The roasting process and place of cultivation influence the volatile fingerprint of Criollo cocoa from Amazonas, Peru

The Criollo cocoa bean is classified as “fine” or flavor cocoas, being perceived as aromatic or smooth with fruity, raisin, floral, spicy, nutty, molasses, and caramel notes. In the present work, gas chromatography coupled to mass spectrometry was used to study the volatile fingerprint of roasted and unroasted Criollo cocoa from four Amazon districts: Nieva, Cajaruro, Copallín and La Peca located in the Amazon Region of Peru. The results showed that the main sensory perception of cocoa is fruit, and this decreases as the roasting intensity increases. A total of 96 volatile compounds were found, of which the esters had a greater presence in the volatile fingerprint of Criollo cocoa. Propyl acetate (3.5%), acetoin acetate (1.3%) and diethyl succinate (0.8%) were found as the characteristic compounds of Criollo cocoa analyzed, which give it its fruit perception. The linalool/benzaldehyde ratio was between 0.56 and 0.89 for La Peca and Cajaruro cocoa. Principal component analysis revealed that the Criollo cocoa in each district has a different volatile fingerprint, whether it is roasted or unroasted beans. The roasting process generates a greater differentiation of the volatile fingerprint of Criollo cocoa

Aceites esenciales de plantas nativas del Perú: Efecto del lugar de cultivo en las características fisicoquímicas y actividad antioxidante

Los aceites esenciales (AE) son usados como conservantes en la industria de alimentos, debido a sus características fisicoquímicas y actividad antioxidante. El objetivo de esta investigación fue determinar rendimiento (R), gravedad específica (GE), índice de refracción (IR), actividad antioxidante (AA) y composición química de AE de huacatay (Tagetes minuta), poleo (Minthostachys mollis), romero (Rosmarinus officinalis L.) y sachaculantro (Eryngium foetidum L.), plantas recolectadas de 52 distritos de la región Amazonas, Perú. Para cada AE se usó análisis de varianza de efectos fijos con tres repeticiones y análisis de clúster. La actividad antioxidante se determinó con el método del radical libre 2,2-difenil-1-picrilhidracilo (DPPH) y sus componentes más abundantes fueron identificados con cromatografía de gases acoplada a espectrometría de masas. Las diferencias en R, GE e IR fueron significativas entre distritos. La AA no mostró diferencia significativa entre los distritos, pero entre las plantas sí. Entre los componentes volátiles más abundantes se identificó 1–adamantanol (44,42%) en huacatay, β–felandreno (20,85%) en poleo, β–mirceno (34,59%) en romero y α–pineno (23,41%) en sachaculantro. Se concluye que el lugar geográfico afecta significativamente las propiedades fisicoquímicas de los AE

Formation of aromatic compounds precursors during fermentation of Criollo and Forastero cocoa

There are three main genetic varieties of cocoa (Theobroma cacao L) used in chocolate making: Forastero, Trinitario and Criollo, which are distinguished by their aroma, an attribute that determines their quality. Criollo cocoa is of the highest quality and is used in the manufacture of fine chocolates because of its fruity aroma. The aroma of Criollo cocoa is defined by volatile compounds such as pyrazines and aldehydes, which are formed during roasting of the bean, from aroma precursors (reducing sugars and free amino acids) that are generated inside the bean via enzymatic reactions during fermentation; for this reason, fermentation is the most important process in the value chain. This review discusses the production of aroma precursors of Criollo and Forastero cocoa by studying the kinetics of spontaneous fermentation and the role of starter cultures to produce aroma precursors. Fine aroma precursors produced in the pulp during the fermentation phase will migrate into the bean when it's permeability is improved and then retained during the drying phase. Diffusion of aroma precursors into the cocoa bean may be possible, this process is mathematically characterized by the coefficient of molecular diffusion D, which describe the process of mass transfer via Fick's Second Law. The current state of knowledge is analyzed based on existing research and reports some gaps in the literature, suggesting future research that will be necessary for a better understanding of cocoa fermentation

Evaluation of the Miscibility of Novel Cocoa Butter Equivalents by Raman Mapping and Multivariate Curve Resolution–Alternating Least Squares

Cocoa butter (CB) is an ingredient traditionally used in the manufacturing of chocolates, but its availability is decreasing due to its scarcity and high cost. For this reason, other vegetable oils, known as cocoa butter equivalents (CBE), are used to replace CB partially or wholly. In the present work, two Peruvian vegetable oils, coconut oil (CNO) and sacha inchi oil (SIO), are proposed as novel CBEs. Confocal Raman microscopy (CRM) was used for the chemical differentiation and polymorphism of these oils with CB based on their Raman spectra. To analyze their miscibility, two types of blends were prepared: CB with CNO, and CB with SIO. Both were prepared at 5 different concentrations (5%, 15%, 25%, 35%, and 45%). Raman mapping was used to obtain the chemical maps of the blends and analyze their miscibility through distribution maps, histograms and relative standard deviation (RSD). These values were obtained with multivariate curve resolution–alternating least squares. The results show that both vegetable oils are miscible with CB at high concentrations: 45% for CNO and 35% for SIO. At low concentrations, their miscibility decreases. This shows that it is possible to consider these vegetable oils as novel CBEs in the manufacturing of chocolates

The Kinetics of Total Phenolic Content and Monomeric Flavan-3-ols during the Roasting Process of Criollo Cocoa

Cocoa beans are the main raw material for the manufacture of chocolate and are currently gaining great importance due to their antioxidant potential attributed to the total phenolic content (TPC) and the monomeric flavan-3-ols (epicatechin and catechin). The objective of this study was to determine the degradation kinetics parameters of TPC, epicatechin, and catechin during the roasting process of Criollo cocoa for 10, 20, 30, 40, and 50 min at 90, 110, 130, 150, 170, 190, and 200 °C. The results showed a lower degradation of TPC (10.98 ± 6.04%) and epicatechin (8.05 ± 3.01%) at 130 °C and 10 min of roasting, while a total degradation of epicatechin and a 92.29 ± 0.06% degradation of TPC was obtained at 200 °C and 50 min. Reaction rate constant ( k ) and activation energy ( E a ) were 0.02–0.10 min−1 and 24.03 J/mol for TPC and 0.02–0.13 min−1 and 22.51 J/mol for epicatechin, respectively. Degradation kinetics of TPC and epicatechin showed first-order reactions, while the catechin showed patterns of formation and degradation

Kinetics Crystallization and Polymorphism of Cocoa Butter throughout the Spontaneous Fermentation Process

The spontaneous fermentation process of Criollo cocoa is studied for its importance in the development of chocolate aroma precursors. This research supports the importance of spontaneous fermentation, which was studied through the crystallization behavior and polymorphisms of cocoa butter (CB), the most abundant component of chocolate that is responsible for its quality physical properties. The k-means technique was used with the CB crystallization kinetics parameters to observe the division of the process during the first stage (day 0–3). The experimental crystallization time was 15.78 min and the second stage (day 4–7) was 17.88 min. The Avrami index (1.2–2.94) showed that the CB crystallizes in the form of a rod/needle/fiber or plate throughout the process. CB produced metastable crystals of polyforms β1′ and β2′. Three days of fermentation are proposed to generate Criollo cocoa beans with acceptable CB crystallization times

Aceites esenciales de plantas nativas del Perú: Efecto del lugar de cultivo en las características fisicoquímicas y actividad antioxidante

Los aceites esenciales (AE) son usados como conservantes en la industria de alimentos, debido a sus características fisicoquímicas y actividad antioxidante. El objetivo de esta investigación fue determinar rendimiento (R), gravedad específica (GE), índice de refracción (IR), actividad antioxidante (AA) y composición química de AE de huacatay (Tagetes minuta), poleo (Minthostachys mollis), romero (Rosmarinus officinalis L.) y sachaculantro (Eryngium foetidum L.), plantas recolectadas de 52 distritos de la región Amazonas, Perú. Para cada AE se usó análisis de varianza de efectos fijos con tres repeticiones y análisis de clúster. La actividad antioxidante se determinó con el método del radical libre 2,2-difenil-1-picrilhidracilo (DPPH) y sus componentes más abundantes fueron identificados con cromatografía de gases acoplada a espectrometría de masas. Las diferencias en R, GE e IR fueron significativas entre distritos. La AA no mostró diferencia significativa entre los distritos, pero entre las plantas sí. Entre los componentes volátiles más abundantes se identificó 1–adamantanol (44,42%) en huacatay, β–felandreno (20,85%) en poleo, β–mirceno (34,59%) en romero y α–pineno (23,41%) en sachaculantro. Se concluye que el lugar geográfico afecta significativamente las propiedades fisicoquímicas de los AE