Light and Shadow in Near-Infrared Spectroscopy: A Powerful Tool for Cannabis sativa L. Analysis

Díaz-Liñán, María del Carmen; Sánchez de Medina, Verónica; Ferreiro-Vera, Carlos; García-Valverde, María Teresa

doi:10.3390/appliedchem3040033

AppliedChem

2023

DOI: 10.3390/appliedchem3040033

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Light and Shadow in Near-Infrared Spectroscopy: A Powerful Tool for Cannabis sativa L. Analysis

María del Carmen Díaz-Liñán,

Verónica Sánchez de Medina,

Carlos Ferreiro-Vera

et al.

Abstract: Cannabis sativa L. is an ancient cultivar that has found applications in various fields, e.g., medicine, due to its beneficial effects. However, due to its psychotropic effects, the regulation of this cultivar has increased throughout the decades. In this context, the need for rapid and reliable analytical methods to ensure the quality control of Cannabis cultivars has become of extreme importance. NIRS has arisen as a powerful tool in this field due to its multiple advantages, e.g., non-destructive, rapid, an… Show more

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2024

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Aquaphotomics study of fresh cannabis inflorescence: near infrared spectral analysis of water matrix structures

Birenboim,

Brikenstein,

Kenigsbuch

et al. 2024

Anal Bioanal Chem

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Aquaphotomics is an approach that describes the water–light interactions in aqueous solutions or biological systems and retrieves information about the nature of the underlying water-related interactions. We evaluated the water spectral pattern (WASP) and water matrix structure of freshly harvested cannabis inflorescence from seven different chemovars using near-infrared (NIR) spectral data coupled with chemometric models. Six activated water bands—1342, 1364, 1384, 1412, 1440, and 1462 nm, occurred consistently in all of the spectrum exploration steps as well as in the partial least squares-discriminant analysis (PLS-DA) steps. However, according to major class and chemovar aquagram values, the largest spectral variation was associated with the following bands: 1412, 1364, 1374, 1384, 1488, and 1512 nm. A strong positive correlation between 1364, 1374, and 1384 nm aquagram values and a strong negative correlation between 1412 and 1512 nm aquagram values were observed through all aquagram analysis steps. These water activated bands were found to serve as good discriminators and classifiers according to either major class or chemovar. Furthermore, significant differences in the water matrix structure of different cannabis chemovars were observed, with the highest variations associated with the presence of free water molecules, small molecule solvation shells, extent of strongly bound water, and the number of hydrogen bonds per water molecule. Minor cannabinoids and terpenes such as cannabigerolic acid and (-)-guaiol displayed relatively high correlations with these bands. The results of this study suggest that the most accurate way to explore the cannabis inflorescence water matrix spectral pattern is by chemovars and not by major classes. Graphical Abstract

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Aquaphotomics study of fresh cannabis inflorescence: near infrared spectral analysis of water matrix structures

Birenboim,

Brikenstein,

Kenigsbuch

et al. 2024

Anal Bioanal Chem

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show abstract

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Light and Shadow in Near-Infrared Spectroscopy: A Powerful Tool for Cannabis sativa L. Analysis

Cited by 1 publication

References 99 publications

Aquaphotomics study of fresh cannabis inflorescence: near infrared spectral analysis of water matrix structures

Aquaphotomics study of fresh cannabis inflorescence: near infrared spectral analysis of water matrix structures

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