CIMO - Artigos em Revistas Indexados à WoS/Scopus
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Percorrer CIMO - Artigos em Revistas Indexados à WoS/Scopus por Domínios Científicos e Tecnológicos (FOS) "Ciências Agrárias::Agricultura, Silvicultura e Pescas"
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- Advice on how to start beekeeping, memories with bees and the uses of honey: results of an online questionnaire with European beekeepersPublication . Perichon, Samuel; Adamchuk, Leonora; Biber, Lejla; Božič, Janko; Chlebo, Róbert; Filipi, Janja; Leidenberger, Sonja; Mavrofridis, Georgios; Özgör, Erkay; Pocol, Cristina Bianca; Porporato, Marco; Rodríguez-Flores, María Shantal; Vilas-Boas, Miguel; Zacepins, AleksejsBeekeeping is a demanding activity that requires both particular human qualities from those who practise it and an environment that is favourable to bees. This is why the interviewed beekeepers advise to take time to think before starting to keep the bees, to find a mentor, and to always have the desire to get to know the bees even if this is not enough for success. In Northern and Western Europe, beekeepers consider patience and calmness as essential qualities to be a “good beekeeper”, while in Southern Europe, passion for bees is the main driver of success. The reasons for abandonment or failure also include human and environmental factors. To better understand the relationship between beekeepers and their bees, interviewees were encouraged to share their best memories. With years of experience, contemplative memories fade into memorable situations in which bee practices are described, and then in turn, they fade into moments of sociability. Honey harvesting plays an important role. Productive considerations are more expressed in Southern Europe, where it is an exceptional harvest that marks on people’s minds, more than the first honey harvest. The strong connection to their bees and the territory they live in is also expressed in the choice of their favourite honey. Many beekeepers mentioned the local honey production, which they are proud to produce with their own bees, even though they sometimes became criticized for a too high price for this local product. © 2024 International Bee Research Association.
- Alginate Edible Films Containing Essential Oils: Characterization and Bioactive PotentialPublication . Lopes, Ana I.; Melo, Adma; Afonso, Tiago B.; Silva, Sara; Barros, Lillian; Tavaria, Freni K.; Pintado, ManuelaEssential oils (EOs) are natural substances rich in phenolic compounds with notable antimicrobial and antioxidant properties. However, they present some limitations, such as low stability and bioavailability. Incorporating EOs into polymeric films offers a novel approach to overcome these challenges while enhancing their efficacy. In this study, we produced and thoroughly characterized alginate-based edible films incorporated with five different EOs—rosemary, eucalyptus, oregano, sage, and thyme. This is the first comprehensive investigation to include this diverse range of EOs in alginate films. Their antimicrobial and antioxidant activities were also evaluated. The results demonstrated that alginate films containing EOs exhibited significant bioactive properties. Notably, the film incorporated with oregano EO completely inhibited the growth of all tested bacteria and fungi and showed the highest antioxidant activity. Based on these findings, alginate films containing EOs present promising bioactive potential and could serve as biodegradable alternatives to conventional packaging materials, reducing environmental impact. However, further studies are necessary to assess their safety profile and confirm their viability as replacements for traditional food packaging. Future research should focus on evaluating cytotoxicity, genotoxicity, and the practical application of these films in food matrices.
- Almond By-Products: A Comprehensive Review of Composition, Bioactivities, and Influencing FactorsPublication . Silva, Vânia; Oliveira, Ivo; Pereira, José Alberto; Gonçalves, BertaOne of today’s major environmental and economic challenges is the fight against both agro- and industrial-waste. Almond production and industrial processing exemplifies this issue, as it generates tons of waste and by-products, with hulls and shells accounting for about 70% of the total fruit’s weight while skins represent about 6% of the shelled kernel. Since the edible kernel, about 23% of the total fruit weight, holds the highest commercial value, there has been growing interest within the scientific community in exploring the potential of these by-products. However, almond by-products contain a wide range of phytochemicals, mainly phenolic compounds (flavonoids and non-flavonoids), and triterpenoids, with great potential as antioxidant, antimicrobial, anti-inflammatory, and prebiotic properties. Although these by-products are being explored as alternative sources in the textile, pharmaceutical/cosmetic, and food industries, their primary use remains in livestock feed or bedding, or as biofuel. This review compiles recent scientific data on almond by-products’ phytochemical composition and bioactivities aiming to support sustainable and holistic agricultural practices.
- Antimicrobial and wound healing effects associated to cytocompatibility and the relationship with phytochemical profile of selected Portuguese monofloral honeysPublication . Machado, Alexandra M.; Marto, Joana; Gonçalves, Lídia Maria; Ribeiro, Helena Margarida; Duarte, Aida; Tomás, Andreia; Falcão, Soraia; Vilas-Boas, Miguel; Miguel, Maria Graça; Figueiredo, Ana CristinaOwing to its applications in both food and pharmaceutical industries honey is regarded as a functional product. This study evaluated 32 Portuguese monofloral honeys and their activity was compared with manuka honey 850 + . The antimicrobial activity was determined against Gram-positive and negative bacteria, and yeast. Antioxidant activity, wound healing ability, and cell viability were studied in the human keratinocyte cell line (HaCaT). Phytochemical profile analysis was performed by UPLC/DAD/ESI-MSn. Chestnut, bell heather, eucalyptus, manuka, and strawberry tree honeys demonstrated higher antioxidant activity and were effective against S. aureus. Incense and orange honeys showed wound healing rates of 89 % and 86 %, respectively. All the honeys had cell viability above 76 %. Bell heather and strawberry tree honeys showed the highest total phenolic content, while incense and orange honeys, showed the lower ones. Phytochemical profile analysis evidenced two main clusters, one dominated by isoprenoids and norisoprenoids, as well as phenolic acids and derivatives, while the other included flavonoids as main compounds. Blending different Portuguese monofloral honeys may be an alternative to faster wound healing, by combining their diverse bioactive components. The gathered knowledge can be further explored in formulations that consider the biological activity capacity and composition of each honey.
- Assessing the Shelf-Life of Olive Oil Under Different Storage Conditions: A Review of Predictive ModelsPublication . Ferreiro, Nuno Manuel; Veloso, Ana C.A.; Pereira, José Alberto; Rodrigues, Nuno; Peres, António M.Olive oil holds a significant position in the global vegetable oil market, often reaching high prices compared to other vegetable oils. However, like other oils, it is vulnerable to oxidation, which can degrade its quality during storage, making it essential to determine its shelf-life. So, kinetic or empirical models have been developed to estimate how long olive oil can maintain the legal quality standards necessary for its commercial classification or to be marketed with nutritional or health claim. This study reviews recent advancements in modelling approaches to predict the shelf-life of olive oil under different storage conditions, namely storage duration (from 2 months to 2 years), temperature (20–50 ºC), and light exposure (light versus dark storage). Most models estimate the timeframe in which olive oil remains compliant with regulatory requirements for specific commercial grades, namely extra virgin olive oil, with fewer models addressing health-related claims. Developed models include pseudo zero-, pseudo first-, and pseudo second-order kinetic models and empirical models, derived from experimental data on the oil’s chemical stability over time. While empirical models can be highly accurate, they often require extensive chemical data, including for compounds for which no legal thresholds exist, and complex statistical techniques, limiting their use by non-specialists. In contrast, kinetic models offer simpler and user-friendly mathematical equations. Nonetheless, olive oil’s shelf-life predictions remain influenced by factors such as initial oil composition, packaging materials, and storage conditions, underscoring the ongoing need to refine the predictive models.
- Bacterial cellulose biosynthesis in the presence of raw moist olive pomace: A green sustainable approach that enhances biopolymer production and propertiesPublication . Crugeira, Pedro; Khelifa, Halima; Barreira, Luísa; Halla, Noureddine; Barreiro, Filomena; Rodrigues, Paula; Peres, António M.; Schreiner, Tatiana B.; Schreiner, Tatiana B.In this study, the biosynthesis of bacterial cellulose (BC) by Komagataeibacter intermedius strain isolated from Kombucha tea in the presence of raw moist olive pomace (MOP) (concentration up to 40 % in the fermentation media) was studied. The BC membranes were characterized by their antioxidant activity, structural character- istics, crystallinity, thermal stability, and mechanical behavior. Using raw MOP activated the inherent activity of the phenolic compounds, leading to cellular adaptation under unfavorable conditions and increased BC pro- duction for all tested MOP concentrations (p < 0.0001). This led to a 166.61 % increase for the 20 % MOP group compared to the control (HS medium). For this sample, enhanced antioxidant activity (~40-fold higher than the control) was found, which might be associated with the molecular interactions established between hydroxyls of BC and phenolic compounds. Moreover, an increase of 603.03 % in strain capacity, and a 376.01 % improvement in stress at break compared to the control was observed. The study confirmed that BC can be synthesized using MOP in its natural state, supporting a sustainable circular economy while enhancing the biosynthesis of a value- added product. By reducing synthetic media and utilizing MOP, a greener bioprocess can be achieved, and BC’s applicability can be expanded.
- Bee Pollen as a Dietary Mineral Source: In Vitro Bioaccessibility and Health Risk EvaluationPublication . Mutlu, Ceren; Aylanc, Volkan; Vilas-Boas, MiguelPollen, the male gametophyte of flowering plants, is collected by honeybees as a primary source of protein and converted into bee pollen through the enzymatic activity of digestive secretions. The nutrients in bee pollen are available in amounts well beyond those of proteins, comprising macronutrients such as carbohydrates, lipids and dietary fiber, as well as micronutrients such as minerals, vitamins, organic acids, and phenolic compounds. This study aimed to determine the macro and trace mineral content of bee pollen from different botanical and geographical origins, and to assess their bioaccessibility through simulated in vitro digestion, their dietary contribution, and potential health risks. Seven bee pollen samples were investigated, three with a monofloral origin of above 80%, from Nigella spp., Helianthus annuus and Castanea sativa, and four with a multifloral origin. Mineral composition revealed potassium as the most abundant element, while iron, manganese, and copper were found at trace levels. Castanea sativa pollen had the highest overall mineral content, whereas Nigella spp. showed the lowest values for calcium, magnesium, and copper. The bioaccessibility of bee pollen was highest during the gastric phase for most minerals except copper, where most of the samples peaked in the intestinal phase. Overall, mineral bioaccessibility after simulated digestion followed the order K > Mg > Cu > Ca > Mn > Fe > Zn. While for manganese, the consumption of bee pollen showed the highest contribution to recommended dietary intake (16% for women and 12% for men), calcium had the lowest, with less than 1% of the RDA at a consumption level of 40 g/day. Health risk assessment confirmed that consuming 40 g/day of bee pollen poses no risk because the target hazard quotient and hazard index are below the risk threshold of 1.0.
- Biomass and nutrient release dynamics of decomposing rolling down legume cover crops in a steep-sloped Mediterranean vineyardPublication . Brito, Cátia; Martins, Sandra; Saraiva, Francisco; Roque, João; Arrobas, Margarida; Rodrigues, Manuel Ângelo; Correia, CarlosWell-managed cover crops are gaining traction as an alternative to conventional tillage, offering a range of agronomic and ecological benefits. This field study, conducted in a commercial vineyard in the Douro region (Portugal) during the 2022/2023 growing season, evaluated the decomposition dynamics and nutrient release from different legume cover crop residues over a period of 183 days after sowing and 114 days after rolling. These mixtures consisted of subterranean clovers (SC), low-growing (LG), and moderately-growing (MG) legumes. MG legumes produced the highest biomass (7.8 t ha-1), followed by LG (7.2 t ha-1) and SC (5.9 kg ha-1). MG residues decomposed more rapidly, potentially meeting early grapevine nutrient demands. SC residues decomposed more slowly, retaining nutrients over longer periods and acting as a sustained source of fertility, while LG legumes provided a balance between rapid and gradual nutrient release. Biomass production peaked before rolling termination, suggesting that the lower canopy foliage might have started decomposing as the crops reached maximum vegetative expansion and early seed formation, reflecting the dry, hot environmental conditions during the study year. The observed nutrient release from cover crop residues, particularly during the first 45 days post-termination, suggested a potential to support grapevine nutrient requirements, although direct uptake by grapevines was not assessed in this study. SC residues retained higher levels of key macronutrients and micronutrients over time. These findings highlight the importance of selecting legume cover crop mixtures aligned with vineyard management goals, whether rapid nutrient supply or sustained soil fertility. The study also underscores the influence of environmental conditions, residue composition and termination timing on nutrient dynamics. Long-term research is recommended to evaluate cover crops' chemical composition, cumulative effects on soil organic carbon (C) and nutrients, microbial activity and effects on grapevine performance across diverse Mediterranean environments.
- A biorefinery approach for the simultaneous obtention of essential oils, organic acids and polyphenols from citrus peels: Phytochemical characterization and bioactive potentialPublication . Gómez-Mejía, Esther; Dias, Maria Inês; Pereira, Carla; Pires, Tânia C.S.P.; Palá-Paúl, Jesús; Rosales-Conrado, Noelia; León-González, María Eugenia; Calhelha, Ricardo C.; Roriz, Custódio Lobo; Pereira, CarlaThis investigation evaluates the valorization of citrus peels (lemon, tangerine, and orange) to recover both on-polar and polar fractions simultaneously. Citrus essential oils, abundant in limonene (74.4–33.7 %), exhibited great antioxidant activity (IC50 = 2.002 mg/mL) and Campylobacter jejuni halo inhibition (2.9 cm), particularly in tangerine and orange essential oils. The aqueous extracts were rich in quinic and malic acid (10–78.8 g/100 g), along with polyphenols (22.7–5.2 mg/g), such as diosmetin, luteolin, and eriodictyol glycosides. Tangerine’s aqueous fraction showed the highest inhibition of oxidative hemolysis (IC50 = 102 μg/mL) and Staphylococcus aureus (MIC = 2.5 mg/mL). Whereas lemon was most effective against lipid peroxidation (IC50 = 1.33 mg/mL) and gastric adenocarcinoma proliferation (IG50 = 83 μg/mL). Principal component analysis correlated the in vitro bioactivities with each compound and citrus type, underscoring the potential of citrus peels as a cost- effective, sustainable source of value-added compounds with tailored commercial applications.
- Biotechnological approaches for reducing antinutrients and enhancing lentil (Lens culinaris) flours qualityPublication . Liberal, Ângela; Fernandes, Ângela; Pires, Tânia C.S.P.; Ferreira, Isabel C.F.R.; Vívar-Quintana, Ana Maria; Barros, LillianThis study explores the effects of germination and cooking as pretreatments, followed by fermentation using different starter cultures on the physicochemical, nutritional, and techno-functional properties of Beluga and Du Puy lentil flours, focusing on reducing antinutritional factors and enhancing nutrient bioavailability. Fermentation was conducted using lactic acid bacteria (Furfurilactobacillus rossiae and Lactobacillus brevis) and a probiotic yeast (Saccharomyces boulardii) as starter cultures, individually and in combination. Results showed significant improvements in protein content, which increased by up to 38.4 g/100 g dry weight (dw) in Beluga lentils, and γ-tocopherol levels, which reached 8.15 mg/100 g dw after fermentation with L. brevis. Also, in Beluga lentils, germination followed by fermentation with F. rossiae and S. boulardii reduced carbohydrates to 57.7 g/100 g dw. Germination alone enhanced sucrose concentrations to 4.09 g/100 g dw and 4.44 g/100 g dw both Beluga and Du Puy lentils, respectively, while fermentation reduced its levels and promoted glucose production, reaching up to 1.02 g/100 g dw. Reduction in antinutritional factors was notable, with decreased phytic acid and condensed tannins concentration. Techno-functional properties such as water and oil holding capacity, and emulsifying capacity also improved significantly across treatments, enhancing the versatility of lentil flours in diverse food applications. These results highlight the potential of tailored processing techniques to enhance the physico-chemical profile of lentils, providing a foundation for their use in developing nutrient-dense, plant-based food products. Such innovations offer sustainable alternatives to traditional food sources, aligning with the growing demand for high-yield, environmentally friendly options.