Degradation kinetics of beetroot pigment encapsulated in polymeric matrices

Citation
Gs. Serris et Cg. Biliaderis, Degradation kinetics of beetroot pigment encapsulated in polymeric matrices, J SCI FOOD, 81(8), 2001, pp. 691-700
Citations number
68
Categorie Soggetti
Agricultural Chemistry
Journal title
JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE
ISSN journal
00225142 → ACNP
Volume
81
Issue
8
Year of publication
2001
Pages
691 - 700
Database
ISI
SICI code
0022-5142(200106)81:8<691:DKOBPE>2.0.ZU;2-#
Abstract
Kinetic studies on the degradation of water-soluble beetroot pigment, mainl y consisting of the betalain betanin, encapsulated in three different matri ces (pullulan and two maltodextrin samples differing in their molecular wei ght) were carried out under various water activity (a(w)=0.23, 0.43, 0.64, 0.75 and 0.84) and temperature (30, 30 and 50 degreesC) conditions. The wat er sorption behaviour of these materials was also examined. Degradation of the pigment was monitored by absorbance measurements at 537 nm (lambda (max ) of betanin). The highest values of the rate constants for degradation wer e observed at an intermediate water activity level (a(w)=0.64) for all matr ices and all three storage temperatures examined. An attempt to relate the degradation kinetics to the molecular mobility of the wall material was not successful. Pigment losses were observed even at temperatures below the gl ass transition temperature (T-g) of the polymeric matrices, although degrad ation was largely slowed down in the glassy state. In the vicinity of the T -g zone, where all polymers go through a glass --> rubber transition, there was not a distinct change in the reaction rate, which could reflect the pr onounced changes in molecular mobility of the wall material. In fact, some of the lower degradation rates were observed mostly under conditions where the matrices were fully plasticised (ie rubbery) and 'collapsed', implying that the degradation kinetics is not governed by factors related only to th e physical state of the polymeric wall material. (C) 2001 Society of Chemic al Industry.