Grafting of cucumber as a means to minimize copper toxicity

The aim of the current work was to determine whether grafting could improve copper (Cu) tolerance of cucumber, and to study the changes induced by the rootstock in the shoot growth at agronomical and physiological levels. A greenhouse experiment was carried out to determine yield, growth, fruit quality, leaf gas exchange, chlorophyll and carotenoids contents, electrolyte leakage, mineral composition and assimilate partitioning of cucumber plants (Cucumis sativus L. cv. 'Akito'), either ungrafted or grafted onto the commercial rootstock 'Shintoza' (Cucurbita maxima Duchesne x Cucurbita moschata Duchesne) and cultured in nutrient film technique (NFT). Plants were supplied with nutrient solutions having three levels of Cu concentration [0.3 (control), 47, or 94 mu M]. Significant depression of yield, shoot and root biomass production, and fruit quality (low fruit pH, and high Cu content) in Cu treated cucumber plants was observed, and this effect varied as a function of Cu concentration in NFT solution. The relative yield of cucumber decreased by approximate to 3.4% for each unit of increase in leaf tissue Cu concentrations above the threshold value (7.8 mu g g(-1)). At the two higher Cu concentrations (47 and 94 mu M Cu), the percentages of yield, shoot and root biomass weight reductions were significantly lower in grafted plants in comparison to those of the ungrafted plants. Excessive Cu, especially at 94 mu M Cu, inhibited photosynthesis, pigment synthesis, and membrane integrity. The Cu-related reductions in net assimilation, stomatal conductance, chlorophyll and carotenoid content were more severe in ungrafted plants in comparison with those grafted on 'Shintoza'. The percentage of electrolyte leakage was significantly higher in ungrafted plants especially those with severe Cu toxicity (94 mu M Cu). The accumulation of Cu in leaf tissue at 47 and 94 mu M Cu, with respect to control, were significantly lower in grafted plants (138 and 181%, respectively) in comparison to that of ungrafted plants (about 235 and 392%, respectively). Significant reduction of macro- (N, K, Ca and Mg) and micro-elements (Fe, Mn and Zn) in cucumber leaf tissue was found under moderate and severe Cu stresses especially on ungrafted plants. The improved crop performance of grafted plants was attributed to their strong capacity to inhibit Cu accumulation in the aerial parts and to maintain a better plant nutritional status. (c) 2007 Elsevier B.V. All rights reserved.