Large-Scale Reassessment of In-Vineyard Smoke-Taint Grapevine Protection Strategies and the Development of Predictive Off-Vine Models

Large-Scale Reassessment of In-Vineyard Smoke-Taint Grapevine Protection Strategies and the Development of Predictive Off-Vine Models

Smoke taint in wine is thought to be caused by smoke-derived volatile phenols (VPs) that are absorbed into grape tissues, trapped as conjugates that are imperceptible by smell, and subsequently released into wines as their free odor-active forms via metabolism by yeasts during fermentation. Blocking...

Full description

Bibliographic Details
Main Authors: James W. Favell, Osei B. Fordwour, Sydney C. Morgan, Ieva Zigg, Wesley F. Zandberg
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Molecules
Subjects:
grapes
smoke taint
volatile phenols
glycosides
crop protection
fermentation
Online Access:https://www.mdpi.com/1420-3049/26/14/4311
id doaj-77b2523bc66e4cf0a6ed81663a946fc6
record_format Article
spelling doaj-77b2523bc66e4cf0a6ed81663a946fc62021-07-23T13:56:46ZengMDPI AGMolecules1420-30492021-07-01264311431110.3390/molecules26144311Large-Scale Reassessment of In-Vineyard Smoke-Taint Grapevine Protection Strategies and the Development of Predictive Off-Vine ModelsJames W. Favell0Osei B. Fordwour1Sydney C. Morgan2Ieva Zigg3Wesley F. Zandberg4Department of Chemistry, The University of British Columbia, 3247 University Way, Kelowna, BC V1V 1V7, CanadaDepartment of Chemistry, The University of British Columbia, 3247 University Way, Kelowna, BC V1V 1V7, CanadaDepartment of Biology, The University of British Columbia, 1177 Research Road, Kelowna, BC V1V 1V7, CanadaDepartment of Chemistry, The University of British Columbia, 3247 University Way, Kelowna, BC V1V 1V7, CanadaDepartment of Chemistry, The University of British Columbia, 3247 University Way, Kelowna, BC V1V 1V7, CanadaSmoke taint in wine is thought to be caused by smoke-derived volatile phenols (VPs) that are absorbed into grape tissues, trapped as conjugates that are imperceptible by smell, and subsequently released into wines as their free odor-active forms via metabolism by yeasts during fermentation. Blocking VP uptake into grapes would, therefore, be an effective way for vineyards to protect ripening grape crops exposed to smoke. Here, we re-evaluated a biofilm that had previously shown promise in pilot studies in reducing levels of smoke-derived VPs. A suite of nine free and acid-labile VPs were quantitated in Pinot Noir grapes that had been exposed to smoke after being coated with the biofilm one, seven or 14 days earlier. In contrast with earlier studies, our results demonstrated that in all cases, the biofilm treatments led to increased concentrations of both free and total VPs in smoke-exposed grapes, with earlier applications elevating concentrations of some VPs more than the later time points. Tracking VP concentrations through the grape ripening process demonstrated that some (phenol, <i>p</i>/<i>m</i>-cresol, and guaiacol) were not entirely sequestered in grapes as acid-labile conjugates, suggesting the presence of VP storage forms beyond simple glycosides. Free VPs in grapes, though a minor portion of the total, most clearly correlated with concentrations present in the resulting wines. Finally, red table grapes, available year round, were observed to replicate the effects of the biofilm treatments and were capable of transforming most VPs into acid-labile conjugates in under 24 h, indicating that they might be an effective model for rapidly assessing smoke-taint prophylactic products in the laboratory.https://www.mdpi.com/1420-3049/26/14/4311grapessmoke taintvolatile phenolsglycosidescrop protectionfermentation
collection DOAJ
language English
format Article
sources DOAJ
author James W. Favell
Osei B. Fordwour
Sydney C. Morgan
Ieva Zigg
Wesley F. Zandberg
spellingShingle James W. Favell
Osei B. Fordwour
Sydney C. Morgan
Ieva Zigg
Wesley F. Zandberg
Large-Scale Reassessment of In-Vineyard Smoke-Taint Grapevine Protection Strategies and the Development of Predictive Off-Vine Models
Molecules
grapes
smoke taint
volatile phenols
glycosides
crop protection
fermentation
author_facet James W. Favell
Osei B. Fordwour
Sydney C. Morgan
Ieva Zigg
Wesley F. Zandberg
author_sort James W. Favell
title Large-Scale Reassessment of In-Vineyard Smoke-Taint Grapevine Protection Strategies and the Development of Predictive Off-Vine Models
title_short Large-Scale Reassessment of In-Vineyard Smoke-Taint Grapevine Protection Strategies and the Development of Predictive Off-Vine Models
title_full Large-Scale Reassessment of In-Vineyard Smoke-Taint Grapevine Protection Strategies and the Development of Predictive Off-Vine Models
title_fullStr Large-Scale Reassessment of In-Vineyard Smoke-Taint Grapevine Protection Strategies and the Development of Predictive Off-Vine Models
title_full_unstemmed Large-Scale Reassessment of In-Vineyard Smoke-Taint Grapevine Protection Strategies and the Development of Predictive Off-Vine Models
title_sort large-scale reassessment of in-vineyard smoke-taint grapevine protection strategies and the development of predictive off-vine models
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2021-07-01
description Smoke taint in wine is thought to be caused by smoke-derived volatile phenols (VPs) that are absorbed into grape tissues, trapped as conjugates that are imperceptible by smell, and subsequently released into wines as their free odor-active forms via metabolism by yeasts during fermentation. Blocking VP uptake into grapes would, therefore, be an effective way for vineyards to protect ripening grape crops exposed to smoke. Here, we re-evaluated a biofilm that had previously shown promise in pilot studies in reducing levels of smoke-derived VPs. A suite of nine free and acid-labile VPs were quantitated in Pinot Noir grapes that had been exposed to smoke after being coated with the biofilm one, seven or 14 days earlier. In contrast with earlier studies, our results demonstrated that in all cases, the biofilm treatments led to increased concentrations of both free and total VPs in smoke-exposed grapes, with earlier applications elevating concentrations of some VPs more than the later time points. Tracking VP concentrations through the grape ripening process demonstrated that some (phenol, <i>p</i>/<i>m</i>-cresol, and guaiacol) were not entirely sequestered in grapes as acid-labile conjugates, suggesting the presence of VP storage forms beyond simple glycosides. Free VPs in grapes, though a minor portion of the total, most clearly correlated with concentrations present in the resulting wines. Finally, red table grapes, available year round, were observed to replicate the effects of the biofilm treatments and were capable of transforming most VPs into acid-labile conjugates in under 24 h, indicating that they might be an effective model for rapidly assessing smoke-taint prophylactic products in the laboratory.
topic grapes
smoke taint
volatile phenols
glycosides
crop protection
fermentation
url https://www.mdpi.com/1420-3049/26/14/4311
work_keys_str_mv AT jameswfavell largescalereassessmentofinvineyardsmoketaintgrapevineprotectionstrategiesandthedevelopmentofpredictiveoffvinemodels
AT oseibfordwour largescalereassessmentofinvineyardsmoketaintgrapevineprotectionstrategiesandthedevelopmentofpredictiveoffvinemodels
AT sydneycmorgan largescalereassessmentofinvineyardsmoketaintgrapevineprotectionstrategiesandthedevelopmentofpredictiveoffvinemodels
AT ievazigg largescalereassessmentofinvineyardsmoketaintgrapevineprotectionstrategiesandthedevelopmentofpredictiveoffvinemodels
AT wesleyfzandberg largescalereassessmentofinvineyardsmoketaintgrapevineprotectionstrategiesandthedevelopmentofpredictiveoffvinemodels
_version_ 1721286789121966080

Similar Items