The processing of cupuassu (Theobroma grandiflorum Schum) beans after fermentation gives a chocolate-like product, the cupulate. The high amount of pulp adhered to the seeds hinders the fermentation. Consequently, it is necessary to depulp the seeds to perform the process, even though the pulp contains important substrates for the formation of flavor precursors. To verify whether the complete or partial removal of the pulp influences the sensory characteristics of the product, fermentation was performed with three pulp concentrations (0, 7.5, and 15%) and two schemes of turning for aeration of the mass: fixed (R1) and according to the temperature (R2), in a total of six experiments (0R1, 0R2, 7.5R1, 7.5R2, 15R1 and 15R2). The beans were processed to obtain cupulates, which were submitted to tests performed with consumers, to express their preference and attributes (acceptance, purchase intent, Check All That Apply - CATA), and then to tests with a trained panel, the Quantitative Descriptive Profile (QDP) to characterize the samples. Both tests showed the consumers' perceptions that the cupulates have peculiar sensory characteristics. In the Consumer Test, through the Preference Mapping, all the samples of cupulates obtained from R1 conditions were preferred. In the penalty analysis, these same samples showed positive attributes that mask the negative attributes. Both CATA and QDP results showed that cupulate samples produced from seeds with a higher amount of pulp (15R1 and 15R2) had a higher number of positive mentions, for their fruity and floral flavors. The research also demonstrated that all samples gave the perception of an earthy taste, an important reason for consumer rejection, as well as a bad residual flavor. Thus, the results showed that the presence of the pulp in the fermentation environmental is important to the formation of flavor compounds and improving the sensory acceptance of the products.
Keywords: CATA; Cupulate bars; Fermentation; Processing; Quantitative descriptive profile.
Copyright © 2022 Elsevier Ltd. All rights reserved.