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Physicochemical properties of mango kernel fats extracted from different mango varieties cultivated in Sabah, Malaysia
Journal
Journal of Food Processing and Preservation
Date Issued
2020-10
Author(s)
Aanada H. Jahurul
Chan Y. Ru
Ridhwan Norazlina
Mamat Hasmadi
Universiti Sains Islam Malaysia
Matanjun Patricia
Jau Shya Lee
Awal Shihabul
Amir H.M. Shariff
Jumardi Roslan
Noorakmar Ab Wahab
Rezaul Karim
DOI
10.1111/jfpp.14772
Abstract
Abstract
This study was set out to determine the total fat content, physicochemical properties, and crystal morphology of mango kernel fat (MKF) obtained from three popular mango varieties cultivated in Sabah, Malaysia. The total fat contents of the MKFs were 7.02, 9.50, and 8.41% for Air, Manila, and Harumanis. Gas chromatography with flame ionization detector analyses revealed three major fatty acids namely, palmitic (6.67 to 7.51%), stearic (42.32 to 48.95%), and oleic (32.91 to 38.14%) acids in studied MKFs as novel mango kernel constituents. The iodide, saponification, acid, peroxide, and slip melting point values of the MKFs were found to be 47.79–52.27 g I2/100 g, 181.4–194.5 mg KOH/g, 5.15–6.26 mg KOH/g, 1.05–1.32 meq O2/kg, and 31.0–35.2°C, respectively. The crystals of the three MKFs were spherulites and densely packed. With respect to the characteristics, MKFs potentially can be applied as cocoa butter equivalents and ideal for use in confectionery industry.
Practical applications
Exploitation of fat from mango kernel is still attracting considerable interest in recent year since it is a source of valuable ingredients that suitable for wide applications in food processing, especially as cocoa butter equivalent (CBE). Different mango varieties and cultivation regions would give rise to variations in characteristics of MKFs. Most of the results indicated that MKFs had the potential to be applied as CBEs and useful in chocolate industry.
This study was set out to determine the total fat content, physicochemical properties, and crystal morphology of mango kernel fat (MKF) obtained from three popular mango varieties cultivated in Sabah, Malaysia. The total fat contents of the MKFs were 7.02, 9.50, and 8.41% for Air, Manila, and Harumanis. Gas chromatography with flame ionization detector analyses revealed three major fatty acids namely, palmitic (6.67 to 7.51%), stearic (42.32 to 48.95%), and oleic (32.91 to 38.14%) acids in studied MKFs as novel mango kernel constituents. The iodide, saponification, acid, peroxide, and slip melting point values of the MKFs were found to be 47.79–52.27 g I2/100 g, 181.4–194.5 mg KOH/g, 5.15–6.26 mg KOH/g, 1.05–1.32 meq O2/kg, and 31.0–35.2°C, respectively. The crystals of the three MKFs were spherulites and densely packed. With respect to the characteristics, MKFs potentially can be applied as cocoa butter equivalents and ideal for use in confectionery industry.
Practical applications
Exploitation of fat from mango kernel is still attracting considerable interest in recent year since it is a source of valuable ingredients that suitable for wide applications in food processing, especially as cocoa butter equivalent (CBE). Different mango varieties and cultivation regions would give rise to variations in characteristics of MKFs. Most of the results indicated that MKFs had the potential to be applied as CBEs and useful in chocolate industry.