Your search keyword '"Zgorelec, Željka"' showing total 8 results

1. Does exposure to weathered coal ash with an enhanced content of uranium-series radionuclides affect flora? Changes in the physiological indicators of five referent plant species.

Author

Skoko B, Brkanac SR, Kuharić Ž, Jukić M, Štrok M, Rovan L, Zgorelec Ž, Perčin A, and Prlić I

Subjects

Catalase, Coal analysis, Coal Ash analysis, Coal Ash toxicity, Glutathione, Plants, Power Plants, Radioisotopes analysis, Transferases, Air Pollutants, Radioactive analysis, Uranium toxicity

Abstract

Coal ash deposited in open landfills is a potential source of environmental pollutants due to the contained toxic element content. The weathered coal ash used in this study additionally contains enhanced activity concentrations of 238 U series radionuclides. This study aimed to determine the physiological effects of enhanced ionizing radiation and toxic elements on five plant species (smilo grass, sticky fleabane, blackberry, mastic and pine tree) inhabiting the coal ash disposal site. Among the potentially toxic measured elements, contents of Sb, As and especially V significantly exceeded their respective levels at the control site, as well as the content of 238 U and its progenies. Significant changes in photosynthetic pigments were recorded following chronic exposure to the plants growing on the coal ash site. Different responses were also observed in the plant species regarding the activity of catalase and glutathione-S-transferase (GST). The level of lipid peroxidation markedly increased in plants from the disposal site, except in blackberry, wherein GST activity was the strongest, indicating an important role of that enzyme in the adaptation to coal ash pollutants. The results of this study suggest that the modulation of the studied biochemical parameters in plants growing on coal ash is primarily species-dependent., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2023

2. Spatio-temporal monitoring of mercury and other stable metal(loid)s and radionuclides in a Croatian terrestrial ecosystem around a natural gas treatment plant.

Author

Lazarus M, Orct T, Sekovanić A, Skoko B, Petrinec B, Zgorelec Ž, Kisić I, Prevendar Crnić A, Jurasović J, and Srebočan E

Subjects

Animals, Cattle, Croatia, Ecosystem, Environmental Monitoring, Female, Natural Gas, Radioisotopes, Soil, Zinc analysis, Arsenic analysis, Mercury analysis, Soil Pollutants analysis

Abstract

The natural gas industry bears a certain contamination risk to human and biota due to, among others, mercury, arsenic, and naturally occurring radioactive material content in gas. We tracked multiple stabile metal(loid)s and radionuclides within the natural gas treatment plant Molve, Croatia, ecosystem during the last decade through a comprehensive monitoring of soil, earthworms, moss, livestock (blood, milk, hair, urine, and feces from cows), and wildlife animals (brain, muscle, liver, and kidney of European hare and pheasant). The level of mercury and other stable metal(loid)s has shown temporal variation, but without an obvious trend. The found spatial differences in soil and earthworms were based on the differing soil characteristics of the sampled locations and exceeded the maximal allowable concentration of arsenic and zinc for agricultural soil. The status of essential copper, selenium, and zinc in cows, hares, and pheasants inclined towards deficiency. The measured stable metal(loid) levels in soil and animal samples were generally in the same range of values reported in earlier decades from the same area or non-polluted areas across Europe. The consumption of local cow and game products (e.g., milk, meat) can be considered safe for human health, although game offal is advised to be avoided as a food item due to the low risk of lead and cadmium's adverse effects. Although the activity concentrations of some radionuclides in moss were higher than reported for pristine areas, transfer from soil to moss was assessed as average (except for lead-210). Radiological risk to human and biota around the gas treatment plant Molve was estimated as negligible., (© 2022. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2022

3. Radioactivity of soil in Croatia II: 137 Cs, 40 K, and absorbed dose rate.

Author

Šoštarić M, Petrinec B, Avdić M, Petroci L, Kovačić M, Zgorelec Ž, Skoko B, Bituh T, Senčar J, Branica G, Franić Z, Franulović I, Rašeta D, Bešlić I, and Babić D

Subjects

Cesium Radioisotopes analysis, Croatia, Soil, Radiation Monitoring, Radioactivity, Soil Pollutants, Radioactive analysis

Abstract

We took samples of uncultivated soil from the surface layer (0-10 cm) at 138 sites from all over Croatia and measured their radionuclide activity concentrations with high-resolution gamma-ray spectrometry. This second part of our report brings the results on 40 K and 137 Cs to complement those on the 232 Th and 238 U decay chains addressed in the first part. Together they give the most complete picture of radioactivity of Croatian soil so far. Activity concentrations of 40 K were the highest in the Pannonian region, and there was an opposite trend for 137 Cs. We found that the concentrations of 137 Cs tended to increase with altitude, annual precipitation, and vegetation density. The concentration ratio of 137 Cs and K in soil, which indicates the potential for 137 Cs entering food chains via uptake by plants, was the lowest in agriculturally important areas in the east of the Pannonian region. In addition, we used the obtained results on activity concentrations to calculate the related absorbed dose rate as a measure of external exposure to ionising radiation from soil. The sum of the absorbed dose rates for naturally occurring radionuclides and 137 Cs showed that external exposure was generally the highest in the Dinaric region and Istrian Peninsula., (© 2021 Marko Šoštarić et al., published by Sciendo.)

Published

2021

4. Radioactivity of soil in Croatia I: naturally occurring decay chains.

Author

Šoštarić M, Petrinec B, Avdić M, Petroci L, Kovačić M, Zgorelec Ž, Skoko B, Bituh T, Senčar J, Branica G, Franić Z, Franulović I, Rašeta D, Bešlić I, and Babić D

Subjects

Croatia, Radioisotopes analysis, Soil, Radiation Monitoring, Radioactivity, Soil Pollutants, Radioactive analysis

Abstract

The assessment of environmental radioactivity much relies on radionuclide content in soil. This stems from the significant contribution of soil to both external and internal exposure to ionising radiation via direct emission of gamma radiation and soil-to-plant radionuclide transfer, respectively. This motivated us to carry out a systematic research on the radioactivity of soil in Croatia to obtain relevant data that can be used as a basis for understanding the related effects of geomorphological, biogeographical, and climatological properties of the environment. We collected samples of the surface layer of uncultivated soil (0-10 cm) at 138 sites from all over the country and measured them for radionuclide activity concentrations by means of high-resolution gamma-ray spectrometry. This resulted in radioactivity maps containing data on activity concentrations of representative radionuclides in the environment. In this paper, which is the first in our two-part presentation, we focus on the naturally occurring 232 Th and 238 U decay chains and their correlations with the diversity of Croatian regions. For both of the chains, activity concentrations were the highest in the Dinaric region, the lowest in the Pannonian region, and intermediate in the Adriatic region. Relatively high concentrations of 226 Ra in the soil of the Dinaric region implied a possibility of an enhanced emanation of its progeny 222 Rn into the air. Activity concentrations of 210 Pb were additionally elevated in areas with dense vegetation, most probably due to an atmospheric deposition of airborne 210 Pb onto the surface of plants and their eventual decomposition on the ground., (© 2021 Marko Šoštarić et al., published by Sciendo.)

Published

2021

5. Multiyear phytoremediation and dynamic of foliar metal(loid)s concentration during application of Miscanthus × giganteus Greef et Deu to polluted soil from Bakar, Croatia.

Author

Pidlisnyuk V, Shapoval P, Zgorelec Ž, Stefanovska T, and Zhukov O

Subjects

Biodegradation, Environmental, Croatia, Soil, Metals, Heavy analysis, Soil Pollutants analysis

Abstract

The multiyear cultivation of Miscanthus × giganteus Greef et Deu (M.×giganteus) at the soils polluted by metal(loid)s were researched. The biomass parameters and concentrations of elements: Ti, Mn, Fe, Cu, Zn, As, Sr, and Mo were determined in the plant's organs at harvest. The same metal(loid)s were monitored in the plant's leaves throughout three vegetation seasons. The principal component analysis and general linear model approaches were applied for statistical evaluation followed by Box-Cox transformation. The difference in the distribution of elements in the plant, the content of elements in the soil, various regime of uptake to the plant tissues, and the year of vegetation were analyzed as driving factors of the phytoremediation. The results showed that the leading promoter was the factor of the zone, which was the most essential for Ti, Fe, and Cu and the smallest for Mn. The factor of differences in soil pollution was essential for Zn and Mo, much less for As, Sr, and Mn, limited for Fe, and was not seen for Ti and Cu. The factor of the interrelation effects of the zone and experiment reflected the different regime of uptake for the plant tissues was seen for two elements: more prominent for Cu and smaller for Ti. While analyzing the dynamic of foliar concentrations of the metal(loid)s during 3 years, two groups were defined. Firstly, Fe, Ni, Mn, and Sr showed stable curves with limited distribution of the plant life cycle. Secondly, As, Zn, Cu, and Mo showed different fluctuations in the curves, which can be attributed to essential influence of those elements to the plant life cycle. Further research will be focused on the application of M.×giganteus to the polluted soil in a bigger scale and comparison results of laboratory and field experiments.

Published

2020

6. Determination of gamma-ray self-attenuation correction in environmental samples by combining transmission measurements and Monte Carlo simulations.

Author

Šoštarić M, Babić D, Petrinec B, and Zgorelec Ž

Subjects

Calibration, Computer Simulation, Gamma Rays, Humans, Monte Carlo Method, Radioisotopes analysis, Environmental Monitoring statistics & numerical data, Radiation Monitoring statistics & numerical data, Spectrometry, Gamma statistics & numerical data

Abstract

We develop a simple and widely applicable method for determining the self-attenuation correction in gamma-ray spectrometry on environmental samples. The method relies on measurements of the transmission of photons over the matrices of a calibration standard and an analysed sample. Results of this experiment are used in subsequent Monte Carlo simulations in which we first determine the linear attenuation coefficients (μ) of the two matrices and then the self-attenuation correction for the analysed sample. The method is validated by reproducing, over a wide energy range, the literature data for the μ of water. We demonstrate the use of the method on a sample of sand, for which we find that the correction is considerable below ~400keV, where many naturally occurring radionuclides emit gamma rays. At the lowest inspected energy (~60keV), one measures an activity that is by a factor of ~1.8 smaller than its true value., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

7. Mercury in Eisenia fetida and soil in the vicinity of a natural gas treatment plant in northern Croatia.

Author

Crnić AP, Zgorelec Ž, Šuran J, Jurasović J, Špirić Z, Levak S, Bašić F, Kisić I, and Srebočan E

Abstract

In the last two decades (1990-2012), as part of a mercury monitoring programme, earthworms and soils have been collected from four locations in the vicinity of a natural gas production and treatment plant near the village of Molve, Croatia. The aim of this study was to determine the concentration of mercury in the collected samples, monitor its changes over a longer period of time and determine the bioaccumulation of total mercury in earthworms (Eisenia fetida) from the soil. Total mercury concentrations in earthworms from the surroundings of four boreholes (Molve 9-12) ranged within 0.195-1.050, 0.129-1.0, 0.229-1.236 and 0.223-0.799 μg g -1 dry weight, while total mercury concentrations in different soil types at the same locations within 0.055-0.350, 0.035-0.250, 0.031-0.240 and 0.071-0.475 μg Hg g -1 of soil. The calculated mercury bioaccumulation factor ranged between 0.9 and 17.5. Mercury levels in soil and earthworms, as a tool for soil pollution assessment, suggested low mercury exposure and risks for human health in the monitored area.

Published

2016

8. Arsenic in air and soil in the vicinity of the central gas station Molve, Croatia.

Author

Žužul S, Zgorelec Ž, Bašić F, Kisić I, Mesić M, Vađić V, and Orct T

Subjects

Atmosphere chemistry, Croatia, Environmental Monitoring, Environmental Pollution statistics & numerical data, Gasoline analysis, Particulate Matter analysis, Seasons, Soil chemistry, Air Pollutants analysis, Arsenic analysis, Soil Pollutants analysis

Abstract

Spatial and temporal distribution of arsenic levels in soil during the 9 year monitoring period was investigated on four different soil types in the area of the gas borehole system Podravina in Croatia. Arsenic levels in the PM(10) particle fraction were measured periodically at the same locations for 3 years. Arsenic levels in soil significantly depended on soil types. Elevated levels were found on gleysol vertic, at two sampling sites, with values exceeding 30 mg/kg of arsenic in soil. Arsenic levels in air were low and they were not significantly different between sampling sites, suggesting that gas borehole activities have no influence on arsenic levels in the environment., (© Springer Science+Business Media, LLC 2011)

Published

2011