Resumo

RODRIGUEZ-SANCHEZ, Verónica Monserrat; MORALES-MORENO, Joselin Damaris; CRAM-HEYDRICH, Silke  e  CRUZ-ORTEGA, Rocío. Aluminium localization and quantification in plant tissues: analytical and histochemical tools. Terra Latinoam [online]. 2022, vol.40, e999.  Epub 03-Fev-2023. ISSN 2395-8030.  https://doi.org/10.28940/terra.v40i0.999.

Aluminum (Al) is the third most abundant element in the Earth’s crust. Its chemical form depends on the soil pH values. In acidic soils, Al is released and solubilized mainly in the ionic form of Al3+, which is toxic to most plants. The main toxic effects of Al are observed at the root apex, inhibiting cell division and elongation, which causes a deficient root to uptake water and nutrients, resulting in growth inhibition, thus, a decrease in plant productivity. At present, Al is available in soils that are not naturally acidic and used as farmland, which has generated a research line in relation with the effect of Al in different plant species, for example, accumulation and concentration sites in the different plant organs. In this context, the objective of this review article is to provide a guide to select the most appropriate technique that allows localizing and quantifying Al in the different organs of plants growing in acidic soils. For this purpose, the fundamentals of the different techniques to locate and quantify Al in plant organs and/or tissues are first described, and this information is integrated by providing a guide recommending the most appropriate technique based on some characteristics of the species to be analyzed. Furthermore, going deeper into the study of Al accumulation sites and concentrations that the plants can absorb should allow selecting tolerant crops that can be used for agricultural production or phytoremediation studies.

Palavras-chave : hyperaccumulation; histochemistry; acid soils; aluminum toxicity.

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