A. Naor et Rl. Wample, GAS-EXCHANGE AND WATER RELATIONS OF FIELD-GROWN CONCORD (VITIS-LABRUSCANA BAILEY) GRAPEVINES, American journal of enology and viticulture, 45(3), 1994, pp. 333-337
Gas exchange and water relations of irrigated and non-irrigated vines
and the effect of the duration of leaf exposure to direct sunlight on
gas exchange parameters of irrigated vines were studied on field-grown
Concord (Vitis labrusca) grapevines. Leaf water potential of the non-
irrigated vines decreased from -1.3 MPa (900 h) to -1.6 MPa (1600 h),
while that of the irrigated vines decreased from -1.0 MPa to -1.6 MPa
during the same time period. Differences in xylem water potential betw
een the two treatments changed from -0.45 MPa (900 h) to -0.37 MPa (16
00h). Xylem water potential was found to be more indicative of vine wa
ter status than that of leaf water potential. Shoot hydraulic resistan
ce of irrigated vines remained unchanged in spite of low afternoon lea
f water potential. Assimilation rate and stomatal conductance of non-i
rrigated vines were significantly reduced as leaf water potential decr
eased, where only a slight reduction was measured in the irrigated vin
es. These results may indicate the existence of a root signal controll
ing stomatal aperture in Concord. Lower afternoon assimilation rates a
nd stomatal conductances were found in continuously exposed leaves com
pared to leaves exposed to direct sunlight only in the afternoon. Howe
ver, the relationship between assimilation rate and stomatal conductan
ce remained the same regardless of the timing or duration of exposure
of the leaves.