavy metals together with petroleum substances (TPH, PAHs), yielded results in terms of a content reduction of: lead (from of 472-495 mg/ kg dry mass of soil to 226-318 mg/kg d.m.), zinc (from 998-1030 mg/kg d.m. to 520-656 mg/kg d.m.), TPH (from 4806-4824 mg/kg d.m. to 2774-3180 mg/kg d.m.) and PAH (removal rates of Nap: at 28,0-29.9%, Phe: at 25.1-27.0%, Flt: at 24-26,3%, Chr: at 14.5-18.6%). After finishing the experiment the content of lead and zinc in the plant biomass was also measured. Based on the obtained results, conclusions were made regarding issues related to usage of phytoremediation to clean contaminated soils depending on the concentration and type of toxic substance.

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Ocena zmian toksyczności gleby skażonej niklem i substancjami ropopochodnymi w procesach fitoremediacji

Cited by 8 publications

References 8 publications

Can Winter Road De-Icing Affect Mortality of Organisms in Aquatic Ecosystems? An Experimental Approach

Can Winter Road De-Icing Affect Mortality of Organisms in Aquatic Ecosystems? An Experimental Approach

Efektywna metoda identyfikacji zanieczyszczeń ropopochodnych (TPH) i wielopierścieniowych węglowodorów aromatycznych (WWA) w glebach

Potential of Helianthus annuus for phytoremediation of lead, zinc, total petroleum hydrocarbons (TPH) and polycyclic aromatic hydrocarbons (PAHs) contaminated soil

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