Abstract
Young olive plants (Olea europaea L.) were grown either in hydroponic or soil culture in a glasshouse over two growing seasons. Plants were exposed to NaCl concentrations between 0 and 200 mM for 34–35 days followed by 30–34 days of relief from stress to determine the effect of salinity on gas exchange of two cultivars ('Frantoio' and 'Leccino') differing in salt-exclusion capacity. Salinity stress brought about a reduction in net CO2 assimilation and stomatal conductance in both cultivars, but the effect was more pronounced in the salt tolerant 'Frantoio' than in the salt-sensitive 'Leccino' cultivar. Therefore, gas exchange parameters may be misleading if used to evaluate the salt tolerance of olive genotypes. Recovery in gas exchange parameters during relief from stress was slower in the salt sensitive cultivar. In general, the decline in assimilation reflected the salt-induced reduction in stomatal conductance, but a marked effect on carboxylation efficiency and CO2 compensation point was measured in plants treated with 200 mM NaCl for four weeks. The cultivar 'Frantoio' showed a 50% reduction in assimilation and stomatal conductance at 146 and 78 mM leaf Na+ concentration (tissue water molar basis) respectively, whereas the corresponding 50% thresholds for the cultivar 'Leccino' were at 275 and 264 mM, respectively.
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References
Bañuls J and Primo-Millo E 1992 Effects of chloride and sodium on gas exchange properties and water relations of Citrus plants. Physiol. Plant. 86, 115–123.
Bongi G and Loreto F 1989 Gas exchange properties of salt-stressed olive (Olea Europaea L. ) leaves. Plant Physiol. 90, 1408–1416.
Bongi G, Mencuccini M and Fontanazza G 1987 Photosynthesis of olive leaves: effect of light flux density, leaf age, temperature, peltates, and H2O vapor pressure deficit on gas exchange. J. Am. Soc. Hort. Sci. 112, 143–148.
Brugnoli E and Björkman O 1992 Growth of cotton under continuous salinity stress: influence on allocation pattern, stomatal and nonstomatal components of photosynthesis and dissipation of excess light energy. Planta 187, 335–347.
Durand J L, Onillon B, Schnyder H and Rademacher I 1995 Drought effects on cellular and spatial parameters of leaf growth in tall fescue. J. Exp. Bot. 46, 1147–1155.
Everard J D, Gucci R, Kann S C, Flore J A and Loescher W H 1994 Gas exchange and carbon partitioning in the leaves of celery (Apium graveolens L.) at various levels of root zone salinity. Plant Physiol. 106, 281–292.
Gale J, Kohl H C and Hagan R M 1967 Changes in the water balance and photosynthesis of onion, bean and cotton plants under saline conditions. Physiol. Plant. 20, 408–420.
Gucci R, Lombardini L and Tattini M 1997 Analysis of leaf water relations in two olive (Olea europaea L.) cultivars differing in tolerance to salinity. Tree Physiol. 17, 13–21.
Gucci R and Tattini M 1997 Salinity tolerance in olive. Hortic. Rev. 21, 177–214.
Gucci R, Xiloyannis C and Flore J A 1991 Gas exchange parameters, water relations and carbohydrate partitioning in leaves of field-grown Prumus domestica following fruit removal. Physiol. Plant. 83, 497–505.
Heimler D, Tattini M, Ticci S, Coradeschi M A and Traversi M L 1995 Growth, ion accumulation and lipid composition of two olive genotypes under salinity. J. Plant Nutr. 18, 1723–1734.
Leon J M and Bukovac M J I 978. Cuticle development and surface morphology of olive leaves with reference to penetration of foliar-applied chemicals. J. Am. Soc. Hort. Sci. 103, 465–472.
Loreto F and Sharkey T D 1990 Low humidity can cause uneven photosynthesis in olive (Olea europaea L.) leaves. Tree Physiol. 6, 409–415.
Rawson H M, Long M J and Munns R 1988 Growth and development in NaCl treated plants. I. Leaf Na+ and Cl-concentrations do not determine gas exchange of leaf blades in barley. Aust. J. Plant Physiol. 15, 519–527.
Tattini M 1994 Ionic relations of aeroponically-grown olive genotypes during salt stress. Plant Soil 161, 251–256.
Tattini M, Bertoni P and Caselli S 1992 Genotypic responses of olive plants to sodium chloride. J. Plant Nutr. 15, 1467–1485.
Tattini M, Gucci R, Coradeschi M A, Ponzio C and Everard J D 1995 Growth, gas exchange and ion content in Olea europaea L. plants during salinity stress and subsequent relief. Physiol. Plant. 95, 203–210.
Tattini M, Gucci R, Romani A, Baldi A and Everard J D 1996 Changes in non-structural carbohydrates in olive (Olea europaea L.) leaves during root zone salinity stress. Physiol. Plant. 98, 117–124.
Walker R R, Torokfalvy E, Steele Scott N and Kriedemann P E 1981 An analysis of photosynthetic response to salt treatment in Vitis vinifera. Aust. J. Plant Physiol. 8, 359–374.
Walker R R, Blackmore D D and Sun Qing 1993 Carbon dioxide accumulation and foliar ion concentrations in leaves of lemon (Citrus limon L.) trees irrigated with NaCl or Na2SO4. Aust. J. Plant Physiol. 20, 173–185.
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Tattini, M., Lombardini, L. & Gucci, R. The effect of NaCl stress and relief on gas exchange properties of two olive cultivars differing in tolerance to salinity. Plant and Soil 197, 87–93 (1997). https://doi.org/10.1023/A:1004241628878
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DOI: https://doi.org/10.1023/A:1004241628878