Phenolic content analysis of coffee leaves subjected to htst and convective drying
Barra lateral de artigos
PDF (English)
FLIP
XML (English)
Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial 4.0.
Conteúdo do artigo principal
Resumo
As a potential beverage, coffee leaf tea may possess both qualities of brewed coffee and regular tea . Thus, making it an attractive beverage in years to come. One of the main qualities is the leaf’s phenolic content, which is chiefly attributed with health benefits. However, the leaf’s total phenolic content may be adversely affected by heat during the drying process. Coffee leaves were dried using a combined drying process, high-temperature short-time (HTST) and convective drying, to assess the optimal drying parameters for both total phenolic content preservation and drying time reduction. To reach conclusions, a central composite rotational design (CCRD) was employed. With both temperature and thickness as independent variables, a response surface using time as dependent variable was generated . The temperature ranged from 80°C to 110°C and the thickness from 1cm to 3cm . Results indicate that the HTST pretreatment significantly reduced the drying time without affecting the total phenolic content; that is, the CCRD analysis on the effect of the HTST pretreatment on the total phenolic content did not yield statistically significant results.
Downloads
##plugins.generic.pfl.publicationFactsTitle##
##plugins.generic.pfl.reviewerProfiles## Indisp.
##plugins.generic.pfl.authorStatements##
##plugins.generic.pfl.indexedIn##
-
##plugins.generic.pfl.indexedList##
- ##plugins.generic.pfl.editorAndBoard##
- ##plugins.generic.pfl.profiles##
- ##plugins.generic.pfl.academicSociety##
- Universidad de Ciencias Aplicadas UDCA
- ##plugins.generic.pfl.publisher##
- Universidad de Ciencias Aplicadas y Ambientales U.D.C.A
##plugins.generic.pfl.informationFooter## 
##plugins.generic.pfl.maintainedByPKP##
Detalhes do artigo
Referências (assistir)
BLAINSKI, A .; LOPES, G .C .; PALAZZO DE MELLO, J .C . 2013. Application and analysis of the Folin Ciocalteu method for the determination of the total phenolic content from Limonium Brasiliense L . Molecules . 18:6852-6865 .
CAMPA, C .; MONDOLOT, L .; RAKOTONDRAVAO, A .; BIDEL, L .P .R .; GARGADENNEC, A .; COUTURON, E .; LA FISCA, P .; RAKOTOMALALA, J .J .; JAY- ALLEMAND, C .; DAVIS, A .P . 2012. A survey of mangiferin and hydroxycinnamic acid ester accumulation in coffee (Coffea) leaves: biological implications and uses . Annuals of Botany . 110(3):595-613 .
CAMPA, C .; PETITVALLET, A. 2017. Chapter 12. Beneficial compounds from coffee leaves . In: Burleigh Dodds Science Publishing Limited (Ed .) . Achieving sustainable cultivation of coffee. Cambridge .
CHAN, E .W .C .; LIM, Y .Y .; WONG, S .K .; LIM, K .K .; TAN, S .P .; LIANTO, F .S .; YONG, M .Y . 2009 . Effects of different drying methods on the antioxidant properties of leaves and tea of ginger species . Food Chemistry . 113(1):166-172 .
CHEN, X .M .; MA, Z .; KITTS, D . 2018 . Effects of processing method and age of leaves on phytochemical profiles and bioactivity of coffee leaves . Food Chemistry . 249:143-153 .
CUI, Z .W .; XU, S .Y .; SUN, D .W . 2003 . Dehydration of garlic slices by combined microwave-vacuum and air drying . Drying Technology, 21(7):1173-1184 .
DA SILVA PINTO, M . 2013 . Tea: A new perspective on health benefits . Food Research International . 53(2):558-567 .
IDE, K .; YAMADA, H . 2015 . Clinical benefits of green tea consumption for cognitive dysfunction . PharmaNutrition . 3(4):136-145 .
KAMRAN, M .; HAMLIN, A .S .; SCOTT, C .J .; OBIED, H .K . 2015 . Drying at high temperature for a short time maximizes the recovery of olive leaf biophenols . Industrial Crops and Products. 78:29-38 .
LORENZO, J .M .; MUNEKATA, P .E .S . 2016 . Phenolic compounds of green tea: Health benefits and technological application in food . Asian Pacific J . Tropical Biomedicine . 6(8):709-719 .
ROSTAGNO, M .A .; CELEGHINI, R .M .S .; DEBIEN, I .C .N .; NOGUEIRA, G .C .; MEIRELES, M .A .A . 2015 . Chapter 15-Phenolic compounds in coffee compared to other beverages . Preedy, V .R . (Ed .), Coffee in Health and Disease Prevention . San Diego, CA: Academic Press . p .137-142 .
. SALGADO, P .R .; FAVARIN, J .L .; LEANDRO, R .A .; LIMA FILHO, O .F . DE . 2008 . Total phenol concentrations in coffee tree leaves during fruit development. Scientia Agricola . 65(4):354-359.
TALAMOND, P .; MONDOLOT, L .; GARGADENNEC, A .; DE KOCHKO, A .; HAMON, S .; FRUCHIER, A.; CAMPA, C . 2008 . First report on mangiferin (C-glucosyl-xanthone) isolated from leaves of a wild coffee plant, Coffea pseudozanguebariae (Rubiaceae). Acta Botanica Gallica. 155(4), 513-519.