Title of article
Physicochemical and acid gelation properties of commercial UHT-treated plant-based milk substitutes and lactose free bovine milk
Author/Authors
M?kinen، نويسنده , , Outi E. and Uniacke-Lowe، نويسنده , , Thérèse and O’Mahony، نويسنده , , James A. and Arendt، نويسنده , , Elke K.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2015
Pages
9
From page
630
To page
638
Abstract
Physicochemical and acid gelation properties of UHT-treated commercial soy, oat, quinoa, rice and lactose-free bovine milks were studied. The separation profiles were determined using a LUMiSizer dispersion analyser. Soy, rice and quinoa milks formed both cream and sediment layers, while oat milk sedimented but did not cream. Bovine milk was very stable to separation while all plant milks separated at varying rates; rice and oat milks being the most unstable products. Particle sizes in plant-based milk substitutes, expressed as volume mean diameters (d4.3), ranged from 0.55 μm (soy) to 2.08 μm (quinoa) while the average size in bovine milk was 0.52 μm. Particles of plant-based milk substitutes were significantly more polydisperse compared to those of bovine milk. Upon acidification with glucono-δ-lactone (GDL), bovine, soy and quinoa milks formed structured gels with maximum storage moduli of 262, 187 and 105 Pa, respectively while oat and rice milks did not gel. In addition to soy products currently on the market, quinoa may have potential in dairy-type food applications.
Keywords
soy , Dairy substitute , quinoa , Oat , Chenopodin
Journal title
Food Chemistry
Serial Year
2015
Journal title
Food Chemistry
Record number
1979368
Link To Document