Separation of Sunlight and Temperature Effects on the Composition of Vitis vinifera cv. Merlot Berries

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Separation of Sunlight and Temperature Effects on the Composition of Vitis vinifera cv. Merlot Berries

S. E. Spayd ¹, J. M. Tarara ², D. L. Mee ¹, and J. C. Ferguson ²

¹ Department of Food Science and Human Nutrition, Irrigated Agriculture Research and Extension Center, Washington State University, 24106 N. Bunn Road, Prosser, WA 99350
² Horticultural Crops Research Unit, USDA-ARS, 24106 N. Bunn Road, Prosser, WA 99350

Email: spayds{at}wsu.edu

Anthocyanin and phenolic profiles of berry skins from Vitisvinifera cv. Merlot in the Yakima Valley of Washington wereinfluenced by sun exposure and temperature in 1999 and 2000.Growing degree days (base 10°C) accumulated between veraisonand harvest were lower in 2000 than in 1999. Total skin monomericanthocyanin (TSMA) concentrations were higher in 2000 than in1999 in any given treatment. Berry temperature was increasedas much as 13°C above ambient and shaded cluster temperatureswhen clusters were exposed to sunlight, regardless of aspectfor north-south oriented rows. However, maximum fruit temperatureswere higher for clusters on the west side of the canopy becauseambient temperatures were higher after 1200 hr. Temperaturesof west-exposed clusters at times exceeded 40°C. East-exposed clustershad higher TSMA concentrations than west-exposed or shaded clusters.To separate light and temperature effects, west-exposed clusterswere cooled to the temperature of shaded clusters and shaded clusterswere heated to the temperature of west-exposed clusters. Exposureto sunlight increased TSMA concentrations regardless of temperaturein both years. In 1999 and 2000, cooling sun-exposed clusters increasedTSMA concentrations. Heating shaded clusters decreased TSMAconcentrations in 1999, but had no effect during the coolerripening period of 2000. Ultraviolet (UV) light barriers didnot influence either cluster temperature or TSMA concentrations.Decreased TSMA concentrations in berry skins from west-exposedclusters were due to temperature and not to UV radiation. Exposureto solar radiation increased concentrations of the 3-glycosidesof quercetin, kaempferol, and myricetin. In 2000, sun-exposedclusters, regardless of aspect, had almost 10 times greaterconcentrations of total flavonols than shaded clusters. UV-lightbarriers significantly reduced individual and total flavonolconcentrations, while temperature had little to no effect ontheir concentrations.

Note:
Acknowledgments: The authors thank the Washington Wine Advisory Committee for partial support of this study.

Key words: Canopy management, light, microclimate, UV, color, heat stress, photoregulation, soluble solids, acidity, pH

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