RHIZOtest: A plant-based biotest to account for rhizosphere processes when assessing copper bioavailability

Environmental Pollution

Volumn 158, Issue 10, 2010, Pages 3330-3337

  Bravin, Matthieu N ^a,b   Michaud, Aurélia M ^a   Larabi, Bourane ^a   Hinsinger, Philippe ^a  

^a UMR ECO SOLS   (France)

^b Dept Performance of Tropical Production and Processing Systems   (France)

Author keywords

Bioassay; DGT; Metal speciation; Phytoavailability; Root soil interface

Indexed keywords

A PLANTS; ACIDIC SOILS; COPPER BIOAVAILABILITY; DGT; DIFFUSIVE GRADIENTS IN THIN FILMS; DURUM WHEATS; FREE ION ACTIVITY MODELS; IN-FIELD; IN-SITU; METAL SPECIATION; PHYTOAVAILABILITY; ROOT-SOIL INTERFACE; SOIL PH; TERRESTRIAL BIOTIC LIGAND MODEL (TBLM); TRITICUM;

BIOASSAY; BIOCHEMISTRY; CONCENTRATION (PROCESS); COPPER; FORECASTING; GEOLOGIC MODELS; SOIL SURVEYS;

SOILS;

COPPER; ION;

BIOASSAY; BIOAVAILABILITY; CONCENTRATION (COMPOSITION); COPPER; DIFFUSION; GROWTH RESPONSE; PH; RHIZOSPHERE; SOIL CHEMISTRY; SPECIATION (CHEMISTRY); TESTING METHOD; WHEAT;

ALKALINIZATION; ARTICLE; BIOASSAY; CONCENTRATION (PARAMETERS); CONTROLLED STUDY; FILM; LIGAND BINDING; NONHUMAN; PH; PHYTOAVAILABILITY; PLANT GROWTH; PLANT ROOT; PREDICTION; RHIZOSPHERE; SOIL ACIDITY; SOIL CHEMISTRY; SOIL POLLUTION; WHEAT;

COPPER; ENVIRONMENTAL MONITORING; RHIZOME; RHIZOSPHERE; SOIL; SOIL POLLUTANTS; TRITICUM;

TRITICUM TURGIDUM; TRITICUM TURGIDUM SUBSP. DURUM;

EID: 77958174211     PISSN: 02697491     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.envpol.2010.07.029     Document Type: Article

References (39)

1. AFNOR Recueil de normes franaises 1999 Qualité des sols Paris
2. P.M.C. Antunes, and B.A. Hale The effect of metal diffusion and supply limitations on conditional stability constants determined for durum wheat roots Plant and Soil 284 2006 229 241
3. M. Bagayoko, S. Alvey, G. Neumann, and A. Buerkert Root-induced increases in soil pH and nutrient availability to field-grown cereals and legumes on acid sandy soils of Sudano-Sahelien West Africa Plant and Soil 225 2000 117 127
4. M.N. Bravin, B. Le Merrer, L. Denaix, A. Schneider, and P. Hinsinger Copper uptake kinetics in hydroponically-grown durum wheat (Triticum turgidum durum L.) as compared with soil's ability to supply copper Plant and Soil 331 2010 91 104
5. M.N. Bravin, A.L. Martí, M. Clairotte, and P. Hinsinger Rhizosphere alkalisation - a major driver of copper bioavailability over a broad pH range in an acidic, copper-contaminated soil Plant and Soil 318 2009 257 268
6. I. Cattani, G. Fragoulis, R. Boccelli, and E. Capri Copper bioavailability in the rhizosphere of maize (Zea mays L.) grown in two Italian soils Chemosphere 64 2006 1972 1979
7. V. Chaignon, F. Bedin, and P. Hinsinger 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 and Soil 243 2002 219 228
8. V. Chaignon, D. Di Malta, and P. Hinsinger Fe-deficiency increases Cu acquisition by wheat cropped in a Cu-contaminated vineyard soil New Phytolologist 154 2002 121 130
9. V. Chaignon, and P. Hinsinger A biotest for evaluating copper bioavailability to plants in a contaminated soil Journal of Environmental Quality 32 2003 824 833
10. V. Chaignon, M. Quesnoit, and P. Hinsinger Copper availability and bioavailability are controlled by rhizosphere pH in rape grown in an acidic Cu-contaminated soil Environmental Pollution 157 2009 3363 3369
11. J.Y. Cornu, and L. Denaix Prediction of zinc and cadmium phytoavailability within a contaminated agricultural site using DGT Environmental Chemistry 3 2006 61 64
12. J.Y. Cornu, S. Staunton, and P. Hinsinger Copper concentration in plants and in the rhizosphere as influenced by the iron status of tomato (Lycopersicon esculentum L.) Plant and Soil 292 2007 63 77
13. S.P. Datta, and S.D. Young Predicting metal uptake and risk to the human food chain from leaf vegetables grown on soils amended by long-term application of sewage sludge Water, Air, and Soil Pollution 163 2005 119 136
14. F. Degryse, E. Smolders, and D.R. Parker Metal complexes increase uptake of Zn and Cu by plants: implications for uptake and deficiency studies in chelator-buffered solutions Plant and Soil 289 2006 171 185
15. F. Degryse, E. Smolders, H. Zhang, and W. Davison Predicting availability of mineral elements to plants with the DGT technique: a review of experimental data and interpretation by modelling Environmental Chemistry 6 2009 198 218
16. J. Fang, B. Wen, X.Q. Shan, J.M. Lin, and G. Owens Is an adjusted rhizosphere-based method valid for field assessment of metal phytoavailability? Application to non-contaminated soils Environmental Pollution 150 2007 209 217
17. W.J. Fitz, W.W. Wenzel, H. Zhang, J. Nurmi, K. Stipek, Z. Fischerova, P. Schweiger, G. Köllensperger, L.Q. Ma, and G. Stingeder Rhizosphere characteristics of the arsenic hyperaccumulator Pteris vittata L. and monitoring of phytoremoval efficiency Environmental Science & Technology 37 2003 5008 5014
18. J. Harmsen, W. Rulkens, and H. Eijsackers Bioavailability: concept for understanding or tool for prediciting? Land Contamination & Reclamation 13 2005 161 171
19. P. Hinsinger, and F. Courchesne Biogeochemistry of metals and metalloids at the soil-root interface A. Violante, P.M. Huang, G.M. Gadd, Biophysic-Chemical Processes of Heavy Metals and Metalloids in Soil Environments 2008 John Wiley & Sons Hoboken 267 311
20. R.L. Hough, A.M. Tye, N.M.J. Crout, S.P. McGrath, and S.D. Young Evaluating a 'Free Ion Activity Model' applied to metal uptake by Lolium perenne L. grown in contaminated soils Plant and Soil 270 2005 1 12
21. ISO Soil Quality. Guidance on the Ecotoxicological Characterisation of Soils and Soil Materials 1999 ISO/DIS 15799 Geneva, Switzerland
22. ISO Soil Quality - Guidance for the Selection and Application of Methods for the Assessment of Bioavailability in Soil and Soil Materials 2006 ISO/DIS 17402 Geneva, Switzerland
23. E.J.J. Kalis, E.J.M. Temminghoff, A. Visser, and W.H. van Riemsdijk Metal uptake by Lolium perenne in contaminated soils using a four-step approach Environmental Toxicology and Chemistry 26 2007 335 345
24. T.M. Lexmond The effect of soil pH on copper toxicity to forage maize grown under field conditions Netherlands Journal of Agricultural Science 28 1980 164 183
25. N. Loosemore, A. Straczek, P. Hinsinger, and B. Jaillard Zinc mobilisation from a contaminated soil by three genotypes of tobacco as affected by soil and rhizosphere pH Plant and Soil 260 2004 19 32
26. M.J. McLaughlin, E. Smolders, and R. Merckx Soil-root interface: physicochemical processes P.M. Huang, D.C. Adriano, T.C. Logan, R.T. Checkai, Soil Chemistry and Ecosystem Health 1998 Soil Science Society of America Madison 233 277
27. N.W. Menzies, M.J. Donn, and P.M. Kopittke Evaluation of extractants for estimation of the phytoavailable trace metals in soils Environmental Pollution 145 2007 121 130
28. Michaud, A.M., 2007. Interaction entre biodisponibilité, phytotoxicité du cuivre et nutrition en fer de graminées - mécanismes physiologiques et rhizosphériques. Ph.D thesis, Montpellier.
29. A.M. Michaud, M.N. Bravin, M. Galleguillos, and P. Hinsinger Copper uptake and phytotoxicity as assessed in situ for durum wheat (Triticum turgidum durum L.) cultivated in Cu-contaminated, former vineyard soils Plant and Soil 298 2007 99 111
30. A.L. Nolan, H. Zhang, and M.J. McLaughlin Prediction of zinc, cadmium, lead, and copper availability to wheat in contaminated soils using chemical speciation, diffusive gradients in thin films, extraction, and isotopic dilution techniques Journal of Environmental Quality 34 2005 496 507
31. W.J.G.M. Peijnenburg, L. Posthuma, H.J.P. Eijsackers, and H.E. Allen A conceptual framework for implementation of bioavailability of metals for environmental management purposes Ecotoxicology and Environmental Safety 37 1997 163 172
32. J. Rachou, W. Hendershot, and S. Sauve Effects of pH on fluxes of cadmium in soils measured by using diffusive gradients in thin films Communications in Soil Science and Plant Analysis 35 2004 2655 2673
33. V.I. Slaveykova, and K.J. Wilkinson Predicting the bioavailability of metals and metal complexes: critical review of the biotic ligand model Environmental Chemistry 2 2005 9 24
34. S. Tao, Y.J. Chen, F.L. Xu, J. Cao, and B.G. Li Changes of copper speciation in maize rhizosphere soil Environmental Pollution 122 2003 447 454
35. S. Thakali, H.E. Allen, D.M. Di Toro, A.A. Ponizovsky, C.P. Rooney, F.J. Zhao, and S.P. McGrath A terrestrial biotic ligand model. 1. Development and application to Cu and Ni toxicities to barley root elongation in soils Environmental Science & Technology 40 2006 7085 7093 (Pubitemid 44772863)
36. H. Zhang, W. Davison, B. Knight, and S. McGrath In situ measurements of solution concentrations and fluxes of trace metals in soils using DGT Environmental Science & Technology 32 1998 704 710
37. H. Zhang, E. Lombi, E. Smolders, and S. McGrath Kinetics of Zn release in soils and prediction of Zn concentration in plants using diffusive gradients in thin Environmental Science & Technology 38 2004 3608 3613
38. H. Zhang, F.J. Zhao, B. Sun, W. Davison, and S.P. McGrath A new method to measure effective soil solution concentration predicts copper availability to plants Environmental Science & Technology 35 2001 2602 2607
39. F.J. Zhao, C.P. Rooney, H. Zhang, and S.P. McGrath Comparison of soil solution speciation and diffusive gradients in thin-films measurement as an indicator of copper bioavailability to plants Environmental Toxicology and Chemistry 25 2006 733 742