Use of near infrared hyperspectral tools for the screening of extractable polyphenols in red grape skins

Nogales-Bueno, Julio; Baca-Bocanegra, Berta; Rodríguez-Pulido, Francisco J.; Heredia, Francisco J.; Hernández-Hierro, José Miguel

doi:10.1016/j.foodchem.2014.09.112

Cited by 47 publications

(36 citation statements)

References 22 publications

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“…Vegetation indices developed from spectral observations in the visible‐near infrared (NIR) regions are highly correlated with several plant stand parameters, such as green leaf area index, chlorophyll content, percentage ground cover of vegetation, etc . These non‐destructive techniques also have demonstrated their estimation abilities with respect to determining both technological maturity and the extractable polyphenols of grapes . However, no studies have correlated such indices with the detailed phenolic composition of grapes.…”

Section: Introductionmentioning

confidence: 99%

“…11,17,18 These non-destructive techniques also have demonstrated their estimation abilities with respect to determining both technological maturity 19 and the extractable polyphenols of grapes. 20 However, no studies have correlated such indices with the detailed phenolic composition of grapes. A good correlation between NIR-imaging technology, 21,22 NIR spectroscopy 23 and the phenolic composition of seeds and intact grapes has also been reported when measurements are performed directly on the seeds and grapes, respectively.…”

Section: Introductionmentioning

confidence: 99%

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Relationship between hyperspectral indices, agronomic parameters and phenolic composition of Vitis vinifera cv Tempranillo grapes

et al. 2017

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BACKGROUNDThe phenolic composition of grapes is key when making decisions about harvest date and ensuring the quality of grapes. The present study aimed to investigate the relationship between the detailed phenolic composition of grapes and the agronomic parameters and hyperspectral indices, with the latter being measured via field radiometry techniques.RESULTSGood correlations were found between phenolic composition (both anthocyanin and flavanol composition) and some hyperspectral indices related to vigor, such as the NDVI (normalized difference vegetation index) and the SAVI (soil adjusted vegetation index). The strongest correlations were observed between the phenolic composition of grape skin at harvest time and variables measured from grapes at veraison time, as well as variables determined from grapevines at harvest time. The potential usefulness of these hyperspectral indices calculated from measurements performed directly on grapes or grapevines for estimating the anthocyanin and flavanol composition of grape skins was indicated by the high coefficients of determination (R 2 = 0.7955 and R 2 = 0.8594, respectively) as obtained by means of principal component regression.CONCLUSIONAccording to the results of the present study, hyperspectral indices calculated from measurements performed directly on grapes at veraison time or on grapevines at harvest time may be useful for estimating the anthocyanin and flavanol composition of grape skins. This suggests that field radiometry might provide valuable information for estimating the phenolic composition of grapes, which may prove to be very useful when establishing strategies for harvest planning. © 2017 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Relationship between hyperspectral indices, agronomic parameters and phenolic composition of Vitis vinifera cv Tempranillo grapes

et al. 2017

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“…Finally, our methodology performs well when analyzing variation among samples in concentration of the same anthocyanin type (e.g., cyanidin derivatives). However, when samples differ in the type of pigment (e.g., anthocyanin vs. carotenoid), type of anthocyanin (cyanidin vs. pelargonidin), or in their biochemical modifications (glycosylation & acylation; Merken & Beecher, ; Nogales‐Bueno, Baca‐Bocanegra, Rodríguez‐Pulido, Heredia, & Hernández‐Hierro, ), digital images will capture the visible color, but there will be no associated changes in the raw anthocyanin concentration. In these cases, other indices may show improved performance, but require further study.…”

Section: Discussionmentioning

confidence: 99%

Digital photography provides a fast, reliable, and noninvasive method to estimate anthocyanin pigment concentration in reproductive and vegetative plant tissues

Valle

Gallardo-López

Buide

et al. 2018

Ecology and Evolution

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Anthocyanin pigments have become a model trait for evolutionary ecology as they often provide adaptive benefits for plants. Anthocyanins have been traditionally quantified biochemically or more recently using spectral reflectance. However, both methods require destructive sampling and can be labor intensive and challenging with small samples. Recent advances in digital photography and image processing make it the method of choice for measuring color in the wild. Here, we use digital images as a quick, noninvasive method to estimate relative anthocyanin concentrations in species exhibiting color variation. Using a consumer‐level digital camera and a free image processing toolbox, we extracted RGB values from digital images to generate color indices. We tested petals, stems, pedicels, and calyces of six species, which contain different types of anthocyanin pigments and exhibit different pigmentation patterns. Color indices were assessed by their correlation to biochemically determined anthocyanin concentrations. For comparison, we also calculated color indices from spectral reflectance and tested the correlation with anthocyanin concentration. Indices perform differently depending on the nature of the color variation. For both digital images and spectral reflectance, the most accurate estimates of anthocyanin concentration emerge from anthocyanin content‐chroma ratio, anthocyanin content‐chroma basic, and strength of green indices. Color indices derived from both digital images and spectral reflectance strongly correlate with biochemically determined anthocyanin concentration; however, the estimates from digital images performed better than spectral reflectance in terms of r 2 and normalized root‐mean‐square error. This was particularly noticeable in a species with striped petals, but in the case of striped calyces, both methods showed a comparable relationship with anthocyanin concentration. Using digital images brings new opportunities to accurately quantify the anthocyanin concentrations in both floral and vegetative tissues. This method is efficient, completely noninvasive, applicable to both uniform and patterned color, and works with samples of any size.

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“…Near infrared spectroscopy (NIRS) has been used in order to screen total or extractable phenolic compounds in grapes obtaining quite good results [14][15][16][17][18][19]. However, despite the fact that features in the near infrared region can be used to relate skin cell wall composition to phenolic compounds extractability, it is not possible to interpret this relationship in detail.…”

Section: Introductionmentioning

confidence: 99%

“…NH ≤ 0.6 is usually applied for grouping samples for similar purposes. In this way, the distribution of samples in the spectral space is optimal for accurate predictions [16,32,33]. Thus, 34 groups with different spectral characteristics were created.…”

Section: Introductionmentioning

confidence: 99%

Linking ATR-FTIR and Raman features to phenolic extractability and other attributes in grape skin

Nogales-Bueno

Baca-Bocanegra

Rooney³

et al. 2017

Talanta

Self Cite

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The importance of wine phenolics on the sensory characteristic of red wines is wellknown. Therefore, it is necessary to control the extractability of phenolic compounds from grape skins, which depends significantly on grape ripeness and hence, on cell wall degradation.In the present study, attenuated total reflectance Fourier transform infrared (ATR-FTIR) and Raman spectra of grape skin have been recorded. Then, these spectral matrices have been studied and the main spectral features have been linked to extractabilities of phenolic compounds (anthocyanins, flavanols and total phenols). Moreover, spectral differences between external and internal grape skin surfaces also have been studied.It has been confirmed that the amount of polysaccharides and the degree of esterification of pectins have significant influence on the phenolic extractability levels of grape skin tissue.

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Use of near infrared hyperspectral tools for the screening of extractable polyphenols in red grape skins

Cited by 47 publications

References 22 publications

Relationship between hyperspectral indices, agronomic parameters and phenolic composition of Vitis vinifera cv Tempranillo grapes

Relationship between hyperspectral indices, agronomic parameters and phenolic composition of Vitis vinifera cv Tempranillo grapes

Digital photography provides a fast, reliable, and noninvasive method to estimate anthocyanin pigment concentration in reproductive and vegetative plant tissues

Linking ATR-FTIR and Raman features to phenolic extractability and other attributes in grape skin

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