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AP News. 2020. Nayuki and 36Kr Release 2019 New-style Tea Beverage Consumption Whitepaper. https://apnews.com/article/technology-business-china-b1ac7bdad0b6f5dbb981f354c0333fa8.

Bolton D. 2020. New Style Tea Beverages Reshape Asian Tea Market. www.worldteanews.com/Insights/new-style-tea-beverages-reshape-asian-tea-market.

Xu L, Xu Z, Kelly S, Liao X. 2020. Integrating untargeted metabolomics and targeted analysis for not from concentrate and from concentrate orange juices discrimination and authentication. Food Chemistry 329:127130

Xu Z, Wang Y, Ren P, Ni Y, Liao X. 2016. Quality of banana puree during storage: a comparison of high pressure processing and thermal pasteurization methods. Food and Bioprocess Technology 9:407−20

Aaby K, Grimsbo IH, Hovda MB, Rode TM. 2018. Effect of high pressure and thermal processing on shelf life and quality of strawberry purée and juice. Food Chemistry 260:115−23

Huang Y, Di X, Burton-Freeman BM, Edirisinghe I. 2016. Chemical changes of bioactive phytochemicals during thermal processing. Reference Module in Food Science. https://doi.org/10.1016/B978-0-08-100596-5.03055-9

Meng J, Fang Y, Qin M, Zhuang X, Zhang Z. 2012. Varietal differences among the phenolic profiles and antioxidant properties of four cultivars of spine grape (Vitis davidii Foex) in Chongyi County (China). Food Chemistry 134:2049−56

Meng JF, Xu TF, Song CZ, Li XL, Yue TX, et al. 2013. Characteristic free aromatic components of nine clones of spine grape (Vitis davidii Foex) from Zhongfang County (China). Food Research International 54:1795−800

Wang K, Xu Z. 2022. Comparison of freshly squeezed, non-thermally and thermally processed orange juice based on traditional quality characters, untargeted metabolomics, and volatile overview. Food Chemistry 373:131430

Zhu L, Zhang Y, Lu J. 2012. Phenolic contents and compositions in skins of red wine grape cultivars among various genetic backgrounds and originations. International Journal of Molecular Science 13:3492−510

Myrtsi ED, Koulocheri SD, Iliopoulos V, Haroutounian SA. 2021. High-throughput quantification of 32 bioactive antioxidant phenolic compounds in grapes, wines and vinification byproducts by LC-MS/MS. Antioxidants 10:1174

Yi L, Dong N, Yun Y, Deng B, Ren D, et al. 2016. Chemometric methods in data processing of mass spectrometry-based metabolomics: A review. Analytica Chimica Acta 914:17−34

Blumberg JB, Vita JA, Chen CYO. 2015. Concord grape juice polyphenols and cardiovascular risk factors: dose-response relationships. Nutrients 7:10032−52

Yilmaz Y, Toledo RT. 2004. Major flavonoids in grape seeds and skins: Antioxidant capacity of catechin, epicatechin, and gallic acid. Journal of Agricultural and Food Chemistry 52:255−60

Padilla-González GF, Grosskopf E, Sadgrove NJ, Simmonds MSJ. 2022. Chemical diversity of flavan-3-ols in grape seeds: Modulating factors and quality requirements. Plants 11:809

Guo R, Xu X, Carole B, Li X, Gao M, et al. 2013. Genome-wide identification, evolutionary and expression analysis of the aspartic protease gene superfamily in grape. BMC Genomics 14:554

Genova G, Tosetti R, Tonutti P. 2016. Berry ripening, pre-processing and thermal treatments affect the phenolic composition and antioxidant capacity of grape (Vitis vinifera L.) juice. Journal of the Science of Food and Agriculture 96:664−71

Rossi M, Giussani E, Morelli R, Lo Scalzo R, Nani RC, et al. 2003. Effect of fruit blanching on phenolics and radical scavenging activity of highbush blueberry juice. Food Research International 36:999−1005

El Darra N, Grimi N, Maroun RG, Louka N, Vorobiev E. 2013. Pulsed electric field, ultrasound, and thermal pretreatments for better phenolic extraction during red fermentation. European Food Research and Technology 236:47−56

Lambri M, Torchio F, Colangelo D, Segade SR, Giacosa S, et al. 2015. Influence of different berry thermal treatment conditions, grape anthocyanin profile, and skin hardness on the extraction of anthocyanin compounds in the colored grape juice production. Food Research International 77:584−90

Buckow R, Kastell A, Terefe NS, Versteeg C. 2010. Pressure and temperature effects on degradation kinetics and storage stability of total anthocyanins in blueberry Juice. Journal of Agricultural and Food Chemistry 58:10076−84

Subasi BG, Alpas H. 2017. Effect of high hydrostatic pressure processing and squeezing pressure on some quality properties of pomegranate juice against thermal treatment. High Pressure Research 37:78−92

Gil-Izquierdo A, Gil MI, Ferreres F, Tomás-Barberán FA. 2001. In vitro availability of flavonoids and other phenolics in orange juice. Journal of Agricultural and Food Chemistry 49:1035−41

Szalóki-Dorkó L, Végvári G, Ladányi M, Ficzek G, Stéger-Máté M. 2015. Degradation of anthocyanin content in sour cherry juice during heat treatment. Food Technology and Biotechnology 53:354−60

Lo Scalzo R, Iannoccari T, Summa C, Morelli R, Rapisarda P. 2004. Effect of thermal treatments on antioxidant and antiradical activity of blood orange juice. Food Chemistry 85:41−47

Liu Y, Liu Y, Tao C, Liu M, Pan Y, et al. 2018. Effect of temperature and pH on stability of anthocyanin obtained from blueberry. Journal of Food Measurement and Characterization 12:1744−53

Zhao C, Chen Z, Bai X, Ding C, Long T, et al. 2014. Structure-activity relationships of anthocyanidin glycosylation. Molecular Diversity 18:687−700

González-Manzano S, Rivas-Gonzalo JC, Santos-Buelga C. 2004. Extraction of flavan-3-ols from grape seed and skin into wine using simulated maceration. Analytica Chimica Acta 513:283−89

Aguilar T, Loyola C, de Bruijn J, Bustamante L, Vergara C, et al. 2016. Effect of thermomaceration and enzymatic maceration on phenolic compounds of grape must enriched by grape pomace, vine leaves and canes. European Food Research and Technology 242:1149−58

Fuleki T, Ricardo-Da-Silva JM. 2003. Effects of cultivar and processing method on the contents of catechins and procyanidins in grape juice. Journal of Agricultural and Food Chemistry 51:640−46

Xu G, Ye X, Chen J, Liu D. 2007. Effect of heat treatment on the phenolic compounds and antioxidant capacity of citrus peel extract. Journal of Agricultural and Food Chemistry 55:330−35

Su DX, Wang ZN, Dong LH, Huang F, Zhang RF, et al. 2019. Impact of thermal processing and storage temperature on the phenolic profile and antioxidant activity of different varieties of lychee juice. LWT 116:108578

Rosenthal A, Pokhrel PR, da Rocha Ferreira EH, Tiburski JH, Barbosa-Cánovas GV, et al. 2018. High pressure processing of fruit products. In Fruit Preservation: Novel and Conventional Technologies, eds. Rosenthal A, Deliza R, Welti-Chanes J, Barbosa-Cánovas CV. New York: Springer. pp. 351−98. https://doi.org/10.1007/978-1-4939-3311-2_13

Barba FJ, Esteve MJ, Frigola A. 2013. Physicochemical and nutritional characteristics of blueberry juice after high pressure processing. Food Research International 50:545−49

Yuan B, Danao MGC, Stratton JE, Weier SA, Weller CL, Lu M. 2018. High pressure processing (HPP) of aronia berry purée: Effects on physicochemical properties, microbial counts, bioactive compounds, and antioxidant capacities. Innovative Food Science & Emerging Technologies 47:249−55

Zhang L, Wang X, Manickavasagan A, Lim LT. 2022. Extraction and physicochemical characteristics of high pressure-assisted cold brew coffee. Future Foods 5:100113

Corrales M, García AF, Butz P, Tauscher B. 2009. Extraction of anthocyanins from grape skins assisted by high hydrostatic pressure. Journal of Food Engineering 90:415−21

Roobab U, Abida A, Afzal R, Madni GM, Zeng XA, et al. 2022. Impact of high-pressure treatments on enzyme activity of fruit-based beverages: an overview. International Journal of Food Science & Technology 57:801−15

He Y, Wen LK, Yu HS, Zheng F, Wang ZT, et al. 2018. Effects of high hydrostatic pressure-assisted organic acids on the copigmentation of Vitis amurensis Rupr anthocyanins. Food Chemistry 268:15−26

Sullivan ML. 2014. Perennial peanut (Arachis glabrata Benth.) leaves contain hydroxycinnamoyl-CoA:tartaric acid hydroxycinnamoyl transferase activity and accumulate hydroxycinnamoyl-tartaric acid esters. Planta 239:1091−100

Zhang W, Shen Y, Li Z, Xie X, Gong ES, et al. 2021. Effects of high hydrostatic pressure and thermal processing on anthocyanin content, polyphenol oxidase and beta-glucosidase activities, color, and antioxidant activities of blueberry (Vaccinium Spp.) puree. Food Chemistry 342:128564

Talcott ST, Brenes CH, Pires DM, Del Pozo-Insfran D. 2003. Phytochemical stability and color retention of copigmented and processed muscadine grape juice. Journal of Agricultural and Food Chemistry 51:957−63

Piovesana S, Capriotti AL, Cavaliere C, La Barbera G, Montone CM, et al. 2018. Recent trends and analytical challenges in plant bioactive peptide separation, identification and validation. Analytical and Bioanalytical Chemistry 410:3425−44

Sirtori E, Isak I, Resta D, Boschin G, Arnoldi A. 2012. Mechanical and thermal processing effects on protein integrity and peptide fingerprint of pea protein isolate. Food Chemistry 134:113−21

Stübler AS, Böhmker L, Juadjur A, Heinz V, Rauh C, et al. 2021. Matrix- and technology-dependent stability and bioaccessibility of strawberry anthocyanins during Storage. Antioxidants 10:30

Zou H, Ma Y, Xu Z, Liao X, Chen A, et al. 2018. Isolation of strawberry anthocyanins using high-speed counter-current chromatography and the copigmentation with catechin or epicatechin by high pressure processing. Food Chemistry 247:81−88

Padayachee A, Netzel G, Netzel M, Day L, Zabaras D, et al. 2012. Binding of polyphenols to plant cell wall analogues - Part 1: Anthocyanins. Food Chem. 134:155−61

Hou ZQ, Luan LQ, Hu XX, Chen SG, Ye XQ. 2022. Beneficial effects of high pressure processing on the interaction between RG-I pectin and cyanidin-3-glucoside. Food Chemistry 383:132373