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Hauptverfasser: Oluwagbenga Adeogun, Mujeeb Lawal, Adedotun Adekunle, Olufunke Nejo, Omoteso Karfeel Oluwa
Format: Artículo Open Access
Veröffentlicht: Wiley 2025
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Online-Zugang:https://iadns.onlinelibrary.wiley.com/doi/10.1002/fpf2.70021
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author Oluwagbenga Adeogun
Mujeeb Lawal
Adedotun Adekunle
Olufunke Nejo
Omoteso Karfeel Oluwa
author_facet Oluwagbenga Adeogun
Mujeeb Lawal
Adedotun Adekunle
Olufunke Nejo
Omoteso Karfeel Oluwa
Oluwagbenga Adeogun
Mujeeb Lawal
Adedotun Adekunle
Olufunke Nejo
Omoteso Karfeel Oluwa
collection Wiley Open Access
contents Biocompatible Nanopolymer Coating Based on Chitosan Nanoprecipitation Containing Guava Oil to Control Fruit Rot, Enhance Defense‐Related Enzymes, and Quality of Chili Pepper Oluwagbenga Adeogun Mujeeb Lawal Adedotun Adekunle Olufunke Nejo Omoteso Karfeel Oluwa Future Postharvest and Food ABSTRACTThis study evaluates the efficacy of chitosan nanoprecipitation loaded with guava leaf essential oil as a sustainable alternative to synthetic preservatives for reducing postharvest deterioration in Capsicum frutescens (chili pepper). Essential oils extracted from Psidium guajava leaves via hydrodistillation were analyzed by GC‐MS, identifying β‐caryophyllene (22.44%) as the major constituent. Nanoparticles were synthesized via solvent displacement (NP with guava oil and NNP without oil) and nanoelaboration (NC with guava oil and NNC without oil), and characterized by DLS and TEM, confirming stable sizes and zeta potentials. Antifungal activity of NP and NC was tested against Colletotrichum gloeosporioides and Rhizopus stolonifer, both pathogenic to chili. Complete fungal inhibition occurred in vitro by Day 5, whereas in vivo application significantly reduced disease incidence and prolonged shelf life up to 28 days. Treated fruits showed reduced weight loss, better firmness, lower electrolyte leakage, enhanced antioxidant activity, higher phenolic content, and reduced enzymatic browning. Encapsulation and release studies demonstrated controlled diffusion of guava oil, enhancing antimicrobial efficacy. Elevated activities of β‐1,3‐glucanase, phenylalanine ammonia lyase, and polyphenol oxidase indicated improved resistance to oxidative stress and microbial attack. Toxicity assays using Artemia salina confirmed formulation safety. These findings highlight chitosan nanoencapsulated guava oil as a safe eco‐friendly biopreservative for chili peppers. 10.1002/fpf2.70021 http://creativecommons.org/licenses/by/4.0/
doi_str_mv 10.1002/fpf2.70021
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spellingShingle Biocompatible Nanopolymer Coating Based on Chitosan Nanoprecipitation Containing Guava Oil to Control Fruit Rot, Enhance Defense‐Related Enzymes, and Quality of Chili Pepper
Oluwagbenga Adeogun
Mujeeb Lawal
Adedotun Adekunle
Olufunke Nejo
Omoteso Karfeel Oluwa
Future Postharvest and Food
Biocompatible Nanopolymer Coating Based on Chitosan Nanoprecipitation Containing Guava Oil to Control Fruit Rot, Enhance Defense‐Related Enzymes, and Quality of Chili Pepper Oluwagbenga Adeogun Mujeeb Lawal Adedotun Adekunle Olufunke Nejo Omoteso Karfeel Oluwa Future Postharvest and Food ABSTRACTThis study evaluates the efficacy of chitosan nanoprecipitation loaded with guava leaf essential oil as a sustainable alternative to synthetic preservatives for reducing postharvest deterioration in Capsicum frutescens (chili pepper). Essential oils extracted from Psidium guajava leaves via hydrodistillation were analyzed by GC‐MS, identifying β‐caryophyllene (22.44%) as the major constituent. Nanoparticles were synthesized via solvent displacement (NP with guava oil and NNP without oil) and nanoelaboration (NC with guava oil and NNC without oil), and characterized by DLS and TEM, confirming stable sizes and zeta potentials. Antifungal activity of NP and NC was tested against Colletotrichum gloeosporioides and Rhizopus stolonifer, both pathogenic to chili. Complete fungal inhibition occurred in vitro by Day 5, whereas in vivo application significantly reduced disease incidence and prolonged shelf life up to 28 days. Treated fruits showed reduced weight loss, better firmness, lower electrolyte leakage, enhanced antioxidant activity, higher phenolic content, and reduced enzymatic browning. Encapsulation and release studies demonstrated controlled diffusion of guava oil, enhancing antimicrobial efficacy. Elevated activities of β‐1,3‐glucanase, phenylalanine ammonia lyase, and polyphenol oxidase indicated improved resistance to oxidative stress and microbial attack. Toxicity assays using Artemia salina confirmed formulation safety. These findings highlight chitosan nanoencapsulated guava oil as a safe eco‐friendly biopreservative for chili peppers. 10.1002/fpf2.70021 http://creativecommons.org/licenses/by/4.0/
title Biocompatible Nanopolymer Coating Based on Chitosan Nanoprecipitation Containing Guava Oil to Control Fruit Rot, Enhance Defense‐Related Enzymes, and Quality of Chili Pepper
topic Future Postharvest and Food
url https://iadns.onlinelibrary.wiley.com/doi/10.1002/fpf2.70021