Water relations of olive trees cultivated under deficit irrigation regimes

The experiment was carried out at the Experimental Field 'Taoues', southern Tunisia (34 degrees N, 10 degrees E) to examine the effect of irrigation schedules on water relations for young olive trees, cultivars Chetoui, Chemlali, Coratina, Picholine and Manzanille. Plants were cultivated' at 7m x 7m spacing and drip irrigated from April to September. Irrigation amounts (IA) of 20%ETc, 50%ETc and 100%ETc were applied, where ETc is the FAO crop evapotranspiration. The effect of IA on midday leaf water potential (Psi(leaf)), stomatal resistance (R-s) and conductance (g(s)), soil (H-v) and relative leaf (RWC) water contents was studied. Results showed that a further increase in IA was not systematically followed by an increase of water potential, production and WUE values. Some controversial responses were observed following to a variety with large seasonal variations. At the beginning of the growing season, differences between treatments were not very important because soil water content was still high enough to prevent important changes in Wear values. The most stressed trees showed potentials of -1.53 MPa for Picholine cv. and ranging between -2.30 MPa and -2.10 MPa for the other varieties depending on IA. The less stressed trees provided potentials of -0.97 MPa for Picholine cv. and varying between -1.63 MPa and -2.13 MPa for cultivars Coratina, Manzanille, Chetoui and Chemlali. Then, as the season progresses, and when IA was increased from 20%ETc, to 50%ETc, Psi(leaf) values decreased significantly for cultivars Chemlali (-3.05 MPa), Coratina (-3.75 MPa), Manzanille (-3.0 MPa) and Chetoui (-3.5 MPa). At 100%ETc, Manzanille and Picholine cultivars show better water status with respective potentials of -2.7 MPa and -2.6 MPa. Stomatal resistance monitoring showed maximums at midday for all cultivars with pick value of 4.45 s/cm recorded for Chetoui cultivar irrigated at 50% ET,. The most important variations were recorded for cultivar Chemlali which seem to be the ablest to regulate stomata aperture. Close coordination between Psi(leaf) and g, and Psi(leaf) and RWC measurements was found. But, the response varied following to treatment. At low irrigation levels (20%ETc and 50%ETc), gs was found to be linearly and positively correlated to Psi(leaf). It increased linearly and positively with increasing values of Psi(leaf) (r of 0.84 and 0.96, respectively). At 100%ETc. Psi(leaf) is found to be correlated to g(s) following to a polynomial function with an optimum g, value of 450 mmol/m(2)/s and Psi(leaf) of about -2.5 MPa. (C) 2010 Elsevier B.V. All rights reserved.