An in-depth multiphasic analysis of the chocolate production chain, from bean to bar, demonstrates the superiority of Saccharomyces cerevisiae over Hanseniaspora opuntiae as functional starter culture during cocoa fermentation.

Cristian Diaz Munoz; Dario Van de Voorde; Emmy Tuenter; Valérie Lemarcq; Davy Van de Walle; José Pedro Soares Maio; Alejandra Mencía; Carlos Eduardo Hernandez; Andrea Comasio; Eleni Sioriki; Stefan Weckx; Luc Pieters; Koen  Dewettinck; Luc De Vuyst

doi:10.1016/j.fm.2022.104115

An in-depth multiphasic analysis of the chocolate production chain, from bean to bar, demonstrates the superiority of Saccharomyces cerevisiae over Hanseniaspora opuntiae as functional starter culture during cocoa fermentation.

Cristian Diaz Munoz, Dario Van de Voorde, Emmy Tuenter, Valérie Lemarcq, Davy Van de Walle, José Pedro Soares Maio, Alejandra Mencía, Carlos Eduardo Hernandez, Andrea Comasio, Eleni Sioriki, Stefan Weckx, Luc Pieters, Koen Dewettinck, Luc De Vuyst

Research output: Contribution to journal › Article › peer-review

28 Citations (Scopus)

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Abstract

Hanseniaspora opuntiae is a commonly found yeast species in naturally fermenting cocoa pulp-bean mass, which needed in-depth investigation. The present study aimed at examining effects of the cocoa isolate H. opuntiae
IMDO 040108 as part of three different starter culture mixtures compared with spontaneous fermentation, regarding microbial community, substrate consumption, and metabolite production dynamics, including volatile organic compound (VOC) and phytochemical compositions, as well as compositions of the cocoa beans after fermentation, cocoa liquors, and chocolates. The inoculated H. opuntiae strain was unable to prevail over background yeasts present in the fermenting cocoa pulp-bean mass. It led to under-fermented cocoa beans after four days of fermentation, which was however reflected in higher levels of polyphenols. Cocoa fermentation processes inoculated with a Saccharomyces cerevisiae strain enhanced flavour production during the fermentation and drying steps, which was reflected in richer and more reproducible aroma profiles of the cocoa liquors and
chocolates. Sensory analysis of the cocoa liquors and chocolates further demonstrated that S. cerevisiae led to more acidic notes compared to spontaneous fermentation, as a result of an advanced fermentation degree.
Finally, different VOC profiles were found in the cocoa beans throughout the whole chocolate production chain, depending on the fermentation process

Original language	English
Article number	104115
Number of pages	24
Journal	Food Microbiology
Volume	109
DOIs	https://doi.org/10.1016/j.fm.2022.104115
Publication status	Published - Feb 2023

Bibliographical note

Funding Information:
This work was supported by the Research Foundation Flanders ( SBO project REVICO , S004617N ) and the Research Council of the Vrije Universiteit Brussel ( projects SRP7 and IOF2442/3017 ).

Publisher Copyright:
© 2022 The Authors

Copyright:
Copyright 2022 Elsevier B.V., All rights reserved.

Keywords

Cocoa fermentation
Yeasts
cocoa beans
Flavour
Phytochemicals
Chocolate

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94042287Final published version, 8.77 MBLicence: CC BY-NC-ND

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SRP7: Strategic Research Programme: Understanding the competitiveness and functional role of microorganisms in fermented food ecosystems
De Vuyst, L., Leroy, F., Weckx, S., De Vuyst, L. & Leroy, F.
1/11/12 → 31/10/24
Project: Fundamental

Starter culture-initiated cocoa fermentations followed up trough metagenetics - CR2018
Weckx, S. (Creator), Diaz Munoz, C. (Creator) & De Vuyst, L. (Creator), European Nucleotide Archive, Jun 2022
https://www.ebi.ac.uk/ena/browser/view/PRJEB53853
Dataset

Cite this

Diaz Munoz, C., Van de Voorde, D., Tuenter, E., Lemarcq, V., Van de Walle, D., Pedro Soares Maio, J., Mencía, A., Hernandez, C. E., Comasio, A., Sioriki, E., Weckx, S., Pieters, L., Dewettinck, K., & De Vuyst, L. (2023). An in-depth multiphasic analysis of the chocolate production chain, from bean to bar, demonstrates the superiority of Saccharomyces cerevisiae over Hanseniaspora opuntiae as functional starter culture during cocoa fermentation. Food Microbiology, 109, Article 104115. https://doi.org/10.1016/j.fm.2022.104115

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title = "An in-depth multiphasic analysis of the chocolate production chain, from bean to bar, demonstrates the superiority of Saccharomyces cerevisiae over Hanseniaspora opuntiae as functional starter culture during cocoa fermentation.",

abstract = "Hanseniaspora opuntiae is a commonly found yeast species in naturally fermenting cocoa pulp-bean mass, which needed in-depth investigation. The present study aimed at examining effects of the cocoa isolate H. opuntiae IMDO 040108 as part of three different starter culture mixtures compared with spontaneous fermentation, regarding microbial community, substrate consumption, and metabolite production dynamics, including volatile organic compound (VOC) and phytochemical compositions, as well as compositions of the cocoa beans after fermentation, cocoa liquors, and chocolates. The inoculated H. opuntiae strain was unable to prevail over background yeasts present in the fermenting cocoa pulp-bean mass. It led to under-fermented cocoa beans after four days of fermentation, which was however reflected in higher levels of polyphenols. Cocoa fermentation processes inoculated with a Saccharomyces cerevisiae strain enhanced flavour production during the fermentation and drying steps, which was reflected in richer and more reproducible aroma profiles of the cocoa liquors and chocolates. Sensory analysis of the cocoa liquors and chocolates further demonstrated that S. cerevisiae led to more acidic notes compared to spontaneous fermentation, as a result of an advanced fermentation degree. Finally, different VOC profiles were found in the cocoa beans throughout the whole chocolate production chain, depending on the fermentation process",

keywords = "Cocoa fermentation, Yeasts, cocoa beans, Flavour, Phytochemicals, Chocolate",

author = "{Diaz Munoz}, Cristian and {Van de Voorde}, Dario and Emmy Tuenter and Val{\'e}rie Lemarcq and {Van de Walle}, Davy and {Pedro Soares Maio}, Jos{\'e} and Alejandra Menc{\'i}a and Hernandez, {Carlos Eduardo} and Andrea Comasio and Eleni Sioriki and Stefan Weckx and Luc Pieters and Koen Dewettinck and {De Vuyst}, Luc",

note = "Funding Information: This work was supported by the Research Foundation Flanders ( SBO project REVICO , S004617N ) and the Research Council of the Vrije Universiteit Brussel ( projects SRP7 and IOF2442/3017 ). Publisher Copyright: {\textcopyright} 2022 The Authors Copyright: Copyright 2022 Elsevier B.V., All rights reserved.",

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Diaz Munoz, C, Van de Voorde, D, Tuenter, E, Lemarcq, V, Van de Walle, D, Pedro Soares Maio, J, Mencía, A, Hernandez, CE, Comasio, A, Sioriki, E, Weckx, S, Pieters, L, Dewettinck, K & De Vuyst, L 2023, 'An in-depth multiphasic analysis of the chocolate production chain, from bean to bar, demonstrates the superiority of Saccharomyces cerevisiae over Hanseniaspora opuntiae as functional starter culture during cocoa fermentation.', Food Microbiology, vol. 109, 104115. https://doi.org/10.1016/j.fm.2022.104115

An in-depth multiphasic analysis of the chocolate production chain, from bean to bar, demonstrates the superiority of Saccharomyces cerevisiae over Hanseniaspora opuntiae as functional starter culture during cocoa fermentation. / Diaz Munoz, Cristian; Van de Voorde, Dario; Tuenter, Emmy et al.
In: Food Microbiology, Vol. 109, 104115, 02.2023.

Research output: Contribution to journal › Article › peer-review

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AU - Diaz Munoz, Cristian

AU - Van de Voorde, Dario

AU - Tuenter, Emmy

AU - Lemarcq, Valérie

AU - Van de Walle, Davy

AU - Pedro Soares Maio, José

AU - Mencía, Alejandra

AU - Hernandez, Carlos Eduardo

AU - Comasio, Andrea

AU - Sioriki, Eleni

AU - Weckx, Stefan

AU - Pieters, Luc

AU - Dewettinck, Koen

AU - De Vuyst, Luc

N1 - Funding Information: This work was supported by the Research Foundation Flanders ( SBO project REVICO , S004617N ) and the Research Council of the Vrije Universiteit Brussel ( projects SRP7 and IOF2442/3017 ). Publisher Copyright: © 2022 The Authors Copyright: Copyright 2022 Elsevier B.V., All rights reserved.

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N2 - Hanseniaspora opuntiae is a commonly found yeast species in naturally fermenting cocoa pulp-bean mass, which needed in-depth investigation. The present study aimed at examining effects of the cocoa isolate H. opuntiae IMDO 040108 as part of three different starter culture mixtures compared with spontaneous fermentation, regarding microbial community, substrate consumption, and metabolite production dynamics, including volatile organic compound (VOC) and phytochemical compositions, as well as compositions of the cocoa beans after fermentation, cocoa liquors, and chocolates. The inoculated H. opuntiae strain was unable to prevail over background yeasts present in the fermenting cocoa pulp-bean mass. It led to under-fermented cocoa beans after four days of fermentation, which was however reflected in higher levels of polyphenols. Cocoa fermentation processes inoculated with a Saccharomyces cerevisiae strain enhanced flavour production during the fermentation and drying steps, which was reflected in richer and more reproducible aroma profiles of the cocoa liquors and chocolates. Sensory analysis of the cocoa liquors and chocolates further demonstrated that S. cerevisiae led to more acidic notes compared to spontaneous fermentation, as a result of an advanced fermentation degree. Finally, different VOC profiles were found in the cocoa beans throughout the whole chocolate production chain, depending on the fermentation process

AB - Hanseniaspora opuntiae is a commonly found yeast species in naturally fermenting cocoa pulp-bean mass, which needed in-depth investigation. The present study aimed at examining effects of the cocoa isolate H. opuntiae IMDO 040108 as part of three different starter culture mixtures compared with spontaneous fermentation, regarding microbial community, substrate consumption, and metabolite production dynamics, including volatile organic compound (VOC) and phytochemical compositions, as well as compositions of the cocoa beans after fermentation, cocoa liquors, and chocolates. The inoculated H. opuntiae strain was unable to prevail over background yeasts present in the fermenting cocoa pulp-bean mass. It led to under-fermented cocoa beans after four days of fermentation, which was however reflected in higher levels of polyphenols. Cocoa fermentation processes inoculated with a Saccharomyces cerevisiae strain enhanced flavour production during the fermentation and drying steps, which was reflected in richer and more reproducible aroma profiles of the cocoa liquors and chocolates. Sensory analysis of the cocoa liquors and chocolates further demonstrated that S. cerevisiae led to more acidic notes compared to spontaneous fermentation, as a result of an advanced fermentation degree. Finally, different VOC profiles were found in the cocoa beans throughout the whole chocolate production chain, depending on the fermentation process

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Diaz Munoz C, Van de Voorde D, Tuenter E, Lemarcq V, Van de Walle D, Pedro Soares Maio J et al. An in-depth multiphasic analysis of the chocolate production chain, from bean to bar, demonstrates the superiority of Saccharomyces cerevisiae over Hanseniaspora opuntiae as functional starter culture during cocoa fermentation. Food Microbiology. 2023 Feb;109:104115. doi: 10.1016/j.fm.2022.104115

An in-depth multiphasic analysis of the chocolate production chain, from bean to bar, demonstrates the superiority of Saccharomyces cerevisiae over Hanseniaspora opuntiae as functional starter culture during cocoa fermentation.

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Fingerprint

Projects

SRP7: Strategic Research Programme: Understanding the competitiveness and functional role of microorganisms in fermented food ecosystems

Datasets

Starter culture-initiated cocoa fermentations followed up trough metagenetics - CR2018

Cite this