Juxtaposition of the Source-to-Sink Ratio and Fruit Exposure to Solar Radiation on cv. Merlot (Vitis vinifera L.) Berry Phenolics in a Cool versus Warm Growing Region

The grapevine source-to-sink ratio and berry exposure to solar radiation both influence grape flavonoid biosynthesis and accumulation. Here, we compared these concepts on cv. Merlot in two different growing locations (Michigan (NH) and Friuli-Venezia Giulia (FVG), IT) to understand whether the environment influences flavonoid sensitivity to these parameters. Three levels of leaf removal (LR0, LR5, LR8) were implemented at the pea-size phenological stage to compare conditions of increased cluster light exposure with a decreasing vine source-to-sink ratio on berry flavonoid accumulation. Treatments did not affect total soluble solids (TSSs) or pH, but titratable acidity (TA) was lower in LR8 at harvest in both locations. LR5 increased anthocyanins and flavonols in MI but decreased most phenolics in FVG. The decreased expression of VviLAR1 and VviF3'5'Hh during ripening supported the lower concentrations of flavan-3-ol monomers and anthocyanins in FVG. In summary, flavonoid biosynthesis and accumulation were more sensitive to solar radiation than the source-to-sink ratio, and the vineyard environment dictated whether solar radiation was beneficial or detrimental to flavonoid biosynthesis.

Automated summary

The grapevine source-to-sink ratio and berry exposure to solar radiation both have an impact on the biosynthesis and accumulation of grape flavonoids. This study compared the effects of these factors on Merlot grapes grown in different locations to understand their sensitivity to environmental conditions. The results showed that solar radiation had a greater influence on flavonoid biosynthesis and accumulation than the source-to-sink ratio, and the vineyard environment determined whether solar radiation was beneficial or detrimental to flavonoid production.