Abstract
Aluminium toxicity is a major factor limiting crop productivity worldwide (Bennet and Breen 1990). It is particularly a problem in highly weathered soils, where Al in the acidic subsoil presents a chemical barrier to deep root penetration (Hammel and Summer 1989), increasing susceptibility to drought (Sartain and Kamprath 1978). This is true for traditional high-input agricultural systems and even more so for lowinput, nonirrigated sustainable systems. Additionally, genotypes which are drought resistant have been found to be Al-tolerant (Foy 1988; Goldman et al. 1989). Because of its agricultural importance, Al toxicity has been intensively studied. Nevertheless, there is still no consensus on the primary mechanisms of Al toxicity or on the mechanistic basis for differential genotypic sensitivity.
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Lazof, D.B., Goldsmith, J.G., Linton, R.W. (1997). The in Situ Analysis of Intracellular Aluminium in Plants. In: Behnke, HD., Lüttge, U., Esser, K., Kadereit, J.W., Runge, M. (eds) Progress in Botany. Progress in Botany/Fortschritte der Botanik, vol 58. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-60458-4_5
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