Post-harvest processing and microbial fermentation of coffee fruits play an essential role in the metabolites formation that influence the nutritional and sensory quality of the beverage. Thus, the ...objective of this study was to analyze the effect of coffee cherries processing and fermentation conditions on the microbial communities and the chemical and sensory quality of the beverage. Induced fermentation changed in the bacteria and fungi communities (Treatments: T1, T3, and T7).
Klebsiella
sp. inoculation (T1) allowed an increase in richness of bacteria and 81 points in the sensory score over the fermentation time. However, there was a reduction in richness of microbial community in treatments with
Saccharomyces cerevisiae
(T3 and T7)
.
An increase in the indexes of microbial diversity was observed in 72 h in treatment with coffee pulp (T2). In treatment with coffee cherries and spontaneous fermentation (T4) had a higher sensory score than other treatments, indicating a sensory gain from 36 to 72 h. Coffee cherries with superficial disinfection (T5) had a reduction in microbial profile, but did not change the final score of the beverage over the 72 h. In T6 (floaters fruits) was observed an alteration in the fungal community (36–72 h) and the lowest sensory score. The impact of adding water on coffee fermentation was dependent on time (T3 and T7). Furthermore, 5-hydroxymethylfurfural has a positive correlation with the final score of the beverage. Thus, microbial profile and sensory score of beverages are dependent of conditions of processing of coffee fruits and fermentation.
Edaphoclimatic conditions, planting altitudes, soil, the microbiome of plants and fruits, genotypes, and postharvest processing are variables that contribute to the chemical and sensory quality of ...the coffee. Thus, the objective of this study was to evaluate the impacts of planting altitude and fermentation of fruits on the chemical and sensory quality of the coffee using Nuclear Magnetic Resonance (NMR) and Linear Discriminant Analysis (LDA). Cherry coffees were harvested in eight points of altitudes between 826 and 1078.08 m. A completely randomized design with e planting altitudes, five fermentation processes, and five repetitions was performed. Lipids, trigonelline, citrate, and malate were the compounds that most contribute to the chemical discrimination of coffee in the altitudes below 969 m. While, in the high altitudes (> 1000 m), this discrimination was due to the HMF, quinic acid, caffeine, and formic acid, and the global notes of coffee beverages were higher than 80 points. In fermented coffee, the LDA of the chemical data indicates the formation of five clusters, showing how the compounds can suffer changes depending on the form of processing used in coffee. The best score of beverage was observed in samples of 1078.08 m under dry fermentation and only in samples of 969 m was observed a significant difference in the sensory score between spontaneous fermentation and induced fermentation. Thus, coffee sensory scores were dependent on planting and fermentation methods and NMR and LDA techniques proved important in chemical and sensory discrimination of coffees.
Sensory analysis or cup testing has been widely used in the coffee production chain for the validation of final quality. The tasters are responsible for defining the patterns and qualitative profiles ...of the drink based on the sensorial analysis and according to their gustatory sensibilities, which are often acquired by professional experience. However, the literature has not discussed in detail the relationship between the number of tasters and the consistency of sensorial analysis. Thus, using the bootstrap simulation methodology to estimate the optimum plot size, this study quantifies and proposes a specific number of tasters for the process of sensorial analysis of specialty coffees. The results indicate that the use of 6 tasters is sufficient to conduct sensorial analysis following SCA and BSCA protocol for coffees in the Arabica group, as well as 6 tasters for coil and Conilon coffees. From this number, no gains in precision are observed in the process of sensorial analysis of coffee with addition tasters.
The coffee growing in the state of Espírito Santo has some peculiarities that differ from the other regions producing Arabica coffee in Brazil because it has a diversity of edaphoclimatic conditions ...that influence the final quality of the bean. This study aimed to demonstrate and quantify the effect of solar radiation and of different forms of wet process on the final quality of Arabica coffee in crops located in the altitude range of 950 meters, in order to understand what would be the best wet processing methods for the coffee cultivated to the East (sun-grown) and coffee cultivated to the South-Southeast (shade-grown). The results indicate that shading has a significant effect on the final quality of the Arabica coffee, as well as the type of wet process used to process the beans after harvest. Therefore, there is a need to study in depth the factors related to the processing, edaphoclimatic, and relief conditions inherent to mountain coffee cultivation.
•Coffee filtration methods were more preferred than pressure methods.•Appearance and aroma were the most relevant attributes for untrained consumers.•Mid-infrared has proven to be useful in ...separating brewing methods.
Coffee beverage presents unique organoleptic characteristics of aroma and taste. These sensory attributes depend on the chemical composition of the brewed coffee. Our objectives were to determine the sensory quality of the coffee beverage obtained by different brewing methods as assessed by untrained tasters and to characterize the solid residues of this extraction using the medium infrared spectrum. Four brewing methods were evaluated by 124 untrained consumers. The infusion method presented better global impression and preference of these consumers than the other brewing methods. Significant changes in the chemical composition of the coffee residues were observed. These changes influenced the acceptance of the consumers and can be due to the potential of retention or filtering of organic compounds by the brewing method. Thus, there was a sensory quality difference among the brewing methods and the infrared spectrum indicated the need to distinguish the classes of organic compounds for a better understanding of how coffee brewing interacts with the chemical composition.
The number of leaves per plant, stem length and diameter, head diameter, fresh and dry weight of plants, fresh weight of leaves and stem and Soil Plant Analysis Development (SPAD) index were ...evaluated. The cultivation of vegetables using no-tillage on straw cover crops (as mulching) has been encouraged aiming at the sustainability of natural resources in agricultural systems. Studies indicate that green manures associated to no-tillage system promoted an increase in fresh mass production and plant growth. ...a lack of N in the initial phase of crop establishment may be occurred.
•Sequencing was crucial to identify the bacterial succession during fermentation.•Food safety is a factor important in the microbial fermentations of coffee.•Fermentation at 38 °C promotes more ...shifts in the bacterial composition.•High temperature and time of fermentation favors Lactobacillus sp.•Relative abundance of Lactobacillus is directly correlated with sensory scores.
The diversity and activity of the indigenous microorganisms in coffee are essential for obtaining safe and good-quality coffee. The use of fermentation under carbonic maceration in coffee fruits showed a positive correlation between the bacterial community and sensory score. Thus, the objective of this study was to evaluate the bacterial diversity in coffee cherries during fermentation under carbonic maceration and their correlations with coffee-quality. Next-generation sequencing and Specialty Coffee Association protocol were used in this study. Predominance of Leuconostoc sp. and Lactobacillus sp. during fermentation was observed. Leuconostoc sp. had higher relative abundance in the initial phase of fermentation and at 18 and 28 °C than Lactobacillus sp. Furthermore, the greatest microbial diversity occurred at 38 °C and after 72 h. At this temperature, the relative abundance of Lactobacillus correlated positively with sensorial score. Thus, an increase in temperature and fermentation time favors Lactobacillus spp and coffee sensory quality.
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