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In this study, the influence of glycerol and sonicated soybean expeller (SSE) on composite edible films supporting natamycin and nisin was investigated using Response Surface Methodology. Assessments were conducted on mechanical properties, moisture content, water solubility (SW), and color. Optimal results were achieved with 0.46% SSE and 1.4% glycerol, yielding a maximum tensile strength (TS) of 1.0 ± 0.1 MPa and a minimum SW of 19.0 ± 0.3%. SSE had no impact on Tg values (82-89 °C), while antimicrobials reduced Tg (70-73 °C) due to increased water retention. Water vapor permeability was (2.5 ± 0.2) × 10-9 -1 s-1 Pa-1. FTIR analysis revealed strong component interactions. The composite films demonstrated biodegradability in compost after seven days and effective action against Listeria innocua and Saccharomyces cerevisiae. These findings suggest that these materials hold promise as active films for food preservation. Supplementary Information: The online version contains supplementary material available at 10.1007/s10068-023-01516-6.
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The development of alternative materials to replace plastics used in food packaging is an important approach to reducing environmental pollution and minimizing harmful impacts on ecosystems. In this study, biopolymeric films were formulated using cassava starch (Manihot esculenta Crantz), pea flour (Pisum sativum) and green banana flour (Musa sp.) to obtain a material for application in food packaging. The influence of a plasticizer on the optical and physicochemical properties of the films was analyzed and the synergy between higher concentrations of starch and plasticizer resulted in films with low opacity. In addition, the morphology, thermal, mechanical and barrier properties were examined. The film with the best formulation (p < 0.05) contained 12 g cassava starch, 3.6 g pea flour and 30 % glycerol (the maximum levels of the experiment). This film presented average values of thickness, moisture, solubility, opacity, maximum strength (F), maximum tensile stress (σ), elongation at break (ε) and elasticity (E) of 0.47 mm, 19.95 %, 87.45 %, 20.93 %, 9.30 N, 1.75 MPa, 30.10 % and 5.93 %, respectively. This research demonstrates the potential application of films obtained by combining starches from different sources. The sustainable production of environmentally-friendly packaging provides an alternative to fossil-based plastics, which have well-documented adverse effects on the environment.
Assuntos
Manihot , Musa , Embalagem de Alimentos/métodos , Pisum sativum , Manihot/química , Farinha , Plastificantes/química , Ecossistema , Permeabilidade , Polímeros , Amido/químicaRESUMO
Applying edible coatings added with plant essential oils is a strategy used to delay ripening processes in climacteric fruits such as papaya. Formulations comprising 3% or 4% cassava starch (w/v), added with clove or cinnamon essential oils (2 mL/L), were tested for microbial inhibition (in vitro) purposes. Moreover, these fruits' physicochemical and microbiological aspects were assessed at 25 °C, for 12 days. Slight variations in pH and Brix values were observed during storage. On the other hand, there were no significant variations in carotenoid contents over storage time. The papaya fruits' coating contributed to reducing their weight loss from 40.66% (uncoated sample) to 24.10% on the 12th storage day, as well as delayed changes often observed during the ripening process. The 4% cassava starch coatings added with essential oils were more efficient in reducing microbiological levels. The herein proposed treatments reduced aerobic mesophilic bacteria, as well as molds and yeast counts, by 1.48 and 1.95 log CFU/g, on average, respectively, in comparison to the control sample. The assessed microorganism counts were higher in the uncoated sample than in the coated papaya fruits, after 12 days of storage. Thus, the tested coatings can potentially delay the emergence of post-harvest changes; consequently, they can help improve the quality of papaya fruits and extend their shelf life.
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The cellulose from agroindustrial waste can be treated and converted into nanocrystals or nanofibers. It could be used to produce biodegradable and edible films, contributing to the circular economy and being environmentally friendly. This research aimed to develop an edible film elaborated with activated cellulose nanocrystals, native potato starch, and glycerin. The activated cellulose nanocrystals were obtained by basic/acid digestion and esterification with citric acid from corn husks. The starch was extracted from the native potato cultivated at 3500 m of altitude. Four film formulations were elaborated with potato starch (2.6 to 4.4%), cellulose nanocrystals (0.0 to 0.12%), and glycerin (3.0 to 4.2%), by thermoforming at 60 °C. It was observed that the cellulose nanocrystals reported an average size of 676.0 nm. The films mainly present hydroxyl, carbonyl, and carboxyl groups that stabilize the polymeric matrix. It was observed that the addition of cellulose nanocrystals in the films significantly increased (p-value < 0.05) water activity (0.409 to 0.447), whiteness index (96.92 to 97.27), and organic carbon content. In opposition to gelatinization temperature (156.7 to 150.1 °C), transparency (6.69 to 6.17), resistance to traction (22.29 to 14.33 N/mm), and solubility in acidic, basic, ethanol, and water media decreased. However, no significant differences were observed in the thermal decomposition of the films evaluated through TGA analysis. The addition of cellulose nanocrystals in the films gives it good mechanical and thermal resistance qualities, with low solubility, making it a potential food-coating material.
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The aim of this work was to evaluate the effect of the concentration of gelatin (G) (3-6 g), whey protein (W) (2.5-7.5 g) and chitosan (C) (0.5-2.5 g) on the physical, optical and mechanical properties of composite edible films (CEFs) using the response surface methodology (RSM), as well as optimizing the formulation for the packaging of foods. The results of the study were evaluated via first- and second-order multiple regression analysis to obtain the determination coefficient values with a good fit (R Ë 0.90) for each of the response variables, except for the values of solubility and b*. The individual linear effect of the independent variables (the concentrations of gelatin, whey protein and chitosan) significantly affected (p ≤ 0.05) the water vapor permeability (WVP), strength and solubility of the edible films. The WVP of the edible films varied from 0.90 to 1.62 × 10-11 g.m/Pa.s.m2, the resistance to traction varied from 0.47 MPa to 3.03 MPa and the solubility varied from 51.06% to 87%. The optimized values indicated that the CEF prepared with a quantity of 4 g, 5 g and 3 g of gelatin, whey protein and chitosan, respectively, provided the CEF with a smooth, continuous and transparent surface, with L values that resulted in a light-yellow hue, a lower WVP, a maximum strength (resistance to traction) and a lower solubility. The results revealed that the optimized formulation of the CEF of G-W-C allowed a good validation of the prediction model and could be applied, in an effective manner, to the food packaging industry, which could help in mitigating the environmental issues associated with synthetic packaging materials.
Assuntos
Quitosana/química , Filmes Comestíveis , Gelatina/química , Proteínas do Soro do Leite/química , Permeabilidade , VaporRESUMO
In this study, edible packaging based on discarded green banana (Musa acuminata AAA) flour (whole banana and banana peel flours) was developed for food applications. Films were characterized in terms of film-forming ability, mechanical, barrier, thermal, microbiological, and sensory properties. The film forming solutions were studied for rheological properties. Two formulations were selected based on their film-forming ability: whole banana flour (2.5%), peel flour (1.5%) and glycerol (1.0 %, F-1.0 G or 1.5%, F-1.5 G). Adding 1.5% plasticizer, due to the hygroscopic effect, favored the water retention of the films, increasing the density, which also resulted in a decrease in lightness and transparency. Water activity shows no difference between the two formulations, which were water resistant for at least 25 h. DSC results showed a similar melting temperature (Tm) for both films, around 122 °C. Both films solutions showed a viscoelastic behavior in the frequency spectrum, being the elastic modulus greater in F-1.0 G film than F-1.5 G film at low frequency. F-1.0 G film was less firm, deformable and elastic, with a less compact structure and a rougher surface as confirmed by AFM, favoring a higher water vapor permeability with respect to F.1.5 G film. Microorganisms such as Enterobacteria and Staphylococcus aureus were not found in the films after a period of storage (1 year under ambient conditions). The F-1.0 G film with added spices (cumin, oregano, garlic, onion, pepper, and nutmeg) was tested for some food applications: as a snack (with or without heat treatment) and as a wrap for grilled chicken. The performance of the seasoned film during chilled storage of chicken breast was also studied. Sensory evaluation showed good overall acceptability of all applications. In addition, the chicken breast wrapped with the seasoned film registered lower counts (1-log cycle) than the control (covered with a polystyrene bag) and the film without spices. Green banana flour is a promising material to develop edible films for food applications.
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The objective of this work was to obtain and characterize sodium alginate-based biopolymer films with the addition of cashew nut shell liquid (CNSL). The study employed a completely randomized design, including 0%, 0.5%, 1%, and 1.5% inclusion of CNSL. Uniform formation of the films was observed, and the addition of CNSL provided better thermal resistance than did the treatment without inclusion, while the addition of CNSL reduced the homogeneity of the microstructure, especially for the 1.5% inclusion level. The permeability of the film increased as the level of CNSL increased, especially in response to the concentrations of 1% and 1.5%, and no significant difference in permeability was observed between these treatments. The tensile strength decreased proportionally as a function of the addition of CNSL, as its inclusion increased the elasticity and elongation of the films. In addition, the films with CNSL demonstrated strong antioxidant activity and discrete antimicrobial activity, and ecotoxicity analysis showed that the levels of CNSL tested and the films produced were nontoxic. Thus, these films are promising and self-sustainable alternatives for the agrifood industry.
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The production of fruit-film packaging has attracted increasing attention in scientific research due to the packaging's environmentally friendly, nontoxic, and edible characteristics. The development of alternative packaging contributes to both minimizing the environmental impacts caused by the large consumption of non-biodegradable plastics and favoring the reduction of postharvest loss/waste of fruit. In addition, these fruit films have the potential to be functional packages due the presence of antioxidant and antimicrobial compounds that can migrate to the food matrix, acting as natural additives. The use of fruit puree to develop biodegradable films can be simpler and more practical than the developed of films from fruit flour or extracts, reducing the time, energy, and resources necessary to prepare the film-forming solution. A better understanding of the mechanical properties, bioactive compounds, and potential applications is interesting in terms of prospecting new specific ways to produce and use these films. In this study, we briefly review the general aspects of fruit puree films, highlighting their characterization for use as food packaging.
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Anti-Infecciosos , Frutas , Antibacterianos , Antioxidantes , Embalagem de AlimentosRESUMO
In vitro meat is a novel concept of food science and biotechnology. Methods to produce in vitro meat employ muscle cells cultivated on a scaffold in a serum-free medium using a bioreactor. The microstructure of the scaffold is a key factor, because muscle cells must be oriented to generate parallel alignments of fibers. This work aimed to develop a new scaffold (microstructured film) to grow muscle fibers. The microstructured edible films were made using micromolding technology. A micromold was tailor-made using a laser cutting machine to obtain parallel fibers with a diameter in the range of 70-90 µm. Edible films were made by means of solvent casting using non-mammalian biopolymers. Myoblasts were cultured on flat and microstructured films at three cell densities. Cells on the microstructured films grew with a muscle fiber morphology, but in the case of using the flat film, they only produced unorganized cell proliferation. Myogenic markers were assessed using quantitative polymerase chain reaction. After 14 days, the expression of desmin, myogenin, and myosin heavy chain were significantly higher in microstructured films compared to the flat films. The formation of fiber morphology and the high expression of myogenic markers indicated that a microstructured edible film can be used for the production of in vitro meat.
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Coating fruits surface with biodegradable films obtained from starch is an alternative to delay the fruit ripening process. This study aimed to develop a biodegradable film from a polymer blend consisting of natural cassava starch, casein, and gelatin, and using sorbitol as the plasticizer. Among all the prepared biodegradable films (BFs), the one with desirable results in thickness, opacity, solubility, and water vapor transmission rate (WVTR) analyzes was based on a high concentration of starch, and casein, and low concentration of gelatin. Also, this film had the lowest solubility among all of them. Guava fruit coated with this film showed a two-day increase in shelf-life when compared to non-coated guavas. The increase in shelf-life was due to the extremely low water vapor transmission rate of the films, decreasing the fruits' mass loss, and, consequently, retarding their senescence. These results indicate that the biodegradable film is a promising material for fruit coating.
Assuntos
Caseínas/química , Filmes Comestíveis , Gelatina/química , Amido/química , Frutas/química , Permeabilidade , Psidium/química , Solubilidade , Espectroscopia de Infravermelho com Transformada de Fourier , Água/químicaRESUMO
Edible films with whey protein concentrate (WPC) with a lipid component, sunflower oil (O) or beeswax (W), to enhance barrier to water vapor were obtained. Brea gum was used as emulsifier and also as matrix component. In order to achieve emulsion with small and homogeneous droplet size, an ultrasonicator equipment was used after obtaining a pre-emulsion using a blender. The films were made by casting. Effects of lipid fraction on droplet size, zeta potential, mechanical properties, water vapor permeability (WVP), solubility, and optical properties were determined. The droplet size of emulsions with BG decreased when decreasing the lipid content in the formulation. The zeta potential was negative for all the formulations, since the pH was close to 6 for all of them and pI of BG is close to 2.5, and pI of ß-lactoglobulin and α-lactalbumin (main proteins in WPC) are 5.2 and 4.1, respectively. Increasing W or SO content in blended films reduced the tensile strength and puncture resistance significantly. BG and WPC films without lipid presented better mechanical properties. The presence of lipids decreased the WVP, as expected, and those films having BG improved this property. BG films were slightly amber as a result of the natural color of the gum. BG has shown to be a good polysaccharide for emulsifying the lipid fraction and improving the homogeneity and mechanical properties of the films with WPC and beeswax or oil.
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Emulsões , Gomas Vegetais/química , Ceras/química , Proteínas do Soro do Leite/química , Permeabilidade , ÁguaRESUMO
Solid sodium alginate was dissolved into chicken stock in order to give a final alginate concentration of 0.9 percent (w/v). Calcium ions present in chicken stock were enough to induce ionic gelation. After drying, Fourier transform infrared spectroscopy, thickness and mechanical properties of films obtained were determined. Calcium alginate-chicken stock films were heated at 130 °C for different times between 0 and 15 min. Mechanical and optical studies, differential scanning calorimetry, visual aspect and scanning electron microscopy were carried out to describe physicochemical properties of heat treated films. Heating developed a maroon ochre color and increased the brittleness (crispness) of the films related to the intensity of the treatment. Differential scanning thermometry and study on appearance of the films suggested that Maillard reactions may be responsible for the observed changes. Maillard reactions mainly occurred between reducing sugar monomers and free amino groups of gelatin peptides present in the chicken stock, and between alginate and gelatin peptides to a lesser extent. In addition, the plasticizing effect of fat added with chicken stock was also studied. These studies suggest a potential use of heat treated chicken stock films as a substitute of roasted chicken skin.
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Alginatos/química , Manipulação de Alimentos , Produtos Avícolas , Animais , Varredura Diferencial de Calorimetria , Galinhas , Cor , Dessecação , Gelatina/química , Géis/química , Ácido Glucurônico/química , Ácidos Hexurônicos/química , Temperatura Alta , Reação de Maillard , Microscopia Eletrônica de Varredura , Espectroscopia de Infravermelho com Transformada de FourierRESUMO
BACKGROUND: The aim of this study was to evaluate quinoa protein (Q), chitosan (CH) and sunflower oil (SO) as edible film material as well as the influence of this coating in extending the shelf-life of fresh blueberries stored at 4 °C and 75% relative humidity. These conditions were used to simulate the storage conditions in supermarkets and represent adverse conditions for testing the effects of the coating. The mechanical, barrier, and structural properties of the film were measured. The effectiveness of the coating in fresh blueberries (CB) was evaluated by changes in weight loss, firmness, color, molds and yeast count, pH, titratable acidity, and soluble solids content. RESULTS: The tensile strength and elongation at break of the edible film were 0.45 ± 0.29 MPa and 117.2% ± 7%, respectively. The water vapor permeability was 3.3 × 10(-12) ± 4.0 × 10(-13) g s(-1) m(-1) Pa(-1). In all of the color parameters CB presented significant differences. CB had slight delayed fruit ripening as evidenced by higher titratable acidity (0.3-0.5 g citric acid 100 g(-1)) and lower pH (3.4-3.6) than control during storage; however, it showed reduced firmness (up to 38%). CONCLUSION: The use of Q/CH/SO as a coating in fresh blueberries was able to control the growth of molds and yeasts during 32 days of storage, whereas the control showed an increasing of molds and yeast, between 1.8 and 3.1 log cycles (between 20 and 35 days).
Assuntos
Mirtilos Azuis (Planta) , Embalagem de Alimentos , Conservação de Alimentos/métodos , Frutas , Chenopodium quinoa/química , Quitosana , Embalagem de Alimentos/instrumentação , Frutas/microbiologia , Fungos/crescimento & desenvolvimento , Microscopia Eletrônica de Varredura , Permeabilidade , Óleos de Plantas , Proteínas de Plantas , Óleo de Girassol , Resistência à Tração , Fatores de Tempo , Água , LevedurasRESUMO
BACKGROUND: Tomato is a fruit widely consumed due to its flavor and nutritional value; however, it is susceptible to fungi contamination. Oregano essential oil (OEO) is a fungicide whose constituents are volatile; therefore, their incorporation within edible coatings can protect them and maintain their efficacy. In this context, this study evaluated the effect of OEO applied within pectin coatings on the inhibition of Alternaria alternata growth, antioxidant content and sensorial acceptability of tomatoes. RESULTS: The major volatile compounds of OEO were carvacrol (47.41%), p-cymene (26.44%) and thymol (3.02%). All the applied OEO concentrations (15.7, 25.9 and 36.1 g L(-1) ) inhibited the in vitro growth of A. alternata, whereas the in vivo effective concentrations were 25.9 and 36.1 g L(-1) . Additionally, there was an increment of total phenols and antioxidant activity in coated tomatoes compared to controls. Aroma acceptability of tomatoes was not affected by the pectin-OEO coating; additionally, the pectin, pectin-OEO 15.7 g L(-1) treatments and control tomatoes showed higher flavor acceptability than those coated with pectin-OEO 25.9 and 36.1 g L(-1) . CONCLUSION: Pectin-OEO coatings showed antifungal effect and increased the antioxidant activity without negative effects on the sensorial acceptability of tomatoes. © 2015 Society of Chemical Industry.
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Alternaria/efeitos dos fármacos , Antioxidantes/análise , Manipulação de Alimentos/métodos , Óleos Voláteis/farmacologia , Origanum/química , Pectinas , Solanum lycopersicum , Alternaria/crescimento & desenvolvimento , Antifúngicos/análise , Antifúngicos/farmacologia , Cimenos , Microbiologia de Alimentos , Conservação de Alimentos/métodos , Frutas/química , Frutas/microbiologia , Fungicidas Industriais , Humanos , Solanum lycopersicum/microbiologia , Monoterpenos/análise , Monoterpenos/farmacologia , Odorantes , Óleos Voláteis/química , Extratos Vegetais/química , Extratos Vegetais/farmacologia , Paladar , Timol/análise , Timol/farmacologiaRESUMO
UNLABELLED: Thyme essential oil (TEO) and apple skin polyphenols (ASP) are natural compounds considered as generally recognized as safe by FDA, with biological effects against bacteria and fungi. This work aimed to evaluate physical and antimicrobial properties of açaí edible films formulated with TEO and ASP at 3% and 6% (w/w) individually or combined at 3% (w/w) each. Physical properties studied include mechanical resistance, water vapor permeability (WVP), color, and thermal resistance. Antimicrobial activity against Listeria monocytogenes was determined using the overlay diffusion test. Addition of ASP resulted in improved mechanical properties. TEO at 6% (w/w) resulted in increased elongation. ASP films had significant higher WVP than control film. ASP films were lighter and had more red color than other films. Incorporation of ASP resulted in improved film thermal stability, whereas TEO caused rapid thermal decomposition. Presence of clusters was observed on the surface of films. Addition of ASP resulted in a smoother surface, whereas addition of TEO led to the formation of crater-like pits on the film surface. Açaí edible film incorporated with 6% (w/w) TEO presented the highest antimicrobial activity. However, both antimicrobials are necessary in the açaí films in order to obtain edible films with suitable physical-mechanical properties. The results of the present study showed that TEO and ASP can be used to prepare açaí edible films with adequate physical-mechanical properties and antimicrobial activity for food applications by direct contact. PRACTICAL APPLICATION: Developed açaí edible films presented antimicrobial activity against L. monocytogenes and good physical-mechanical properties, showing the potential use of açaí edible films in food preservation.
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Antibacterianos/farmacologia , Euterpe , Conservação de Alimentos/métodos , Listeria monocytogenes/efeitos dos fármacos , Óleos Voláteis/farmacologia , Extratos Vegetais/farmacologia , Polifenóis/farmacologia , Embalagem de Alimentos/métodos , Malus/química , Permeabilidade , Extratos Vegetais/química , Thymus (Planta)/químicaRESUMO
O objetivo do trabalho foi avaliar o efeito de diferentes concentrações de fécula de mandioca na vida útil pós-colheita de frutos 'Mexerica Poncã' durante o armazenamento em temperatura ambiente em substituição ao filme de policloreto de vinila (PVC). Os frutos foram imersos em suspensões aquosas de fécula de mandioca a 0; 1; 2 e 3% (m:v) acrescidas de 0,5mL L-1 de óleo mineral Assist (Bayer Cropscience, da empresa Hoechst Schering AgrEvo UK Ltd. - Inglaterra) ou recobertos com PVC de 14µm de espessura, e armazenados a temperatura ambiente. As amostragens foram realizadas no tempo zero (início do experimento) e a cada dois dias, por oito dias. Foram avaliadas a perda de massa fresca, rendimento de suco, sólidos solúveis (SS), acidez titulável (AT), relação SS/AT e teor de ácido ascórbico. A perda de massa fresca aumentou durante o armazenamento, sendo mais acentuada na dose de 2%. A redução no teor de ácido ascórbico foi maior nos frutos recobertos com filme de PVC. A concentração de fécula de mandioca a 1% foi a que proporcionou melhores resultados quanto à manutenção da qualidade físico-química de frutos de 'Mexerica Poncã' durante oito dias de armazenamento.
The objective of this study was to evaluate the effect of different concentrations of cassava starch in postharvest life of fruits 'Tangerine Poncã' during storage at room temperature instead the film of polyvinyl chloride (PVC). The fruits were immersed in aqueous suspensions of cassava starch at 0, 1, 2 and 3% (m/v) plus 0.5mL L-1 a mineral oil Assist (Bayer CropScience, company Hoechst Schering AgrEvo UK Ltd. - Inglaterra) and the film of polyvinyl chloride (PVC) of 14µm thick, and stored at room temperature. The samples were collected at time zero (day of the assembly of the experiment) and then every two days. We evaluated the weight loss, juice yield, soluble solids (SS), titratable acidity (TA), SS / TA and ascorbic acid. The weight loss increased during storage, being more pronounced at a dose of 2%. The reduction in ascorbic acid content was higher in fruits covered with PVC film. The concentration of cassava starch to 1% was the highest values for the maintenance of physical and chemical quality of fruits of 'Mexerica Poncã' during eight days of storage.
RESUMO
The objective of this study was to evaluate the effect of different concentrations of cassava starch in postharvest life of fruits 'Tangerine Poncã' during storage at room temperature instead the film of polyvinyl chloride (PVC). The fruits were immersed in aqueous suspensions of cassava starch at 0, 1, 2 and 3% (m/v) plus 0.5mL L-1 a mineral oil Assist (Bayer CropScience, company Hoechst Schering AgrEvo UK Ltd. - Inglaterra) and the film of polyvinyl chloride (PVC) of 14µm thick, and stored at room temperature. The samples were collected at time zero (day of the assembly of the experiment) and then every two days. We evaluated the weight loss, juice yield, soluble solids (SS), titratable acidity (TA), SS / TA and ascorbic acid. The weight loss increased during storage, being more pronounced at a dose of 2%. The reduction in ascorbic acid content was higher in fruits covered with PVC film. The concentration of cassava starch to 1% was the highest values for the maintenance of physical and chemical quality of fruits of 'Mexerica Poncã' during eight days of storage.
O objetivo do trabalho foi avaliar o efeito de diferentes concentrações de fécula de mandioca na vida útil pós-colheita de frutos 'Mexerica Poncã' durante o armazenamento em temperatura ambiente em substituição ao filme de policloreto de vinila (PVC). Os frutos foram imersos em suspensões aquosas de fécula de mandioca a 0; 1; 2 e 3% (m:v) acrescidas de 0,5mL L-1 de óleo mineral Assist (Bayer Cropscience, da empresa Hoechst Schering AgrEvo UK Ltd. - Inglaterra) ou recobertos com PVC de 14µm de espessura, e armazenados a temperatura ambiente. As amostragens foram realizadas no tempo zero (início do experimento) e a cada dois dias, por oito dias. Foram avaliadas a perda de massa fresca, rendimento de suco, sólidos solúveis (SS), acidez titulável (AT), relação SS/AT e teor de ácido ascórbico. A perda de massa fresca aumentou durante o armazenamento, sendo mais acentuada na dose de 2%. A redução no teor de ácido ascórbico foi maior nos frutos recobertos com filme de PVC. A concentração de fécula de mandioca a 1% foi a que proporcionou melhores resultados quanto à manutenção da qualidade físico-química de frutos de 'Mexerica Poncã' durante oito dias de armazenamento.
RESUMO
The objective of this study was to evaluate the effect of different concentrations of cassava starch in postharvest life of fruits 'Tangerine Poncã' during storage at room temperature instead the film of polyvinyl chloride (PVC). The fruits were immersed in aqueous suspensions of cassava starch at 0, 1, 2 and 3% (m/v) plus 0.5mL L-1 a mineral oil Assist (Bayer CropScience, company Hoechst Schering AgrEvo UK Ltd. - Inglaterra) and the film of polyvinyl chloride (PVC) of 14µm thick, and stored at room temperature. The samples were collected at time zero (day of the assembly of the experiment) and then every two days. We evaluated the weight loss, juice yield, soluble solids (SS), titratable acidity (TA), SS / TA and ascorbic acid. The weight loss increased during storage, being more pronounced at a dose of 2%. The reduction in ascorbic acid content was higher in fruits covered with PVC film. The concentration of cassava starch to 1% was the highest values for the maintenance of physical and chemical quality of fruits of 'Mexerica Poncã' during eight days of storage.
O objetivo do trabalho foi avaliar o efeito de diferentes concentrações de fécula de mandioca na vida útil pós-colheita de frutos 'Mexerica Poncã' durante o armazenamento em temperatura ambiente em substituição ao filme de policloreto de vinila (PVC). Os frutos foram imersos em suspensões aquosas de fécula de mandioca a 0; 1; 2 e 3% (m:v) acrescidas de 0,5mL L-1 de óleo mineral Assist (Bayer Cropscience, da empresa Hoechst Schering AgrEvo UK Ltd. - Inglaterra) ou recobertos com PVC de 14µm de espessura, e armazenados a temperatura ambiente. As amostragens foram realizadas no tempo zero (início do experimento) e a cada dois dias, por oito dias. Foram avaliadas a perda de massa fresca, rendimento de suco, sólidos solúveis (SS), acidez titulável (AT), relação SS/AT e teor de ácido ascórbico. A perda de massa fresca aumentou durante o armazenamento, sendo mais acentuada na dose de 2%. A redução no teor de ácido ascórbico foi maior nos frutos recobertos com filme de PVC. A concentração de fécula de mandioca a 1% foi a que proporcionou melhores resultados quanto à manutenção da qualidade físico-química de frutos de 'Mexerica Poncã' durante oito dias de armazenamento.
RESUMO
The objective of this study was to evaluate the effect of different concentrations of cassava starch in postharvest life of fruits 'Tangerine Poncã' during storage at room temperature instead the film of polyvinyl chloride (PVC). The fruits were immersed in aqueous suspensions of cassava starch at 0, 1, 2 and 3% (m/v) plus 0.5mL L-1 a mineral oil Assist (Bayer CropScience, company Hoechst Schering AgrEvo UK Ltd. - Inglaterra) and the film of polyvinyl chloride (PVC) of 14µm thick, and stored at room temperature. The samples were collected at time zero (day of the assembly of the experiment) and then every two days. We evaluated the weight loss, juice yield, soluble solids (SS), titratable acidity (TA), SS / TA and ascorbic acid. The weight loss increased during storage, being more pronounced at a dose of 2%. The reduction in ascorbic acid content was higher in fruits covered with PVC film. The concentration of cassava starch to 1% was the highest values for the maintenance of physical and chemical quality of fruits of 'Mexerica Poncã' during eight days of storage.
O objetivo do trabalho foi avaliar o efeito de diferentes concentrações de fécula de mandioca na vida útil pós-colheita de frutos 'Mexerica Poncã' durante o armazenamento em temperatura ambiente em substituição ao filme de policloreto de vinila (PVC). Os frutos foram imersos em suspensões aquosas de fécula de mandioca a 0; 1; 2 e 3% (m:v) acrescidas de 0,5mL L-1 de óleo mineral Assist (Bayer Cropscience, da empresa Hoechst Schering AgrEvo UK Ltd. - Inglaterra) ou recobertos com PVC de 14µm de espessura, e armazenados a temperatura ambiente. As amostragens foram realizadas no tempo zero (início do experimento) e a cada dois dias, por oito dias. Foram avaliadas a perda de massa fresca, rendimento de suco, sólidos solúveis (SS), acidez titulável (AT), relação SS/AT e teor de ácido ascórbico. A perda de massa fresca aumentou durante o armazenamento, sendo mais acentuada na dose de 2%. A redução no teor de ácido ascórbico foi maior nos frutos recobertos com filme de PVC. A concentração de fécula de mandioca a 1% foi a que proporcionou melhores resultados quanto à manutenção da qualidade físico-química de frutos de 'Mexerica Poncã' durante oito dias de armazenamento.
RESUMO
Filmes processados a partir de polímeros naturais não tóxicos têm se firmado como uma nova categoria de materiais de alto potencial, para aplicação como revestimentos protetores comestíveis sobre frutos e legumes, principalmente produtos minimamente processados. Esses revestimentos podem ser hidrofílicos ou hidrofóbicos e têm como principal finalidade reduzir a atividade respiratória, preservando por um período maior de tempo suas características fisiológicas. Neste trabalho apresentamos uma visão geral do processamento e atuação dessas coberturas. Como exemplo ilustrativo, filmes hidrofílicos e hidrofóbicos foram aplicados sobre maçãs fatiadas. O primeiro a partir de quitosana, um polissacarídeo hidrofílico de origem animal e o segundo, baseado em formulações a base de zeínas, proteínas hidrofóbicas de reserva do milho. Além de detalhes de preparação dos géis precursores, resultados com respeito à perda de massa e taxa de redução de fungos sobre superfícies são apresentadas.(AU)
Films processed from natural and non-toxic polymers have been considered a new category of materials for potential applications as protective coatings on fruits and vegetables, mainly for minimally processed products. Such coatings can be either hydrophilic or hydrophobic and the main aim is to reduce the fruit' s respiratory activity, therefore increasing its original physiological characteristics. These materials limit the respiration, have activity against browning, which are common on processed 'fruits, and also presentsome antimicrobial activity against bacteria and fungi, reducing microorganism proliferation over the cut surfaces. In this work an overview of the general film processing and features of these films arepresented. As illustrative example, hydrophilic and hydrophobic coatings are applied on cut apples. The first obtained from chitosan, a hydrophilic polysaccharide from animal origin; the second, a formulation based on zeins, storage proteins from maze. Gel details preparation and results concerning mass lost and fungi reduction on the surfaces is also presented. (AU)