2024, Sawinska, Zuzanna, Radzikowska-Kujawska, Dominika, Kowalczewski, Przemysław Łukasz, Grzanka, Monika, Sobiech, Łukasz, Skrzypczak, Grzegorz Antoni, Drożdżyńska, Agnieszka, Ślachciński, Mariusz, Świtek, Stanisław

Agriculture is faced with the need to reduce mineral fertilizers in order to reduce costs but also to meet political goals. Resilience-enhancing climate change, especially in the face of increasingly frequent and prolonged droughts, has become another issue. The dynamically increasing production of insects for feed and food purposes has become one of the answers to this challenge. This study assesses the fertilizing efficacy effect of frass derived from Black Soldier Fly (Hermetia illucens) production on lettuce (Lactuca L.) growth, including aspects such as yield, photosynthesis activity, photosystem II performance (chlorophyll fluorescence), mineral profile, and antioxidant properties. Additionally, the properties of the soil were assessed by measuring the gas exchange between the soil and the atmosphere. The lettuce plants grew under two water regimes—optimal irrigation and induced drought. The efficiency of frass fertilization was compared with the control and traditional cattle manure. The results indicate that H. illucens frass (HI frass) used as a fertilizer increased the content of essential nutrients in plants—such as potassium and iron. As the dosage of frass increased, the content of vitamin B2 (riboflavin) doubled. The plants that were subjected to drought and properly fertilized showed greater resistance; therefore, a reduction in the synthesis of polyphenolic compounds was observed. Fertilizer had a positive effect on the efficiency of photosynthesis. This study underscores the promising impact of unconventional organic fertilizers, such as H. illucens frass, on enhancing plant performance, especially in challenging environmental conditions. Fertilizers obtained from insect production can be green chemicals in a sustainable food production model.

2024, Grynia, Joanna, Tomkowiak, Agnieszka, Kwiatek, Michał Tomasz, Nawracała, Jerzy, Rychel-Bielska, Sandra, Kowalczewski, Przemysław Łukasz

2024, Spychała, Julia, Tomkowiak, Agnieszka, Noweiska, Aleksandra, Bobrowska, Roksana, Rychel-Bielska, Sandra, Bocianowski, Jan, Wolko, Łukasz, Kowalczewski, Przemysław Łukasz, Nowicki, Marcin, Kwiatek, Michał Tomasz

Leaf rust caused by Puccinia triticina (Pt) is one of the most impactful diseases causing substantial losses in common wheat (Triticum aestivum L.) crops. In adult plants resistant to Pt, a horizontal adult plant resistance (APR) is observed: APR protects the plant against multiple pathogen races and is distinguished by durable persistence under production conditions. The Lr46/Yr29 locus was mapped to chromosome 1B of common wheat genome, but the identity of the underlying gene has not been demonstrated although several candidate genes have been proposed. This study aimed to analyze the expression of nine candidate genes located at the Lr46/Yr29 locus and their four complementary miRNAs (tae-miR5384-3p, tae-miR9780, tae-miR9775, and tae-miR164), in response to Pt infection. The plant materials tested included five reference cultivars in which the molecular marker csLV46G22 associated with the Lr46/Yr29-based Pt resistance was identified, as well as one susceptible control cultivar. Biotic stress was induced in adult plants by inoculation with fungal spores under controlled conditions. Plant material was sampled before and at 6, 12, 24, 48 hours post inoculation (hpi). Differences in expression of candidate genes at the Lr46/Yr29 locus were analyzed by qRT-PCR and showed that the expression of the genes varied at the analyzed time points. The highest expression of Lr46/Yr29 candidate genes (Lr46-Glu1, Lr46-Glu2, Lr46-Glu3, Lr46-RLK1, Lr46-RLK2, Lr46-RLK3, Lr46-RLK4, Lr46-Snex, and Lr46-WRKY) occurred at 12 and 24 hpi and such expression profiles were obtained only for one candidate gene among the nine genes analyzed (Lr46-Glu2), indicating that it may be a contributing factor in the resistance response to Pt infection.

2024, Behiry, Said, Abdelwahab, Eman A., Al-Askar, Abdulaziz A., Kowalczewski, Przemysław, Abdelkhalek, Ahmed

Abstract The present study investigated the phytochemical constituents and antimicrobial effects of aqueous methanolic extract of Haloxylon salicornicum against some phytopathogenic bacterial and fungal strains. The selected bacterial strains were Pectobacterium carotovorum, Pectobacterium atrosepticum, Ralstonia solanacearum, and Streptomyces scabiei, while fungal strains were Fusarium oxysporum, Botrytis cinerea, and Rhizoctonia solani. The extract demonstrated significant efficacy against P. atrosepticum and P. carotovorum at a concentration of 1,000 µg/mL, resulting in inhibition zones measuring 12.3 and 11 mm, respectively. Furthermore, the extract demonstrated considerable effectiveness against fungal strains, achieving an impressive fungal growth suppression rate of 68.8% against R. solani at a concentration of 5,000 µg/mL. The high-performance liquid chromatography analysis identified nine notable phenolic compounds and six common flavonoid compounds in the extract. The identified phenolic compounds in the highest quantities were gallic acid (6427.5 µg/g), vanillin (1145.4 µg/g), chlorogenic acid (498.1 µg/g), and syringic acid (322.5 µg/g). Apigenin (1155.9 µg/g), daidzein (460.9 µg/g), quercetin (382.7 µg/g), and naringenin (160.4 µg/g) exhibited the most significant concentrations of flavonoid compounds. Gas chromatography–mass spectrometry analysis revealed that n-hexadecanoic acid (53.7%), 9-octadecenoic acid (26.9%), 9,12-octadecadienoic acid (Z,Z) (8.67%), palmitic acid, and TMS derivative (4.36%) were the predominant compounds in the extract. Consequently, the H. salicornicum aqueous methanolic extract could be used for the first time as an environmentally safe antimicrobial pesticide agent against plant pathogens to reduce the excessive use of chemical pesticides.

2024, Rybacki, Piotr, Przygodziński, Przemysław, Kowalczewski, Przemysław Łukasz, Sawinska, Zuzanna, Kowalik, Ireneusz, Osuch, Andrzej, Osuch, Ewa

2024, Čmiková, Natália, Kowalczewski, Przemysław Łukasz, Kmiecik, Dominik, Tomczak, Aneta, Drożdżyńska, Agnieszka, Ślachciński, Mariusz, Królak, Jakub, Kačániová, Miroslava

Microalgae are exceptional organisms from a nutritional perspective, boasting an array of bioactive compounds that have long justified their incorporation into human diets. In this study, we explored the potential of five microalgae species: Nannochloropsis sp., Tetraselmis chuii, Chaetoceros muelleri, Thalassiosira weissflogii, and Tisochrysis lutea. We conducted comprehensive analyses of their nutritional profiles, encompassing protein content, individual amino acid composition, mineral and trace element levels, fatty acid profiles (including saturated fatty acids (SFAs), monounsaturated fatty acids (MUFAs), and polyunsaturated fatty acids (PUFAs)), polyphenol compositions, and vitamin B content. The antioxidant activity of the ethanolic extracts was evaluated using two methods: ABTS and DPPH radical scavenging assay. The total protein content of the microalgae ranged from 34.09 ± 0.39% to 42.45 ± 0.18%, with the highest concentration observed in T. weissflogii. Essential amino acids such as histidine, threonine, lysine, valine, isoleucine, leucine, phenylalanine, and methionine were present in concentrations ranging from 0.53 ± 0.02 to 12.55 ± 2.21 g/16 g N. Glutamic acid emerged as the most abundant amino acid, with concentrations ranging from 6.73 ± 0.82 to 12.55 ± 2.21 g/16 g N. Among the microalgae species, T. chuii exhibited the highest concentrations of calcium (Ca) and manganese (Mn), while C. muelleri showed prominence in magnesium (Mg), sodium (Na), and iron (Fe). T. weissflogii stood out for its potassium (K) content, and T. lutea contained notable amounts of copper (Cu), zinc (Zn), and lead (Pb). Regarding fatty acid profiles, Nannochloropsis sp. and T. chuii were predominantly composed of SFA, while C. muelleri and T. weissflogii were rich in MUFA. PUFAs dominated the fatty acid profile of T. lutea, which also exhibited the most diverse range of polyphenolic substances. We also analyzed the B vitamin content, with T. lutea displaying the highest concentrations of niacin (B3) and riboflavin (B2). Antioxidant activity was confirmed for all microalgae tested using DPPH and ABTS radical IC50 (mg/mL) converted to Trolox equivalent (TEAC). These findings underscore the substantial potential of the examined microalgae species as sources of biologically valuable substances characterized by rapid growth and relatively undemanding cultivation conditions.

2024, Lewandowicz, Grażyna, Kowalczewski, Przemysław Łukasz, Kubiak, Piotr, Baranowska, Hanna Maria, Singh, Anubhav Pratap, Erdogdu, Ferruh, Wang, Shaojin, Ramaswamy, Hosahalli S.

2025, Królak, Jakub, Kucharski, Jan Jakub, Kowalczewski, Przemysław, Dudek, Klaudia, Ruszkowska, Millena, Jeżowski, Paweł, Masewicz, Łukasz, Siejak, Przemysław, Baranowska, Hanna Maria

The increasing demand for diverse foods and tailored nutrition encourages the development of innovative products, such as bread enriched with cricket powder (CP) or potato protein (PP). This study presents the preparation and analysis of gluten-free breads with CP and PP, focusing on their nutritional value and physical properties. Analytical methods included water activity measurement, bread volume, crumb color analysis, FTIR spectroscopy, low-field NMR relaxometry, and texture profile analysis. Ash content ranged from 0.60 ± 0.03% to 1.16 ± 0.11%, and caloric values ranged from 216.2 to 229.5 kcal/100 g. Water activity remained stable across all samples (0.975–0.976). Crumb color analysis showed the greatest change in CP samples (ΔE = 14.07), while PP had minimal impact (ΔE = 2.15). FTIR spectra revealed increased amide I and II bands, indicating higher protein content. NMR results demonstrated shorter T1, T21, and T22 times for CP, suggesting reduced water mobility and a denser structure, while PP samples showed higher values, indicating a looser, more hydrated matrix. Texture analysis confirmed that CP increased firmness and compactness, whereas PP enhanced springiness. These findings suggest that CP and PP can improve the nutritional and structural properties of gluten-free bread, offering valuable alternatives for modern dietary needs.

2024, Aamer, Helmy A., Elalem, Saad F., Al-Askar, Abdulaziz A., Sharaf, Omaima A., Gaber, Mahmoud A., Kowalczewski, Przemysław, Behiry, Said, Abdelkhalek, Ahmed

Abstract Methanolic extract from Salsola imbricata was investigated for its phytochemical content, antioxidant, and antimicrobial properties against phytopathogenic fungi and bacteria. Phytochemical analysis revealed the presence of saponin, tannins, and alkaloids with 1.25%, 18.8 mg catechin/g of extract, and 9.12%, respectively. Total flavonoid content was 20.8 mg quercetin equivalent/g while total phenolic content was 202 mg gallic acid equivalent/g. Antioxidant activity using the 2,2-diphenyl-1-picrylhydrazyl assay resulted in an IC50 value of 48.61 µg/mL, while the phosphomolybdenum method yielded a value of 215.43 mg ascorbic acid equivalent/g of extract. The highest phenolic acids detected in the extract were gallic acid (712.97 µg/g), syringic acid (742.7 µg/g), and caffeic acid (474.70 µg/g) according to high-performance liquid chromatography analysis. Palmitic acid (28.38%) dominated the fatty acids identified by gas chromatography–mass spectrometry, while stigmasterol (8.34%) was the most abundant steroid. At a concentration of 3 mg/mL, the extract showed strong antibacterial activity against Pectobacterium carotovorum (10.50 mm), Ralstonia solanacearum (9.93 mm), and Pectobacterium atrosepticum (8.37 mm). Additionally, the extract significantly suppressed fungal growth of Rhizoctonia solani (38.22%) and Fusarium oxysporum (33.56%) but showed lower activity toward Botrytis cinerea (13.33%) at 5 mg/mL. In conclusion, S. imbricata extract exhibited promising antioxidant and antimicrobial properties, making it a potential candidate for further exploration in agricultural applications.

2024, Bogusz, Radosław, Bryś, Joanna, Onopiuk, Anna, Pobiega, Katarzyna, Tomczak, Aneta, Kowalczewski, Przemysław Łukasz, Rybak, Katarzyna, Nowacka, Małgorzata

The growing world population necessitates the implementation of appropriate processing technologies for edible insects. The objective of this study was to examine the impact of distinct drying techniques, including convective drying at 70 °C (70CD) and 90 °C (90CD) and freeze-drying (FD), on the drying kinetics, physical characteristics (water activity, color), chemical characteristics (chemical composition, amino acid profile, oil properties, total polyphenol content and antioxidant activity, mineral composition, FTIR), and presence of hazards (allergens, microorganisms) of blanched yellow mealworm larvae. The freeze-drying process results in greater lightness and reduced moisture content and water activity. The study demonstrated that the freeze-dried insects exhibited lower contents of protein and essential amino acids as compared to the convective-dried insects. The lowest content of total polyphenols was found in the freeze-dried yellow mealworm larvae; however, the highest antioxidant activity was determined for those insects. Although the oil isolated from the freeze-dried insects exhibited the lowest acid and peroxide values, it proved to have the lowest PUFA content and oxidative stability. All the samples met the microbiological criteria for dried insects. The results of the study demonstrate that a high temperature during the CD method does not result in the anticipated undesirable changes. It appears that freeze-drying is not the optimal method for preserving the nutritional value of insects, particularly with regard to the quality of protein and oil.

2022, Osoś, Agata, Jankowska, Patrycja, Drożdżyńska, Agnieszka, Różańska, Maria Barbara, Biegańska-Marecik, Róża, Baranowska, Hanna Maria, Ruszkowska, Millena, Kačániová, Miroslava, Tomkowiak, Agnieszka, Kieliszek, Marek, Kowalczewski, Przemysław Łukasz

In this study, kiwiberry lyophilizate (KBL) was incorporated into pasta at different levels (5%, 10%, and 15% w/w). Kiwiberry fruits’ characteristics (ascorbic acid, carotenoids, phenolic compounds, and antioxidant activity determination) as well as physical (cooking properties, color, microscopic structure determination, texture, and water molecular dynamics analysis by low-field NMR) and chemical analyses (proximate composition phenolic compounds composition and antioxidant activity) of KBL-enriched pasta were investigated. The replacement of semolina with KBL in the production of pasta significantly changed its culinary properties. Results showed that the addition of KBL leads to a reduction in optimal cooking time and cooking weight (47.6% and 37.3%, respectively). Additionally, a significant effect of the KBL incorporation on the color of both fresh and cooked pasta was observed. A significant reduction in the L* value for fresh (27.8%) and cooked (20.2%) pasta was found. The KBL-enriched pasta had a different surface microstructure than the control pasta and reduced firmness (on average 44.7%). Low-field NMR results have confirmed that the ingredients in kiwiberry fruit can bind the water available in fresh pasta. The heat treatment resulted in increasing the availability of phenolic compounds and the antioxidant activity (64.7%) of cooked pasta. Sensory evaluation scores showed that the use of 5–10% of the KBL additive could be successfully accepted by consumers.

2024, Kučka, Matúš, Harenčár, Ľubomír, Ražná, Katarína, Nôžková, Janka, Kowalczewski, Przemysław Łukasz, Deyholos, Michael, Dziedzic, Krzysztof, Rybicka, Iga, Zembrzuska, Joanna, Kačániová, Miroslava, Ivanišová, Eva, Gažo, Ján, Čerteková, Simona, Tomka, Marián

AbstractMucilage is one of the key components of flaxseed (which is also called linseed), and exhibits unique functional properties such as high water-holding capacity, and foamability. As a result, flaxseed mucilage has applications in food, agriculture, medicine and other industries. The composition and functional properties of mucilage vary between genotypes. To explore this variation, we characterized the mucilage of nine diverse varieties of flaxseed according a range of parameters including: morphology, mucilage content, fibre content, minerals, phenolic acids, polyphenols, antimicrobial activity, and antioxidant activity. We found significant differences between the genotypes in almost all of the parameters tested. Furthermore, we found a strong correlation between several of these parameters, including antioxidant activity, hydroxycinnamic acid, and sugar content. Antimicrobial activity against Gram positive bacteria was correlated with fibre content and potassium content, while chlorogenic acid content was correlated with suppression of Gram negative bacteria. These results provide a framework for crop improvement further development of functional and value-added products from flaxseed.

2024, Garbacz, Agnieszka, Juszczak, Paweł, Nowicki, Marcin, Kowalczewski, Przemysław Łukasz, Człapka-Matyasik, Magdalena

Breastfeeding is the optimal form of infant nutrition and remains a critical topic of discussion. In the case of lactation problems, women can be assisted by plant galactagogues designed to induce, sustain, and increase lactation. Reports on the popularity, awareness and knowledge of galactagogues are limited. Therefore, this study aimed to analyze the use of galactagogues in the diet among breastfeeding women. The online survey was conducted using anonymized questionnaires, with results collected in the Spring of 2021. Fifty-two women aged 20 to 50 who fed naturally participated in the study, with 69% of respondents being familiar with galactagogues and 42% having used them. The most often indicated herbs were fennel (68%) and anise (45%). Galactagogues were used as ready-to-use herbal lactation mixes (73%). Women found them effective in stimulating lactation (82%) and purchased them in pharmacies (64%) or herbal stores (36%). Respondents were encouraged to use galactagogues by media (32%) and family and friends (45%). Women reported that greater knowledge (57%) would be essential to effectively encourage galactagogues. Breastfeeding women were positive about using plant-based galactagogues and considered them effective. A critical barrier identified by those not using galactagogues was their need for knowledge. The information campaign for pregnant women should include galactagogues as lactation-stimulating herbs.

2024, Kowalczewski, Przemysław Łukasz, Smarzyński, Krzysztof, Lewandowicz, Jacek, Jeżowski, Paweł, Ruszkowska, Millena, Wróbel, Martyna Maria, Kubiak, Piotr, Kačániová, Miroslava, Baranowska, Hanna Maria

The rising demand for plant-based alternatives to traditional meat products has led to the development of plant-based sausages (PBSs) that closely mimic the texture and taste of their meat counterparts. This study investigates the rheological and textural properties, as well as proton molecular dynamics, of hot dog-type PBSs and batters used in their production. Various formulations were analyzed to understand how different ingredients and processing methods affect the characteristics of the final products. Our findings reveal that the incorporation of specific plant proteins and hydrocolloids significantly influences the rheological behavior and texture profile of sausages. The hardness of the samples ranged from 4.33 to 5.09 N/mm and was generally higher for the products with inorganic iron sources. Regarding the viscoelastic properties, all the samples showed larger values of the storage modulus than the loss modulus, which indicates their solid-like behavior. Additionally, the study utilized advanced proton nuclear magnetic resonance (NMR) techniques to elucidate the molecular dynamics within plant-based matrices, providing insights into water distribution and mobility. Key findings highlight the impact of different plant proteins and additives on the texture and stability of sausage analogs.

2024, Hamdy, Esraa, El-Gendi, Hamada, Al-Askar, Abdulaziz, El-Far, Ali, Kowalczewski, Przemysław, Behiry, Said, Abdelkhalek, Ahmed

Abstract In the current study, Heliotropium bacciferum leaf extract was used to biosynthesize copper oxide nanoparticles (CuO-NPs). Various analytical techniques were used to characterize the produced CuO-NPs. Transmission electron microscope investigation indicated well-distributed spherical particles in various development phases. The particles’ diameters ranged from 22.15 to 37.01 nm, with an average of 24.8 ± 6.1 nm. Energy dispersive X-ray examination confirmed the presence of nanoscale Cu ions at a high concentration, as seen by the strong signal peak at 1 keV. Fourier transform infrared spectrum revealed various functional groups on the green-produced CuO-NPs, as evidenced by multiple absorption beaks. The bands found at 3,195 and 2,916 cm−1 revealed that phenolic and flavonoid compounds’ alcohols and alkanes were stretching C–H. Also, a band at 1,034 cm−1 is typically attributed to CuO production. CuO-NPs exhibited significant bioactivity against isolated and molecularly identified fungal strains, including Rhizoctonia solani (OR116528), Fusarium oxysporum (OR116508), and Botrytis cinerea (OR116491). Remarkably, the highest inhibition percentages were recorded at 100 µg/mL, with values 81.48, 71.11, and 50.74% for R. solani, F. oxysporum, and B. cinerea, respectively. Molecular docking interactions revealed that the highest binding affinity of CuO-NPs was −5.1 for the oxidoreductase of B. cinerea and −5.2 and −5.4 for the chitin synthase of R. solani and F. oxysporum, respectively. Consequentially, the biosynthesized CuO-NPs could be employed as antifungal biocontrol agents, as well as using H. bacciferum leaf extract for the synthesis of nanoparticles for various sustainable agricultural applications.

2024, Abdelkhalek, Ahmed, Abdelwahab, Eman A., Elalem, Saad F., Al-Askar, Abdulaziz A., Kowalczewski, Przemysław Łukasz, Behiry, Said

Abstract The present study appraised the inhibitory role of ethanol (PDEE) and ethyl acetate (PDEAE) extracts of Phoenix dactylifera L. against three molecularly identified fungi: Fusarium oxysporum, Botrytis cinerea, and Rhizoctonia solani. HPLC analysis revealed that gallic acid was the major phenolic compound in both extracts: (PDEE: 1721.90 μg/g) and (PDEAE: 101.53 μg/g). The major flavonoids in PDEE are rutin, kaempferol, and quercetin, whereas PDEAE contains kaempferol, naringenin, and quercetin. The GC-MS showed 11-octadecenoic acid methyl ester (26.25%) is the highest compound in PDEE, while diisooctyl phthalate (18.82%) is the most important compound in PDEAE. At 50 μg/mL, the inhibition percentage of PDEAE initiated the highest growth inhibition of F. oxysporum (49.63%) and R. solani (71.43%). Meanwhile, PDEE at 200 μg/mL initiated an inhibition value of 77.78% for B. cinerea. As a result, PDEAE is considered more effective than PDEE in controlling the growth of selected isolates.

2024, Khalil, Abdallah, Abdelwahab, Eman A., Sharaf, Omaima A., Al-Askar, Abdulaziz A., Kowalczewski, Przemysław Łukasz, Abdelkhalek, Ahmed, Behiry, Said

Abstract The aim of the current study is to assess the phytochemical contents, antifungal activity, and cytotoxicity characteristics of an ethanolic extract derived from the entire Torilis arvensis plant. High-performance liquid chromatography examination of the extract revealed that the primary phenolic components were benzoic, o-coumaric, and vanillic acids with concentrations of 259.1, 220.4, and 111.3 µg/g of extract, respectively. The highest flavonoids were catechol (117.9 µg/g) and kaempferol (108.7 µg/g). The extract is notable for its high concentration of long-chain saturated and unsaturated fatty acids, as well as its presence of 17 gas chromatography-mass spectrometry bioactive chemicals. Three soil-borne pathogenic fungi, Rhizoctonia solani, Fusarium solani, and Fusarium oxysporum, were molecularly identified and assessed for the antifungal activity of the extract. The extract showed the highest growth inhibition against R. solani, F. oxysporum, and F. solani at 300 µg/mL, with inhibition rates of 88.9, 71.5, and 67.8%, respectively. T. arvensis treatments were generally non-toxic after proceeding with cytotoxicity assay on the onion root tip cells, with no chromosomal abnormalities detected even at the highest concentration (300 µg/mL). These findings highlight the potential of T. arvensis extract as a safe and effective antifungal agent with a rich phytochemical profile.

2024, Nabil, Marwa, Elnouby, Mohamed, Al-Askar, Abdulaziz A., Kowalczewski, Przemysław Łukasz, Abdelkhalek, Ahmed, Behiry, Said I.

Abstract The use of synthetic pesticides has come under scrutiny, and there has been a subsequent shift toward the investigation of alternative methods for the treatment of plant diseases. One notable advancement in this field is the utilization of porous silicon (PS) powder as a sustainable antifungal agent. The synthesis of PS nanoparticle (PS-NP) powder was carried out using the environmentally friendly ultrasonication process. X-ray powder diffraction, Fourier transform infrared spectroscopy, Raman spectroscopy, UV-VIS absorbance, and photoluminescence were some of the methods used to characterize PS-NPs. The different characterization methods revealed the formation of a nanocrystalline structure possessing a cubic Si crystalline quality. The crystal size of PS-NPs, as determined from X-ray diffractometer data, ranges from 36.67 to 52.33 nm. The obtained PS has a high band gap of 3.85 eV and presents a photoluminescence peak at 703 nm. The antifungal activity of the synthesized PS-NPs was assessed against three molecularly characterized fungi, namely Rhizoctonia solani, Fusarium oxysporum, and Botrytis cinerea, which were obtained from tomato plants. The concentration of PS-NPs at 75 µg/mL exhibited the highest enhancement in growth inhibition percentages as compared to the control group. R. solani had the highest inhibition percentage of 82.96%. In conclusion, the encouraging structural properties and antimicrobial capabilities of PS-NPs pave the way for their application across diverse technological industries. To the best of our knowledge, this is the first in vitro study of PS-NPs to evaluate their fungal control efficiency.

2024, Kulczyński, Bartosz, Suliburska, Joanna, Gramza-Michałowska, Anna, Sidor, Andrzej, Kowalczewski, Przemysław Łukasz, Brzozowska, Anna

Osmotic dehydration as a process of removing water from food by immersing the raw material in a hypertonic solution is used primarily to extend the shelf life of products and as a pretreatment before further processing steps, such as drying and freezing. However, due to the bi-directional mass transfer that occurs during osmotic dehydration, the process can also be used to shape sensory properties and enrich the plant matrix with nutrients. The purpose of this study was to evaluate the effect of osmotic dehydration on the absorption of potassium by beet pulp immersed in various hypertonic solutions (sucrose, inulin, erythritol, xylitol solutions) with the addition of three chemical forms of potassium (gluconate, citrate, chloride) using variable process conditions. The study proved that osmotic dehydration is an effective way to enrich food. The highest potassium content (5779.03 mg/100 g) was found in a sample osmotically dehydrated in a 50% erythritol solution with 5.0% potassium chloride addition with a process that lasted 180 min and took place at 30 °C. The results obtained indicate the high potential of osmotic dehydration in improving the health values of food products. In addition, the antioxidant activity and proximate composition of osmotically dehydrated samples were also characterized in this study.