, Cleaning up the Nation's Hazardous Wastes Sites, vol.USEPA, 2014.

A. Kabata-pendias and H. Pendias, Biogeochemistry of Trace Elements, 1999.

F. Douay, C. Pruvot, H. Roussel, H. Ciesielski, H. Fourrier et al., Contamination of urban soils in an area of Northern France polluted by dust emissions of two smelters, Water Air Soil Pollut, vol.188, pp.247-260, 2008.

F. Douay, C. Pruvot, C. Waterlot, C. Fritsch, H. Fourrier et al., Contamination of woody habitat soils around a former lead smelter in the North of France, Sci. Total Environ, vol.407, pp.5564-5577, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00413804

A. Pelfrêne, C. Waterlot, and F. Douay, Influence of land use on human bioaccessibility of metals in smelter-impacted soils, Environ. Pollut, vol.178, pp.80-88, 2013.

F. Douay, A. Pelfrêne, J. Planque, H. Fourrier, A. Richard et al., Assessment of potential health risk for inhabitants living near a former lead smelter. Part 1: Metal concentrations in soils, agricultural crops, and homegrown vegetables, Environ. Monit. Assess, vol.185, pp.3665-3680, 2013.

A. Augustsson, T. Uddh-söderberg, K. J. Hogmalm, and M. E. Filipsson, Metal uptake by homegrown vegetables-The relative importance in human health risk assessments at contaminated sites, Environ. Res, vol.138, pp.181-190, 2015.

A. Augustsson, T. Uddh-söderberg, M. Filipsson, I. Helmfrid, M. Berglund et al., Challenges in assessing the health risks of consuming vegetables in metal-contaminated environments, Environ. Int, vol.113, pp.269-280, 2018.

P. F. Ávila, E. F. Da-silva, and C. Candeias, Health risk assessment through consumption of vegetables rich in heavy metals: The case study of the surrounding villages from Panasqueira mine, central Portugal, vol.39, pp.565-589, 2017.

R. Ferri, D. Hashim, D. R. Smith, S. Guazzetti, F. Donna et al., Metal contamination of home garden soils and culativated vegetables in the province of Brescia, Italy: Implications for human exposure, Sci. Total Environ, vol.518, pp.507-517, 2015.

Z. Pan?eveski, T. Stafilov, and K. Ba?eva, Distribution of heavy metals in the garden soil and vegetables grown in the vicinity of lead and zinc smelter plant, J. Sci. Eng. Res, vol.3, pp.1-11, 2016.

A. Pelfrêne, F. Douay, A. Richard, H. Roussel, and B. Girondelot, Assessment of potential health risk for inhabitants living near a former lead smelter. Part2: Site-specific human health risk assessment of Cd and Pb contamination in kitchen gardens, Environ. Monit. Assess, vol.185, pp.2999-3012, 2013.

A. Pelfrêne, K. Sahmer, C. Waterlot, and F. Douay, From environmental and social data acquisition to assessment of gardeners' exposure: Feedback in an urban context highly contaminated with metals, Environ. Sci. Pollut. Res, 2019.

C. S. Wong, X. Li, and I. Thorthon, Urban environmental geochemistry of trace metals, Environ. Pollut, vol.142, pp.1-16, 2006.

X. S. Luo, S. Yu, Y. G. Zhu, and X. D. Li, Trace metal contamination in urban soils of China, Sci. Total Environ, vol.421, pp.17-30, 2012.

V. Ettler, Soil contamination near non-ferrous metal smelters: A review, Appl. Geochem, vol.64, pp.56-74, 2016.

Y. Jia, S. Tang, R. Wang, X. Ju, Y. Ding et al., Effects of elevated on growth, photosynthesis, elemental composition, antioxidant level, and phytochelatin concentration in Lolium multiforum and Lolium perenne under Cd stress, J. Hazard. Mater, vol.180, pp.384-394, 2010.

M. Arienzo, P. Adamo, and V. Cozzolino, The potential of Lolium perenne for revegetation of contaminated soil from a metallurgical site, Sci. Total Environ, vol.319, pp.13-25, 2004.

T. Sterckeman, L. Duquene, J. Perriguey, and J. L. Morel, Quantifying the effect of rhizosphere processes on the availability on soil cadmium and zinc, Plant Soil, vol.276, pp.335-345, 2005.

F. Rees, C. Germain, T. Sterckeman, and J. L. Morel, Plant growth and metal uptake by a non-hyperaccumulating species (Lolium perenne L.) and a Cd-Zn hyperaccumulator (Noccaea caerulrscens) in contaminated soils amended with biochar, Plant Soil, vol.395, pp.57-73, 2015.

G. Convertini, D. Ferri, F. Montemurro, and M. Maiorana, Effects of municipal solid waste compost on soils cropped with tomato and sunflower rotation with durum wheat, Proceedings of the ISCO 2004-13th International Soil Conservation Organisation Conference, pp.4-8, 2004.

F. Tittarelli, G. Petruzzelli, B. Pezzarossa, M. Civilini, A. Benedetti et al., Quality and agronomic use of compost, Waste Manag. Ser, vol.8, pp.119-157, 2007.

R. Strachel, J. Wyszkowska, and M. Baémaga, The role of compost in stabilizing the microbiological and biochemical properties of zinc-stressed soil, Water Air Soil Pollut, vol.228, pp.349-364, 2017.

S. Bakshi, C. Banik, and Z. He, Monitoring and management. In Managing Soil Health for Sustainable Agriculture

D. Reicosky and . Ed, , vol.2, 2018.

C. P. Bong, L. Y. Lim, W. S. Ho, J. S. Lim, J. J. Klemes et al., A review on the global warming potential of cleaner composting and mitigation strategies, J. Clean, vol.146, pp.149-157, 2017.

E. Z. Harisson, Health impact of composting air emission, Biocycle, vol.48, pp.44-50, 2007.

S. R. Smith, A critical review of the bioavailability and impacts of heavy metals in municipal solid waste composts compared to sewage sludge, Environ. Int, vol.35, pp.142-156, 2009.

B. Smolinska, Green waste compost as an amendment during induced phytoextraction of mercury-contaminated soil, Environ. Sci. Pollut. Res, vol.22, pp.3528-3537, 2015.

M. Huang, Y. Zhu, Z. Li, B. Huang, N. Luo et al., Compost as a soil amendment to remediate heavy metal-contaminated agricultural soils: Mechanisms, efficacy, problems, and strategies, Water Air Soil Pollut, vol.227, pp.359-377, 2016.

M. B. Mcbride, H. A. Shayler, J. M. Russell-analli, H. M. Spliethoff, and L. G. Marquez-bravo, Arsenic and lead uptake by vegetable crops grown on an old Orchard site amended with compost, Water Air Soil Pollut, vol.226, pp.265-275, 2015.

M. Edelstein and M. Ben-hur, Heavy metals and metalloids: Sources, risks and strategies to reduce their accumulation in horticultural crops, Sci. Hortic, vol.234, pp.431-444, 2018.

A. Paltseva, Z. Cheng, M. Deeb, P. M. Groffman, R. K. Shaw et al., Accumulation of arsenic and lead in garden-grown vegetables: Factors and mitigation strategies, Sci. Total Environ, vol.640, pp.273-283, 2018.

J. H. Chen and J. T. Wu, Benefits and Drawbacks of Composting. Food and Fertilizer Technology Center, 2005.

C. Grison, V. Escande, and J. Biton, Ecocatalysis: A New Integrated Approach to Scientific Ecology, p.100, 2015.

M. Hechelski, A. Ghinet, B. Louvel, P. Dufrénoy, B. Rigo et al., From Conventional Lewis acids to heterogeneous montmorillonite K10, eco-friendly plant-based catalysts used as green Lewis acids, ChemSusChem, vol.11, pp.1249-1277, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02413293

P. A. Deyris, V. Bert, S. Diliberto, C. Boulanger, E. Petit et al., Biosourced polymetallic catalysis: A surprising and efficient means to promote the Knoevenagel condensation, Front. Chem, vol.6, pp.1-9, 2018.
URL : https://hal.archives-ouvertes.fr/ineris-01863338

P. A. Deyris and C. Grison, Nature, ecology and chemistry: An unusual combination for a new green catalysis, ecocatalysis, Curr. Opin. Green. Sustain. Chem, vol.10, pp.6-10, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01938026

V. Houzelot, B. Laubie, S. Pontvianne, and M. O. Simonnot, Effect of up-scaling on the quality of ashes obtained from hyperaccumulator biomass to recover Ni by agromining, Chem. Eng. Res. Des, vol.120, pp.26-33, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02101747

C. Hazotte, B. Laubie, F. Rees, J. L. Morel, and M. O. Simonnot, A novel process to recover cadmium and zinc from the hyperaccumulator plant Noccaea caerulescens, Hydrometallurgy, vol.174, pp.56-65, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01699912

P. T. Anastas and J. C. Warner, Green Chemistry: Theory and Practice, p.148, 1998.

P. T. Anastas and J. B. Zimmerman, Peer reviewed: Design through the 12 principles of green engineering, Environ. Sci. Technol, vol.37, pp.94-101, 2003.

C. Waterlot and M. Hechelski, Benefits of ryegrass on multicontaminated soils Part 1: Effects of fertilizers on bioavailability and accumulation of metals

M. Savio, S. Cerutti, L. D. Martinez, P. Smichowski, and R. A. Gil, Study of matrix and spectral interferences in the determination of lead in sediments, sludges and soils by SR-ETAAS using slurry sampling, Talanta, vol.82, pp.523-527, 2010.

C. Waterlot and F. Douay, The problem of arsenic interference in the analysis of Cd to evaluate its extractability in soils contaminated by arsenic, Talanta, vol.80, pp.716-722, 2009.

C. Waterlot, G. Bidar, C. Pruvot, and F. Douay, Analysis of cadmium in water extracts from contaminated soils with high arsenic and iron concentration levels, J. Environ. Sci. Eng, vol.5, pp.271-280, 2011.

C. Waterlot, D. Couturier, and B. Hasiak, Friedel-Crafts benzylation of 1,4-dialkoxybenzenes-Cleavage and rearrangement of esters and methoxymethyl ethers in ZnCl 2 montmorillonite K10 clays, J. Chem. Res, pp.100-101, 2000.

C. Waterlot, A. Ghinet, M. Hechelski, and P. Dufrénoy, Catalyseurs Organo-Minéraux Issus de Plantes Non-Hyper-Accumulatrices Ayant Poussés sur des Supports Contaminés Amendés ou non; Déclaration d'Invention déposée à la SATT Nord, M0488, 2017.

B. M. Trost, The atom economy-A research for synthetic efficiency, Science, vol.1191, pp.1471-1477

R. A. Sheldon, The E factor 25 years on: The rise of green chemistry and sustainability, vol.19, pp.18-43, 2017.

A. D. Curzons, D. J. Constable, D. N. Mortimer, and V. L. Cunningham, So you think your process is green, how do you know? Using principles of sustainability to determine what is green-A corporate perspective, Green Chem, vol.3, pp.1-6, 2001.

L. P. Guan, C. X. Wei, X. Q. Deng, X. Sui, H. R. Piao et al., Synthesis and anticonvulsant activity of N-(2-hydroxyethyl) cinnamamide derivatives, Eur. J. Med. Chem, vol.44, pp.3654-3657, 2009.

S. De-sarkar, S. Grimme, and A. Studer, NHC catalysed oxidations of aldehydes to esters: Chemioselective acylation of alcohols in presence of amines, J. Am. Chem. Soc, vol.132, pp.1190-1191, 2010.

J. Fowles, R. Boatman, J. Bootman, C. Lewis, D. Morgott et al., A review of the toxicological and environmental hazards and risks of tetrahydrofuran, Crit. Rev. Toxicol, vol.43, pp.811-828, 2013.

P. M. Schlosser, A. S. Bale, C. F. Gibbons, A. Wilkins, and G. S. Cooper, Human health effects of dichloromethane: Key findings and scientific issues, Environ. Health Perspect, vol.123, pp.114-119, 2015.

P. Garg and M. D. Milton, Sodium carbonate mediated regioselective synthesis of novel N-(hydroxyalkyl)cinnamamides, Tetrahedron Lett, vol.54, pp.7074-7077, 2013.

P. Dufrénoy, B. Rigo, C. Waterlot, M. Hechelski, A. Daïch et al., Valorization of New Eco-Catalysts in the Synthesis of Anti-Inflammatory Compounds; Journées des Jeunes Chercheurs de la Société de Chimie Thérapeutique, 2017.

A. M. Bahmanpour, F. Héroguel, C. J. Baranowski, J. S. Luterbacher, and O. Kröcher, Selective synthesis of dimethyl ether on eco-friendly K10 montmorillonite clay, Appl. Catal. A, vol.560, pp.165-170, 2018.

C. M. Grison, A. Velati, V. Escande, and C. Grison, Metallophytes for organic synthesis: Towards new bio-based selective protection/deprotection procedures, Environ Sci. Pollut. Res, vol.22, pp.5686-5698, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01937609

V. Escande, B. L. Renard, and C. Grison, Lewis acid catalysis and green oxidations: Sequential tandem oxidation process induced by Mn-hyperaccumulating plants, © 2019 by the authors. Licensee MDPI, vol.22, pp.5633-5652, 2015.