Mercury in scarletina bolete mushroom (Neoboletus luridiformis): Intake, spatial distribution in the fruiting body, accumulation ability and health risk assessment
Аутори
Árvay, JúliusHauptvogl, Martin
Demková, Lenka
Harangozo, Ľuboš
Šnirc, Marek
Bobuľská, Lenka
Štefániková, Jana
Kováčik, Anton
Jakabová, Silvia
Jančo, Ivona
Kunca, Vladimír
Relić, Dubravka
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
In the present work, we focused on two aspects of mercury (Hg) bioconcentration in the above-ground parts of Neoboletus luridiformis. In the first part, we monitored the bioconcentration potential of individual anatomical parts of a particular fruiting body and evaluated the obtained data by the spline interpolation method. In the second part, we focused on assessing the mercury content in 378 samples of N. luridiformis and associated samples of substrates from 38 localities with different levels of Hg content in Slovakia. From the obtained data of Hg content in samples of substrate and fungi, we evaluated ecological indicators (geoaccumulation index – Igeo, contamination factor – Cf a potential ecological risk – PER), bioconcentration indicators (bioconcentration factor – BCF; cap/stipe quotient – Qc/s) and health indicators (percentage of provisional tolerable weekly intake – %PTWI a target hazard quotient – THQ). Based on the Hg distribution results, the highest Hg content was found... in the tubes & pores (3.86 mg/kg DW), followed by the flesh of cap (1.82 mg/kg DW). The lowest Hg content was in the stipe (1.23 mg/kg DW). The results of the BCF values indicate that the studied species can be included in the category of mercury accumulators. The results of the ecological indices representing the state of soil pollution pointed out that two localities (Malachov and Nižná Slaná) stood apart from all monitored localities and showed a state of an extremely disturbed environment. This fact was also reflected in the values of Hg content in the fruiting bodies of the studied mushroom species. In the case of the consumption of mushrooms from these localities, it can be stated that long-term and regular consumption could have a negative non-carcinogenic effect on the health of consumers. It was confirmed by the %PTWI (Malachov: 57.8%; Nižná Slaná: 53.2%) and THQ (Malachov: 1.11 Nižná Slaná: 1.02). The locality Čačín-Jelšovec is interesting from the bioconcentration characteristics point of view, where the level of environmental pollution was the lowest (Hg content in the soil was below the background value) compared to other localities, however, the THQ value was the highest (1.29).
Кључне речи:
Accumulation / Mercury / Risk assessment / Spatial distributionИзвор:
Ecotoxicology and Environmental Safety, 2022, 232, 113235-Издавач:
- Elsevier
Финансирање / пројекти:
- Ministry of Education, Science, Research and Sport of the Slovak Republic VEGA 1/0591/18
- Ministry of Education, Science, Research and Sport of the Slovak Republic VEGA 1/0326/18
- Slovak Research and Development Agency (No. SK-SRB-18-0038)
- Ministry of Education, Science and Technological Development of Serbiа (No. 337–00-107/2019–09/17)
Напомена:
- Supplementary material: https://cherry.chem.bg.ac.rs/handle/123456789/4876
Повезане информације:
DOI: 10.1016/j.ecoenv.2022.113235
ISSN: 0147-6513
WoS: 00077951180000
Scopus: 2-s2.0-85123317518
Колекције
Институција/група
Hemijski fakultet / Faculty of ChemistryTY - JOUR AU - Árvay, Július AU - Hauptvogl, Martin AU - Demková, Lenka AU - Harangozo, Ľuboš AU - Šnirc, Marek AU - Bobuľská, Lenka AU - Štefániková, Jana AU - Kováčik, Anton AU - Jakabová, Silvia AU - Jančo, Ivona AU - Kunca, Vladimír AU - Relić, Dubravka PY - 2022 UR - http://cherry.chem.bg.ac.rs/handle/123456789/4875 AB - In the present work, we focused on two aspects of mercury (Hg) bioconcentration in the above-ground parts of Neoboletus luridiformis. In the first part, we monitored the bioconcentration potential of individual anatomical parts of a particular fruiting body and evaluated the obtained data by the spline interpolation method. In the second part, we focused on assessing the mercury content in 378 samples of N. luridiformis and associated samples of substrates from 38 localities with different levels of Hg content in Slovakia. From the obtained data of Hg content in samples of substrate and fungi, we evaluated ecological indicators (geoaccumulation index – Igeo, contamination factor – Cf a potential ecological risk – PER), bioconcentration indicators (bioconcentration factor – BCF; cap/stipe quotient – Qc/s) and health indicators (percentage of provisional tolerable weekly intake – %PTWI a target hazard quotient – THQ). Based on the Hg distribution results, the highest Hg content was found in the tubes & pores (3.86 mg/kg DW), followed by the flesh of cap (1.82 mg/kg DW). The lowest Hg content was in the stipe (1.23 mg/kg DW). The results of the BCF values indicate that the studied species can be included in the category of mercury accumulators. The results of the ecological indices representing the state of soil pollution pointed out that two localities (Malachov and Nižná Slaná) stood apart from all monitored localities and showed a state of an extremely disturbed environment. This fact was also reflected in the values of Hg content in the fruiting bodies of the studied mushroom species. In the case of the consumption of mushrooms from these localities, it can be stated that long-term and regular consumption could have a negative non-carcinogenic effect on the health of consumers. It was confirmed by the %PTWI (Malachov: 57.8%; Nižná Slaná: 53.2%) and THQ (Malachov: 1.11 Nižná Slaná: 1.02). The locality Čačín-Jelšovec is interesting from the bioconcentration characteristics point of view, where the level of environmental pollution was the lowest (Hg content in the soil was below the background value) compared to other localities, however, the THQ value was the highest (1.29). PB - Elsevier T2 - Ecotoxicology and Environmental Safety T1 - Mercury in scarletina bolete mushroom (Neoboletus luridiformis): Intake, spatial distribution in the fruiting body, accumulation ability and health risk assessment VL - 232 SP - 113235 DO - 10.1016/j.ecoenv.2022.113235 ER -
@article{ author = "Árvay, Július and Hauptvogl, Martin and Demková, Lenka and Harangozo, Ľuboš and Šnirc, Marek and Bobuľská, Lenka and Štefániková, Jana and Kováčik, Anton and Jakabová, Silvia and Jančo, Ivona and Kunca, Vladimír and Relić, Dubravka", year = "2022", abstract = "In the present work, we focused on two aspects of mercury (Hg) bioconcentration in the above-ground parts of Neoboletus luridiformis. In the first part, we monitored the bioconcentration potential of individual anatomical parts of a particular fruiting body and evaluated the obtained data by the spline interpolation method. In the second part, we focused on assessing the mercury content in 378 samples of N. luridiformis and associated samples of substrates from 38 localities with different levels of Hg content in Slovakia. From the obtained data of Hg content in samples of substrate and fungi, we evaluated ecological indicators (geoaccumulation index – Igeo, contamination factor – Cf a potential ecological risk – PER), bioconcentration indicators (bioconcentration factor – BCF; cap/stipe quotient – Qc/s) and health indicators (percentage of provisional tolerable weekly intake – %PTWI a target hazard quotient – THQ). Based on the Hg distribution results, the highest Hg content was found in the tubes & pores (3.86 mg/kg DW), followed by the flesh of cap (1.82 mg/kg DW). The lowest Hg content was in the stipe (1.23 mg/kg DW). The results of the BCF values indicate that the studied species can be included in the category of mercury accumulators. The results of the ecological indices representing the state of soil pollution pointed out that two localities (Malachov and Nižná Slaná) stood apart from all monitored localities and showed a state of an extremely disturbed environment. This fact was also reflected in the values of Hg content in the fruiting bodies of the studied mushroom species. In the case of the consumption of mushrooms from these localities, it can be stated that long-term and regular consumption could have a negative non-carcinogenic effect on the health of consumers. It was confirmed by the %PTWI (Malachov: 57.8%; Nižná Slaná: 53.2%) and THQ (Malachov: 1.11 Nižná Slaná: 1.02). The locality Čačín-Jelšovec is interesting from the bioconcentration characteristics point of view, where the level of environmental pollution was the lowest (Hg content in the soil was below the background value) compared to other localities, however, the THQ value was the highest (1.29).", publisher = "Elsevier", journal = "Ecotoxicology and Environmental Safety", title = "Mercury in scarletina bolete mushroom (Neoboletus luridiformis): Intake, spatial distribution in the fruiting body, accumulation ability and health risk assessment", volume = "232", pages = "113235", doi = "10.1016/j.ecoenv.2022.113235" }
Árvay, J., Hauptvogl, M., Demková, L., Harangozo, Ľ., Šnirc, M., Bobuľská, L., Štefániková, J., Kováčik, A., Jakabová, S., Jančo, I., Kunca, V.,& Relić, D.. (2022). Mercury in scarletina bolete mushroom (Neoboletus luridiformis): Intake, spatial distribution in the fruiting body, accumulation ability and health risk assessment. in Ecotoxicology and Environmental Safety Elsevier., 232, 113235. https://doi.org/10.1016/j.ecoenv.2022.113235
Árvay J, Hauptvogl M, Demková L, Harangozo Ľ, Šnirc M, Bobuľská L, Štefániková J, Kováčik A, Jakabová S, Jančo I, Kunca V, Relić D. Mercury in scarletina bolete mushroom (Neoboletus luridiformis): Intake, spatial distribution in the fruiting body, accumulation ability and health risk assessment. in Ecotoxicology and Environmental Safety. 2022;232:113235. doi:10.1016/j.ecoenv.2022.113235 .
Árvay, Július, Hauptvogl, Martin, Demková, Lenka, Harangozo, Ľuboš, Šnirc, Marek, Bobuľská, Lenka, Štefániková, Jana, Kováčik, Anton, Jakabová, Silvia, Jančo, Ivona, Kunca, Vladimír, Relić, Dubravka, "Mercury in scarletina bolete mushroom (Neoboletus luridiformis): Intake, spatial distribution in the fruiting body, accumulation ability and health risk assessment" in Ecotoxicology and Environmental Safety, 232 (2022):113235, https://doi.org/10.1016/j.ecoenv.2022.113235 . .