2021, Mleczek, Mirosław, Budka, Anna, Siwulski, Marek, Mleczek, Patrycja, Budzyńska, Sylwia, Proch, Jędrzej, Gąsecka, Monika, Niedzielski, Przemysław, Rzymski, Piotr

AbstractThe multi-elemental composition of 4 edible wild-growing mushroom species that commonly occur in Polish forests was compared to 13 cultivated mushroom species available in trade. A considerable variation in the macroelements content was revealed with cultivated species containing higher amounts of macroelements. The mean content of B, Co, Cr, Fe, Pb, Pr, Pt, Sb, Sm, Sr, Te, and Tm was higher in cultivated mushroom species, while the opposite was noted for Ba, Cd, Cu, Hg, La, Mo, Sc, and Zn. Selected cultivated forms exhibited increased content of Al (F. velutipes), As (H. marmoreus, F. velutipes), Ni (P. ostreatus, A. polytricha, H. marmoreus), and Pb (P. ostreatus, A. polytricha, F. velupites, and L. edodes). Wild-growing species, B. boletus, I. badia, and S. bovinus contained high Hg levels, close to or exceeding tolerable intakes. Compared to cultivated mushrooms, they also generally revealed a significantly increased content of Al (with the highest content in B. edulis and I. badia), As and Cd (with the highest content in B. edulis and S. bovinus in both cases). In turn, the cultivated mushrooms were characterized by a higher content of Ni (particularly in A. bisporus) and Pb (with the highest content in P. eryngii). The exposure risks may, however, differ between wild and cultivated mushrooms since the former are consumed seasonally (although in some regions at a high level), while the latter are available throughout the year. Both cultivated and wild-growing mushrooms were found to be a poor source of Ca and Mg, and only a supplemental source of K, Cu, Fe, and Zn in the human diet. These results suggest that mushrooms collected from the wild or cultivated, should be consumed sparingly. The study advocates for more strict monitoring measures of the content of toxic metals/metalloids in mushrooms distributed as food, preferentially through the establishment of maximum allowance levels not limited only to a few elements and mushroom species.

2024, Ilek, Anna, Gąsecka, Monika, Magdziak, Zuzanna, Costas, Saitanis, Siegert, Courtney M.

Background and Aims: Secondary plant metabolites, including organic acids and phenolic compounds, have a significant impact on the properties of organic matter in soil, influencing its structure and function. How the production of these compounds in foliage that falls to the forest floor as litterfall varies across tree age and seasonality are of considerable interest for advancing our understanding of organic matter dynamics. Methods: Monthly, we collected fallen needles of Scots pine (Pinus sylvestris L.) across stands of five different age classes (20, 40, 60, 80, and 100 years) for one year and measured the organic acids and phenolic compounds. Results: Seven low-molecular-weight organic acids and thirteen phenolic compounds were detected in the litterfall. No differences were observed across stand age. Significant seasonal differences were detected. Most compounds peaked during litterfall in the growing season. Succinic acid was the most prevalent organic acid in the litterfall, comprising 78% of total organic acids (351.27 ± 34.27 µg g− 1), and was 1.5 to 11.0 times greater in the summer than all other seasons. Sinapic acid was the most prevalent phenolic compound in the litterfall (42.15 µg g− 1), representing 11% of the total phenolic compounds, and was 39.8 times greater in spring and summer compared to autumn and winter. Growing season peaks in needle concentrations were observed for all thirteen phenolic compounds and two organic acids (lactic, succinic). Citric acid exhibited a definitive peak in late winter into early spring. Conclusions: Our results highlight the seasonal dynamics of the composition of secondary plant metabolites in litterfall, which is most different at the onset of the growing season. Fresh inputs of litterfall at this time of emerging biological activity likely have seasonal impacts on soil’s organic matter composition as well.

2024, Gąsecka, Monika, Drzewiecka, Kinga, Magdziak, Zuzanna, Krzesiński, Włodzimierz, Proch, Jędrzej, Niedzielski, Przemysław

This study aimed to investigate the response of Populus nigra L. × Populus maximowiczii to the addition of selected metals in soil. Rooted cuttings were planted in pots containing soil enriched with equimolar concentrations of Pb, Zn, Al, Ni, and Cu (500 mL of 4 mM solutions of single metal salts: (Pb(NO3)2; Zn(NO3)2 × 6H2O; Al(NO3)3 × 9H2O; Ni(NO3)2 × 6H2O; or Cu(NO3)2 × 3H2O). Growth parameters, metal accumulation, and physiological and biochemical parameters were assessed after four weeks of cultivation, simulating early response conditions. The results showed diverse metal accumulation in poplar organs, along with an increase in biomass and minor changes in gas exchange parameters or chlorophyll fluorescence. Among low-molecular-weight organic acids, citric and succinic acids were dominant in the rhizosphere, and roots with malonic acid were also present in the shoots. Only p-coumaric acid was found in the phenolic profile of the roots. The shoots contained both phenolic acids and flavonoids, and their profile was diversely modified by particular metals. Sucrose and fructose content increased in shoots that underwent metal treatments, with glucose increasing only in Cu and Al treatments. Principal component analysis (PCA) revealed variations induced by metal treatments across all parameters. Responses to Pb and Zn were partially similar, while Cu, Ni, or Al triggered distinct reactions. The results indicate the adaptation of P. nigra L. × P. maximowiczii to soil containing elevated levels of metals, along with potential for soil remediation and metal removal. However, further studies are needed to evaluate the effect of differences in early responses to particular metals on plant conditions from a long-term perspective.

2026, Gąsecka, Monika, Magdziak, Zuzanna, Mocek-Płóciniak, Agnieszka, Błońska, Ewa, Lasota, Jarosław

(1) Background: Plantago major and Taraxacum officinale exhibit high tolerance to soil pollution and are recognised as bioindicators of soil quality. The objectives of the study were to investigate (i) the physicochemical and microbiological properties of rhizosphere soil beneath P. major and T. officinale in different land uses, (ii) the accumulation of elements, phenolic and organic acids in soil as well as in the plants, and (iii) the relationships between these parameters. (2) Methods: Samples were collected from three locations: the sediment retention area, the post-mining area, and the recreational area in May and September. (3) Results: Significant seasonal differences were observed in soil parameters, enzymatic activity, microbial abundance, and the contents of elements, organic acids, and phenolic acids between plant species and sampling areas, with changes reaching several hundred per cent. Correlations were found between dehydrogenase and organic matter, S, Al, Co, Cr, Fe, K, Mg, Mn, P; and phosphatases and Al, Co, Cr, Fe, Mg, Ni, and Mn; as well as between total phenolic content and phosphatases; syringic acid and dehydrogenase; and alkaline phosphatase and lactic and citric acids. (4) Conclusions: The results suggest that plant–soil interactions, in relation to land use, influence rhizosphere biochemistry, thereby impacting soil health and supporting ecosystem recovery.

2024, Krzymińska-Bródka, Agnieszka, Czuchaj, Piotr Kazimierz, Gąsecka, Monika, Magdziak, Zuzanna

2025, Mencel, Justyna, Gąsecka, Monika, Molińska-Glura, Marta, Mocek-Płóciniak, Agnieszka

Celem pracy była ocena zależności pomiędzy wybranymi związkami fenolowymi, a liczebnością mikroorganizmów w glebach użytków zielonych. Obiektem badań były wierzchnie warstwy gleby (0–20 cm) użytków zielonych położonych wzdłuż rzeki Obry (Nizina Wielkopolska, centralna Polska). Badania terenowe przeprowadzono we wrześniu 2022 roku. Na badanym obszarze wybrano pięć jednostek syntaksonomicznych roślinności: <i>Molinietum caeruleae</i>, <i>Alopecuretum pratensis</i>, <i>Arrhenatheretum elatioris</i>, <i>Lolio-Cynosuretum</i> oraz zbiorowisko <i>Poa pratensis-Festuca rubra</i>. Jednokierunkowy test ANOVA dla pH wykazał statystycznie istotne różnice między użytkami zielonymi (dla pH_H2O p=0,000, a dla pH_KCl p=0,000). Liczebność bakterii heterotroficznych (p=0,000), promieniowców (p=0,001) i grzybów (p=0,014) była również cechą istotnie różnicującą jednostki roślinności użytków zielonych. Jednokierunkowy test ANOVA wykazał, że spośród wszystkich analizowanych związków fenolowych tylko dwa były się istotne: kwas wanilinowy (p=0,003 i katechina (p=0,002). Nasze badania wskazują na dodatnią korelację promieniowców z kwasem cynamonowym i kawowym, bakterii heterotroficznych z kwasem p-kumarowym i ferulowym oraz katechiną, a grzybów z kwasem galusowym i katechiną. Ponadto, biorąc pod uwagę cechy istotne statystycznie, można stwierdzić, że <i>Molinietum caeruleae</i> wykazuje inną strukturę w porównaniu z innymi jednostkami wegetacyjnymi, <i>Arrhenatheretum elatioris</i> i <i>Lolio-Cynosuretum</i> są podobne, podczas gdy zbiorowiska <i>Poa pratensis-Festuca rubra</i> i <i>Alopecuretum pratensis</i> wykazują odmienną strukturę od pozostałych. Badania środowiskowe coraz częściej koncentrują się na potrzebie zwiększenia akumulacji węgla organicznego w glebie. Poznanie relacji między związkami fenolowymi i mikroorganizmami w glebach użytków zielonych jest niezwykle ważne w tym aspekcie. Właściwe zarządzanie użytkami zielonymi jest ważnym elementem ochrony środowiska.

2023, Mleczek, Mirosław, Budka, Anna, Gąsecka, Monika, Budzyńska, Sylwia, Drzewiecka, Kinga, Magdziak, Zuzanna, Rutkowski, Paweł, Goliński, Piotr, Niedzielski, Przemysław

AbstractOf the many environmental factors that modulate the phytoextraction of elements, little has been learnt about the role of metal interactions. The study aimed to show how different concentrations of Cu, Pb and Zn in the cultivation medium influenced the biomass, plant development and phytoextraction abilities ofAcer platanoidesL. seedlings. Additionally, the impact on the content and distribution of Ca, K, Mg and Na in plant parts was studied with an analysis of phenols. Plants treated with a mixture of two metals were characterised by lower biomass of leaves and higher major elements content jointly than those grown in the salt of one element. Leaves ofA. platanoidescultivated in Pb5 + Zn1, Pb1 + Zn1and Pb1 + Zn5experimental systems were characterised by specific browning of their edges. The obtained results suggest higher toxicity to leaves of Pb and Zn present simultaneously in Knop solution than Cu and Pb or Cu and Zn, irrespective of the mutual ratio of the concentrations of these elements. Antagonism of Cu and Zn concerning Pb was clearly shown in whole plant biomass when one of these elements was in higher concentration (5 mmol L−1) in solution. In the lowest concentrations (1 mmol L−1), there was a synergism between Cu and Zn in plant roots. Plants exposed to Zn5, Cu1 + Pb5, Pb5 + Zn1and Cu1 + Zn1were characterised by higher total phenolic content than the rest plants. Both the presence and the concentration of other elements in the soil are significant factors that modulate element uptake, total phenolic content, and plant development.Graphical Abstract

2022, Budzyńska, Sylwia, Siwulski, Marek, Gąsecka, Monika, Magdziak, Zuzanna, Kalač, Pavel, Niedzielski, Przemysław, Mleczek, Mirosław

Mushrooms fortified with iron (Fe) can offer a promising alternative to counter the worldwide deficiency problem. However, the factors that may influence the efficiency of fortification have not yet been fully investigated. The aim of this study was to compare the effects of three Fe forms (FeCl3 6H2O, FeSO4 7H2O, or FeHBED) in three concentrations (5, 10, or 50 mM) for three mushroom species (Pleurotus eryngii, P. ostreatus, or Pholiota nameko) on their chemical composition, phenolic compounds, and organic acid production. The most effective metal accumulation of all the investigated species was for the 50 mM addition. FeCl3 6H2O was the most favorable additive for P. eryngii and P. nameko (up to 145 and 185% Fe more than in the control, respectively) and FeHBED for P. ostreatus (up to 108% Fe more than in control). Additionally, P. nameko showed the highest Fe accumulation among studied species (89.2 ± 7.51 mg kg−1 DW). The creation of phenolic acids was generally inhibited by Fe salt supplementation. However, an increasing effect on phenolic acid concentration was observed for P. ostreatus cultivated at 5 mM FeCl3 6H2O and for P. eryngii cultivated at 5 mM FeCl3 6H2O and 5 mM FeSO4 7H2O. In the case of organic acids, a similar situation was observed. For P. ostreatus, FeSO4 7H2O and FeHBED salts increased the formation of the determined organic acids in fruiting bodies. P. eryngii and P. nameko were characterized by a much lower content of organic acids in the systems supplemented with Fe. Based on the obtained results, we recommend starting fortification by preliminarily indicating which form of the element is preferred for the species of interest for supplementation. It also seems that using an additive concentration of 50 mM or higher is most effective.

2022, Budzyńska, Sylwia, Kubiak, Agata, Szostek, Małgorzata, Budka, Anna, Gąsecka, Monika, Niedzielski, Przemysław, Zheng, Linlin, Mleczek, Mirosław

2022, Budzyńska, Sylwia, Siwulski, Marek, Budka, Anna, Kalač, Pavel, Niedzielski, Przemysław, Gąsecka, Monika, Mleczek, Mirosław

Due to their enzymatic and bioaccumulation faculties the use of macromycetes for the decontamination of polluted matrices seems reasonable for bioremediation. For this reason, the aim of our study was to evaluate the mycoremediation ability of Agaricus bisporus cultivated on compost mixed with flotation tailings in different quantities (1, 5, 10, 15, and 20% addition). The biomass of the fruit bodies and the content of 51 major and trace elements were determined. Cultivation of A. bisporus in compost moderately polluted with flotation tailings yielded significantly lower (the first flush) and higher (the second flush) biomass of fruit bodies, compared with the control treatment. The presence of toxic trace elements did not cause any visible adverse symptoms for A. bisporus. Increasing the addition of flotation tailings to the compost induced an elevated level of most determined elements. A significant increase in rare earth elements (both flushes) and platinum group elements (first flush only) was observed. The opposite situation was recorded for major essential elements, except for Na and Mg in A. bisporus from the second flush under the most enriched compost (20%). Nevertheless, calculated bioaccumulation factor values showed a selective accumulation capacity—limited for toxic elements (except for Ag, As, and Cd) and the effective accumulation of B, Cu, K, and Se. The obtained results confirmed that A. bisporus can be used for practical application in mycoremediation in the industry although this must be preceded by larger-scale tests. This application seems to be the most favorable for media contaminated with selected elements, whose absorption by fruiting bodies is the most efficient.

2022, Krzymińska-Bródka, Agnieszka, Frąszczak, Barbara, Gąsecka, Monika, Magdziak, Zuzanna, Kleiber, Tomasz

The main focus of the study was to determine the content of phenolic acids, flavonoids, and organic acids in the flowers of Tagetes patula ‘Petite Gold’ and ‘Petite Orange’. The growth of the plants was assessed depending on the cultivation conditions. The above plants were illuminated with white light, whereas the ‘Petite Gold’ ones with white light enhanced with blue or red light. Both cultivars grew in a two-level-mineral compounds organic substrate. The research showed that the French marigold flowers were rich in phenolic compounds and organic acids. The ‘Petite Gold’ flowers had more bioactive compounds compared with the ‘Petite Orange’ flowers. Three flavonoids, 10 phenolic acids and seven organic acids were found in the ‘Petite Gold’ flowers. The artificial lighting used during the cultivation of the plants showed diversified influence on the content of organic compounds in their flowers. The measurements of the plants’ morphological traits and the number of inflorescences showed that illumination with red light resulted in a better effect. Large plants with numerous inflorescences grew in the substrate with a lower content of nutrients.

2023, Gąsecka, Monika, Krzymińska-Bródka, Agnieszka, Magdziak, Zuzanna, Czuchaj, Piotr Kazimierz, Bykowska, Joanna

The study aimed to determine the content of phenolic compounds (phenolic acids and flavonoids) and organic acids in dried flowers and water infusions of non-oxidised and oxidised flowers from four lilac cultivars. The diversity in the total phenolic and flavonoid content was in the flowers (18.35–67.14 and 2.03–2.65 mg g−1 DW, respectively) and infusions (14.72–47.78 and 0.20–1.84 mg per 100 mL infusion, respectively) depending the flower colour and form (oxidised and non-oxidised). Phenolic compounds and organic acids were susceptible to oxidation. Compared to infusions, flowers had more phenolic compounds and organic acids. The highest content of most phenolic compounds was confirmed for non-oxidised purple flowers (up to 7825.9 µg g−1 DW for chlorogenic acid) while in infusions for non-oxidised white flowers (up to 667.1 µg per 100 mL infusions for vanillic acid). The phenolic profile of the infusions was less diverse than that of flowers. The scavenging ability ranged from 52 to 87%. The highest organic acid content in flowers was for oxidised blue and purple flowers (2528.1 and 2479.0 µg g−1 DW, respectively) while in infusions the highest organic acid content was for oxidised purple flowers (550.1 µg per 100 mL infusions).

2025, Magdziak, Zuzanna, Gąsecka, Monika, Drzewiecka, Kinga, Ilek, Anna, Rybak, Michał, Proch, Jędrzej, Niedzielski, Przemysław

Sustainable management of soils degraded by heavy metals is a major environmental challenge. The aim of this study was to evaluate the acclimatization ability of the hybrid Populus nigra L. × Populus maximowiczii under variable soil moisture conditions. In a greenhouse experiment, it was shown that both soil moisture level and the presence of metals significantly affected plant growth and metabolism. The hybrid showed high nickel (Ni) accumulation at low and medium soil moisture content (LMC, MMC) (BCF 4.56 and 4.99), while copper (Cu) accumulation was highest at MMC (BCF 5.53). Nickel translocation to aerial parts increased after exposure (TF up to 0.63), while Cu translocation was limited (TF below 0.94). Increased humidity promoted the biosynthesis of low molecular weight organic acids (LMWOAs) in roots, with the highest total content recorded in the Cu treatment under high soil moisture content (HMC) (230 μg g−1 FW). In the stems, the highest levels of sum LMWOAs were found under HMC conditions (6764 μg g−1 FW in the control sample), while among the phenolic acids, the highest content of chlorogenic acid (~144 μg g−1 FW) was determined under LMC conditions under Ni stress, which indicates a strong defense response of the plant. The obtained results emphasize the importance of selecting appropriate water conditions in remediation strategies and indicate that the tested poplar hybrid may be a promising tool in improving the quality of degraded soils.

2024, Mencel, Justyna, Gąsecka, Monika, Molińska-Glura, Marta, Mocek-Płóciniak, Agnieszka

2025, Siwulski, Marek, Magdziak, Zuzanna, Niedzielski, Przemysław, Gąsecka, Monika, Budka, Anna, Mleczek, Patrycja, Mleczek, Mirosław, Budzyńska, Sylwia

2024, Drzewiecka, Kinga, Gąsecka, Monika, Magdziak, Zuzanna, Rybak, Michał, Budzyńska, Sylwia, Rutkowski, Paweł, Niedzielski, Przemysław, Mleczek, Mirosław

The aim of this study was to determine the tolerance to metals (Zn, Cu) and drought of male and female Salix × fragilis L. under isolated and combined treatments, and to assess the metal uptake and profiling of metabolic plant responses. The 14-day experiment was performed in a hydroponic system, and metals were applied at 1.5 mM in a Knop’s solution. Drought simulation was achieved by adding sorbitol at a moderate level (200 mM). Isolated Zn treatment enhanced plant growth, more pronouncedly in females. Equimolar Cu treatment caused diverse reactions, and females exhibited significantly higher tolerance. Male specimens were less tolerant to isolated drought and to combined drought and metal presence. The highest contents of Cu and Zn were found in roots, compared to the aboveground tissues (wooden rods and leaves), of both female and male metal-treated plants. Simultaneously applied drought limited Zn accumulation in roots and elevated its translocation to leaves while increasing Cu accumulation, predominantly in females showing higher tolerance. Both isolated and combined drought and metals reduced leaf water content, caused the allocation of mineral nutrients (Ca, Mg, K, and Na), and affected metabolism in a stressor-specific and sex-dependent manner. For males, Cu accumulation in the leaves was significantly correlated with the majority of metabolites, while for both sexes, kaempferol and salicylic acid were strongly correlated, indicating their role in tolerance against the metal. The obtained results are an excellent starting point for the practical use of male and female Salix × fragilis L. in areas heavily polluted with Cu or Zn and exposed to drought, for the purpose of their recultivation.