Chocolate 'fingerprints' could confirm label claims

April 20, 2020

WASHINGTON, April 20, 2020 -- The flavor and aroma of a fine chocolate emerge from its ecology, in addition to its processing. But can you be certain that the bar you bought is really from the exotic locale stated on the wrapper? Now, researchers are presenting a method for determining where a particular chocolate was produced -- and someday, which farm its beans came from -- by looking at its chemical "fingerprint."

The researchers are presenting their results through the American Chemical Society (ACS) SciMeetings online platform.

"The project originated out of an idea I had for a lab in one of the courses I teach," says Shannon Stitzel, Ph.D., the project's principal investigator. "The method we used to analyze chocolate bars from a grocery store worked well in the class, and the exercise piqued the students' curiosity. So, I started reaching out for more interesting samples and tweaking the technique."

Many factors can affect a chocolate's flavor and contribute to its unique chemical make-up. The process of making chocolate begins with the pods of the cacao tree. The genes of the tree the pods are harvested from, as well as the environment the tree is grown in, can affect the composition of the final product. Processing steps can also change a chocolate's complex chemistry. Generally, after cocoa beans obtained from the pods have been fermented, dried and roasted, they are ground into a paste, called cocoa liquor, which contains cocoa solids and cocoa butter. Sugar and other ingredients are added to the liquor to make chocolate. Any of these steps could be varied slightly by the company performing them, leading to differences in chocolate composition. Even more variation between chocolates from different regions can come from naturally occurring yeast in the pods that surround the beans, which can affect the fermentation process, thereby influencing the flavor compounds in chocolate.

Authenticating the country of a chocolate's origin is an important piece of information. Drilling down to the specific farm where a chocolate's beans were grown could help verify that the product is "fair trade" or "organic," as its label might suggest, or that it has not been adulterated along the way with inferior ingredients.

Early on, Stitzel's experiments at Towson University involved a well-known method for geographic determination. She used elemental analysis, which has been used to identify the source of a myriad of unknown materials. However, Stitzel wanted to go further and analyze the organic compounds in cocoa liquor to see if any of them remained after various processing steps. If so, they could be used as markers for more precise authentication testing.

Through a friend in the industry, Stitzel acquired single-source samples of cocoa liquor from all over the world. Her undergraduate student, Gabrielle Lembo, used liquid chromatography (LC) to separate the cocoa liquor compounds from various samples and mass spectrometry (MS) to identify their chemical signatures. Lembo's results showed that LC-MS is a robust analysis technique. Compounds, such as caffeine, theobromine and catechins, are detected in different patterns that make up a signature fingerprint. This fingerprint indicates provenance and cannot easily be finagled by nefarious producers.

Stitzel says that eventually their method could be used to help map out the expected flavor profiles of a chocolate, given its chemical signature. And she says it would be interesting to first determine the fingerprint of a cocoa bean, then gather fingerprints with each consecutive processing step to see how they change. For now, her students are expanding the application of the analysis method by looking at the chemical signatures of various forms of fair-trade and organic coffee.
The researchers acknowledge support and funding from the National Science Foundation and Towson University's Jess & Mildred Fisher College of Science & Mathematics.

The American Chemical Society (ACS) is a nonprofit organization chartered by the U.S. Congress. ACS' mission is to advance the broader chemistry enterprise and its practitioners for the benefit of Earth and its people. The Society is a global leader in providing access to chemistry-related information and research through its multiple research solutions, peer-reviewed journals, scientific conferences, eBooks and weekly news periodical Chemical & Engineering News. ACS journals are among the most cited, most trusted and most read within the scientific literature; however, ACS itself does not conduct chemical research. As a specialist in scientific information solutions (including SciFinder® and STN®), its CAS division powers global research, discovery and innovation. ACS' main offices are in Washington, D.C., and Columbus, Ohio.

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Chemical signatures from UPLC/MS for cocoa provenance determination


The production of chocolate products is a global industry that needs a method to determine the geographic origins of its most essential component, cocoa. Traceability of cocoa is becoming more important for quality control in the chocolate industry, so that consumers can know they are purchasing products that adhere to fair-trade regulations, organic farming practices, etc. Many of the steps in the process of producing cocoa can influence the chemical makeup of the different aspects of the final product including the flavor profile and aroma. Each region where cocoa is gown has variations in soil composition, weather and farming practices that influence the cocoa bean development. Additionally, differences in post-harvest treatments including fermentation and roasting conditions influence the overall chemical composition of the resulting cocoa liquor used to make finished chocolate products. These differences result in unique chemical signatures that can identify cocoa liquors by their country of origin. Many studies have employed GC/MS, ICP/MS, and HPLC to quantify and detect the presence of certain classes of compounds in cocoa, but there are fewer studies focused on provenance determination via chemical signatures.

Previous work by this group has been able to accurately determine the country of origin of cocoa samples using ICP/MS to construct a unique elemental profile for each country. Use of LC/MS provides an opportunity to evaluate a wide variety of molecules for generating chemical signatures. The cocoa sample preparation and conditions for UPLC/ESI-TOFMS used to obtain unique chemical signatures from cocoa liquor samples are described. Several classes of compounds were identified from the mass spectral data, and the semi-quantitative analysis method was verified with a cocoa standard reference material. Discriminate analysis was used to identify cocoa liquor samples from five different countries. The method was able to accurately group and identify country of origin in 95% of samples. Future directions include moving beyond country level provenance determination, to regional discrimination within countries, and potentially differences in signatures due to genetic strains of cacao.

American Chemical Society

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