L’utilisation du RHIZOtest pour comprendre l’influence des propriétés de la rhizosphère dans le déterminisme de la phytodisponibilité des éléments traces à fait l’objet de nombreuses publications scientifiques.
1. Guivarch A, Hinsinger P et Staunton S 1999 Root uptake and distribution of radiocaesium from contaminated soils and the enhancement of Cs adsorption in the rhizosphere. Plant Soil, 211, 131-138.
2. Chaignon V, Bedin F et Hinsinger P 2002 Copper bioavailability and rhizosphere pH changes as affected by nitrogen supply for tomato and oilseed rape cropped on an acidic and a calcareous soil. Plant Soil, 243, 219-228.
3. Chaignon V, Di Malta D et Hinsinger P 2002 Fe-deficiency increases Cu acquisition by wheat cropped in a Cu-contaminated vineyard soil. New Phytol., 154, 121-130.
4. Pinel F, Leclerc-Cessac E et Staunton S 2003 Relative contributions of soil chemistry, plant physiology and rhizosphere induced changes in speciation on Ni accumulation in plant shoots. Plant Soil, 255, 619-629.
5. Calba H, Firdaus, Cazevieille P, Thée C, Poss R et Jaillard B 2004 The dynamics of protons, aluminium, and calcium in the rhizosphere of maize cultivated in tropical acid soils: experimental study and modeling. Plant Soil, 260, 33-46.
6. Loosemore N, Straczek A, Hinsinger P et Jaillard B 2004 Zinc mobilisation from a contaminated soil by three genotypes of tobacco as affected by soil and rhizosphere pH. Plant Soil, 260, 19-32.
7. Cornu JY, Staunton S et Hinsinger P 2007 Copper concentration in plants and in the rhizosphere as influenced by the iron status of tomato (Lycopersicon esculentum L.). Plant Soil, 292, 63-77.
8. Bravin MN, Marti AL, Clairotte M et Hinsinger P 2009 Rhizosphere alkalisation — a major driver of copper bioavailability over a broad pH range in an acidic, copper-contaminated soil. Plant Soil, 318, 257-268.
9. Chaignon V, Quesnoit M et Hinsinger P 2009 Copper availability and bioavailability are controlled by rhizosphere pH in rape grown in an acidic Cu-contaminated soil. Environ. Poll. 157, 3363-3369.
10. Bravin MN, Michaud AM, Larabi B et Hinsinger P 2010 RHIZOtest: A plant-based biotest to account for rhizosphere processes when assessing copper bioavailability. Environ. Pollut., 158, 3330-3337.
11. Bravin MN, Garnier C, Lenoble V, Gérard F, Dudal Y et Hinsinger P 2012 Root-induced changes in pH and dissolved organic matter binding capacity affect copper dynamic speciation in the rhizosphere. Geochim. Cosmochim. Acta, 84, 256–268.
