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« Previous Abstract"Bile acid diarrhoea and FGF19: new views on diagnosis, pathogenesis and therapy"    Next AbstractBasil seedling production environment influences subsequent yield and flavor compound concentration during greenhouse production »

Front Plant Sci


Title:Leveraging Controlled-Environment Agriculture to Increase Key Basil Terpenoid and Phenylpropanoid Concentrations: The Effects of Radiation Intensity and CO(2) Concentration on Consumer Preference
Author(s):Walters KJ; Lopez RG; Behe BK;
Address:"Department of Horticulture, Michigan State University, East Lansing, MI, United States"
Journal Title:Front Plant Sci
Year:2020
Volume:20210114
Issue:
Page Number:598519 -
DOI: 10.3389/fpls.2020.598519
ISSN/ISBN:1664-462X (Print) 1664-462X (Electronic) 1664-462X (Linking)
Abstract:"Altering the radiation intensity in controlled environments can influence volatile organic compound (VOC) biosynthetic pathways, including those of terpenoids and phenylpropanoids. In turn, the concentrations of these compounds can have a profound effect on flavor and sensory attributes. Because sweet basil (Ocimum basilicum) is a popular culinary herb, our objectives were to (1) determine the extent radiation intensity and carbon dioxide (CO(2)) concentration influence seedling terpenoid and phenylpropanoid concentrations; (2) determine if differences in phenylpropanoid and terpenoid concentrations influence consumer preference; and (3) characterize consumer preferences to better inform production and marketing strategies. 'Nufar' sweet basil was grown with CO(2) concentrations of 500 or 1,000 mumol ?na mol(-1) under sole-source radiation intensities of 100, 200, 400, or 600 mumol ?na m(-2) ?na s(-1) with a 16 h photoperiod to create daily light integrals of 6, 12, 23, and 35 mol ?na m(-2) ?na d(-1). After 2 weeks, concentrations of the terpenoids 1,8 cineole and linalool and the phenylpropanoids eugenol and methyl chavicol were quantified, and consumer sensory panel evaluations were conducted to quantify preferences. Overall, increasing radiation intensity from 100 to 600 mumol ?na m(-2) ?na s(-1) increased 1,8 cineole, linalool, and eugenol concentrations 2. 4-, 8. 8-, and 3.3-fold, respectively, whereas CO(2) concentration did not influence VOCs. Contrary to our hypothesis, increased VOC concentrations were not correlated with consumer preference. However, overall liking was correlated with aftertaste and flavor. The conclusion that consumer preference is dependent on flavor can be drawn. However, increasing VOC concentrations to increase flavor did not improve flavor preference. Many consumer sensory preference characteristics (favorable preference for aftertaste, bitterness/sweetness, color, flavor, overall liking, and texture) were correlated with basil grown under a radiation intensity of 200 mumol ?na m(-2) ?na s(-1). This led us to determine that consumers prefer to detect the characteristic basil flavor made up of 1,8 cineole, eugenol, and linalool, which was not as prevalent in basil grown under 100 mumol ?na m(-2) ?na s(-1), but too high in basil grown under 400 and 600 mumol ?na m(-2) ?na s(-1), which led to lower consumer preference"
Keywords:1 8 cineole Ocimum basilicum daily light integral eugenol linalool methyl chavicol sensory panel;
Notes:"PubMed-not-MEDLINEWalters, Kellie J Lopez, Roberto G Behe, Bridget K eng Switzerland 2021/02/19 Front Plant Sci. 2021 Jan 14; 11:598519. doi: 10.3389/fpls.2020.598519. eCollection 2020"

 
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