TY - JOUR
T1 - Effects of Apical, Late-Season Leaf Removal on Vine Performance and Wine Properties in Sangiovese Grapevines (Vitis vinifera L.)
AU - Vercesi, Alberto
AU - Gabrielli, Mario
AU - Garavani, Alessandra
AU - Poni, Stefano
PY - 2024
Y1 - 2024
N2 - Abstract: An urgent challenge posed by climate change in warm grapevine-growing areas is accelerated
ripening, which leads to rapid sugar accumulation while phenolics and aroma traits lag
behind. Techniques that enable selectively delaying the sugar accumulation process without affecting
the accumulation of secondary metabolites are essential. This study aimed to evaluate the effects
of apical-to-cluster defoliation, manually applied in 2019 at the onset of veraison (D1) or 20 days
later (D2), which removed about 30–40% of the pending total leaf area without altering the cluster
microclimate compared with a non-defoliated control (C). Ripening trends, vegetative growth,
yield components, and the final grape and wine composition, as well as wine sensorial attributes,
were assessed. Although both treatments significantly lowered the final leaf area-to-yield ratio
(0.80–0.90 m2/kg) compared with the 1.35 m2/kg recorded in the C vines, only D1 reduced the
final total soluble solids (TSS) at harvest (2 ◦Brix less than C). However, the total anthocyanins were
similarly limited, and titratable acidity (TA) did not differ from the C vines. The D1 wine was deemed
similar to that made from control plants. Conversely, D2 failed to delay ripening, yet the D2 wine
was deemed superior in terms of olfactory intensity, body, fruitiness, balance, and overall preference.
Although the study was conducted over a single season, the results are robust enough to conclude
that the timing of defoliation—i.e., the level of TSS concurrently reached by the C treatment—is
crucial to achieving specific effects. Early defoliation appears valid for postponing ripening into a
cooler period, making it quite interesting in warm–hot areas with a very long growing season; a much
later defoliation, likely due to the interaction between mean canopy age and more light filtering from
above the cluster zone, can elevate the quality of and appreciation for the final wine.
AB - Abstract: An urgent challenge posed by climate change in warm grapevine-growing areas is accelerated
ripening, which leads to rapid sugar accumulation while phenolics and aroma traits lag
behind. Techniques that enable selectively delaying the sugar accumulation process without affecting
the accumulation of secondary metabolites are essential. This study aimed to evaluate the effects
of apical-to-cluster defoliation, manually applied in 2019 at the onset of veraison (D1) or 20 days
later (D2), which removed about 30–40% of the pending total leaf area without altering the cluster
microclimate compared with a non-defoliated control (C). Ripening trends, vegetative growth,
yield components, and the final grape and wine composition, as well as wine sensorial attributes,
were assessed. Although both treatments significantly lowered the final leaf area-to-yield ratio
(0.80–0.90 m2/kg) compared with the 1.35 m2/kg recorded in the C vines, only D1 reduced the
final total soluble solids (TSS) at harvest (2 ◦Brix less than C). However, the total anthocyanins were
similarly limited, and titratable acidity (TA) did not differ from the C vines. The D1 wine was deemed
similar to that made from control plants. Conversely, D2 failed to delay ripening, yet the D2 wine
was deemed superior in terms of olfactory intensity, body, fruitiness, balance, and overall preference.
Although the study was conducted over a single season, the results are robust enough to conclude
that the timing of defoliation—i.e., the level of TSS concurrently reached by the C treatment—is
crucial to achieving specific effects. Early defoliation appears valid for postponing ripening into a
cooler period, making it quite interesting in warm–hot areas with a very long growing season; a much
later defoliation, likely due to the interaction between mean canopy age and more light filtering from
above the cluster zone, can elevate the quality of and appreciation for the final wine.
KW - berry ripening
KW - canopy management
KW - sensorial analysis
KW - summer pruning
KW - total soluble solids
KW - berry ripening
KW - canopy management
KW - sensorial analysis
KW - summer pruning
KW - total soluble solids
UR - http://hdl.handle.net/10807/297441
U2 - 10.3390/horticulturae10090929
DO - 10.3390/horticulturae10090929
M3 - Article
SN - 2311-7524
VL - 10
SP - 1
EP - 6
JO - Horticulturae
JF - Horticulturae
ER -