A. , H. I. Mansour, and M. S. , A review on polycyclic aromatic hydrocarbons: source, environmental impact, effect on human health and remediation, Egyptian Journal of Petroleum, vol.25, pp.107-123, 2016.

G. Adam and H. Duncan, Influence of diesel fuel on seed germination, Environmental Pollution, vol.120, pp.363-370, 2002.

P. R. Adler, R. Arora, A. El-ghaouth, D. M. Glenn, and J. M. Solar, Bioremediation of phenolic compounds from water with plant root surface peroxidases, Journal of Environmental Quality, vol.23, pp.1113-1117, 1994.

G. J. Ahammed, M. Wang, Y. Zhou, X. Xia, W. Mao et al., The growth, photosynthesis and antioxidant defense responses of five vegetable crops to phenanthrene stress, Ecotoxicology and Environmental Safety, vol.80, pp.132-139, 2012.

M. A. Ahmed, M. Holz, S. K. Woche, J. Bachmann, and A. Carminati, Effect of soil drying on mucilage exudation and its water repellency: a new method to collect mucilage, Journal of Plant Nutrition and Soil Science, vol.178, pp.821-824, 2015.

M. A. Ahmed, E. Kroener, M. Holz, M. Zarebanadkouki, and A. Carminati, Mucilage exudation facilitates root water uptake in dry soils, Functional Plant Biology, vol.41, pp.1129-1137, 2014.

M. Alkio, T. M. Tabuchi, X. Wang, and A. Colón-carmona, Stress responses to polycyclic aromatic hydrocarbons in Arabidopsis include growth inhibition and hypersensitive response-like symptoms, Journal of Experimental Botany, vol.56, pp.2983-2994, 2005.

D. L. Allan and W. M. Jarrell, Proton and copper adsorption to maize and soybean root cell walls, Plant Physiology, vol.89, pp.823-832, 1989.

B. J. Alloway, Heavy Metals in Soils, vol.390, 1995.

B. J. Alloway, Heavy Metals in Soils: Trace Metals and Metalloids in Soils and their Bioavailability, pp.11-50, 2013.

C. An, G. Huang, J. Wei, and H. Yu, Effect of short-chain organic acids on the enhanced desorption of phenanthrene by rhamnolipid biosurfactant in soil-water environment, Water Research, vol.45, pp.5501-5510, 2011.

C. An, G. Huang, H. Yu, J. Wei, W. Chen et al., Effect of short-chain organic acids and pH on the behaviors of pyrene in soil-water system, Chemosphere, vol.81, pp.1423-1429, 2010.

M. Ashraf and M. R. Foolad, Roles of glycine betaine and proline in improving plant abiotic stress resistance, Environmental and Experimental Botany, vol.59, pp.206-216, 2007.

M. S. Aulakh, R. Wassmann, C. Bueno, J. Kreuzwieser, and H. Rennenberg, Characterization of root exudates at different growth stages of ten rice, Oryza sativa L.) cultivars, Plant Biology, vol.3, pp.139-148, 2001.

A. Bacic, S. F. Moody, and A. E. Clarke, Structural analysis of secreted root slime from maize (Zea mays L.), Plant Physiology, vol.80, pp.771-777, 1986.

A. Bacic, S. Moody, J. Mccomb, J. Hinch, and A. Clarke, Extracellular polysaccharides from shaken liquid cultures of Zea mays, Functional Plant Biology, vol.14, pp.633-641, 1987.

D. V. Badri and J. M. Vivanco, Regulation and function of root exudates, Plant, Cell & Environment, vol.32, pp.666-681, 2009.

K. Baek, H. Kim, H. Oh, B. Yoon, J. Kim et al., Effects of crude oil, oil components, and bioremediation on plant growth, Journal of Environmental Science and Health, Part A, vol.39, pp.2465-2472, 2004.

H. P. Bais, T. L. Weir, L. G. Perry, S. Gilroy, and J. M. Vivanco, The Role of Root Exudates in Rhizosphere Interactions with Plants and Other Organisms, Annual Review of Plant Biology, vol.57, pp.233-266, 2006.

P. Barlow, The root cap, vol.21, pp.21-54, 1975.

C. Barnier, S. Ouvrard, C. Robin, and J. L. Morel, Desorption kinetics of PAHs from aged industrial soils for availability assessment, Science of The Total Environment, pp.639-645, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01477743

, Basol, un panorama des sites et sols pollués, ou potentiellement pollués, nécessitant une action des pouvoirs publics, Commissariat général au développement durable, Service de l'observation et des statistiques, BASOL, 2013.

E. Baudoin, Impact des rhizodépôts du mai ? s sur la structure des communautés bactériennes telluriques, 2001.

J. W. Bauman, J. Liu, and C. D. Klaassen, Production of metallothionein and heatshock proteins in response to metals, Fundamental and Applied Toxicology, vol.21, pp.15-22, 1993.

E. Benizri, O. Dedourge, C. Dibattista-leboeuf, S. Piutti, C. Nguyen et al., Effect of maize rhizodeposits on soil microbial community structure, Applied Soil Ecology, vol.21, pp.261-265, 2002.
URL : https://hal.archives-ouvertes.fr/hal-01996769

C. Bertin, X. Yang, and L. A. Weston, The role of root exudates and allelochemicals in the rhizosphere, Plant and Soil, vol.256, pp.67-83, 2003.

C. Biache, T. Ghislain, P. Faure, and L. Mansuy-huault, Low temperature oxidation of a coking plant soil organic matter and its major constituents: An experimental approach to simulate a long term evolution, Journal of Hazardous Materials, vol.188, pp.221-230, 2011.

P. Binet, J. M. Portal, and C. Leyval, Dissipation of 3-6-ring polycyclic aromatic hydrocarbons in the rhizosphere of ryegrass, Soil Biology and Biochemistry, vol.32, pp.2011-2017, 2000.

H. Bobille, A. M. Limami, R. J. Robins, C. Cukier, G. Le-floch et al., Evolution of the amino acid fingerprint in the unsterilized rhizosphere of a legume in relation to plant maturity, Soil Biology and Biochemistry, vol.101, pp.226-236, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01602448

V. Boeuf-tremblay, S. Plantureux, and A. Guckert, Influence of mechanical impedance on root exudation of maize seedlings at two development stages, Plant and Soil, vol.172, pp.279-287, 1995.

J. M. Bollag, Decontaminating soil with enzymes, Environmental Science & Technology, vol.26, pp.1876-1881, 1992.

M. Borg, D. Buendía, and F. Berger, A simple and robust protocol for immunostaining Arabidopsis pollen nuclei, 2019.

T. N. Bosma, P. J. Middeldorp, G. Schraa, and A. J. Zehnder, Mass Transfer Limitation of Biotransformation: Quantifying Bioavailability, vol.31, pp.248-252, 1997.

E. Bottari and M. R. Festa, Asparagine as a ligand for cadmium(II), lead(II) and zinc(II), Chemical Speciation & Bioavailability, vol.8, pp.75-83, 1996.

H. J. Bowen, Environmental Chemistry of the elements, 1979.

M. Bradford, A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding, vol.72, pp.248-254, 1976.

N. C. Brady and R. R. Weil, The nature and properties of soils, 2002.

, Quelles techniques pour quels traitements -Analyse coûts -bénéfices, 2010.

M. C. Bruzzoniti, M. Fungi, and C. Sarzanini, Determination of EPA's priority pollutant polycyclic aromatic hydrocarbons in drinking waters by solid phase extraction-HPLC, Analytical Methods, vol.2, p.739, 2010.

J. Buekers, L. V. Laer, F. Amery, S. V. Buggenhout, A. Maes et al., Role of soil constituents in fixation of soluble Zn, Cu, Ni and Cd added to soils, European Journal of Soil Science, vol.58, pp.1514-1524, 2007.

F. Cadiere, taux d'utilisation et coûts des différentes techniques et filières de traitement des sols et des eaux souterraines polluées en France. ADEME, Angers, 2012.

P. Carrier, A. Baryla, and M. Havaux, Cadmium distribution and microlocalization in oilseed rape (Brassica napus) after long-term growth on cadmium-contaminated soil, Planta, vol.216, pp.939-950, 2003.

L. C. Carvalhais, P. G. Dennis, D. Fedoseyenko, M. Hajirezaei, R. Borriss et al., Root exudation of sugars, amino acids, and organic acids by maize as affected by nitrogen, phosphorus, potassium, and iron deficiency, Journal of Plant Nutrition and Soil Science, vol.174, pp.3-11, 2011.

A. Cébron, B. Louvel, P. Faure, C. France-lanord, Y. Chen et al., Root exudates modify bacterial diversity of phenanthrene degraders in PAH-polluted soil but not phenanthrene degradation rates, Environmental Microbiology, vol.13, pp.722-736, 2011.

C. E. Cerniglia, Biodegradation of polycyclic aromatic hydrocarbons, vol.3, pp.351-368, 1992.

C. E. Cerniglia, Biodegradation of polycyclic aromatic hydrocarbons, Current Opinion in Biotechnology, vol.4, pp.331-338, 1993.

A. Chaboud, Isolation, purification and chemical composition of maize root cap slime, Plant and Soil, vol.73, pp.395-402, 1983.

A. Chaboud and M. Rougier, Identification and Localization of Sugar Components of Rice (Oryza sativa L.) Root Cap Mucilage, Journal of Plant Physiology, vol.116, pp.323-330, 1984.

P. Chaimbault, Analyse d'acides amines non derives par chromatographie en phase liquide avec le detecteur evaporatif a diffusion de la lumiere et couplage avec la spectrometrie de masse (thesis, 2000.

P. Chaimbault, K. Petritis, C. Elfakir, and M. Dreux, Ion-pair chromatography on a porous graphitic carbon stationary phase for the analysis of twenty underivatized protein amino acids, Journal of Chromatography A, vol.870, pp.245-254, 2000.

Y. Chen, Y. Wang, and K. Yeh, Role of root exudates in metal acquisition and tolerance, Current Opinion in Plant Biology, vol.39, pp.66-72, 2017.

T. H. Christensen, Cadmium soil sorption at low concentrations: I. Effect of time, cadmium load, pH, and calcium, Water, Air, and Soil Pollution, vol.21, pp.105-114, 1984.

T. H. Christensen and P. M. Haung, Solid Phase Cadmium and the Reactions of Aqueous Cadmium with Soil Surfaces, Cadmium in Soils and Plants, pp.65-96, 1999.

. Citepa-&-secten, Hydrocarbures Aromatiques Polycycliques -HAP, 2017.

D. T. Clarkson and U. Lüttge, Mineral nutrition: divalent cations, transport and compartmentation, Progress in Botany, pp.93-112, 1989.

S. Clemens, Toxic metal accumulation, responses to exposure and mechanisms of tolerance in plants, Biochimie, vol.88, pp.1707-1719, 2006.

S. Clemens, M. G. Palmgren, and U. Krämer, A long way ahead: understanding and engineering plant metal accumulation, Trends in Plant Science, vol.7, pp.309-315, 2002.

H. Clijsters and F. Van-assche, Inhibition of photosynthesis by heavy metals, Photosynthesis Research, vol.7, pp.31-40, 1985.

C. Cobbett and P. Goldsbrough, Phytochelatins and metallothioneins: Roles in heavy metal detoxification and homeostasis, Annual Review of Plant Biology, vol.53, pp.159-182, 2002.

C. S. Cobbett, Phytochelatins and Their Roles in Heavy Metal Detoxification, Plant Physiology, vol.123, pp.825-832, 2000.

C. Collins, M. Fryer, and A. Grosso, Plant Uptake of Non-Ionic Organic Chemicals, Environmental Science & Technology, vol.40, pp.45-52, 2006.

M. B. Colovic, V. M. Vasic, D. M. Djuric, and D. Z. Krstic, Sulphur-containing Amino Acids: Protective Role Against Free Radicals and Heavy Metals, vol.25, pp.324-335, 2018.

P. Conte, A. Zena, G. Pilidis, and A. Piccolo, Increased retention of polycyclic aromatic hydrocarbons in soils induced by soil treatment with humic substances, Environmental Pollution, vol.112, pp.27-31, 2001.

S. C. Corgié, E. J. Joner, and C. Leyval, Rhizospheric degradation of phenanthrene is a function of proximity to roots, Plant and Soil, vol.257, pp.143-150, 2003.

J. Y. Cornu, R. Bakoto, O. Bonnard, S. Bussière, C. Coriou et al., Cadmium uptake and partitioning during the vegetative growth of sunflower exposed to low Cd2+ concentrations in hydroponics, Plant and Soil, vol.404, pp.263-275, 2016.

G. Costa and E. Spitz, Influence of cadmium on soluble carbohydrates, free amino acids, protein content of in vitro cultured Lupinus albus, Plant Science, vol.128, pp.131-140, 1997.

I. T. Cousins and K. C. Jones, Air-soil exchange of semi-volatile organic compounds (SOCs) in the UK, Environmental Pollution, vol.102, pp.105-118, 1998.

F. D. Dakora and D. A. Phillips, Root exudates as mediators of mineral acquisition in low-nutrient environments, Plant and Soil, vol.245, pp.35-47, 2002.

G. Dalcorso, S. Farinati, and A. Furini, Regulatory networks of cadmium stress in plants, Plant Signaling & Behavior, vol.5, pp.663-667, 2010.

P. Das, S. Samantaray, and G. R. Rout, Studies on cadmium toxicity in plants: A review, vol.98, pp.29-36, 1997.

J. Dec and J. Bollag, Determination of covalent and noncovalent binding interactions between xenobiotic chemicals and soil, vol.162, pp.858-874, 1997.

J. D. Desai and I. M. Banat, Microbial production of surfactants and their commercial potential, Microbiology and Molecular Biology Reviews, vol.61, pp.47-64, 1997.

D. Desalme, P. Binet, D. Epron, N. Bernard, D. Gilbert et al., Atmospheric phenanthrene pollution modulates carbon allocation in red clover (Trifolium pratense L, Environmental Pollution, vol.159, pp.2759-2765, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00696456

E. Deziel, G. Paquette, R. Villemur, F. Lepine, and J. Bisaillon, Biosurfactant production by a soil pseudomonas strain growing on polycyclic aromatic hydrocarbons, Appl. Environ. Microbiol, vol.62, pp.1908-1912, 1996.

B. Dinkelaker, V. Römheld, and H. Marschner, Citric acid excretion and precipitation of calcium citrate in the rhizosphere of white lupin (Lupinus albus L, Plant, Cell & Environment, vol.12, pp.285-292, 1989.

J. Dong, W. H. Mao, G. P. Zhang, F. B. Wu, and Y. Cai, Root excretion and plant tolerance to cadmium toxicity-a review, vol.53, p.193, 2007.

R. Duarte-davidson and K. C. Jones, Screening the environmental fate of organic contaminants in sewage sludge applied to agricultural soils: II. The potential for transfers to plants and grazing animals, Science of The Total Environment, vol.185, pp.59-70, 1996.

A. N. Dubeikovsky, E. A. Mordukhova, V. V. Kochetkov, F. Y. Polikarpova, and A. M. Boronin, Growth promotion of blackcurrant softwood cuttings by recombinant strain Pseudomonas fluorescens BSP53a synthesizing an increased amount of indole-3-acetic acid, Soil Biology and Biochemistry, vol.25, pp.1277-1281, 1993.

J. Dupuy, Interactions entre les hydrocarbures aromatiques polycycliques et les plantes supérieures : prélèvement et réponses toxiques, 2014.

J. Dupuy, P. Leglize, Q. Vincent, I. Zelko, C. Mustin et al., Effect and localization of phenanthrene in maize roots, Chemosphere, vol.149, pp.130-136, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01595411

J. Dupuy, S. Ouvrard, P. Leglize, and T. Sterckeman, Morphological and physiological responses of maize (Zea mays) exposed to sand contaminated by phenanthrene, Chemosphere, vol.124, pp.110-115, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01132255

, Progress in management of contaminated sites. Reports CSI 015, EEA Publ., EEA, Indicator Assessment, 2014.

, Scientific opinion of the panel on contaminants in the food chain on polycyclic aromatic hydrocarbons in food, EFSA, vol.724, pp.1-114, 2008.

, Scientific Opinion of the Panel on C ontaminants in the Food Chain on a request from the European Commission on cadmium in food, n°980, EFSA, pp.1-139, 2009.

, Cadmium dietary exposure in the European population: Cadmium dietary exposure in Europe, EFSA Journal, vol.10, p.2551, 2012.

F. A. Einhellig, Mechanism of action of allelochemicals in allelopathy, 1995.

B. Ellis, P. Harold, and H. Kronberg, Bioremediation of a creosote contaminated site, Environmental Technology, vol.12, pp.447-459, 1991.

L. Eltrop and H. Marschner, Growth and mineral nutrition of non-mycorrhizal and mycorrhizal Norway spruce (Picea abies) seedlings grown in semi-hydroponic sand culture, New Phytologist, vol.133, pp.469-478, 1996.

E. E. Etim, Phytoremediation and Its Mechanisms: A Review, vol.2, pp.120-136, 2012.

M. Fabia?ska, B. Kozielska, P. Bielaczyc, J. Woodburn, and J. Konieczy?ski, Geochemical markers and polycyclic aromatic hydrocarbons in solvent extracts from diesel engine particulate matter, Environmental Science and Pollution Research, vol.23, pp.6999-7011, 2016.

T. W. Fan, .. Lane, A. N. Shenker, M. Bartley, J. P. Crowley et al., Comprehensive chemical profiling of gramineous plant root exudates using highresolution NMR and MS, Phytochemistry, vol.57, pp.209-221, 2001.

, L'état des ressources en terres et en eau pour l'alimentation et l'agriculture dans le monde, FAO, 2011.

. Fao-&-itps, Status of the World's Soil Resources: Main Report, FAO, vol.650, 2015.

, La situation mondiale de l'alimentation et de l'agriculture (No. 32). Food & Agriculture Org, 2009.

R. A. Floyd and A. J. Ohlrogge, Gel formation on nodal root surfaces of Zea mays, Plant and Soil, vol.33, pp.331-343, 1970.

J. Fontaine, F. Saladino, C. Agrimonti, M. Bedu, T. Terce-laforgue et al., Control of the Synthesis and Subcellular Targeting of the Two GDH Genes Products in Leaves and Stems of Nicotiana plumbaginifolia and Arabidopsis thaliana, Plant and Cell Physiology, vol.47, pp.410-418, 2006.

A. J. Francis, Microbial dissolution and stabilization of toxic metals and radionuclides in mixed wastes, Experientia, vol.46, pp.840-851, 1990.

H. Fu, H. Yu, T. Li, and X. Zhang, Influence of cadmium stress on root exudates of high cadmium accumulating rice line, Oryza sativa L.), Ecotoxicology and Environmental Safety, vol.150, pp.168-175, 2018.

Y. Gao, W. Ling, and M. H. Wong, Plant-accelerated dissipation of phenanthrene and pyrene from water in the presence of a nonionic-surfactant, Chemosphere, vol.63, pp.1560-1567, 2006.

Y. Gao, L. Ren, W. Ling, S. Gong, B. Sun et al., Desorption of phenanthrene and pyrene in soils by root exudates, Bioresource Technology, vol.101, pp.1159-1165, 2010.

Y. Gao, L. Ren, W. Ling, F. Kang, X. Zhu et al., Effects of Low-Molecular-Weight Organic Acids on Sorption-Desorption of Phenanthrene in Soils, Soil Science Society of America Journal, vol.74, pp.51-59, 2010.

Y. Gao and L. Zhu, Plant uptake, accumulation and translocation of phenanthrene and pyrene in soils, Chemosphere, vol.55, pp.1169-1178, 2004.

J. Gardiner, The chemistry of cadmium in natural water-I a study of cadmium complex formation using the cadmium specific-ion electrode, Water Research, vol.8, pp.23-30, 1974.

A. Gargallo-garriga, C. Preece, J. Sardans, M. Oravec, O. Urban et al., Root exudate metabolomes change under drought and show limited capacity for recovery, Scientific Reports, vol.8, p.12696, 2018.

F. Gaymard, G. Pilot, B. Lacombe, D. Bouchez, D. Bruneau et al., Identification and Disruption of a Plant Shaker-like Outward Channel Involved in K+ Release into the Xylem Sap, Cell, vol.94, pp.647-655, 1998.

T. S. George, P. J. Gregory, P. Hocking, and A. E. Richardson, Variation in rootassociated phosphatase activities in wheat contributes to the utilization of organic P substrates in vitro, but does not explain differences in the P-nutrition of plants when grown in soils, Environmental and Experimental Botany, vol.64, pp.239-249, 2008.

K. E. Gerhardt, X. Huang, B. R. Glick, and B. M. Greenberg, Phytoremediation and rhizoremediation of organic soil contaminants: Potential and challenges, Plant Science, vol.176, pp.20-30, 2009.

B. Gevao, K. T. Semple, and K. C. Jones, Bound pesticide residues in soils: a review, Environmental Pollution, vol.108, pp.3-14, 2000.

M. E. Ghanem, R. Han, B. Classen, J. Quetin-leclerq, G. Mahy et al., Mucilage and polysaccharides in the halophyte plant species Kosteletzkya virginica: Localization and composition in relation to salt stress, Journal of Plant Physiology, vol.167, pp.382-392, 2010.

, L'état des sols de france. Rapport technique, Groupement d'intérêt scientifique sur les sols, GISSOL, p.188, 2011.

H. C. Godfray, J. R. Beddington, I. R. Crute, L. Haddad, D. Lawrence et al., Food Security: The Challenge of Feeding 9 Billion People, vol.327, pp.812-818, 2010.

A. Gransee and L. Wittenmayer, Qualitative and quantitative analysis of watersoluble root exudates in relation to plant species and development, Journal of Plant Nutrition and Soil Science, vol.163, pp.381-385, 2000.

T. R. Gray and S. T. Williams, Soil micro-organisms. Soil micro-organisms, 1971.

S. J. Grayston, D. Vaughan, and D. Jones, Rhizosphere carbon flow in trees, in comparison with annual plants: the importance of root exudation and its impact on microbial activity and nutrient availability, Applied Soil Ecology, vol.5, pp.29-56, 1997.

E. Grill, E. Winnacker, and M. H. Zenk, Phytochelatins: The Principal Heavy-Metal Complexing Peptides of Higher Plants, Science, vol.230, pp.674-676, 1985.

V. Groleau-renaud, Contrainte mécanique et exsudation racinaire du maïs : incidence de la morphologie du système racinaire (thesis, Vandoeuvre-les-Nancy, INPL), 1998.

V. Groleau-renaud, S. Plantureux, and A. Guckert, Effet de la contrainte mécanique sur le système racinaire nodal et séminal du maïs, Comptes Rendus de l'Académie des Sciences -Series III -Sciences de la Vie, vol.321, pp.63-71, 1998.

V. Groleau-renaud, S. Plantureux, and A. Guckert, Influence of plant morphology on root exudation of maize subjected to mechanical impedance in hydroponic conditions, Plant and Soil, vol.201, pp.231-239, 1998.

A. Guckert, H. Breisch, and O. Reisinger, Interface sol-racine-I: Etude au microscope electronique des relations mucigel-argile-microorganismes, Soil Biology and Biochemistry, vol.7, pp.241-250, 1975.

A. Guckert, H. Breisch, and O. Reisinger, The soil-root interface. 1. An electron microscope study of the relationships between mucigel, clay and micro-organisms, 1975.

M. L. Guerinot, The ZIP family of metal transporters, Biochimica et Biophysica Acta (BBA) -Biomembranes, vol.1465, pp.190-198, 2000.

J. Guern, J. P. Renaudin, and S. Brown, The compartimentation of secondary metabolites in plant cell cultures, Cell Culture and Somatic Cell Genetics of Plants, pp.43-76, 1987.

L. (. Habib, . Institut-n, . A. De-la-r, C. Chenu, J. L. Morel et al., Adsorption of maize root mucilages on homoionic clays, Consequences on the microstructure of the complexes, 1990.

F. Haichar, . El-z, C. Santaella, T. Heulin, and W. Achouak, Root exudates mediated interactions belowground, Soil Biology and Biochemistry, vol.77, pp.69-80, 2014.
URL : https://hal.archives-ouvertes.fr/hal-02487459

M. G. Hale, C. L. Foy, and F. J. Shay, Factors affecting root exudation, Advances in Agronomyvol, vol.23, pp.89-109, 1971.

M. G. Hale, C. L. Foy, and F. J. Shay, Factors affecting root exudation, Advances in Agronomyvol, vol.23, pp.89-109, 1971.

J. L. Hall, Cellular mechanisms for heavy metal detoxification and tolerance, Journal of Experimental Botany, vol.53, pp.1-11, 2002.

B. Halliwell, Oxygen-derived species and herbicide action, 1984.

T. Happi-emaga, N. Rabetafika, S. Blecker, C. Paquot, and M. , Kinetics of the hydrolysis of polysaccharide galacturonic acid and neutral sugars chains from flaxseed mucilage, 2012.

P. D. Hare and W. A. Cress, Metabolic implications of stress-induced proline accumulation in plants, Plant Growth Regulation, vol.21, pp.79-102, 1997.

P. J. Harris and D. H. Northcote, Patterns of polysaccharide biosynthesis in differentiating cells of maize root-tips, Biochemical Journal, vol.120, pp.479-491, 1970.

J. Harrison, M. P. Crescenzo, . De, O. Sené, and B. Hirel, Does lowering glutamine synthetase activity in nodules modify nitrogen metabolism and growth of Lotus japonicus?, Plant Physiology, vol.133, pp.253-262, 2003.

U. A. Hartwig, C. M. Joseph, and D. A. Phillips, Flavonoids released naturally from alfalfa seeds enhance growth rate of Rhizobium meliloti, Plant Physiology, vol.95, pp.797-803, 1991.

R. J. Haynes, Active ion uptake and maintenance of cation-anion balance: A critical examination of their role in regulating rhizosphere pH, Plant and Soil, vol.126, pp.247-264, 1990.

V. R. Hebert and G. C. Miller, Depth dependence of direct and indirect photolysis on soil surfaces, Journal of Agricultural and Food Chemistry, vol.38, pp.913-918, 1990.

D. Heinrich and D. Hess, Chemotactic attraction of Azospirillum lipoferum by wheat roots and characterization of some attractants, Canadian Journal of Microbiology, vol.31, pp.26-31, 1985.

P. A. Helmke, Chemistry of Cadmium in Soil Solution, Cadmium in Soils and Plants, pp.39-64, 1999.

A. Helmstädter, The Arndt-Schulz law as an explanation for non-linear dose-response relationships, p.29, 2008.

T. Heulin, A. Guckert, and J. Balandreau, Stimulation of root exudation of rice seedlings by Azospirillum strains: carbon budget under gnotobiotic conditions, Biology and fertility of soils, vol.4, pp.9-14, 1987.

L. Hiltner, Über neuere Erfahrungen und Probleme auf dem Gebiete der Bodenbakteriologie unter besonderer Berücksichtigung der Gründüngung und Brache, n°98, pp.59-78, 1904.

P. Hinsinger, Bioavailability of soil inorganic P in the rhizosphere as affected by rootinduced chemical changes: a review, Plant and Soil, vol.237, pp.173-195, 2001.

P. Hinsinger, G. R. Gobran, P. J. Gregory, and W. W. Wenzel, Rhizosphere geometry and heterogeneity arising from root-mediated physical and chemical processes, New Phytologist, vol.168, pp.293-303, 2005.

P. Hinsinger, C. Plassard, and B. Jaillard, Rhizosphere: A new frontier for soil biogeochemistry, Journal of Geochemical Exploration, vol.88, pp.210-213, 2006.

P. Hinsinger, C. Plassard, C. Tang, and B. Jaillard, Origins of root-mediated pH changes in the rhizosphere and their responses to environmental constraints: A review, Plant and Soil, vol.248, pp.43-59, 2003.

R. E. Hirsch, B. D. Lewis, E. P. Spalding, and M. R. Sussman, A Role for the AKT1 Potassium Channel in Plant Nutrition, Science, vol.280, pp.918-921, 1998.

D. R. Hoagland and D. I. Arnon, The water-culture method for growing plants without soil, Agricultural Experiment Station, 1938.

A. Hodge, S. J. Grayston, and B. G. Ord, A novel method for characterisation and quantification of plant root exudates, n°184, pp.97-104, 1996.

E. Hoffland, G. R. Findenegg, and J. A. Nelemans, Solubilization of rock phosphate by rape : II. Local root exudation of organic acids as a response to P-starvation, Plant and Soil, vol.113, pp.161-165, 1989.

B. D. Honeyman and P. H. Santschi, Metals in aquatic systems, vol.22, pp.862-871, 1988.

G. Huang, G. Guo, S. Yao, N. Zhang, and H. Hu, Organic acids, amino acids compositions in the root exudates and Cu-accumulation in castor (Ricinus communis L.) Under Cu stress, International Journal of Phytoremediation, vol.18, pp.33-40, 2016.

M. Iijima, B. Griffiths, and A. G. Bengough, Sloughing of cap cells and carbon exudation from maize seedling roots in compacted sand, New Phytologist, vol.145, pp.477-482, 2000.

L. Jaitz, B. Mueller, G. Koellensperger, D. Huber, E. Oburger et al., LC-MS analysis of low molecular weight organic acids derived from root exudation, Analytical and Bioanalytical Chemistry, vol.400, pp.2587-2596, 2010.

E. J. Joner, S. C. Corgié, N. Amellal, and C. Leyval, Nutritional constraints to degradation of polycyclic aromatic hydrocarbons in a simulated rhizosphere, Soil Biology and Biochemistry, vol.34, pp.859-864, 2002.

E. J. Joner and C. Leyval, Rhizosphere gradients of polycyclic aromatic hydrocarbon (PAH) dissipation in two industrial soils and the impact of arbuscular mycorrhiza, Environmental Science & Technology, vol.37, pp.2371-2375, 2003.

D. D. Jones and D. J. Morre, Golgi Apparatus Mediated Polysaccharide Secretion by Outer Root Cap Cells of Zea mays. III. Control by Exogenous Sugars, Physiologia Plantarum, vol.29, pp.68-75, 1973.

D. L. Jones and P. R. Darrah, Re-sorption of organic compounds by roots of Zea mays L. and its consequences in the rhizosphere, Plant and Soil, vol.153, pp.47-59, 1993.

D. L. Jones and P. R. Darrah, Role of root derived organic acids in the mobilization of nutrients from the rhizosphere, Plant and Soil, vol.166, pp.247-257, 1994.

D. L. Jones, C. Nguyen, and R. D. Finlay, Carbon flow in the rhizosphere: carbon trading at the soil-root interface, Plant and Soil, vol.321, pp.5-33, 2009.

A. L. Juhasz and R. Naidu, Bioremediation of high molecular weight polycyclic aromatic hydrocarbons: a review of the microbial degradation of benzo, International Biodeterioration & Biodegradation, vol.45, pp.57-88, 2000.

C. Jung, V. Maeder, F. Funk, B. Frey, H. Sticher et al., Release of phenols from Lupinus albus L. roots exposed to Cu and their possible role in Cu detoxification, Plant and Soil, vol.252, pp.301-312, 2003.

I. Keyte, R. Harrison, and G. Lammel, Chemical reactivity and long-range transport potential of polycyclic aromatic hydrocarbons -a review, Chemical Society Reviews, vol.42, pp.9333-9391, 2013.

M. Kolb and H. Harms, Metabolism of fluoranthene in different plant cell cultures and intact plants, Environmental Toxicology and Chemistry, vol.19, pp.1304-1310, 2000.

U. Krämer, I. J. Pickering, R. C. Prince, I. Raskin, and D. E. Salt, Subcellular Localization and Speciation of Nickel in Hyperaccumulator and Non-Accumulator ThlaspiSpecies, Plant Physiology, vol.122, pp.1343-1354, 2000.

R. C. Kuijken, J. F. Snel, M. M. Heddes, H. J. Bouwmeester, and L. F. Marcelis, The importance of a sterile rhizosphere when phenotyping for root exudation, Plant and Soil, vol.387, pp.131-142, 2015.

M. Kummerová, ?. Zezulka, P. Babula, and L. Vá?ová, Root response in Pisum sativum and Zea mays under fluoranthene stress: Morphological and anatomical traits, Chemosphere, vol.90, pp.665-673, 2013.

H. Küpper and E. Andresen, Mechanisms of metal toxicity in plants, vol.8, pp.269-285, 2016.

H. Küpper, A. Parameswaran, B. Leitenmaier, M. Trtílek, and I. ?etlík, Cadmium-induced inhibition of photosynthesis and long-term acclimation to cadmium stress in the hyperaccumulator Thlaspi caerulescens, New Phytologist, vol.175, pp.655-674, 2007.

H. Küpper, I. ?etlík, M. Spiller, F. C. Küpper, and O. Prá?il, Heavy metal-induced inhibition of photosynthesis: targets of in vivo heavy metal chlorophyll formation, Journal of Phycology, vol.38, pp.429-441, 2002.

A. Lagriffoul, B. Mocquot, M. Mench, and J. Vangronsveld, Cadmium toxicity effects on growth, mineral and chlorophyll contents, and activities of stress related enzymes in young maize plants (Zea mays L, Plant and Soil, vol.200, pp.241-250, 1998.

C. Lamb and R. A. Dixon, The Oxidative Burst in Plant Disease Resistance, Annual Review of Plant Physiology and Plant Molecular Biology, vol.48, pp.251-275, 1997.

A. D. Lameta and M. Jay, Study of soybean and lentil root exudates, Plant and Soil, vol.101, pp.267-272, 1987.

T. W. Lane, M. A. Saito, G. N. George, I. J. Pickering, R. C. Prince et al., The first cadmium enzyme -carbonic anhydrase 2 from the marine diatom thalassiosira weissflogii, pp.1-3, 2005.

F. S. Lang, J. Destain, B. Campanella, F. Delvigne, P. Druart et al., Aperçu des connaissances actuelles sur la gestion de la pollution des mangroves par les hydrocarbures, vol.18, pp.422-435, 2014.

I. Langer, S. Syafruddin, S. Steinkellner, M. Puschenreiter, and W. W. Wenzel, Plant growth and root morphology of Phaseolus vulgaris L. grown in a split-root system is affected by heterogeneity of crude oil pollution and mycorrhizal colonization, Plant and Soil, vol.332, pp.339-355, 2010.

C. Lapie, P. Leglize, C. Paris, T. Buisson, and T. Sterckeman, Profiling of main metabolites in root exudates and mucilage collected from maize submitted to cadmium stress, Environmental Science and Pollution Research, vol.26, pp.17520-17534, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02265520

L. Leita, M. Contin, and A. Maggioni, Distribution of cadmium and induced Cdbinding proteins in roots, stems and leaves of Phaseolus vulgaris, Plant Science, vol.77, pp.139-147, 1991.

D. Lerda, Polycyclic aromatic hydrocarbons (PAHs) factsheet, p.34, 2011.

A. Leyva, A. Quintana, M. Sánchez, E. N. Rodríguez, J. Cremata et al., Rapid and sensitive anthrone-sulfuric acid assay in microplate format to quantify carbohydrate in biopharmaceutical products: Method development and validation, Biologicals, vol.36, pp.134-141, 2008.

J. H. Li, Y. Gao, S. C. Wu, K. C. Cheung, X. R. Wang et al., Physiological and biochemical responses of rice (Oryza Sativa L.) to phenanthrene and pyrene, International Journal of Phytoremediation, vol.10, pp.106-118, 2008.

Z. Li, J. Yu, Y. Peng, and B. Huang, Metabolic pathways regulated by abscisic acid, salicylic acid and ?-aminobutyric acid in association with improved drought tolerance in creeping bentgrass (Agrostis stolonifera), Physiologia Plantarum, vol.159, pp.42-58, 2017.

M. Liao and X. M. Xie, Cadmium release in contaminated soils due to organic acids, vol.14, pp.223-228, 2004.

H. K. Lichtenthaler and A. R. Wellburn, Determinations of total carotenoids and chlorophylls a and b of leaf extracts in different solvents, Biochemical Society Transactions, vol.11, pp.591-592, 1983.

Z. Lin, A. Schneider, C. Nguyen, and T. Sterckeman, Can ligand addition to soil enhance Cd phytoextraction? A mechanistic model study, Environmental Science and Pollution Research, vol.21, pp.12811-12826, 2014.

Z. Lin, A. Schneider, T. Sterckeman, and C. Nguyen, Ranking of mechanisms governing the phytoavailability of cadmium in agricultural soils using a mechanistic model, Plant and Soil, vol.399, pp.89-107, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01260301

W. Ling, L. Ren, Y. Gao, X. Zhu, and B. Sun, Impact of low-molecular-weight organic acids on the availability of phenanthrene and pyrene in soil, Soil Biology and Biochemistry, vol.41, pp.2187-2195, 2009.

B. Lippmann, V. Leinhos, and H. Bergmann, Influence of auxin producing rhizobacteria on root morphology and nutrient accumulation of crops. I: Changes in root morphology and nutrient accumulation in maize (Zea mays L.) caused by inoculation with indole-3 acetic acid (IAA) producing Pseudomonas and Acinetobacter strains or IAA applied exogenously, Angewandte Botanik, vol.69, pp.31-36, 1995.

S. Y. Lisar, R. Motafakkerazad, M. M. Hossain, and I. M. Rahman, Water stress in plants: causes, effects and responses, 2012.

H. Liste and M. Alexander, Rapid screening of plants promoting phenanthrene degradation, Journal of Environmental Quality, vol.28, pp.1376-1377, 1999.

H. Liu, D. Weisman, Y. Ye, B. Cui, Y. Huang et al., An oxidative stress response to polycyclic aromatic hydrocarbon exposure is rapid and complex in Arabidopsis thaliana, Plant Science, vol.176, pp.375-382, 2009.

H. Liu, D. Weisman, Y. Ye, B. Cui, Y. Huang et al., An oxidative stress response to polycyclic aromatic hydrocarbon exposure is rapid and complex in Arabidopsis thaliana, Plant Science, vol.176, pp.375-382, 2009.

P. Loganathan, S. Vigneswaran, J. Kandasamy, and R. Naidu, Cadmium Sorption and Desorption in Soils: A Review, Critical Reviews in Environmental Science and Technology, vol.42, pp.489-533, 2012.

Q. Luo, L. Sun, X. Hu, and R. Zhou, The variation of root exudates from the hyperaccumulator Sedum alfredii under cadmium stress: metabonomics analysis, Plos one, vol.9, p.115581, 2014.

Q. Luo, S. Wang, L. Sun, and H. Wang, Metabolic profiling of root exudates from two ecotypes of Sedum alfredii treated with Pb based on GC-MS, Scientific Reports, vol.7, 2017.

R. Lux, V. R. Munasinghe, F. Castellano, J. W. Lengeler, J. E. Corrie et al., Elucidation of a PTS-carbohydrate chemotactic signal pathway in Escherichia coli using a time-resolved behavioral assay, Molecular Biology of the Cell, vol.10, pp.1133-1146, 1999.

J. Lynch, Root Architecture and Plant Productivity, Plant Physiology, vol.109, pp.7-13, 1995.

W. Ma, N. Muthreich, C. Liao, M. Franz-wachtel, W. Schütz et al., The mucilage proteome of maize (Zea mays L.) primary roots, Journal of Proteome Research, vol.9, pp.2968-2976, 2010.

J. C. Macfarlane, Plant transport of organic chemicals, In : Plant Contamination -Modelling and Simulation of Organic Chemical ProcessesLewis Publishers, 1995.

D. Mackay, W. Shiu, K. Ma, and S. C. Lee, Handbook of Physical-Chemical Properties and Environmental Fate for Organic Chemicals, vol.4196, 2006.

A. Manara, Plant Responses to Heavy Metal Toxicity, Plants and Heavy Metals, pp.27-53, 2012.

M. Mandalakis, Ö. Gustafsson, T. Alsberg, A. Egebäck, C. M. Reddy et al., Contribution of Biomass Burning to Atmospheric Polycyclic Aromatic Hydrocarbons at Three European Background Sites, Environmental Science & Technology, vol.39, pp.2976-2982, 2005.

H. Marschner, Marschner's Mineral Nutrition of Higher Plants, vol.668, 1995.

B. C. Martin, S. J. George, C. A. Price, M. H. Ryan, and M. Tibbett, The role of root exuded low molecular weight organic anions in facilitating petroleum hydrocarbon degradation: Current knowledge and future directions, Science of The Total Environment, vol.472, pp.642-653, 2014.

M. E. Mccully, The efflux of water from the surface of field-grown maize roots, n°95, pp.217-224, 1995.

M. E. Mccully and J. S. Boyer, The expansion of maize root-cap mucilage during hydration. 3. Changes in water potential and water content, Physiologia Plantarum, vol.99, pp.169-177, 1997.

S. C. Mccutcheon and J. L. Schnoor, Overview of phytotransformation and control of wastes, In : Phytoremediation : Transformation and Control of Contaminants, 2004.

J. L. Mccutcheon, SchnoorJohn Wiley & Son, vol.19, p.358

A. A. Meharg and K. Killham, A novel method of quantifying root exudation in the presence of soil microflora, Plant and Soil, vol.133, pp.111-116, 1991.

M. Mench, J. L. Morel, and A. Guckert, Metal binding properties of high molecular weight soluble exudates from maize (Zea mays L.) roots, Biology and Fertility of Soils, vol.3, pp.165-169, 1987.

C. A. Menzie, B. B. Potocki, and J. Santodonato, Exposure to carcinogenic PAHs in the environment, Environmental Science & Technology, vol.26, pp.1278-1284, 1992.

N. Merkl, R. Schultze-kraft, and C. Infante, Phytoremediation in the tropicsinfluence of heavy crude oil on root morphological characteristics of graminoids, Environmental Pollution, vol.138, pp.86-91, 2005.

R. Mesibov and J. Adler, Chemotaxis Toward Amino Acids in Escherichia coli, Journal of Bacteriology, vol.112, pp.315-326, 1972.

R. F. Meyer and J. S. Boyer, Osmoregulation, solute distribution, and growth in soybean seedlings having low water potentials, Planta, vol.151, pp.482-489, 1981.

R. Mittler, Oxidative stress, antioxidants and stress tolerance, Trends in Plant Science, vol.7, pp.405-410, 2002.

L. S. Monk, K. V. Fagerstedt, and R. M. Crawford, Oxygen toxicity and superoxide dismutase as an antioxidant in physiological stress, Physiologia Plantarum, vol.76, pp.456-459, 1989.

H. J. Morel, A. Guckert, S. Plantureux, and C. Chenu, Influence of root exudates on soil aggregation, Symbiosis (Rehovot), vol.9, pp.87-91, 1990.

J. L. Morel, M. Mench, and A. Guckert, Measurement of Pb2+, Cu2+ and Cd2+ binding with mucilage exudates from maize (Zea mays L.) roots, Biology and Fertility of Soils, vol.2, pp.29-34, 1986.

D. J. Morré, D. D. Jones, and H. H. Mollenhauer, Golgi apparatus mediated polysaccharide secretion by outer root cap cells of Zea mays, Planta, vol.74, pp.286-301, 1967.

M. Moustakas, T. Lanaras, L. Symeonidis, S. (. Karataglis, and . Aristotelion-u, Growth and some photosynthetic characteristics of field grown Avena sativa under copper and lead stress, Photosynthetica, 1994.

J. L. Moya, R. Ros, and I. Picazo, Influence of cadmium and nickel on growth, net photosynthesis and carbohydrate distribution in rice plants, Photosynthesis Research, vol.36, pp.75-80, 1993.

K. H. Mühling, S. Schubert, and K. Mengel, Mechanism of sugar retention by roots of intact maize and field bean plants, Plant and Soil, vol.1, pp.99-102, 1993.

Y. Murata, J. F. Ma, N. Yamaji, D. Ueno, K. Nomoto et al., A specific transporter for iron(III)-phytosiderophore in barley roots, The Plant Journal, vol.46, pp.563-572, 2006.

A. Muratova, S. Golubev, L. Wittenmayer, T. Dmitrieva, A. Bondarenkova et al., Effect of the polycyclic aromatic hydrocarbon phenanthrene on root exudation of Sorghum bicolor (L.) Moench, Environmental and Experimental Botany, vol.66, pp.514-521, 2009.

E. M. Murphy, J. M. Zachara, and S. C. Smith, Influence of mineral-bound humic substances on the sorption of hydrophobic organic compounds, vol.24, pp.1507-1516, 1990.

A. H. Nadi, R. Brouwer, and J. T. Locher, Some responses of the root and the shoot of Vicia faba plants to water stress, vol.396, 1969.

D. Nahon, , 2008.

E. K. Nambiar, Uptake of Zn65 from dry soil by plants, Plant and Soil, vol.44, pp.267-271, 1976.

K. Narasimhan, C. Basheer, V. B. Bajic, and S. Swarup, Enhancement of Plant-Microbe Interactions Using a Rhizosphere Metabolomics-Driven Approach and Its Application in the Removal of Polychlorinated Biphenyls, Plant Physiology, vol.132, pp.146-153, 2003.

G. Neumann and V. Röhmheld, The release of root exudates as affected by the plant's physiological status, In : The Rhizosphere : Biochemistry and organic substances at the soilplant interface, pp.41-89, 2000.

C. Nguyen, Rhizodeposition of organic C by plants: mechanisms and controls, Agronomie, vol.23, pp.375-396, 2003.

C. Nguyen, A. J. Soulier, P. Masson, S. Bussière, and J. Y. Cornu, Accumulation of Cd, Cu and Zn in shoots of maize (Zea mays L.the relation with xylem sap composition, Environmental Science and Pollution Research, vol.23, pp.3152-3164, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01512022

W. A. Ockenden, K. Breivik, S. N. Meijer, E. Steinnes, A. J. Sweetman et al., The global re-cycling of persistent organic pollutants is strongly retarded by soils, Environmental Pollution, vol.121, pp.75-80, 2003.

I. Oguntimehin, N. Nakatani, and H. Sakugawa, Phytotoxicities of fluoranthene and phenanthrene deposited on needle surfaces of the evergreen conifer, Japanese red pine, vol.154, pp.264-271, 2008.

L. R. Oldeman, World map on status of human-induced soil degradation (GLASOD) UNEP. ISRIC, 1991.

C. Ollas, A. De, V. Gómez-cadenas, and A. , Jasmonoyl isoleucine accumulation is needed for abscisic acid build-up in roots of Arabidopsis under water stress conditions, Plant, Cell & Environment, vol.38, pp.2157-2170, 2015.

. Osorio and N. W. Vega, A review on beneficial effects of rhizosphere bacteria on soil nutrient availability and plant nutrient uptake, vol.60, pp.3621-3643, 2007.

. Osorio and N. W. Vega, A review on beneficial effects of rhizosphere bacteria on soil nutrient availability and plant nutrient uptake, vol.60, pp.3621-3643, 2007.

S. Ouvrard, D. Lapole, and J. L. Morel, Root exudates impact on phenanthrene availability, Water, Air, & Soil Pollution: Focus, vol.6, pp.343-352, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01486252

S. Ouvrard, P. Leglize, and J. L. Morel, PAH Phytoremediation: Rhizodegradation or Rhizoattenuation?, International Journal of Phytoremediation, vol.16, pp.46-61, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01486367

K. S. Park, R. C. Sims, R. R. Dupont, W. J. Doucette, and J. E. Matthews, Fate of PAH compounds in two soil types: Influence of volatilization, abiotic loss and biological activity, Environmental Toxicology and Chemistry, vol.9, pp.187-195, 1990.

E. Paterson, Importance of rhizodeposition in the coupling of plant and microbial productivity, European Journal of Soil Science, vol.54, pp.741-750, 2003.

E. Paterson, T. Gebbing, C. Abel, A. Sim, and G. Telfer, Rhizodeposition shapes rhizosphere microbial community structure in organic soil, New Phytologist, vol.173, pp.600-610, 2007.

R. E. Paull and R. L. Jones, Studies on the secretion of maize root-cap slime, Planta, vol.127, pp.97-110, 1975.

R. M. Pawar, The effect of soil pH on bioremediation of Polycyclic Aromatic Hydrocarbons (PAHS), Journal of Bioremediation & Biodegradation, vol.06, 2015.

A. Pernot, S. Ouvrard, P. Leglize, F. Watteau, D. Derrien et al., Impact of fresh organic matter incorporation on PAH fate in a contaminated industrial soil, Science of The Total Environment, pp.345-352, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01132256

J. Perriguey, T. Sterckeman, and J. Morel, Effect of rhizosphere and plant-related factors on the cadmium uptake by maize (Zea mays L, Environmental and Experimental Botany, vol.63, pp.333-341, 2008.
URL : https://hal.archives-ouvertes.fr/hal-01486331

W. Petersen and M. Böttger, Contribution of organic acids to the acidification of the rhizosphere of maize seedlings, Plant and Soil, vol.132, pp.159-163, 1991.

P. J. Peterson and B. J. Alloway, The chemistry, biochemistry and biology of cadmium, 1979.

D. Pimentel, C. Harvey, P. Resosudarmo, K. Sinclair, D. Kurz et al., Environmental and Economic Costs of Soil Erosion and Conservation Benefits, Science, vol.267, pp.1117-1123, 1995.

A. P. Pinto, I. Sim[otilde]es, and A. M. Mota, Cadmium impact on root exudates of sorghum and maize Plants: A speciation study, Journal of Plant Nutrition, vol.31, pp.1746-1755, 2008.

R. Pinton, Z. Varanini, and P. Nannipieri, The rhizosphere: biochemistry and organic substances at the soil-plant interface, second Edition, vol.470, 2007.

A. Pokojska-burdziej, The effect of carbon and nitrogen sources on auxins and gibberellin-like substances synthesis by bacteria isolated from the roots of pine seedlings (Pinus silvestris L), Acta Microbiologica Polonica, vol.30, pp.347-354, 1980.

H. Poorter, F. Fiorani, M. Stitt, U. Schurr, A. Finck et al., The art of growing plants for experimental purposes: a practical guide for the plant biologist, Functional Plant Biology, vol.39, pp.821-838, 2012.

F. Porteous, K. Killham, and A. Meharg, Use of a lux-marked rhizobacterium as a biosensor to assess changes in rhizosphere C flow due to pollutant stress, Chemosphere, vol.41, pp.1549-1554, 2000.

C. Poschenrieder, C. Cabot, S. Martos, B. Gallego, and J. Barceló, Do toxic ions induce hormesis in plants?, Plant Science, vol.212, pp.15-25, 2013.

M. N. Prasad, Cadmium toxicity and tolerance in vascular plants, Environmental and Experimental Botany, vol.35, pp.525-545, 1995.

C. Preece and J. Peñuelas, Rhizodeposition under drought and consequences for soil communities and ecosystem resilience, Plant and Soil, vol.409, pp.1-17, 2016.

C. M. Radetski, S. Cotelle, and J. Férard, Classical and biochemical endpoints in the evaluation of phytotoxic effects caused by the herbicide trichloroacetate, Environmental and Experimental Botany, vol.44, pp.221-229, 2000.

V. K. Rai, Role of amino acids in plant responses to stresses, Biologia Plantarum, vol.45, pp.481-487, 2002.

W. E. Rauser, Structure and function of metal chelators produced by plants, Cell Biochemistry and Biophysics, vol.31, pp.19-48, 1999.

D. B. Read, A. G. Bengough, P. J. Gregory, J. W. Crawford, D. Robinson et al., Plant roots release phospholipid surfactants that modify the physical and chemical properties of soil, New Phytologist, vol.157, pp.315-326, 2003.

D. B. Read, P. J. Gregory, and A. E. Bell, Physical properties of axenic maize root mucilage, Plant and Soil, vol.211, pp.87-91, 1999.

D. J. Read and E. M. Bartlett, The physiology of drought resistance in the soybean plant (Glycine max), Journal of Applied Ecology, vol.9, pp.487-499, 1972.

B. J. Reid, K. C. Jones, and K. T. Semple, Bioavailability of persistent organic pollutants in soils and sediments-a perspective on mechanisms, consequences and assessment, Environmental Pollution, vol.108, pp.103-112, 2000.

K. A. Reilley, M. K. Banks, and A. P. Schwab, Dissipation of polycyclic aromatic hydrocarbons in the rhizosphere, Journal of Environmental Quality, vol.25, pp.212-219, 1996.

B. Reinhold, T. Hurek, and I. Fendrik, Strain-specific chemotaxis of Azospirillum spp, Journal of Bacteriology, vol.162, pp.190-195, 1985.

R. Rellán-Álvarez, C. Ortega-villasante, A. Álvarez-fernández, F. F. Campo, and L. E. Del-&-hernández, Stress responses of Zea mays to cadmium and mercury, Plant and Soil, vol.279, pp.41-50, 2006.

Z. Ren, M. Tella, M. N. Bravin, R. N. Comans, J. Dai et al., Effect of dissolved organic matter composition on metal speciation in soil solutions, Chemical Geology, vol.398, pp.61-69, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01426103

C. J. Rhodes, Applications of bioremediation and phytoremediation, Science Progress, vol.96, pp.417-427, 2013.

G. Ricochon, C. Paris, M. Girardin, and L. Muniglia, Highly sensitive, quick and simple quantification method for mono and disaccharides in aqueous media using liquid chromatography-atmospheric pressure chemical ionization-mass spectrometry (LC-APCI-MS), Journal of Chromatography. B, Analytical Technologies in the Biomedical and Life Sciences, vol.879, pp.1529-1536, 2011.

A. Rivetta, N. Negrini, and M. Cocucci, Involvement of Ca2+-calmodulin in Cd2+ toxicity during the early phases of radish (Raphanus sativus L.) seed germination, Plant, Cell & Environment, vol.20, pp.600-608, 1997.

N. J. Robinson, A. M. Tommey, C. Kuske, and P. J. Jackson, Biochemical Journal, vol.295, issue.1, pp.1-10, 1993.

N. Rodríguez-eugenio, M. Mclaughlin, and D. Pennock, Soil pollution: a hidden reality, Food and Agriculture Organization, 2018.

W. Römer, D. Kang, K. Egle, J. Gerke, and H. Keller, The acquisition of cadmium by Lupinus albus L., Lupinus angustifolius L., and Lolium multiflorum Lam, Journal of Plant Nutrition and Soil Science, vol.163, pp.623-628, 2000.

V. Römheld, Different strategies for iron acquisition in higher plants, Physiologia Plantarum, vol.70, pp.231-234, 1987.

H. Rosen, A modified ninhydrin colorimetric analysis for amino acids, Archives of Biochemistry and Biophysics, vol.67, pp.10-15, 1957.

A. D. Rovira, Root excretion in relation to the rhizosphere effect, vol.11, pp.53-64, 1959.

A. D. Rovira, Plant root exudates, The Botanical Review, vol.35, pp.35-57, 1969.

A. D. Rovira, Biology of the soil-root interface, pp.145-160, 1979.

A. Ruellan, , 2008.

D. E. Salt, N. Kato, U. Krämer, R. D. Smith, and I. Raskin, The role of root exudates in nickel hyperaccumulation and tolerance in accumulator and nonaccumulator species of thlaspi, CRC Pressvol, issue.1-0, pp.191-202, 1999.

D. E. Salt and W. E. Rauser, MgATP-Dependent Transport of Phytochelatins Across the Tonoplast of Oat Roots, Plant Physiology, vol.107, pp.1293-1301, 1995.

J. ?amaj, F. Balu?ka, M. Bobák, and D. Volkmann, Extracellular matrix surface network of embryogenic units of friable maize callus contains arabinogalactan-proteins recognized by monoclonal antibody JIM4, Plant Cell Reports, vol.18, pp.369-374, 1999.

H. Sandermann, D. Scheel, and T. V. Trenck, Use of plant cell cultures to study the metabolism of environmental chemicals, Ecotoxicology and Environmental Safety, vol.8, pp.167-182, 1984.

D. Sanders, P. Berthke, B. B. Buchanan, and W. Gruissem, Membrane transport, Biochemistry and Molecular Biology of Plants, pp.110-159, 2000.

A. Sandnes, T. D. Eldhuset, and G. Wollebaek, Organic acids in root exudates and soil solution of Norway spruce and silver birch, Soil Biology and Biochemistry, vol.37, pp.259-269, 2005.

L. Sanità-di-toppi and R. Gabbrielli, Response to cadmium in higher plants, Environmental and Experimental Botany, vol.41, pp.105-130, 1999.

T. Sano, Y. Kuraya, S. Amino, and T. Nagata, Phosphate as a limiting factor for the cell division of tobacco BY-2 cells, Plant and Cell Physiology, vol.40, pp.1-16, 1999.

L. Sas, Z. Rengel, and C. Tang, Excess cation uptake, and extrusion of protons and organic acid anions by Lupinus albus under phosphorus deficiency, Plant Science, vol.160, pp.1191-1198, 2001.

S. Sauvé, W. Hendershot, and H. E. Allen, Solid-solution partitioning of metals in contaminated soils: dependence on pH, total metal burden, and organic matter, Environmental Science & Technology, vol.34, pp.1125-1131, 2000.

G. Schilling, A. Gransee, A. Deuhel, G. Le?ovi?, and S. Ruppel, Phosphorus availability, root exudates, and microbial activity in the rhizosphere, Zeitschrift Für Pflanzenernährung Und Bodenkunde, vol.161, pp.465-478, 1998.

A. P. Schwab, Y. He, and M. K. Banks, The influence of organic ligands on the retention of lead in soil, Chemosphere, vol.61, pp.856-866, 2005.

A. Selvam and J. W. Wong, Phytochelatin systhesis and cadmium uptake of Brassica napus, Environmental Technology, vol.29, pp.765-773, 2008.

K. T. Semple, A. W. Morriss, and G. I. Paton, Bioavailability of hydrophobic organic contaminants in soils: fundamental concepts and techniques for analysis, European Journal of Soil Science, vol.54, pp.809-818, 2003.

I. V. Seregin and V. B. Ivanov, Physiological Aspects of Cadmium and Lead Toxic Effects on Higher Plants, Russian Journal of Plant Physiology, vol.48, pp.523-544, 2001.

K. Shah and R. S. Dubey, Effect of cadmium on proline accumulation and ribonuclease activity in rice seedlings: role of proline as a possible enzyme protectant, Biologia Plantarum, vol.40, pp.121-130, 1997.

S. S. Sharma and K. Dietz, The significance of amino acids and amino acid-derived molecules in plant responses and adaptation to heavy metal stress, Journal of Experimental Botany, vol.57, pp.711-726, 2006.

R. E. Sharp and W. J. Davies, Solute regulation and growth by roots and shoots of water-stressed maize plants, Planta, vol.147, pp.43-49, 1979.

H. Shen, X. Yan, M. Zhao, S. Zheng, and X. Wang, Exudation of organic acids in common bean as related to mobilization of aluminum-and iron-bound phosphates, Environmental and Experimental Botany, vol.48, pp.1-9, 2002.

J. Shen, H. Li, G. Neumann, and F. Zhang, Nutrient uptake, cluster root formation and exudation of protons and citrate in Lupinus albus as affected by localized supply of phosphorus in a split-root system, Plant Science, vol.168, pp.837-845, 2005.

M. Shenker, T. W. Fan, .. Crowley, and D. E. , Phytosiderophores Influence on Cadmium Mobilization and Uptake by Wheat and Barley Plants, Journal of Environment Quality, vol.30, p.2091, 2001.

R. H. Shimabukuro, Detoxication of Herbicides, In : Weed PhysiologyS. O. Duke, vol, vol.II, pp.215-240, 1985.

S. D. Siciliano and J. J. Germida, Mechanisms of phytoremediation: biochemical and ecological interactions between plants and bacteria, Environmental Reviews, vol.6, pp.65-79, 1998.

J. E. Silliman, P. A. Meyers, and B. J. Eadie, Perylene: an indicator of alteration processes or precursor materials?, Organic Geochemistry, vol.29, pp.1737-1744, 1998.

K. Smalla, G. Wieland, A. Buchner, A. Zock, J. Parzy et al., Bulk and rhizosphere soil bacterial communities studied by denaturing gradient gel electrophoresis: Plant-dependent enrichment and seasonal shifts revealed, Applied and Environmental Microbiology, vol.67, pp.4742-4751, 2001.

N. Smirnoff and Q. J. Cumbes, Hydroxyl radical scavenging activity of compatible solutes, vol.28, pp.1057-1060, 1989.

M. R. Smith, The biodegradation of aromatic hydrocarbons by bacteria, 1991.

. Ratledge-(éd, Physiology of Biodegradative Microorganisms, pp.191-206

F. Song, X. Han, X. Zhu, and S. J. Herbert, Response to water stress of soil enzymes and root exudates from drought and non-drought tolerant corn hybrids at different growth stages, Canadian Journal of Soil Science, vol.92, pp.501-507, 2012.

H. Song, Y. Wang, C. Sun, M. Wu, Y. Peng et al., Effects of polycyclic aromatic hydrocarbons exposure on antioxidant system activities and proline content in Kandelia candel, Oceanological and Hydrobiological Studies, vol.40, p.9, 2011.

T. Sterckeman, L. Gossiaux, S. Guimont, C. Sirguey, and Z. Lin, Cadmium mass balance in French soils under annual crops: Scenarios for the next century, Science of The Total Environment, vol.639, pp.1440-1452, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01990172

T. Sterckeman, S. Ouvrard, and P. Leglize, , 2011.

J. Strable and M. J. Scanlon, Maize (Zea mays): A model organism for basic and applied research in plant biology, Cold Spring Harbor Protocols, vol.10, p.132, 2009.

L. Ström, A. G. Owen, D. L. Godbold, and D. L. Jones, Organic acid behaviour in a calcareous soil implications for rhizosphere nutrient cycling, Soil Biology and Biochemistry, vol.37, pp.2046-2054, 2005.

V. E. Stubbs, D. Standing, O. G. Knox, K. Killham, A. G. Bengough et al., Root Border Cells Take Up and Release Glucose-C, Annals of Botany, vol.93, pp.221-224, 2004.

B. Sun, Y. Gao, J. Liu, and Y. Sun, The impact of different root exudate components on phenanthrene availability in soil, Soil Science Society of America Journal, vol.76, pp.2041-2050, 2012.

B. Szteke, R. Jedrzejczak, J. Nieplocha, and W. Tych, Influence of the environmental factors on cadmium content in strawberry fruit, Fruit Science Reports, 1988.

C. Tang, X. Z. Han, Y. F. Qiao, and S. J. Zheng, Phosphorus deficiency does not enhance proton release by roots of soybean, Environmental and Experimental Botany, vol.67, pp.228-234, 2009.

C. Tang and C. Young, Collection and Identification of Allelopathic Compounds from the Undisturbed Root System of Bigalta Limpograss (Hemarthria altissima), Plant Physiology, vol.69, pp.155-160, 1982.

S. R. Taylor and S. M. Mclennan, The geochemical evolution of the continental crust, Reviews of Geophysics, vol.33, pp.241-265, 1995.

M. Tester and R. A. Leigh, Partitioning of nutrient transport processes in roots, Journal of Experimental Botany, vol.52, issue.1, pp.445-457, 2001.

W. Tian, J. Zhao, Y. Zhou, K. Qiao, X. Jin et al., Effects of root exudates on gel-beads/reeds combination remediation of high molecular weight polycyclic aromatic hydrocarbons, Ecotoxicology and Environmental Safety, vol.135, pp.158-164, 2017.

A. Tiehm, M. Stieber, P. Werner, and F. H. Frimmel, Surfactant-enhanced mobilization and biodegradation of polycyclic aromatic hydrocarbons in manufactured gas plant soil, Environmental Science & Technology, vol.31, pp.2570-2576, 1997.

S. J. Traina, The Environmental Chemistry of Cadmium, Cadmium in Soils and Plants, pp.11-37, 1999.

N. C. Uren, Types, amounts, and possible functions of compounds released into the rhizosphere by soil-grown plants, The Rhizosphere, CRC Pressvol. 1-0, pp.1-21, 2007.

N. C. Uren and H. M. Reisenauer, The role of root exudates in nutrient acquisition, Advances in Plant Nutrition, pp.79-114, 1988.

, Method 610: polynuclear aromatic hydrocarbons, p.25, 1984.

. Us-epa, A citizen's guide to phytoremediation, 2000.

. Us-epa, Introduction to phytoremediation, United States -Environment Protection Agency, 2000.

F. Van-assche and H. Clijsters, A biological test system for the evaluation of the phytotoxicity of metal-contaminated soils, Environmental Pollution, vol.66, pp.157-172, 1990.

A. Van-der-ent, A. J. Baker, R. D. Reeves, R. L. Chaney, C. W. Anderson et al., Agromining: Farming for Metals in the Future?, Environmental Science & Technology, vol.49, pp.4773-4780, 2015.

V. Van?ura, Z. P?ikryl, L. Kalachová, and M. Wurst, Some Quantitative Aspects of Root Exudation, Ecological Bulletins, n°25, pp.381-386, 1977.

L. Vá?ová, M. Kummerová, M. Klem?, and ?. Zezulka, Fluoranthene influences endogenous abscisic acid level and primary photosynthetic processes in pea (Pisum sativum L.) plants in vitro, Plant Growth Regulation, vol.57, pp.39-47, 2009.

A. Vassilev, F. C. Lidon, . Do, M. Matos, J. C. Ramalho et al., Photosynthetic performance and some nutrients content in Cd and Cu-treated Barley (Hordeum vulgare L.) plants, vol.25, pp.2343-2360, 2002.

A. Vassilev, A. Perez-sanz, A. Cuypers, and J. Vangronsveld, Tolerance of Two Hydroponically Grown Salix Genotypes to Excess Zinc, Journal of Plant Nutrition, vol.30, pp.1471-1482, 2007.

A. Vassilev, T. Tsonev, and I. Yordanov, Physiological response of barley plants (Hordeum vulgare) to cadmium contamination in soil during ontogenesis, Environmental Pollution, vol.103, pp.287-293, 1998.

K. C. Vaughn and W. H. Campbell, Immunogold localization of nitrate reductase in maize leaves, Plant Physiology, vol.88, pp.1354-1357, 1988.

R. Vögeli-lange and G. J. Wagner, Subcellular Localization of Cadmium and Cadmium-Binding Peptides in Tobacco Leaves Implication of a Transport Function for Cadmium-Binding Peptides, Plant Physiology, vol.92, pp.1086-1093, 1990.

V. Vranova, K. Rejsek, K. R. Skene, D. Janous, and P. Formanek, Methods of collection of plant root exudates in relation to plant metabolism and purpose: A review, Journal of Plant Nutrition and Soil Science, vol.176, pp.175-199, 2013.

Q. Wang, X. Liu, X. Zhang, Y. Hou, X. Hu et al., Influence of tea saponin on enhancing accessibility of pyrene and cadmium phytoremediated with Lolium multiflorum in co-contaminated soils, Environmental Science and Pollution Research, vol.23, pp.5705-5711, 2016.

Z. Wang, C. Yang, J. L. Parrott, R. A. Frank, Z. Yang et al., Forensic source differentiation of petrogenic, pyrogenic, and biogenic hydrocarbons in Canadian oil sands environmental samples, Journal of Hazardous Materials, vol.271, pp.166-177, 2014.

T. L. Weir, S. Park, and J. M. Vivanco, Biochemical and physiological mechanisms mediated by allelochemicals, Current Opinion in Plant Biology, vol.7, pp.472-479, 2004.

L. Weng, E. J. Temminghoff, S. Lofts, E. Tipping, and W. H. Van-riemsdijk, Complexation with dissolved organic matter and solubility control of heavy metals in a sandy soil, Environmental Science & Technology, vol.36, pp.4804-4810, 2002.

W. Wilcke, Polycyclic aromatic hydrocarbons (PAHs) in soil -a review, Journal of Plant Nutrition and Soil Science, vol.163, pp.229-248, 2000.

E. Wild, J. Dent, G. O. Thomas, and K. C. Jones, Direct Observation of Organic Contaminant Uptake, Storage, and Metabolism within Plant Roots, Environmental Science & Technology, vol.39, pp.3695-3702, 2005.

S. R. Wild and K. C. Jones, Organic chemicals entering agricultural soils in sewage sludges: screening for their potential to transfer to crop plants and livestock, Science of The Total Environment, vol.119, pp.85-119, 1992.

W. G. Willats, L. Mccartney, and J. P. Knox, In-situ analysis of pectic polysaccharides in seed mucilage and at the root surface of Arabidopsis thaliana, Planta, vol.213, pp.37-44, 2001.

L. E. Williams, J. K. Pittman, and J. L. Hall, Emerging mechanisms for heavy metal transport in plants, Biochimica et Biophysica Acta (BBA) -Biomembranes, vol.1465, pp.104-126, 2000.

L. Wittenmayer and W. Merbach, Plant responses to drought and phosphorus deficiency: contribution of phytohormones in root-related processes, Journal of Plant Nutrition and Soil Science, vol.168, pp.531-540, 2005.

R. Wittig, H. Ballach, and A. Kuhn, Exposure of the Roots of Populus nigra L. cv. Loenen to PAHs and its Effect on growth and water balance, Environmental Science and Pollution Research, vol.10, p.235, 2003.

. World-health and . Organization, Exposure to cadmium : a major public health concern, Preventing Disease through Healthy Environments, vol.27, 2010.

F. Wu and G. Zhang, Genotypic variation in kernel heavy metal concentrations in barley and as affected by soil factors, Journal of Plant Nutrition, vol.25, pp.1163-1173, 2002.

H. Wu, T. Haig, J. Pratley, D. Lemerle, and M. An, Distribution and exudation of allelochemicals in wheat Triticum aestivum, Journal of Chemical Ecology, vol.26, p.2141, 2000.

H. Wu, T. Haig, J. Pratley, D. Lemerle, and M. An, Allelochemicals in wheat (Triticum aestivum L.): variation of phenolic acids in shoot tissues, Journal of Chemical Ecology, vol.27, pp.125-135, 2001.

X. Xian, Effect of chemical forms of cadmium, zinc, and lead in polluted soils on their uptake by cabbage plants, Plant and Soil, vol.113, pp.257-264, 1989.

M. Xin, L. Dao-hui, X. Yi, W. Yuan-yuan, and T. You-ying, Effects of phenanthrene on chemical composition and enzyme activity in fresh tea leaves, Food Chemistry, vol.115, pp.569-573, 2009.

B. Xing and J. J. Pignatello, Dual-Mode Sorption of Low-Polarity Compounds in Glassy Poly(Vinyl Chloride) and Soil Organic Matter, Environmental Science & Technology, vol.31, pp.792-799, 1997.

Y. Yang, D. Ratté, B. F. Smets, J. J. Pignatello, and D. Grasso, Mobilization of soil organic matter by complexing agents and implications for polycyclic aromatic hydrocarbon desorption, Chemosphere, vol.43, pp.1013-1021, 2001.

C. L. Yap, S. Gan, and H. K. Ng, Application of vegetable oils in the treatment of polycyclic aromatic hydrocarbons-contaminated soils, Journal of Hazardous Materials, vol.177, pp.28-41, 2010.

K. J. Yoshitomi and J. R. Shann, Corn (Zea mays L.) root exudates and their impact on 14C-pyrene mineralization, Soil Biology and Biochemistry, vol.33, pp.1769-1776, 2001.

F. Zeng, S. Chen, Y. Miao, F. Wu, and G. Zhang, Changes of organic acid exudation and rhizosphere pH in rice plants under chromium stress, Environmental Pollution, vol.155, pp.284-289, 2008.

X. Zhan, X. Liang, T. Jiang, and G. Xu, Interaction of phenanthrene and potassium uptake by wheat roots: a mechanistic model, BMC Plant Biology, vol.13, p.168, 2013.

X. Zhan, X. Zhang, X. Yin, H. Ma, J. Liang et al., H + /phenanthrene symporter and aquaglyceroporin are implicated in phenanthrene uptake by wheat (Triticum aestivum L.) roots, Journal of Environmental Quality, vol.41, pp.188-196, 2012.

X. Zhan, H. Ma, L. Zhou, J. Liang, T. Jiang et al., Accumulation of phenanthrene by roots of intact wheat (Triticum acstivnmL.) seedlings: passive or active uptake?, BMC Plant Biology, vol.10, p.52, 2010.

F. Zhang, Y. Wang, Z. Lou, and J. Dong, Effect of heavy metal stress on antioxidative enzymes and lipid peroxidation in leaves and roots of two mangrove plant seedlings (Kandelia candel and Bruguiera gymnorrhiza, Chemosphere, vol.67, pp.44-50, 2007.

F. Zhang, V. Römheld, and H. Marschner, Diurnal rhythm of release of phytosiderophores and uptake rate of zinc in iron-deficient wheat, Soil Science and Plant Nutrition, vol.37, pp.671-678, 1991.