Effect of biopolymer coatings made of zein nanoparticles and ε-polylysine as postharvest treatments on the shelf-life of avocados (Persea americana Mill. Cv. Hass)

Avocados (Persea americana) are a popular fruit produced and consumed all around the world. Due to their climacteric nature, they are predisposed to rapid loss of moisture and firmness after harvest and prior to sale. The prevalence of the fungal phytopathogen Colletotrichum spp. Exacerbates the rat...

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Published inJournal of agriculture and food research Vol. 7; p. 100260
Main Authors Garcia, Franciela, Lin, Wei-Jen, Mellano, Valerie, Davidov-Pardo, Gabriel
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2022
Elsevier
Subjects
Active packaging
agriculture
anthracnose
Antimicrobial
avocados
biopolymers
cell respiration
climacteric fruits
Colletotrichum
Colletotrichum spp
color
Edible coatings
firmness
food research
fungi
Nanotechnology
Persea americana
plant pathogens
pulp
shelf life
wastes
weight loss
zein
Antimicrobial
C
Edible coatings
Colletotrichum spp
ZPL
ZS
PL
Active packaging
ZNP
Nanotechnology
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Abstract Avocados (Persea americana) are a popular fruit produced and consumed all around the world. Due to their climacteric nature, they are predisposed to rapid loss of moisture and firmness after harvest and prior to sale. The prevalence of the fungal phytopathogen Colletotrichum spp. Exacerbates the rate of decay by causing anthracnose, resulting in relatively short shelf-lives, increased waste, and economic losses. The objective of this study was to assess the effect of coatings made of zein nanoparticles (ZNP), zein and ε-polylysine nanoparticles (ZPL), zein solution (ZS), and ε-polylysine solution (PL) on the weight loss, respiration rate, firmness, color, and fungal decay of avocados compared to a control (C). By day 15 in ambient storage, control avocados had scarred surfaces, significant color change, overripe pulp, and clear signs of fungal decay. At this time, avocados treated with ZPL lost the least weight, 20.14%, compared to the control, 28.05%. The lowest respiration rates were seen in ZPL treatment with values of 107.83 mg of CO2/kg/h. The flesh of the ZPL- and ZNP- treated fruit remained firmer, 5.01 and 4.07 N, respectively, compared to the control, 3.67 N. For pulp color, ZPL-treated fruit showed the smallest color difference as measured by total color change, ΔE, 3.67 compared to the control, 15.45. At the conclusion of a 15-day Colletotrichum spp. inoculation study, ZPL treated avocados had the significantly lowest fungal severity score of 3.33, while ZNP-treated fruit and the control had scores of 4 and 4.7, respectively. The results of this project support biopolymeric coatings as a novel technique with the potential to extend shelf-life and reduce avocado waste both at retail and household levels to possibly mitigate economic losses. [Display omitted] •Storage stability of avocados coated with zein (Z) and/or polylysine (PL) was tested.•Avocados coated with nanoparticles made of Z showed the least changes during storage.•PL in the nanoparticles reduced the severity of anthracnose in inoculated avocados.•Coatings made with the ZPL nanoparticles extended avocado shelf-life.
AbstractList Avocados (Persea americana) are a popular fruit produced and consumed all around the world. Due to their climacteric nature, they are predisposed to rapid loss of moisture and firmness after harvest and prior to sale. The prevalence of the fungal phytopathogen Colletotrichum spp. Exacerbates the rate of decay by causing anthracnose, resulting in relatively short shelf-lives, increased waste, and economic losses. The objective of this study was to assess the effect of coatings made of zein nanoparticles (ZNP), zein and ε-polylysine nanoparticles (ZPL), zein solution (ZS), and ε-polylysine solution (PL) on the weight loss, respiration rate, firmness, color, and fungal decay of avocados compared to a control (C). By day 15 in ambient storage, control avocados had scarred surfaces, significant color change, overripe pulp, and clear signs of fungal decay. At this time, avocados treated with ZPL lost the least weight, 20.14%, compared to the control, 28.05%. The lowest respiration rates were seen in ZPL treatment with values of 107.83 mg of CO2/kg/h. The flesh of the ZPL- and ZNP- treated fruit remained firmer, 5.01 and 4.07 N, respectively, compared to the control, 3.67 N. For pulp color, ZPL-treated fruit showed the smallest color difference as measured by total color change, ΔE, 3.67 compared to the control, 15.45. At the conclusion of a 15-day Colletotrichum spp. inoculation study, ZPL treated avocados had the significantly lowest fungal severity score of 3.33, while ZNP-treated fruit and the control had scores of 4 and 4.7, respectively. The results of this project support biopolymeric coatings as a novel technique with the potential to extend shelf-life and reduce avocado waste both at retail and household levels to possibly mitigate economic losses.
Avocados (Persea americana) are a popular fruit produced and consumed all around the world. Due to their climacteric nature, they are predisposed to rapid loss of moisture and firmness after harvest and prior to sale. The prevalence of the fungal phytopathogen Colletotrichum spp. Exacerbates the rate of decay by causing anthracnose, resulting in relatively short shelf-lives, increased waste, and economic losses. The objective of this study was to assess the effect of coatings made of zein nanoparticles (ZNP), zein and ε-polylysine nanoparticles (ZPL), zein solution (ZS), and ε-polylysine solution (PL) on the weight loss, respiration rate, firmness, color, and fungal decay of avocados compared to a control (C). By day 15 in ambient storage, control avocados had scarred surfaces, significant color change, overripe pulp, and clear signs of fungal decay. At this time, avocados treated with ZPL lost the least weight, 20.14%, compared to the control, 28.05%. The lowest respiration rates were seen in ZPL treatment with values of 107.83 mg of CO₂/kg/h. The flesh of the ZPL- and ZNP- treated fruit remained firmer, 5.01 and 4.07 N, respectively, compared to the control, 3.67 N. For pulp color, ZPL-treated fruit showed the smallest color difference as measured by total color change, ΔE, 3.67 compared to the control, 15.45. At the conclusion of a 15-day Colletotrichum spp. inoculation study, ZPL treated avocados had the significantly lowest fungal severity score of 3.33, while ZNP-treated fruit and the control had scores of 4 and 4.7, respectively. The results of this project support biopolymeric coatings as a novel technique with the potential to extend shelf-life and reduce avocado waste both at retail and household levels to possibly mitigate economic losses.
Avocados (Persea americana) are a popular fruit produced and consumed all around the world. Due to their climacteric nature, they are predisposed to rapid loss of moisture and firmness after harvest and prior to sale. The prevalence of the fungal phytopathogen Colletotrichum spp. Exacerbates the rate of decay by causing anthracnose, resulting in relatively short shelf-lives, increased waste, and economic losses. The objective of this study was to assess the effect of coatings made of zein nanoparticles (ZNP), zein and ε-polylysine nanoparticles (ZPL), zein solution (ZS), and ε-polylysine solution (PL) on the weight loss, respiration rate, firmness, color, and fungal decay of avocados compared to a control (C). By day 15 in ambient storage, control avocados had scarred surfaces, significant color change, overripe pulp, and clear signs of fungal decay. At this time, avocados treated with ZPL lost the least weight, 20.14%, compared to the control, 28.05%. The lowest respiration rates were seen in ZPL treatment with values of 107.83 mg of CO2/kg/h. The flesh of the ZPL- and ZNP- treated fruit remained firmer, 5.01 and 4.07 N, respectively, compared to the control, 3.67 N. For pulp color, ZPL-treated fruit showed the smallest color difference as measured by total color change, ΔE, 3.67 compared to the control, 15.45. At the conclusion of a 15-day Colletotrichum spp. inoculation study, ZPL treated avocados had the significantly lowest fungal severity score of 3.33, while ZNP-treated fruit and the control had scores of 4 and 4.7, respectively. The results of this project support biopolymeric coatings as a novel technique with the potential to extend shelf-life and reduce avocado waste both at retail and household levels to possibly mitigate economic losses. [Display omitted] •Storage stability of avocados coated with zein (Z) and/or polylysine (PL) was tested.•Avocados coated with nanoparticles made of Z showed the least changes during storage.•PL in the nanoparticles reduced the severity of anthracnose in inoculated avocados.•Coatings made with the ZPL nanoparticles extended avocado shelf-life.
ArticleNumber 100260
Author Davidov-Pardo, Gabriel
Mellano, Valerie
Lin, Wei-Jen
Garcia, Franciela
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Edible coatings
Colletotrichum spp
ZPL
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Active packaging
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Nanotechnology
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Snippet Avocados (Persea americana) are a popular fruit produced and consumed all around the world. Due to their climacteric nature, they are predisposed to rapid loss...
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SubjectTerms Active packaging
agriculture
anthracnose
Antimicrobial
avocados
biopolymers
cell respiration
climacteric fruits
Colletotrichum
Colletotrichum spp
color
Edible coatings
firmness
food research
fungi
Nanotechnology
Persea americana
plant pathogens
pulp
shelf life
wastes
weight loss
zein
Title Effect of biopolymer coatings made of zein nanoparticles and ε-polylysine as postharvest treatments on the shelf-life of avocados (Persea americana Mill. Cv. Hass)
URI https://dx.doi.org/10.1016/j.jafr.2021.100260
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