Wpływ polimerów zewnątrzkomórkowych na granulację osadu czynnego w warunkach tlenowych

Badano wpływ polimerów zewnątrzkomórkowych na proces biogranulacji. Po 7 dnia trwania eksperymentu obserwowano pojawianie się tlenowych biogranul osadu czynnego, Zaobserwowano, że wraz ze wzrostem produkcji substancji EPS następował wzrost średnic granul. Dominującym składnikiem substancji EPS w granulach były białka. W porównaniu do luźno związanych substancji EPS (LB-EPS), mocno związane EPS (TB-EPS) miały znaczący udział w formowaniu się granul. Wykazano, że polisacharydy stanowią ważny składnik strukturalny granul

Influence of calcium, magnesium and iron ions on the molecular mass of exoproteins during biogranulation

In this study, we performed the qualitative analysis of exoproteins during granule formation in the presence or in the absence of cations. The staining of thin granule cryosections showed that nucleic acids, proteins, polysaccharides and calcium cations were the dominant components of the granules. Proteins are the structural components associated with calcium ions. We determined changes in the proteomic profile and tightly bound extracellular polymeric substances (EPS) of the slime. The exopolymeric matrix containing the proteins was extracted using the Dowex resin method. Proteomic profile was analysed by SDS-PAGE method (sodium dodecyl sulphate polyacrylamide gel electrophoresis) using Coomassie blue staining in the samples of the aerobic granule matrix formed in the presence of multivalent cations and compared with that of the aerobic granules cultivated without cations. The results indicate that the granule matrix is predominantly composed of large and complex proteins that are tightly bound within the granular structure. The tightly bound extracellular polymeric substances (TB-EPS) may play a role in improved mechanical stability of aerobic granules. In the supernatant fraction of the sludge, only a small amount of free proteins in the medium molecular mass range was detected. The protein with high molecular mass ( 116 kDa) produced in the reactors with added Ca2+. Ca2+ had a considerable regulatory influence on production of extracellular proteins during aerobic granulation

Laccase Immobilization on Biopolymer Carriers – Preliminary Studies

This preliminary studies concerns preparation of biopolymer carriers for immobilization of laccase from Trametes versicolor, based on sodium alginate, chitosan and on a combined alginate-chitosan biopolymers as well as the evaluation of their potential use in the decolourization process. The study is related to the assessment the using of various carriers in the immobilization methods of laccase. The dropping method using sodium alginate (2%) proved to be the most effective technique of enzyme immobilization. The study showed an improvement in the stability of immobilized laccases under the conditions of variable pH, relative to a free laccase. A loss in the stability of enzymes in alginate beads occurs at high temperatures, together with enzyme leaching and degradation. Enzyme leaching from the beads inhibits their preliminary low-temperature drying. Immobilization and drying of obtained capsules constitutes a promising method for improving enzyme stability. The results obtained as part of this study offer a valuable contribution to the future research on the possibility of using the prepared alginate beads to remove colour contamination from wastewater

Assessment of the Impact of Industrial and Municipal Discharges on the Surface Water Body Status (Poland)

Due to potential pressure from industrial and municipal activities, urban water bodies are at risk of not achieving the environmental objectives of the Water Framework Directive (WFD) by 2027. This study comprised the quality assessment of water body “Kłodnica do Promnej (bez)” under a strong anthropogenic influence. The main potential sources of pollution in the catchment were identified and the related characteristic contaminants were analysed. The obtained values of pollutants were compared with the limit values for surface waters from Regulation (Journal of Laws 2021, item 1475). The results confirmed that the analysed water body located in highly urbanized area is characterized by poor water quality and chemical status below the good status. The main threat to the aquatic environment is high salinity associated with the presence of mine water discharges. Moreover, the priority substances, such as Cd, Ni and Pb, exceeded the environmental quality standards values (EQS) in most of the designated measurement points. Due to the fact that water ecosystems do not constitute stand-alone structures, but are included in a wider socio-ecological system, the implementation of an integrated approach to characterizing the existing status of the water bodies and estimating the risk posed to the aquatic ecosystem is a crucial element of the catchment management process in the context of the provisions of the WFD

The impact of sewage sludge processing on the safety of its use

Abstract Particular attention is devoted to pharmaceutical residues in sewage sludge caused by their potential ecotoxicological effects. Diclofenac, ibuprofen and carbamazepine, 17-α-ethinylestradiol, β-estradiol, were analysed in four types of fertilizers, based on sewage sludge commercial products, in compliance with Polish requirements. The release of active pharmaceutical compounds from fertilizers to water the phase after 24 h and 27 days was analysed. Solid-water partition coefficients (Kd) and partitioning coefficient values normalized on organic carbon content (log KOC) were evaluated. The environmental risk to terrestrial ecosystems, due to the application of fertilizers onto soils, was estimated. Cumulative mass of pharmaceuticals emitted to water from fertilizers ranged from 0.4 to 30.8 µg/kg after 24 h contact. The greatest amount of the material that was released, over 70%, was observed for carbamazepine. No presence of compounds except ibuprofen was observed after 27 days of testing. The highest environmental risk in fertilizers is due to carbamazepine, risk quotation, RQ = 0.93 and diclofenac RQ = 0.17. The values of risk quotation estimated for soil were below RQ = 0.01. This fact means that no risk to terrestrial ecosystems is expected to occur. The important decrease of the concentrations of active compounds after passing from sewage sludge to fertilizers [and] to fertilized soil could be observed

Nitrogen Fertilization and Solvents as Factors Modifying the Antioxidant and Anticancer Potential of <i>Arnica montana</i> L. Flower Head Extracts

Arnica montana L. is one of Europe’s endemic endangered medicinal plants, with diverse biological activities commonly used in medicine, pharmacy, and cosmetics. Its flower heads are a rich source of raw material, with antibacterial, antifungal, antiseptic, anti-inflammatory, antiradical, antioxidant, and antitumor properties. The objective of the present study was (i) to characterize the chemical composition of flower heads of A. montana plants cultivated under nitrogen fertilization, (ii) to identify the impact of the nitrogen fertilization and extraction method (water, ethanol) on the antioxidant activity of extracts, and (iii) to determine the role of different nitrogen doses applied during plant cultivation and different extraction methods in the anticancer activity of the extracts through analysis of apoptosis and autophagy induction in HT29, HeLa, and SW620 cell lines. The present study shows that nitrogen is a crucial determinant of the chemical composition of arnica flower heads and the antioxidant and anticancer activity of the analyzed extracts. Nitrogen fertilization can modify the composition of pharmacologically active substances (sesquiterpene lactones, flavonoids, essential oil) in Arnicae flos. The content of sesquiterpene lactones, flavonoids, and essential oil increased with the increase in the nitrogen doses to 60 kg N ha−1 by 0.66%, 1.45%, and 0.27%, respectively. A further increase in the nitrogen dose resulted in a decrease in the content of the analyzed secondary metabolites. Varied levels of nitrogen application can be regarded as a relevant way to modify the chemical composition of arnica flower heads and to increase the anticancer activity, which was confirmed by the increase in the level of apoptosis with the increase in fertilization to a level of 60 kg N ha−1. The fertilization of arnica plants with low doses of nitrogen (30 and 60 kg N ha−1) significantly increased the LOX inhibition ability of the ethanol extracts. The present study is the first report on the anticancer activity of A. montana water extracts, with emphasis on the role of water as a solvent. In further studies of factors modifying the quality of Arnicae flos, attention should be paid to the simultaneous use of nitrogen and other microelements to achieve synergistic results and to the possibility of a more frequent use of water as a solvent in studies on the biological activity of A. montana extracts