Effects of Microbial Action and Moist-Heat Action on the Nonvolatile Components of Pu-Erh Tea, as Revealed by Metabolomics

Abstract: Microbial action and moist-heat action are crucial factors that influence the piling fermentation (PF) of Pu-erh tea. However, their effects on the quality of Pu-erh tea remain unclear. In this study, the effects of spontaneous PF (SPPF) and sterile PF (STPF) on the chemical profile of Pu-erh tea were investigated for the first time, and sun-dried green tea was used as a raw material to determine the factors contributing to the unique quality of Pu-erh tea. The results indicated that the SPPF-processed samples… Show more

“…To summarize, the fermentation of A. luchuensis led to an increase in the levels of soluble sugar, total lignin, total hemicellulose, and monosaccharide, whereas it reduced the amounts of polysaccharide and cell wall cellulose. Previous studies have also reported an increase in the levels of arabinose (Gong et al, 2010), glucose (Wang et al, 2022), mannitol (Zhang et al, 2023), xylitol, sorbitol (Shao et al, 2022), and dulcitol (Li et al, 2022), which is consistent with the findings presented here.…”

The carbohydrate metabolism and expression of carbohydrate-active enzyme genes in Aspergillus luchuensis fermentation of tea leaves

“…To summarize, the fermentation of A. luchuensis led to an increase in the levels of soluble sugar, total lignin, total hemicellulose, and monosaccharide, whereas it reduced the amounts of polysaccharide and cell wall cellulose. Previous studies have also reported an increase in the levels of arabinose (Gong et al, 2010), glucose (Wang et al, 2022), mannitol (Zhang et al, 2023), xylitol, sorbitol (Shao et al, 2022), and dulcitol (Li et al, 2022), which is consistent with the findings presented here.…”

The carbohydrate metabolism and expression of carbohydrate-active enzyme genes in Aspergillus luchuensis fermentation of tea leaves

Metabolomics analysis reveals the mechanism underlying the improvement in the color and taste of yellow tea after optimized yellowing

Chemical imaging for determining the distributions of quality components during the piling fermentation of Pu-erh tea