Modifications of vessel size and of shoot hydraulic conductivity induced by different water availability levels (leaf water potential -0.35 MPa, -0.6 MPa and -0.8 MPa, respectively) were investigated in container-grown grapevine plants. Plant water loss, measured as xylem sap flow and as leaf transcription, was lower in water-stressed plants. Morphometric measurements on xylem showed that vessels of water-stressed plants had lower transectional areas. Shoot hydraulic conductivity (kh), shoot specific conductivity (ks) and leaf specific conductivity (kl were lower in water-stressed plants. When conductivities were measured on shoot portions, differences between treatments were particularly high at the basal internodes. At the lower stress level no embolism was detected, and reduced conductivity could be explained by the reduction of vessel diameter, according to the Poiseuille equation. At the higher stress level kh was further reduced by formation of vessel embolisms. The tension gradient along the shoot increased only at the higher stress level. Stomatal conductance was linearly correlated with kl at low stress levels, suggesting a concerted regulation of water flow, while at higher stress levels stomatal conductance decreased with no changes of kl. Reduced development of xylem vessels in grapevines subjected to moderate water stress may contribute to the control of water flow and to a reduction in vulnerability to xylem embolism.

Effects of water stress on vessel size and xylem hydraulic conductivity in Vitis vinifera L

LOVISOLO, Claudio;SCHUBERT, Andrea
1998-01-01

Abstract

Modifications of vessel size and of shoot hydraulic conductivity induced by different water availability levels (leaf water potential -0.35 MPa, -0.6 MPa and -0.8 MPa, respectively) were investigated in container-grown grapevine plants. Plant water loss, measured as xylem sap flow and as leaf transcription, was lower in water-stressed plants. Morphometric measurements on xylem showed that vessels of water-stressed plants had lower transectional areas. Shoot hydraulic conductivity (kh), shoot specific conductivity (ks) and leaf specific conductivity (kl were lower in water-stressed plants. When conductivities were measured on shoot portions, differences between treatments were particularly high at the basal internodes. At the lower stress level no embolism was detected, and reduced conductivity could be explained by the reduction of vessel diameter, according to the Poiseuille equation. At the higher stress level kh was further reduced by formation of vessel embolisms. The tension gradient along the shoot increased only at the higher stress level. Stomatal conductance was linearly correlated with kl at low stress levels, suggesting a concerted regulation of water flow, while at higher stress levels stomatal conductance decreased with no changes of kl. Reduced development of xylem vessels in grapevines subjected to moderate water stress may contribute to the control of water flow and to a reduction in vulnerability to xylem embolism.
1998
49 (321)
693
700
http://jxb.oxfordjournals.org/cgi/reprint/49/321/693
Sap flow rate; transpiration; stomatal conductance; xylem vessel anatomy; vessel embolism
LOVISOLO C; A. SCHUBERT
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1633
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