SOILS, SEC 1 SOIL ORGANIC MATTER DYNAMICS AND NUTRIENT CYCLING RESEARCH ARTICLE Aluminum speciation in the bulk and rhizospheric soil solution of the species colonizing an abandoned copper mine in Galicia (NW Spain) Esperanza Álvarez & María Fernández-Sanjurjo & Xosé Luis Otero & Felipe Macías Received: 31 May 2010 / Accepted: 25 August 2010 / Published online: 7 September 2010 # Springer-Verlag 2010 Abstract Purpose The present study was carried out to identify and quantify the aluminum species present in the bulk and rhizospheric soil solution of the spontaneous vegetation colonizing the dump (Calluna vulgaris, Erica cinerea) and slope (C. vulgaris, E. cinerea, Salix atrocinerea) of an abandoned Cu mine in Touro (Galicia, NW Spain). Materials and methods Total dissolved aluminum was speciated into reactive Al (Alr) and acid-soluble Al (Alsa). Acid-soluble aluminum comprises colloids, polymers and/or organo-aluminum complexes, whereas Alr comprises non- labile monomeric aluminum (AlnL) and labile monomeric aluminum (AlL). The latter fraction included Al 3+ , AlOH complexes, AlF complexes, and AlSO 4 complexes. Results and discussion The results show that Ericaceae modified the pH of the rhizosphere from 6.6 to 4.0 (C. vulgaris) in the slope, whereas S. atrocinerea only grew in close-to-neutral soil conditions and increased the rhizosphere pH by 0.8 units. The total concentration of Al in the soil solution was low (<75 μmolL 1 ) and was higher in the rhizosphere than in the bulk soil solution in all samples. Under Ericaceae, the Alr represented between 80% and 98% of the total Al in solution and the concentration was higher in the rhizosphere; under S. atrocinerea the Alsa was always higher than 80%, with higher concentrations in the rhizo- sphere. AlL predominated over AlnL in all samples. The distribution of labile Al into different species depended on the pH and the concentration of labile Al: Al 3+ predominated in all samples from the dump (>40% of the AlL) and in the C. vulgaris rhizosphere in the slope (>52% of the AlL); the AlF complexes were more abundant in the E. cinerea rhizosphere in the slope (>40% of the AlL), and AlOH complexes predominated in all samples associated with S. atrocinerea (>70%). In the mine dump, the Ca/AlL ratio changed from 0.07 (bulk soil) to higher than 1.4 in the root zone of the Ericaceae thus decreasing the risk of toxicity by this element. Conclusions Labile aluminum is the prevailing fraction in all dump samples and in the rhizosphere of Ericaceae growing on the slope. Al 3+ is the predominant species in the most acidic samples with the highest concentration of labile Al and the highest AlL/F ratio. In areas where there may be a risk of Al toxicity, Ericaceae accumulated Ca in the vicinity of the roots, thus increasing the Ca/AlL ratio relative to that in the bulk soil and preventing absorption of Al and the associated phytotoxicity. Keywords Ca/AlL . Calluna vulgaris . Erica cinerea . Fractionation and speciation of Al in soil solution . Mine soil . Rhizosphere . Salix atrocinerea 1 Introduction Open cast mining has a strong impact on the environment, the intensity of which depends on the morphology of the deposit and on the nature of the minerals. Revegetation of mine slopes and dumps is the most effective method of Responsible editor: Weixin Cheng E. Álvarez (*) : M. Fernández-Sanjurjo : X. L. Otero Depto. Edafología y Química Agrícola, Universidad de Santiago de Compostela, Escuela Politécnica Superior, Campus Universtario, 27002 Lugo, Spain e-mail: esperanza.alvarez@usc.es F. Macías Facultad de Biología, Dpto. Edafología y Química Agrícola, Universidad de Santiago de Compostela, Campus sur, 15782 Santiago de Compostela, Spain J Soils Sediments (2011) 11:221230 DOI 10.1007/s11368-010-0295-2