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  • Ghanaian cocoa bean fermentation characterized by spectroscopic and chromatographic methods and chemometrics.

Ghanaian cocoa bean fermentation characterized by spectroscopic and chromatographic methods and chemometrics.

Journal of food science (2010-08-21)
Patrick C Aculey, Pia Snitkjaer, Margaret Owusu, Marc Bassompiere, Jemmy Takrama, Lars Nørgaard, Mikael A Petersen, Dennis S Nielsen
ABSTRACT

Export of cocoa beans is of great economic importance in Ghana and several other tropical countries. Raw cocoa has an astringent, unpleasant taste, and flavor, and has to be fermented, dried, and roasted to obtain the characteristic cocoa flavor and taste. In an attempt to obtain a deeper understanding of the changes in the cocoa beans during fermentation and investigate the possibility of future development of objective methods for assessing the degree of fermentation, a novel combination of methods including cut test, colorimetry, fluorescence spectroscopy, NIR spectroscopy, and GC-MS evaluated by chemometric methods was used to examine cocoa beans sampled at different durations of fermentation and samples representing fully fermented and dried beans from all cocoa growing regions of Ghana. Using colorimetry it was found that samples moved towards higher a* and b* values as fermentation progressed. Furthermore, the degree of fermentation could, in general, be well described by the spectroscopic methods used. In addition, it was possible to link analysis of volatile compounds with predictions of fermentation time. Fermented and dried cocoa beans from the Volta and the Western regions clustered separately in the score plots based on colorimetric, fluorescence, NIR, and GC-MS indicating regional differences in the composition of Ghanaian cocoa beans. The study demonstrates the potential of colorimetry and spectroscopic methods as valuable tools for determining the fermentation degree of cocoa beans. Using GC-MS it was possible to demonstrate the formation of several important aroma compounds such 2-phenylethyl acetate, propionic acid, and acetoin and the breakdown of others like diacetyl during fermentation. Practical Application: The present study demonstrates the potential of using colorimetry and spectroscopic methods as objective methods for determining cocoa bean quality along the processing chain. Development of objective methods for determining cocoa bean quality will be of great importance for quality insurance within the fields of cocoa processing and raw material control in chocolate producing companies.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
2-Phenethyl acetate, 99%
Sigma-Aldrich
Phenethyl acetate, ≥98%, FCC, FG
Sigma-Aldrich
Phenethyl acetate, natural, ≥98%, FCC, FG