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Enhanced microstructural and metabolic transformations of Gardenia jasminoides ellis via high-humidity hot air impingement blanching: Implications for improved drying rate and product quality

Lingjian Yang, Ziping Ai, Zhifeng Xiao, Tao Li, Muhua Liu, Lingqu Zhou, Junli Zhan, Samir Mowafy

2025Industrial Crops and Products5 citationsDOIOpen Access PDF

Abstract

As a plant with both medicinal and edible properties, Gardenia jasminoides Ellis ( GJE ) holds significant commercial value in the health supplement market. However, the "dual barriers" formed by waxy layers and internal protective membranes lead to a low drying rate, presenting critical challenges for postharvest processing of GJE . To address this, this study employed a novel pretreatment technology, high-humidity hot air impingement blanching (HHAIB), for GJE . The mechanism of how HHAIB affects the drying characteristics and physicochemical quality was investigated from multiple perspectives. Results demonstrated that HHAIB-treated samples exhibited softened texture and porous microstructures compared to unblanched and hot water-blanched samples. This structural reorganization altered water distribution patterns and hydrogen bonding interactions, facilitating conversion between immobilized and free water, thereby reducing drying time by 16.58 % ( p < 0.05). Concurrently, HHAIB for 90 s significantly increased geniposide, crocin I, and chlorogenic acid content by 18.17 %, 20.55 %, and 280 %, respectively ( p < 0.05), exhibiting a redder and brighter color, which is more likely to gain consumer preference. UPLC-MS/MS coupled with metabolomics revealed significant metabolic profile differences between HHAIB-treated and unblanched samples ( p < 0.05), with differential metabolite counts increasing with prolonged blanching. Crucially, significant enrichment in phenylpropanoid biosynthesis ( p < 0.0003) was observed at 90 s—a critical route for synthesizing chlorogenic acid and other bioactive compounds. Overall, HHAIB remodulates microstructure, enhances bioactive retention, and accelerates drying, offering an eco-friendly, high-quality processing method for GJE . • HHAIB reduced the drying time by 16.58 % than unblanched GJE . • HHAIB exhibited better bioactive compounds and color retention than HWB. • HHAIB improved drying rate by altering the microstructure and moisture state. • HHAIB enhanced chemical quality by activating metabolic pathway synthesis. • HHAIB-90 s was optimum according to efficiency and quality of GJE .

Topics & Concepts

Gardenia jasminoidesChemistryChlorogenic acidFood scienceBlanchingGenipinPostharvestMetaboliteAgaveChromatographyTartaric acidMetabolomicsHealth benefitsOriganumGinsenosideEvaporationVitamin CDehydrationGlucanMaltodextrinWater activityPhenylpropanoidSaffron Plant Research StudiesMicroencapsulation and Drying ProcessesFood Drying and Modeling
Enhanced microstructural and metabolic transformations of Gardenia jasminoides ellis via high-humidity hot air impingement blanching: Implications for improved drying rate and product quality | Litcius