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1 Istituto di Coltivazioni Arboree, University of Perugia, 06100 Perugia, Italy.
The photosynthetic activity of grapevine leaves (Sangiovese/Kober 5BB) was evaluated under field conditions
on mature vines grown under three different levels of photosynthetically active radiation (PAR, 100%, 60%, and
30% sunlight) by measuring the response of net photosynthesis (Pn) to PAR at flowering and veraison. The
diurnal trends of PAR, Pn, leaf transpiration rate (E), stomatal conductance to HL2O vapor (gs), substomatal CO2
concentration (Ci), and leaf water potential (
) were determined. Responses of Pn to PAR were analyzed using
asymptotic exponential curves, which provided estimates of the radiation saturated rate of Pn (Pnsat), dark
respiration (Rd), light compensation, and saturation points (PARc and PARsat, respectively) and the apparent
quantum yield of CO2 assimilation (
i). At flowering and veraison, the leaves of shade-grown vines (60% and
30% sunlight) showed significantly lower Pnsat, Rd, PARc, and PARsat values, whereas the i was significantly
higher. In comparison to unshaded vines, the Pnsat in the vines grown at 60% and 30% sunlight measured
between 0900 and 1100 hours was about 62% and 54% at flowering and 81% and 65% at veraison, respectively.
At both phenological stages, the diurnal pattern of Pn, gs, and were positively correlated with PAR. Leaf
transpiration rate was significantly reduced by shading in the early morning during flowering and in the early
afternoon during veraison, whereas the calculated Ci was unaffected. All of these modifications that occurred
under shading are associated with a decrease in specific leaf dry weight, leaf soluble carbohydrates and starch
content, vine yield, total soluble solids in the berries, total leaf area per vine, number of axillary shoots per cane,
and winter pruning weight. The increase of i, leaf chlorophyll content, and the change in the growth habit to
a more open canopy increased the PAR trapping efficiency, which indicates an adaptability of the grapevine
to low light intensity. Vine yield and berry quality decreased linearly with increasing shade intensity. A profitable
management strategy is, therefore, necessary in order to assure that most of the leaves receive approximately
700 to 900 µmol m-2 S-1 of PAR for the greater part of the day during the entire crop cycle. All the factors that
could modify the light availability at the canopy level during the growing season, such as different vineyard
exposure, cloudiness, windbreak and horizontal hail netting presence, tall trellis system, and excessive shoot
vigor, must be correctly evaluated in order to reduce the risks of low photosynthetic activity, low vine yield, and
poorer grape quality.
Key words: Vitis vinifera, chlorophyll, leaf gas exchange, shading, specific leaf weight
Submitted on February 8, 1994
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