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Abstract
Bananas (Musa spp.), as many other crop species, accumulate aluminum (Al) in roots when grown in nutrient solution containing Al ions. Aluminum can compete with calcium (Ca) and magnesium (Mg) on the root exchange sites, which has been reported as a possible cause for Al toxicity to the plant. We measured the cation exchange capacity of roots (CECR) of 5 banana cultivars (Grande Naine, Agbagba, Obino l'Ewaï, Igitsiri, and Kayinja) and determined the composition of the root exchange sites in nutrient solutions with and without Al, and in two tropical soils. Aluminum, Ca, and Mg were extracted using a sequential procedure involving 0.01 M copper sulphate for Cu-extractable cations, 0.1 M hydrochloric acid and ash solubilization in nitric acid. The mean CECR values of the 5 cultivars were similar in the 2 soils and in the nutrient solution without Al (CECR=23.0 cmolc kg− 1), but significantly larger for bananas grown in nutrient solution with Al (CECR=32.6 cmolc kg− 1). The most Al-sensitive cultivar (Kayinja) had larger CECR than the others. Calcium was the dominant Cu-extractable cation in all cases. In the roots grown in nutrient solution with Al and in the two soils, Al amounted to 15–35% of the sum of Cu-extractable cations, but most Al was not extracted with Cu. The Cu-extractable Mg was drastically reduced in nutrient solution with Al, whereas the Cu-extractable Ca was little affected. Therefore we suggest that the Al/Mg ratio on root exchange sites could be a better indicator of Al toxicity than the Al/Ca ratio.
Acknowledgments
This work was supported by the EU contract INCO-DC CEE CT 970208 and by the research program No. 2.4595.98 of the Belgian Fonds de la Recherche Fondamentale et Collective (FNRS–FRFC). We thank Ir. Inès van den Houwe of the INIBAP Transit Centre at the Katholieke Universiteit Leuven for advices and services during the in vitro culture phase of bananas, Patrick Populaire and Anne Iserentant for their technical support during the experiments and for the chemical analyses.