AI Article Synopsis
- The study focuses on identifying lemon and lime juice adulterations through specific chemical markers, such as coumarins and psoralens.
- Challenges were noted due to manufacturing practices that could lead to misleading results, prompting the need for a detailed analysis of juice components from both fruits under different processing conditions.
- The research found unique markers in lime juices and confirmatory methods combining H-NMR spectroscopy with HPLC data could distinguish between juice qualities affected by mechanical stress.
Article Abstract
Mutual adulterations of lemon and lime juices may be detected using coumarins and psoralens as markers. Poor manufacturing practices or legal but mechanically intense processing of lemons were recently suspected to lead to false accusations of deliberate adulterations with lime juices due to potentially unspecific markers. Therefore, we studied coumarin and psoralen profiles in carefully dissected flavedo, albedo, and endocarp of lime and lemon as well as in juices produced under variable mechanical stresses at laboratory and pilot plant scale. Although the marker herniarin was detectable in juices from lime and harshly extracted lemons at low levels, isopimpinellin, bergapten and the herein proposed, tentatively assigned 5-geranyloxy-8-methoxypsoralen represented unambiguously lime-specific markers. Coumarin and psoralen data also allowed differentiating juices produced at differing degrees of mechanical stress. The latter was also possible using quantitative H-NMR spectroscopy, which yielded best results when combined with HPLC data on coumarins and psoralens. In the future, the reported approach may be used for establishing a robust database prior to being used in industrial practice.
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| http://dx.doi.org/10.1016/j.foodchem.2021.129804 | DOI Listing |
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