Enzymatic Activity in Essential Oil-Treated and Pathogen-Inoculated Corn Plants

Veloso, Ronice Alves; Ferreira, Talita Pereira de Souza; Debona, Daniel; Aguiar, Raimundo Wagner de Souza; Cangussu, Alex Sander Rodrigues; Júnior, Aloísio Freitas Chagas; Santos, Gil Rodrigues dos

doi:10.5539/jas.v10n10p171

Cited by 2 publications

(2 citation statements)

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“…The preservative effect of CS + RGEO coating might be due to a free-radical scavenging ability of the essential oil [ 35 ]. Additionally, some authors reported an increased stimulated activity of defense enzymes like superoxide dismutase (SOD), catalase (CAT), and peroxide dismutase (POD) in plants by the application of essentials oils [ 75 ]. This could account for the lower decay index of the fruits, which is regulated by the concentration of reactive oxygen species (ROS) [ 76 ].…”

Section: Discussionmentioning

confidence: 99%

Reduction of Postharvest Quality Loss and Microbiological Decay of Tomato “Chonto” (Solanum lycopersicum L.) Using Chitosan-E Essential Oil-Based Edible Coatings under Low-Temperature Storage

et al. 2020

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The tomato (Solanum lycopersicum L.) is one of the many essential vegetables around the world due to its nutritive content and attractive flavor. However, its short shelf-life and postharvest losses affect its marketing. In this study, the effects of chitosan-Ruta graveolens (CS + RGEO) essential oil coatings on the postharvest quality of Tomato var. “chonto” stored at low temperature (4 °C) for 12 days are reported. The film-forming dispersions (FFD) were eco-friendly synthesized and presented low viscosities (between 0.126 and 0.029 Pa s), small particle sizes (between 1.29 and 1.56 μm), and low densities. The mature index (12.65% for uncoated fruits and 10.21% for F4 coated tomatoes), weight loss (29.8% for F1 and 16.7% for F5 coated tomatoes), and decay index (3.0 for uncoated and 1.0 for F5 coated tomatoes) were significantly different, indicating a preservative effect on the quality of the tomato. Moreover, aerobic mesophilic bacteria were significantly reduced (in five Log CFU/g compared to control) by using 15 μL/mL of RGEO. The coatings, including 10 and 15 μL/mL of RGEO, completely inhibited the mold and yeast growth on tomato surfaces without negatively affecting the consumer acceptation, as the sensorial analysis demonstrated. The results presented in this study show that CS + RGEO coatings are promising in the postharvest treatment of tomato var. “chonto”.

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Section: Discussionmentioning

confidence: 99%

Reduction of Postharvest Quality Loss and Microbiological Decay of Tomato “Chonto” (Solanum lycopersicum L.) Using Chitosan-E Essential Oil-Based Edible Coatings under Low-Temperature Storage

et al. 2020

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“…Octanoic acid is the major component of noni (Morinda citrifolia) essential oil, which was demonstrated to inhibit different plant pathogenic fungi, including Aspergillus niger, Aspergillus fumigatus, Bipolaris maydis, Colletotrichum gloeosporiodies, Curvularia spp., Exserohilum turcicum, Helminthosporium spp., Olivea neotectonae, Rhizopus oryzae and Sclerotium spp. (Sahoo et al, 2012;Silva et al, 2017;Osorio et al, 2018;Veloso et al, 2018Veloso et al, , 2020Dias et al, 2020). The chemical analysis of the essential oil of the plants that was used in the present study (EOB) showed high proportion of sesquiterpenes in the volatiles samples, such as δ-elemene, germacrene D, bicyclogermacrene, bicyclogermacrene, germacrene D and β-caryophyllene (Ascari et al, 2019;Brandenburg et al, 2020), whereas spathulenol and trans-nerolidol, both oxygenated sesquiterpenes, were the major compounds found in other study (Cazella et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

Essential Oil of Baccharis dracunculifolia (Asteraceae) Decreases Alternaria Rot in Pitahaya

Debona¹,

Pivotto²,

Tetzlaff³

et al. 2021

JAS

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Alternaria rot, caused by Alternaria alternata, is one of the most destructive diseases of pitahaya (Hylocereus spp.). We investigated the effect of the essential oil of Baccharis dracunculifolia (Asteraceae) (EOB) in the control of A. alternata. Two studies were performed in Petri dishes containing potato dextrose agar medium amended with concentrations of the EOB ranging from 5 to 1,000 µg mL-1 (first study) and from 30 to 2,000 µg mL-1. The diameter of the fungal colony was recorded daily. These data were used to calculate the the area under the mycelial growth progress curve (AUMGPC) and mycelial growth index (MGI). In the third study, the control of Alternaria rot in pitahaya fruits by EOB was investigated by adding the EOB into an edible coat based on cassava starch and sorbitol which was prepared in Tween 20. Three treatments, containing EOB at 500, 1,000 or 2,000 µg mL-1, were assessed. Two additional treatments, one containing water and another containing only the edible coating served as controls. Pitahaya fruits were immersed in those solutions for 10 min, allowed to dry and inoculated with A. alternata 48 h later. The EOB was found to inhibit the mycelial growth and a negative and quadratic model best described the relationship of the EOB concentrations with MGI and AUMGPC. Results from the experiment performed with pitahaya fruits showed that Alternaria rot was decreased with increasing EOB concentrations. Therefore, EOB is a promising and ecofriendly method that may be included in the management of Alternaria rot in pitahya.

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Enzymatic Activity in Essential Oil-Treated and Pathogen-Inoculated Corn Plants

Cited by 2 publications

References 24 publications

Reduction of Postharvest Quality Loss and Microbiological Decay of Tomato “Chonto” (Solanum lycopersicum L.) Using Chitosan-E Essential Oil-Based Edible Coatings under Low-Temperature Storage

Reduction of Postharvest Quality Loss and Microbiological Decay of Tomato “Chonto” (Solanum lycopersicum L.) Using Chitosan-E Essential Oil-Based Edible Coatings under Low-Temperature Storage

Essential Oil of Baccharis dracunculifolia (Asteraceae) Decreases Alternaria Rot in Pitahaya

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