Essential Oils as Biopreservatives: Different Methods for the Technological Application in Lettuce Leaves

:  Investigations were carried out to assess the efficiency of 3 essential oils, clove, tea tree, and rosemary, as natural preservatives during the postharvest of lettuce leaves. The effect of different concentration (1 and 0.5 MIC) of plant essential oils applied in 3 forms (spray, immersion, and c...

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Published in:Journal of food science 2011-01, Vol.76 (1), p.M34-M40
Main Authors: Ponce, Alejandra, Roura, Sara I., Moreira, María del R.
Format: Article
Language:English
Subjects:
Anti-Infective Agents - pharmacology
antimicrobials
application forms
Aroma and flavouring agent industries
Bacteria
Biological and medical sciences
clove
Clove Oil - pharmacology
Coffee, tea and other stimulative beverage industries
Colony Count, Microbial
Effects
Essential oils
Food Handling - methods
Food industries
Food Preservatives - pharmacology
Food science
Food Technology
Foods
Fundamental and applied biological sciences. Psychology
Fungi - drug effects
Fungi - isolation & purification
Gram-Negative Bacteria - drug effects
Gram-Negative Bacteria - isolation & purification
Gram-Positive Bacteria - drug effects
Gram-Positive Bacteria - isolation & purification
Humans
Lactuca - microbiology
Leaves
Lettuce
Lettuces
Melaleuca
Microbial Sensitivity Tests
Oils & fats
Oils, Volatile - pharmacology
Plant Leaves - microbiology
Preservatives
Refrigeration
Rosmarinus
Rosmarinus - chemistry
Sensation
sensory attributes
tea tree
Tea Tree Oil - pharmacology
Time Factors
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description :  Investigations were carried out to assess the efficiency of 3 essential oils, clove, tea tree, and rosemary, as natural preservatives during the postharvest of lettuce leaves. The effect of different concentration (1 and 0.5 MIC) of plant essential oils applied in 3 forms (spray, immersion, and capsules) was studied on lettuce leaves. The evolution of different microbial populations was evaluated during refrigerated storage. The application forms of the biopreservatives were shown to be an important factor in determining the effectiveness of the essential oils. Clove and tea tree essential oils at 1 MIC and applied embedded in lactose capsules presented a significant inhibition on mesophilic, psicrotrophic, and coliforms populations, while rosemary in none of the 3 technological applications forms exerted inhibitory effect on all microbial populations evaluated. Essential oils (at 0.5 MIC) applied by spray, immersion, and embedded in lactose capsules exerted lower inhibitory effects, with respect to 1 MIC, on the different microbial populations present on lettuce leaves. At the end of the storage (7 d), lettuce samples treated with tea tree, clove, and rosemary (at 1 and 0.5 MIC) by spray were the only organoleptically acceptable. It is concluded that clove and tea tree essential oils can control different microbial population present in lettuce. Practical Application:  The exploration of naturally occurring antimicrobials in food preservation receives increasing attention due to consumer awareness of natural food products. Biopreservatives are useful in extending the shelf life of foods, reducing or eliminating pathogenic bacteria and increasing overall quality of food products. The effectiveness of essential oil application in foods is the result of factor associations such as applications forms, concentration applied, the way of action, storage temperatures. The application methods (spray, immersion, and embedded in lactose capsules) and the concentration of essential oils have been shown to be important factors in determining the effectiveness of these biopreservatives. The oil concentrations required to produce a certain level of inhibition in actual foods could be questionable due to the organoleptic impact. However, these novel natural preservatives in combination with other factors in obstacle technologies are an alternative to control the pathogen growth minimizing undesirable changes in organoleptic characteristics.
doi_str_mv 10.1111/j.1750-3841.2010.01880.x
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The effect of different concentration (1 and 0.5 MIC) of plant essential oils applied in 3 forms (spray, immersion, and capsules) was studied on lettuce leaves. The evolution of different microbial populations was evaluated during refrigerated storage. The application forms of the biopreservatives were shown to be an important factor in determining the effectiveness of the essential oils. Clove and tea tree essential oils at 1 MIC and applied embedded in lactose capsules presented a significant inhibition on mesophilic, psicrotrophic, and coliforms populations, while rosemary in none of the 3 technological applications forms exerted inhibitory effect on all microbial populations evaluated. Essential oils (at 0.5 MIC) applied by spray, immersion, and embedded in lactose capsules exerted lower inhibitory effects, with respect to 1 MIC, on the different microbial populations present on lettuce leaves. At the end of the storage (7 d), lettuce samples treated with tea tree, clove, and rosemary (at 1 and 0.5 MIC) by spray were the only organoleptically acceptable. It is concluded that clove and tea tree essential oils can control different microbial population present in lettuce. Practical Application:  The exploration of naturally occurring antimicrobials in food preservation receives increasing attention due to consumer awareness of natural food products. Biopreservatives are useful in extending the shelf life of foods, reducing or eliminating pathogenic bacteria and increasing overall quality of food products. The effectiveness of essential oil application in foods is the result of factor associations such as applications forms, concentration applied, the way of action, storage temperatures. The application methods (spray, immersion, and embedded in lactose capsules) and the concentration of essential oils have been shown to be important factors in determining the effectiveness of these biopreservatives. The oil concentrations required to produce a certain level of inhibition in actual foods could be questionable due to the organoleptic impact. However, these novel natural preservatives in combination with other factors in obstacle technologies are an alternative to control the pathogen growth minimizing undesirable changes in organoleptic characteristics.</description><identifier>ISSN: 0022-1147</identifier><identifier>EISSN: 1750-3841</identifier><identifier>DOI: 10.1111/j.1750-3841.2010.01880.x</identifier><identifier>PMID: 21535691</identifier><identifier>CODEN: JFDSAZ</identifier><language>eng</language><publisher>Malden, USA: Blackwell Publishing Inc</publisher><subject>Anti-Infective Agents - pharmacology ; antimicrobials ; application forms ; Aroma and flavouring agent industries ; Bacteria ; Biological and medical sciences ; clove ; Clove Oil - pharmacology ; Coffee, tea and other stimulative beverage industries ; Colony Count, Microbial ; Effects ; Essential oils ; Food Handling - methods ; Food industries ; Food Preservatives - pharmacology ; Food science ; Food Technology ; Foods ; Fundamental and applied biological sciences. Psychology ; Fungi - drug effects ; Fungi - isolation &amp; purification ; Gram-Negative Bacteria - drug effects ; Gram-Negative Bacteria - isolation &amp; purification ; Gram-Positive Bacteria - drug effects ; Gram-Positive Bacteria - isolation &amp; purification ; Humans ; Lactuca - microbiology ; Leaves ; Lettuce ; Lettuces ; Melaleuca ; Microbial Sensitivity Tests ; Oils &amp; fats ; Oils, Volatile - pharmacology ; Plant Leaves - microbiology ; Preservatives ; Refrigeration ; Rosmarinus ; Rosmarinus - chemistry ; Sensation ; sensory attributes ; tea tree ; Tea Tree Oil - pharmacology ; Time Factors</subject><ispartof>Journal of food science, 2011-01, Vol.76 (1), p.M34-M40</ispartof><rights>Journal compilation © 2010 Institute of Food Technologists 
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The effect of different concentration (1 and 0.5 MIC) of plant essential oils applied in 3 forms (spray, immersion, and capsules) was studied on lettuce leaves. The evolution of different microbial populations was evaluated during refrigerated storage. The application forms of the biopreservatives were shown to be an important factor in determining the effectiveness of the essential oils. Clove and tea tree essential oils at 1 MIC and applied embedded in lactose capsules presented a significant inhibition on mesophilic, psicrotrophic, and coliforms populations, while rosemary in none of the 3 technological applications forms exerted inhibitory effect on all microbial populations evaluated. Essential oils (at 0.5 MIC) applied by spray, immersion, and embedded in lactose capsules exerted lower inhibitory effects, with respect to 1 MIC, on the different microbial populations present on lettuce leaves. At the end of the storage (7 d), lettuce samples treated with tea tree, clove, and rosemary (at 1 and 0.5 MIC) by spray were the only organoleptically acceptable. It is concluded that clove and tea tree essential oils can control different microbial population present in lettuce. Practical Application:  The exploration of naturally occurring antimicrobials in food preservation receives increasing attention due to consumer awareness of natural food products. Biopreservatives are useful in extending the shelf life of foods, reducing or eliminating pathogenic bacteria and increasing overall quality of food products. The effectiveness of essential oil application in foods is the result of factor associations such as applications forms, concentration applied, the way of action, storage temperatures. 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At the end of the storage (7 d), lettuce samples treated with tea tree, clove, and rosemary (at 1 and 0.5 MIC) by spray were the only organoleptically acceptable. It is concluded that clove and tea tree essential oils can control different microbial population present in lettuce. Practical Application:  The exploration of naturally occurring antimicrobials in food preservation receives increasing attention due to consumer awareness of natural food products. Biopreservatives are useful in extending the shelf life of foods, reducing or eliminating pathogenic bacteria and increasing overall quality of food products. The effectiveness of essential oil application in foods is the result of factor associations such as applications forms, concentration applied, the way of action, storage temperatures. The application methods (spray, immersion, and embedded in lactose capsules) and the concentration of essential oils have been shown to be important factors in determining the effectiveness of these biopreservatives. The oil concentrations required to produce a certain level of inhibition in actual foods could be questionable due to the organoleptic impact. However, these novel natural preservatives in combination with other factors in obstacle technologies are an alternative to control the pathogen growth minimizing undesirable changes in organoleptic characteristics.</abstract><cop>Malden, USA</cop><pub>Blackwell Publishing Inc</pub><pmid>21535691</pmid><doi>10.1111/j.1750-3841.2010.01880.x</doi><tpages>7</tpages></addata></record>
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subjects Anti-Infective Agents - pharmacology
antimicrobials
application forms
Aroma and flavouring agent industries
Bacteria
Biological and medical sciences
clove
Clove Oil - pharmacology
Coffee, tea and other stimulative beverage industries
Colony Count, Microbial
Effects
Essential oils
Food Handling - methods
Food industries
Food Preservatives - pharmacology
Food science
Food Technology
Foods
Fundamental and applied biological sciences. Psychology
Fungi - drug effects
Fungi - isolation & purification
Gram-Negative Bacteria - drug effects
Gram-Negative Bacteria - isolation & purification
Gram-Positive Bacteria - drug effects
Gram-Positive Bacteria - isolation & purification
Humans
Lactuca - microbiology
Leaves
Lettuce
Lettuces
Melaleuca
Microbial Sensitivity Tests
Oils & fats
Oils, Volatile - pharmacology
Plant Leaves - microbiology
Preservatives
Refrigeration
Rosmarinus
Rosmarinus - chemistry
Sensation
sensory attributes
tea tree
Tea Tree Oil - pharmacology
Time Factors
title Essential Oils as Biopreservatives: Different Methods for the Technological Application in Lettuce Leaves
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