postharvest preservation

Physiological effects of MAP and calcium chloride treatments on biochemical metabolites and quality stability by reducing respiration rate in sweet cherry fruit during storage

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This study examined how treating freshly harvested sweet cherries with calcium chloride and special packaging can keep them fresher longer. Researchers found that combining both treatments was most effective at preventing the fruit from losing weight, developing rot, and breaking down important nutrients. The combined treatment reduced respiration by 77% and better preserved vitamins and beneficial compounds that give cherries their health benefits.

Antifungal Effect of Chitosan/Nano-TiO2 Composite Coatings against Colletotrichum gloeosporioides, Cladosporium oxysporum and Penicillium steckii

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This research demonstrates that a coating made from chitosan combined with tiny titanium dioxide particles effectively kills three types of mold that spoil mangoes after harvest. The composite coating works by breaking down the mold’s cell membranes and causing them to leak their contents, leading to cell death. This combination is more effective than chitosan alone, with some mold species being completely eliminated at optimal concentrations.

Inhibitory Effects and Mechanisms of Perilla Essential Oil and Perillaldehyde against Chestnut Pathogen Botryosphaeria dothidea

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Chestnuts often rot during storage due to fungal infection. This study found that oil extracted from perilla leaves, particularly a compound called perillaldehyde, effectively prevents the fungus Botryosphaeria dothidea from growing. The antifungal compounds work by breaking down the protective layers of the fungal cells, causing them to leak and die. When applied to stored chestnuts, this natural oil significantly extends their shelf life without harming human health.

Caseinate–Carboxymethyl Chitosan Composite Edible Coating with Soybean Oil for Extending the Shelf Life of Blueberry Fruit

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This study developed a special edible coating made from natural proteins and carbohydrate polymers with soybean oil to keep blueberries fresh longer. When blueberries were dipped in this coating and refrigerated, they lost less water, stayed firmer, and developed less mold compared to uncoated berries. The coating worked like an invisible protective layer that helped blueberries maintain their quality for up to 28 days, potentially reducing food waste and spoilage.

LC/MS- and GC/MS-based metabolomic profiling to determine changes in flavor quality and bioactive components of Phlebopus portentosus under low-temperature storage

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This research examines what happens to black bolete mushrooms when stored in the refrigerator. Scientists used advanced chemical analysis to track how the mushroom’s flavor and nutritional compounds change over a two-week period. They discovered that an earthy smell compound called geosmin builds up during storage, which affects how the mushroom tastes. The findings suggest that cold storage alone is not ideal, and better preservation methods need to be developed.

Packaging of Fresh Sliced Mushrooms with Essential Oils Vapours: A New Technology for Maintaining Quality and Extending Shelf Life

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Researchers developed a new packaging method for sliced mushrooms that uses essential oil vapors combined with modified atmosphere packaging to keep them fresh longer. The treatment with essential oils from eugenol, bergamot, and grapefruit prevented browning and slowed bacterial growth, allowing packaged mushrooms to stay fresh and appealing for about 12 days at refrigeration temperature. This is significantly longer than untreated mushrooms which became unacceptable after just 5 days. The method works naturally without synthetic chemicals and could help reduce food waste from mushroom spoilage.

Improvement of antioxidant capacity, aroma quality, and antifungal ability of cherry by phenyllactic acid treatment during low temperature storage

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Researchers found that treating sweet cherries with phenyllactic acid (PLA), a natural organic acid, can significantly extend their shelf life while keeping them fresh and flavorful. A treatment with 8 mmol·L⁻¹ PLA concentration worked best, reducing decay, maintaining firmness and sweetness, and improving the fruit’s natural antioxidant properties during cold storage. This natural preservative approach offers a safe alternative to chemical fungicides while preserving the delicious taste and nutritional quality that consumers value in cherries.

Research Topic: postharvest preservation

Physiological effects of MAP and calcium chloride treatments on biochemical metabolites and quality stability by reducing respiration rate in sweet cherry fruit during storage

Antifungal Effect of Chitosan/Nano-TiO2 Composite Coatings against Colletotrichum gloeosporioides, Cladosporium oxysporum and Penicillium steckii

Inhibitory Effects and Mechanisms of Perilla Essential Oil and Perillaldehyde against Chestnut Pathogen Botryosphaeria dothidea

Caseinate–Carboxymethyl Chitosan Composite Edible Coating with Soybean Oil for Extending the Shelf Life of Blueberry Fruit

LC/MS- and GC/MS-based metabolomic profiling to determine changes in flavor quality and bioactive components of Phlebopus portentosus under low-temperature storage

Packaging of Fresh Sliced Mushrooms with Essential Oils Vapours: A New Technology for Maintaining Quality and Extending Shelf Life

Improvement of antioxidant capacity, aroma quality, and antifungal ability of cherry by phenyllactic acid treatment during low temperature storage