Your search keyword '"Szostek, Małgorzata"' showing total 5 results

1. Chemical Speciation of Trace Elements in Soil Fertilized with Biomass Combustion Ash and Their Accumulation in Winter Oilseed Rape Plants.

Author

Szostek, Małgorzata, Szpunar-Krok, Ewa, and Ilek, Anna

Subjects

*RAPE (Plant), *BIOMASS burning, *HEAVY metals, *CHEMICAL speciation, *TRACE elements, *TRACE elements in water, *CHERNOZEM soils, *SOILS

Abstract

The impact of fertilization of fly ashes from biomass combustion (BAs) on the changes in the chemical speciation of trace elements (Zn, Cu, Cr, Ni, Pb, Cd) in Gleyic Chernozem soil was analyzed in field-experiment conditions, under cultivation of winter oilseed rape plants. The three-year field experiment was carried out in southeastern Poland (50°3′ N, 22°47′ E). The three-stage sequential extraction procedure developed by the Measurements and Testing Program (BCR) was used for the fractionation of trace elements in BAs and soil. The risk assessment code (RAC) coefficient was used to assess potential soil contamination with trace elements from Bas. The total content of Zn, Cu, Cr, Ni, Pb, and Cd in BAs used in the experiment was 470, 311, 29, 78, 38, and 3.7 mg kg−1, respectively. The present study showed that the application of BAs significantly increased the total concentration of Zn and Cu in the surface layer of the Gleyic Chernozem soil, and did not significantly increase the concentration of Cr, Ni, Pb, and Cd. Generally, using BAs does not significantly change the chemical speciation of trace elements in soil. Regardless of the applied fertilization, residual fraction (F4) was the most abundant, whereas the exchangeable/extractable (F1) fraction and reducible (F2) fraction were present in the smallest amounts. Due to the low share of exchangeable/extractable fraction (F1), the BAs used in the experiment were characterized by a low RAC coefficient; hence, their use as a soil fertilizer is relatively safe for the environment. The BAs fertilization did not cause significant changes in the content of trace elements in the different parts of the winter oilseed rape plants. Due to the relatively high content of trace elements in fly ashes from biomass combustion, an analysis of the content of individual trace element fractions should be carried out to assess their actual impact on the environment. This can help indicate further actions that should be taken to limit their negative environmental impact. [ABSTRACT FROM AUTHOR]

Published

2023

2. Trees and shrubs from a post-industrial area high in calcium and trace elements: the potential of dendroremediation.

Author

Budzyńska, Sylwia, Kubiak, Agata, Szostek, Małgorzata, Budka, Anna, Gąsecka, Monika, Niedzielski, Przemysław, Zheng, Linlin, and Mleczek, Mirosław

Subjects

PLANT biomass, TRACE elements, SHRUBS, WOODY plants, HEAVY metals, EUROPEAN white birch, TREES

Abstract

The aim of the study was to evaluate the metal(loid)s phytoextraction potential of trees: Betula pendula Roth, Pinus sylvestris L. and the shrub Salix viminalis L. Plants of different ages were selected from a post-industrial area with an unusually high content of calcium (Ca) and trace elements in the soil. The content of 39 metal(loid)s in trees and shrub organs and physicochemical soil parameters were determined. A comparison of these species with control plants was also an object of the study. The polluted soil was characterized by worse physicochemical conditions and a much higher content of almost all the analyzed elements in comparison with the control. The older the plants, the greater their total biomass, with the control plant biomass being significantly greater in each case for all treated plants. According to the total content of all determined elements jointly, the most enriched was the oldest, a 7-year-old specimen of S. viminalis. The obtained results suggest that the high Ca concentration and the alkaline reaction (8.83) of polluted soil limit the uptake of most elements by tested plants. It can be concluded that despite the reduction of biomass, this limitation allows plants to better adapt and survive under challenging conditions. Excessive concentration of elements, even nutrients such as Ca, may act as an inhibitory factor for the uptake of other elements. Moreover, phytoextraction ability may significantly vary in different woody plant species and ages, which is an essential practical aspect in dendroremediation application. That is probably the first study to date of trees and shrubs differing in age and growing on post-industrial soil contaminated with calcium (Ca) and selected toxic metals/metalloids. The obtained results show that an alkaline reaction (less than 9) of soil and an unusually high Ca concentration may help the studied tree species to adapt/survive in unfavorable habitat conditions (high concentration of toxic elements). The efficiency of phytoextraction of toxic elements was so high that, especially for forest animals (roe-deer) that consume, e.g., willow shoots, it could pose a serious threat to health and life, both for them and potentially for humans. [ABSTRACT FROM AUTHOR]

Published

2022

3. Road traffic and abiotic parameters of underlying soils determine the mineral composition and nutritive value of the mushroom Macrolepiota procera (Scop.) Singer.

Author

Mleczek, Mirosław, Szostek, Małgorzata, Siwulski, Marek, Budka, Anna, Kalač, Pavel, Budzyńska, Sylwia, Kuczyńska-Kippen, Natalia, and Niedzielski, Przemysław

Subjects

*SOIL composition, *SOIL mineralogy, *HEAVY metals, *FOREST soils, *ARSENIC, *CARBON in soils, *FRUITING bodies (Fungi), *URBAN soils

Abstract

The effectiveness of accumulating mineral elements by wild-growing mushrooms depends mainly on species, their growth place, and the underlying soil's chemical characteristics. The aim of the study was to determine the effect of road traffic and the role of chemical characteristics of soil on the mineral composition of Macrolepiota procera fruit bodies growing in close proximity to a road and an adjacent forest during a four-year period. The concentrations of the majority elements (mainly Al, Cd, Co, Cr, Cu, Pb, Ti, and Zn) in the soil near the road were significantly higher than those in the forest soil, which was reflected in the fruit bodies which contained a higher amount of these elements. While the accumulation of heavy metals and other elements in the M. procera fruit bodies did not depend on the total soil organic carbon content, the degree of their decomposition determined by the C:N ratio and the individual fractions of organic carbon had a significant influence. Our studies show that soil properties are highly variable in the natural habitats of M. procera , which affects the efficiency of element accumulation. Macrolepiota procera fruit bodies growing in soil with similar chemical properties were characterized by different mineral compositions. Moreover, the obtained results indicate that the fruit bodies of edible M. procera, not only those close to roads but also at a greater distance, may contain significant amounts of toxic As and Cd, which could pose a health risk if consumed. Although most studies describing the mineral composition of M. procera fruit bodies have found no evidence to question the safety of their consumption, this species can effectively accumulate selected elements when growing immediately beside roads or in their close proximity. [Display omitted] • The mineral composition of Macrolepiota procera and soils in urban area was studied. • C:N ratio and the particular fractions of organic carbon modify metals accumulation. • Similar soil characteristics do not mean a similar mineral composition of mushrooms. • The basic cation saturation ratio significantly affected elements accumulation. • The risk of too high arsenic and cadmium content in M. procera is possible. [ABSTRACT FROM AUTHOR]

Published

2022

4. Differences of Acer platanoides L. and Tilia cordata Mill. Response patterns/survival strategies during cultivation in extremely polluted mining sludge – A pot trial.

Author

Drzewiecka, Kinga, Piechalak, Aneta, Goliński, Piotr, Gąsecka, Monika, Magdziak, Zuzanna, Szostek, Małgorzata, Budzyńska, Sylwia, Niedzielski, Przemysław, and Mleczek, Mirosław

Subjects

*LINDENS, *MAPLE, *SEMIMETALS, *MINE waste, *SALICYLIC acid, *HEAVY metals

Abstract

The study aimed to evaluate the physiological mechanisms underlying differences in metals and metalloid uptake and tolerance of two tree species cultivated in mining waste material. Two-year old Acer platanoides L. and Tilia cordata Mill. were cultivated in mining sludge characterized by high pH, salinity and an extremely high concentration of As. Both species were able to develop leaves from leafless seedlings, however, their total biomass was greatly reduced in comparison to control plants, following the severe disturbances in chlorophyll content. Phytoextraction abilities were observed for T. cordata for Ba, Nb, Rb and Se, and phytostabilisation was stated for Pd, Ru, Sc and Sm for both species, Ba and Nd for A. platonoides and Be for T. cordata only. Metal exclusion was observed for the majority of detected elements indicating an intense limitation of metal transport to photosynthetic tissue. A diversified uptake of elements was accompanied by a species-specific pattern of physiological reaction during the cultivation in sludge. Organic ligands (glutatnione and low-molecular-weight organic acids) were suppressed in A. platanoides , and enhanced biosynthesis of phenolic compounds was observed for both species, being more pronounced in T. cordata. Despite its higher accumulation of key metabolites for plant reaction to oxidative stress, such as phenolic acids, flavonoids and organic ligands, T. cordata exhibited relatively lower tolerance to sludge, probably due to the increased uptake and translocation rate of toxic metal/loids to aerial organs and/or restricted accumulation of salicylic acid which is known to play a decisive role in mechanisms of plant tolerance. Image 1 • Common trees cultivated in mining sludge developed leaves that were able to survive. • Both species suffered severe growth retardation, more pronounced in T. cordata. • Phytostabilization rather than extraction was observed for the majority of elements. • Distinct reaction modes were induced in maple and lime determining their tolerance. • Salicylic acid was a key molecule for higher tolerance of maple to mining sludge. [ABSTRACT FROM AUTHOR]

Published

2019

5. Toxicological risks and nutritional value of wild edible mushroom species -a half-century monitoring study.

Author

Mleczek, Mirosław, Siwulski, Marek, Budka, Anna, Mleczek, Patrycja, Budzyńska, Sylwia, Szostek, Małgorzata, Kuczyńska-Kippen, Natalia, Kalač, Pavel, Niedzielski, Przemysław, Gąsecka, Monika, Goliński, Piotr, Magdziak, Zuzanna, and Rzymski, Piotr

Subjects

*EDIBLE mushrooms, *NUTRITIONAL value, *SPECIES, *TRACE elements, *HEAVY metals, *YEAR, *MUSHROOMS

Abstract

The content of major- and trace elements in wild-growing mushrooms has been subject to numerous studies, but the data on long-term trends in this regard are scarce. The aim of research was to determine the content of 34 elements in four edible mushroom species Boletus edulis , Imleria badia , Leccinum scabrum and Macrolepiota procera, and associated soil collected from Polish forests between 1974 and 2019. As initially hypothesized, the element concentration in the studied soil revealed an increasing trend and was positively correlated with their levels found in fruit bodies. Bioconcentrafion Factor values exceeding 1 were documented for all mushroom species for K, P, Ag, Cd, Cu, Hg, and Zn. When compared to the Adequate Intakes, all the mushroom species were found to be a good dietary source of K, P, and Zn (range of 6260–8690, 6260–8690 and 97–135 mg kg−1 dry weight (dw), respectively), and B. edulis and I. badia a moderate source of Fe (mean 71.5 and 76.5 mg kg−1 dw, respectively), B. edulis of Mn and Mo (mean 20.0 and 0.42 mg kg−1 dw, respectively), while L. scabrum and M. procera a source of Cu. Consumption of the studied mushrooms would not lead to significant exposure to Al, As, Cr, or Ni. Considering that wild mushrooms will continue to be collected in Poland, one should bear in mind that they are a limited source of minerals in the human diet while their frequent, regular consumption, associated with exposure to selected toxic elements, should not be recommended. Image 1 • 34 elements in 4 wild edible mushroom species are exmined over a 45 year period. • Ag, Cd, Cu, Hg, K, P, and Zn exibit BCF>1. • The contents of the number of elements in mushrooms and soil positively correlate. • Frequent, consecutive consumption may lead to increased intakes of Cd, Hg, and Pb. • All mushrooms are a good dietary source of P, K, Cu, and Zn. [ABSTRACT FROM AUTHOR]

Published

2021