Abstract
Coffee, one of the most popular beverages in the world, attracts consumers by its rich aroma and the stimulating effect of caffeine. Increasing consumers prefer decaffeinated coffee to regular coffee due to health concerns. There are some main decaffeination methods commonly used by commercial coffee producers for decades. However, a certain amount of the aroma precursors can be removed together with caffeine, which could cause a thin taste of decaffeinated coffee. To understand the difference between regular and decaffeinated coffee from the volatile composition point of view, headspace solid-phase microextraction two-dimensional gas chromatography time-of-flight mass spectrometry (HS-SPME-GC×GC-TOFMS) was employed to examine the headspace volatiles of eight pairs of regular and decaffeinated coffees in this study. Using the key aroma-related volatiles, decaffeinated coffee was significantly separated from regular coffee by principal component analysis (PCA). Using feature-selection tools (univariate analysis: t-test and multivariate analysis: partial least squares-discriminant analysis (PLS-DA)), a group of pyrazines was observed to be significantly different between regular coffee and decaffeinated coffee. Pyrazines were more enriched in the regular coffee, which was due to the reduction of sucrose during the decaffeination process. The reduction of pyrazines led to a lack of nutty, roasted, chocolate, earthy, and musty aroma in the decaffeinated coffee. For the non-targeted analysis, the random forest (RF) classification algorithm was used to select the most important features that could enable a distinct classification between the two coffee types. In total, 20 discriminatory features were identified. The results suggested that pyrazine-derived compounds were a strong marker for the regular coffee group whereas furan-derived compounds were a strong marker for the decaffeinated coffee samples.
Highlights
Coffee is one of the most popular beverages in the world [1]
There are hundreds of volatile compounds identified in roasted coffee, only dozens of them significantly contribute to the aroma profile [19]
Summarizing the Arabica coffee marker list from previous research [20], the volatile compound list in roasted coffee and the main odoractive compound list from two review articles [8,21], searching in the coffee samples measured in this study, a total of 52 aroma-related volatile compounds were selected for target analysis (Table 2)
Summary
Coffee is one of the most popular beverages in the world [1]. It accounted for 65% of the hot drinks market worldwide in 2019 [2]. Thereby on the one hand increasing alertness and arousal, but on the other hand reducing sleep quality [3]. Caffeine has some adverse effects on gastrointestinal disturbance, palpitation and increasing blood pressure [4]. Some consumers who are sensitive to the stimulating effect of caffeine prefer avoiding caffeine and choose decaffeinated coffee instead. The consumption of decaffeinated coffee was around 5% and 20% in Germany and the US, respectively, between 2009 and 2014 [1]. The global decaffeinated coffee market size was USD 1.65 billion in 2019 and is expected to grow in the near future [5]
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