Your search keyword '"Bay leaf"' showing total 4 results

1. Feasibility of bay leaf (Syzygium polyanthum (Wight) Walp.) as a natural preservative for meatball

Author

Ibdal Satar and Novita Hidayati

Subjects

Vegetable extract, Bay leaf, meatballs, shelf life, food preservative, natural preservative, ASLT, Nutrition. Foods and food supply, TX341-641

Abstract

Abstract Meatball is a processed food product that can be produced from the basic ingredients of beef, chicken, or fish. High nutrient contents cause the meatball to be easily contaminated by bacteria, consequently decreasing their quality or shelf life. For this, it requires a preservative material to prevent the quality degradation of meatballs. Bay leaf extract (BLE) is one of the natural preservatives that can be used for coating material to inhibit bacterial growth on meatballs as it contains bioactive compounds. This work aims to evaluate the feasibility of BLE as a natural preservative for meatballs. Here, the TPC-based bacterial growth and shelf life are two important parameters to identify BLE's feasibility. This work was designed by using a completely randomized design (CRD) with 1 factor of BLE composition using various formulations of 0% (F0), 1%(F1), 1.5%(F2), and 2%(F3), respectively. The bacterial growth in the meatballs was evaluated based on the total plate count (TPC) values at different temperatures of 27 °C, 10 °C, and 5 °C for 1, 7, 14, 21, and 28 days of storage time. Meanwhile, the shelf life was estimated by using accelerated shelf-life testing (ASLT) based on the TPC values. The collected data were analyzed using Microsoft Excel software, one-way Analysis of Variance (ANOVA), and Duncan’s test with SPSS 25.0. The BLE with a concentration of 2% showed good feasibility in preventing bacterial growth and improving the shelf life of meatballs, twice longer than that of without BLE.

Published

2024

2. Conventional method and microwave drying kinetics of Laurus nobilis leaves: effects on phenolic compounds and antioxidant activity

Author

Yazid Khaled Khodja, Farid Dahmoune, Mostapha Bachir bey, Khodir Madani, and Bachra Khettal

Subjects

Bay leaf, Open-air drying, Oven drying, Microwave drying, Phenolic compounds, Antioxidant capacity, Nutrition. Foods and food supply, TX341-641

Abstract

Abstract Laurus nobilis constitutes one of the usually studied Mediterranean trees due to its therapeutic effects, nutritional properties, and ornamental use. In the current investigation, a comparative study was conducted between two types of drying methods, a microwave-assisted drying (MWD) (from 180 to 900 W) and a conventional method (open-air and oven-drying using temperatures from 40 °C to 120 °C). Drying kinetics were carried out as a function of moisture content according to time. Total Phenolic Content (TPC) as well as reducing power of obtained products were determined. Kinetic results showed that the time required for dried bay leaves became shorter as temperature and microwave power increased; drying with the microwave was much more efficient than conventional methods (open-air and oven-drying). Antioxidants of the Laurus nobilis leaves were better conserved using open-air and microwave drying. Our results underlined a significant correlation between TPC and reducing power. Microwave drying using 300 W during 130 s was the most efficient combination that provided dried bay leaves with the highest content of phenolic compounds and antioxidant activity.

Published

2020

3. Evaluación del potencial antifúngico de los aceites esenciales comerciales de Canela (Cinnamomum verum J.Presl) y Laurel (Laurus nobilis L.) en el control de Botrytis fuckeliana (de Bary) Whetzel, Epicoccum nigrum Link, Curvularia hawaiiensis Manamgoda, L. Cai, K.D Hyde and Aspergillus niger van Tieghem

Author

Liberal Amezqueta, David

Subjects

BIOLOGIA VEGETAL, canela, laurel, antifungal activity, essential oil, aceite esencial, BOTANICA, Grado en Ingeniería Agroalimentaria y del Medio Rural-Grau en Enginyeria Agroalimentària i del Medi Rural, actividad antifúngica, bay leaf, cinnamon

Abstract

[ES] Los problemas causados por las enfermedades fúngicas provocan la disminución en cantidad y calidad de las cosechas y por tanto de los alimentos. Solo los hongos fitopatógenos provocan una pérdida de cerca del 20% de los principales alimentos y cultivos de mayor importancia económica. Debido a la prohibición de numerosas sustancias, así como al aumento en la resistencia a antifungicos, tratar estos problemas requiere de nuevas alternativas. Las sustancias químicas producidas por diversas plantas aromáticas, como mecanismo de autoprotección, son fuentes potenciales que cumplen la misma función que los fungicidas, con la ventaja de que son respetuosos con el medio ambiente y que presentan baja toxicidad. En el presente trabajo se estudia la capacidad antifúngica “in vitro” de los aceites esenciales de Laurel (Laurus nobilis) y de Canela (Cinnamomum verum) frente a Botrytis fuckeliana y los hongos Epicoccum nigrum, Curvularia hawaiiensis y Aspergillus niger. Y el efecto del aceite de canela en la conservación de la uva de mesa, frente a Botryotinia fuckeliana. Se ha estudiado la respuesta de los hongos, frente a ambos aceites esenciales. Primero, se realizaron distintos bioensayos a concentraciones de 300 μg/mL con los aceites esenciales comerciales de laurel y canela, en medio de cultivo PDA. Se midió y comparó con el testigo, el crecimiento radial diario (mm) hasta el día 14 y se calculó la velocidad de crecimiento. La adición de aceite de laurel al medio de cultivo, llego a inhibir el crecimiento de los hongos alrededor del 15%. Mientras que con la adición de canela se llegó a inhibir porcentajes entre el 70-80% en las especies Epicoccum y Curvularia, además de modificar la forma de crecimiento, el color, la esporulación y la textura de las colonias. Viendo los resultados satisfactorios obtenidos con el aceite esencial de canela a 300 μg/mL, se calculó la inhibición del crecimiento micelar (MGI) a 100, 200 y 300 μg/mL, con la intención de comprobar si se obtenían resultados similares a menor dosis. Con estos ensayos se pudo observar que a 200 μg/mL sí que se obtenía un resultado similar, provocando prácticamente el mismo efecto inhibitorio que a 300 μg/mL. Sin embargo, a una concentración de 100 μg/mL, la canela redujo drásticamente su potencial inhibitorio, perdiendo efectividad. El aceite de canela demostró la efectividad en la conservación de la uva de mesa frente a Botryotinia fuckeliana. Redujo notablemente el porcentaje de uvas desprendidas y manchadas, y mejoro la turgencia y el aspecto visual de las uvas. Como conclusión decir que, viendo el potencial inhibitorio del aceite esencial de canela, tratar cultivos y alimentos almacenados con este aceite esencial, podría ser una buena alternativa que sustituya el uso de productos químicos de síntesis. Siendo más respetuoso con el medio ambiente, más seguros para el consumidor y aumentando la vida post cosecha de los alimentos., [EN] The problems brought by fungal diseases in agriculture decrease the quantity and quality of the crop and so the food products. Close to 20% of the main crops and products of higher economic importance is lost only due to phytopathogenic fungi. After the prohibition of numerous substances and increasing the resistance to antifungal agents treating these problems requires new alternatives Some aromatic plants produce chemicals as a mechanism of self-protection; these chemicals are potential sources that serve the same function as fungicides, with the advantage that they are environmentally friendly and have low toxicity. In this work we study the antifungal activity "in vitro" of essential oils Laurel (Laurus nobilis) and Cinnamon (Cinnamomum verum) against Botrytis fuckeliana and Epicoccum nigrum, Curvularia hawaiiensis and Aspergillus niger. And the effect of cinnamon oil on the conservation of table grapes versus Botryotinia fuckeliana. We have studied the response of fungi, against both essential oils. First, were performed different bioassays with a concentration of 300 μg/mL with commercial essential oils of laurel and cinnamon on PDA growth media. It was measured and compared with the control, the daily radial growth (mm) until day 14, and the growth rate was calculated. Adding laurel oil into the growth media the inhibition growth were about 15%. While the addition of cinnamon reached inhibit percentages between 70-80% in Epicoccum and Curvularia species, it also modified the growth form, color, sporulation and texture of the colonies. Observing the possitive results obtained with the essential oil of cinnamon with 300 μg/mL, it was calculated the mycelial growth inhibition (MGI) with 100, 200 and 300 μg/mL, with the intention of checking similar results at lower doses . With these tests it was observed that with 200 μg/mL we obtained similar results, practically the same inhibitory effect than with 300 μg/mL. However, at a concentration of 100 μg/mL, cinnamon drastically reduced their inhibitory potential, losing effectivity. The cinnamon oil demonstrated the effectiveness in the conservation of the table grape against Botryotinia fuckeliana. It reduced the percentage of grapes separated and stained, and improved the turgor and visual appearance of the grapes. In conclusion, seeing the inhibitory potential of the essential oil of cinnamon, treating crops and stored food with this essential oil, could be a good alternative to replace the use of agrochemicals. Being more environmentally friendly, safer for the consumer and increasing food products self-life after harvesting.

Published

2017

4. Potencial de los aceites comerciales de Canela (Cinnamomum zeylanicum) y Laurel (Laurus nobilis) en el control de Fusarium oxysporum

Author

Gigante Esteve, Ana María

Subjects

BIOLOGIA VEGETAL, Essential oils, Actividad antifúngica, Canela, Aceites esenciales, Cinnamon, Bay leaf, BOTANICA, Laurel, Grado en Ingeniería Agroalimentaria y del Medio Rural-Grau en Enginyeria Agroalimentària i del Medi Rural, Antifungal activity, Fusarium oxysporum

Abstract

[EN] The main objective of this work is to study the antifungal activity of essential oils of Cinnamon (Cinnamomum zeylanicum) and Bay leaf (Laurus nobilis) against Fusarium oxysporum, isolated from tomato. The bioassays were conducted over dose of 300 μg/mL from the essential oil in the PDA culture medium. It was calculated the speed of growth of the fungi (mm/day), the daily average radial growth (mm), and the micelial growth inhibition (MGI). The speed of growth of the fungi was 5,75 mm/day in PDA, 5,22 mm/day in bay leaf and 2,44 mm/day in cinnamon. The cinnamon oil reduced by around 60% the speed of growth of the fungi, similar result to the one of the MGI. The addition of cinnamon essential oil, could be an alternative of practical application, both in the field as stored, for the control of Fusarium oxysporum., [ES] En este trabajo se estudia la capacidad antifúngica de los aceites comerciales de Canela (Cinnamomum zeylanicum) y de Laurel (Laurus nobilis) frente a Fusarium oxysporum aislado de tomate. Los bioensayos se realizaron a la dosis de 300 μg/mL del aceite esencial en el medio de cultivo PDA. Se calculó la velocidad de crecimiento del hongo (mm/día), el crecimiento medio radial diario (mm) y la inhibición del crecimiento miceliar (MGI). Fusarium oxysporum en el aceite esencial de laurel mostró un crecimiento similar al crecido en PDA, mientras que en el aceite de canela disminuyó significativamente el crecimiento del mismo. La velocidad de crecimiento del hongo fue de 5,75 mm/día en PDA, 5,22 mm/día en Laurel y de 2,44 mm/día en canela. El aceite de canela redujo el 60% la velocidad de crecimiento del hongo, resultado similar al del MGI. La adición del aceite de canela podría ser una alternativa para el control de Fusarium oxysporum, tanto en campo como en el almacén.

Published

2015