R. H. Kadlec, S. D. Wallace, and . Wetlands, , 2009.

J. Vymazal, The use of hybrid constructed wetlands for wastewater treatment with special attention to nitrogen removal: A review of a recent development, Water Res, vol.47, pp.4795-4811, 2013.

H. Ilyas and I. Masih, The performance of the intensified constructed wetlands for organic matter and nitrogen removal: A review, J. Environ. Manag, vol.198, pp.372-383, 2017.

H. Ilyas and I. Masih, Intensification of constructed wetlands for land area reduction: A review, Environ. Sci. Pollut. Res, vol.24, pp.12081-12091, 2017.

H. Ilyas and I. Masih, The effects of different aeration strategies on the performance of constructed wetlands for phosphorus removal, Environ. Sci. Pollut. Res, vol.25, pp.5318-5335, 2018.

G. Imfeld, M. Braeckevelt, P. Kuschk, and H. H. Richnow, Monitoring and assessing processes of organic chemicals removal in constructed wetlands, a review, Chemosphere, vol.74, pp.349-362, 2009.

P. N. Carvalho, M. C. Basto, C. M. Almeida, and H. Brix, A review of plant-pharmaceutical interactions: From uptake and effects in crop plants to phytoremediation in constructed wetlands, Environ. Sci. Pollut. Res, vol.21, pp.11729-11763, 2014.

Y. Li, G. Zhu, W. J. Ng, and S. K. Tan, A review on removing pharmaceutical contaminants from wastewater by constructed wetlands: Design, performance and mechanism, Sci. Total Environ, pp.908-932, 2014.

P. Verlicchi and E. Zambello, How efficient are constructed wetlands in removing pharmaceuticals from untreated and treated urban wastewaters? A review, Sci. Total Environ, pp.1281-1306, 2014.

D. Zhang, R. M. Gersberg, W. J. Ng, and S. K. Tan, Removal of pharmaceuticals and personal care products in aquatic plant-based systems: A review, Environ. Pollut, vol.184, pp.620-639, 2014.

A. M. Gorito, A. R. Ribeiro, C. M. Almeida, and A. M. Silva, A review on the application of constructed wetlands for the removal of priority substances and contaminants of emerging concern listed in recently launched EU legislation, Environ. Pollut, vol.227, pp.428-443, 2017.

A. O. Ekperusi, F. D. Sikoki, and E. O. Nwachukwu, Application of common duckweed (Lemna minor) in phytoremediation of chemicals in the environment: State and future perspective, Chemosphere, vol.223, pp.285-309, 2019.

D. Q. Zhang, S. K. Tan, R. M. Gersberg, S. Sadreddini, J. Zhu et al., Removal of pharmaceutical compounds in tropical constructed wetlands, Ecol. Eng, vol.37, pp.460-464, 2011.

V. Matamoros and V. Salvadó, Evaluation of the seasonal performance of a water reclamation pond-constructed wetland system for removing emerging contaminants, Chemosphere, vol.86, pp.111-117, 2012.

M. Hijosa-valsero, V. Matamoros, R. Sidrach-cardona, J. Martin-villacorta, E. Becares et al., Comprehensive assessment of the design configuration of constructed wetlands for the removal of pharmaceuticals and personal care products from urban wastewaters, Water Res, vol.44, pp.3669-3678, 2010.

M. Hijosa-valsero, V. Matamoros, A. Pedescoll, J. Martín-villacorta, E. Bécares et al., Evaluation of primary treatment and loading regimes in the removal of pharmaceuticals and personal care products from urban wastewaters by subsurface-flow constructed wetlands, Int. J. Environ. Anal. Chem, vol.91, pp.632-653, 2011.

Y. Chen, J. Vymazal, T. B?ezinová, M. Ko?eluh, L. Kule et al., Occurrence, removal and environmental risk assessment of pharmaceuticals and personal care products in rural wastewater treatment wetlands, Sci. Total Environ, pp.1660-1669, 2016.

V. Matamoros, Y. Rodríguez, and J. M. Bayona, Mitigation of emerging contaminants by full-scale horizontal flow constructed wetlands fed with secondary treated wastewater, Ecol. Eng, vol.99, pp.222-227, 2017.

J. Vymazal, T. D. B?ezinová, M. Ko?eluh, and L. Kule, Occurrence and removal of pharmaceuticals in four full-scale constructed wetlands in the Czech Republic-the first year of monitoring, Ecol. Eng, vol.98, pp.354-364, 2017.

V. Matamoros, C. Arias, H. Brix, and J. M. Bayona, Removal of pharmaceuticals and personal care products (PPCPs) from urban wastewater in a pilot vertical flow constructed wetland and a sand filter, Environ. Sci. Technol, vol.41, pp.8171-8177, 2007.

D. Q. Zhang, R. M. Gersberg, J. Zhu, T. Hua, K. B. Jinadasa et al., Batch versus continuous feeding strategies for pharmaceutical removal by subsurface flow constructed wetland, Environ. Pollut, vol.167, pp.124-131, 2012.

A. Dan, Y. Yang, Y. Dai, C. Chen, S. Wang et al., Removal and factors influencing removal of sulfonamides and trimethoprim from domestic sewage in constructed wetlands, Bioresour. Technol, vol.146, pp.363-370, 2013.

C. Ávila, V. Matamoros, C. Reyes-contreras, B. Piña, M. Casado et al., Attenuation of emerging contaminants in a hybrid constructed wetland system under different hydraulic loading rates and their associated toxicological effects in wastewater, Sci. Total Environ, pp.470-471, 2014.

F. Sharif, P. Westerhoff, and P. Herckes, Impact of hydraulic and carbon loading rates of constructed wetlands on contaminants of emerging concern (CECs) removal, Environ. Pollut, vol.185, pp.107-115, 2014.

J. Conkle, J. R. White, and C. D. Metcalfe, Reduction of pharmaceutically active compounds by a lagoon wetland wastewater treatment system in Southeast Louisiana, Chemosphere, vol.73, pp.1741-1748, 2008.

V. Matamoros, J. García, and J. M. Bayona, Organic micropollutant removal in a full-scale surface flow constructed wetland fed with secondary effluent, Water Res, vol.42, pp.653-660, 2008.

D. Q. Zhang, R. M. Gersberg, T. Hua, J. Zhu, N. A. Tuan et al., Pharmaceutical removal in tropical subsurface flow constructed wetlands at varying hydraulic loading rates, Chemosphere, vol.87, pp.273-277, 2012.

A. Dordio and A. J. Carvalho, Constructed wetlands with light expanded clay aggregates for agricultural wastewater treatment, Sci. Total Environ, pp.454-461, 2013.

P. Verlicchi, A. Galletti, M. Petrovic, D. Barceló, M. Al-aukidy et al., Removal of selected pharmaceuticals from domestic wastewater in an activated sludge system followed by a horizontal subsurface flow bed-analysis of their respective contributions, Sci. Total Environ, pp.411-425, 2013.

J. Herrera-cárdenas, A. E. Navarro, and E. Torres, Effects of porous media, macrophyte type and hydraulic retention time on the removal of organic load and micropollutants in constructed wetlands, J. Environ. Sci. Health Part A, vol.51, pp.380-388, 2016.

H. Auvinen, W. Gebhardt, V. Linnemann, G. D. Laing, and D. P. Rousseau, Laboratory-and full-scale studies on the removal of pharmaceuticals in an aerated constructed wetland: Effects of aeration and hydraulic retention time on the removal efficiency and assessment of the aquatic risk, Water Sci. Technol, vol.76, pp.1457-1465, 2017.

J. J. Salcedo, G. H. Montes, A. E. Frómeta, A. C. Osorio, and J. M. Negrete, Removal of organic micropollutants from riverine waters using constructed wetlands: A mesocosms experiment, Int. J. Appl. Eng. Res, vol.13, pp.15740-15748, 2018.

P. N. Carvalho, J. L. Araújo, A. P. Mucha, M. C. Basto, and C. M. Almeida, Potential of constructed wetlands microcosms for the removal of veterinary pharmaceuticals from livestock wastewater, Bioresour. Technol, vol.134, pp.412-416, 2013.

X. Zhang, R. Jing, X. Feng, Y. Dai, R. Tao et al., Removal of acidic pharmaceuticals by small-scale constructed wetlands using different design configurations, Sci. Total Environ, vol.639, pp.640-647, 2018.

C. Ávila, C. Reyes, J. M. Bayona, and J. García, Emerging organic contaminant removal depending on primary treatment and operational strategy in horizontal subsurface flow constructed wetlands: Influence of redox, Water Res, vol.47, pp.315-325, 2013.

V. Matamoros, Y. Rodríguez, and J. Albaigés, A comparative assessment of intensive and extensive wastewater treatment technologies for removing emerging contaminants in small communities, Water Res, vol.88, pp.777-785, 2016.

M. Nuel, J. Laurent, P. Bois, D. Heintz, and A. Wanko, Seasonal and ageing effect on the behaviour of 86 drugs in a full-scale surface treatment wetland: Removal efficiencies and distribution in plants and sediments, Sci. Total Environ, vol.615, pp.1099-1109, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01897481

C. Ávila, J. Nivala, L. Olsson, K. Kassa, T. Headley et al., Emerging organic contaminants in vertical subsurface flow constructed wetlands: Influence of media size, loading frequency and use of active aeration, Sci. Total Environ, pp.211-217, 2014.

H. Auvinen, I. Havran, L. Hubau, L. Vanseveren, W. Gebhardt et al., Removal of pharmaceuticals by a pilot aerated sub-surface flow constructed wetland treating municipal and hospital wastewater, Ecol. Eng, vol.100, pp.157-164, 2017.

S. Kahl, J. Nivala, M. V. Afferden, R. A. Müller, and T. Reemtsma, Effect of design and operational conditions on the performance of subsurface flow treatment wetlands: Emerging organic contaminants as indicators, Water Res, vol.125, pp.490-500, 2017.

Y. Li, B. Wu, G. Zhu, Y. Liu, W. J. Ng et al., High-throughput pyrosequencing analysis of bacteria relevant to cometabolic and metabolic degradation of ibuprofen in horizontal subsurface flow constructed wetlands, Sci. Total Environ, vol.562, pp.604-613, 2016.

J. Li, Q. Zhou, and L. C. Campos, Removal of selected emerging PPCP compounds using greater duckweed (Spirodela polyrhiza) based lab-scale free water constructed wetland, Water Res, vol.126, pp.252-261, 2017.

J. Nivala, S. Kahl, J. Boog, M. Afferden, T. Reemtsma et al., Dynamics of emerging organic contaminant removal in conventional and intensified subsurface flow treatment wetlands, Sci. Total Environ, vol.649, pp.1144-1156, 2019.

A. V. Dordio, A. J. Carvalho, D. M. Teixeira, C. B. Dias, and A. P. Pinto, Removal of pharmaceuticals in microcosm constructed wetlands using Typha Spp. and LECA, Bioresour. Technol, vol.101, pp.886-892, 2010.

M. Hijosa-valsero, G. Fink, M. P. Schlüsener, R. Sidrach-cardona, J. Martín-villacorta et al., , vol.83, pp.713-719, 2011.

M. Hijosa-valsero, C. Reyes-contreras, C. Domínguez, E. Bécares, and J. M. Bayona, Behaviour of pharmaceuticals and personal care products in constructed wetland compartments: Influent, effluent, pore water, substrate and plant roots, Chemosphere, vol.145, pp.508-517, 2016.

Q. Xian, L. Hu, H. Chen, Z. Chang, and H. Zou, Removal of nutrients and veterinary antibiotics from swine wastewater by a constructed macrophyte floating bed system, J. Environ. Manag, vol.91, pp.2657-2661, 2010.

C. Reyes-contreras, M. Hijosa-valsero, R. Sidrach-cardona, J. M. Bayona, and E. Bécares, Temporal evolution in PPCP removal from urban wastewater by constructed wetlands of different configuration: A medium-term study, Chemosphere, vol.88, pp.161-167, 2012.

O. Carranza-diaz, L. Schultze-nobre, M. Moeder, J. Nivala, P. Kuschk et al., Removal of selected organic micropollutants in planted and unplanted pilot-scale horizontal flow constructed wetlands under conditions of high organic load, Ecol. Eng, vol.71, pp.234-245, 2014.

C. Macci, E. Peruzzi, S. Doni, R. Iannelli, and G. Masciandaro, Ornamental plants for micro-pollutant removal in wetland systems, Environ. Sci. Pollut. Res, vol.22, pp.2406-2415, 2015.

Y. Li, J. Zhang, G. Zhu, Y. Liu, B. Wu et al., Phytoextraction, phytotransformation and rhizodegradation of ibuprofen associated with Typha angustifolia in a horizontal subsurface flow constructed wetland, Water Res, vol.102, pp.294-304, 2016.

Y. He, N. B. Sutton, Y. Lei, H. H. Rijnaarts, and A. A. Langenhoff, Fate and distribution of pharmaceutically active compounds in mesocosm constructed wetlands, J. Hazard. Mater, vol.357, pp.198-206, 2018.

M. Button, K. Cosway, J. Sui, and K. Weber, Impacts and fate of triclosan and sulfamethoxazole in intensified re-circulating vertical flow constructed wetlands, Sci. Total Environ, vol.649, pp.1017-1028, 2019.

J. Chen, X. Wei, Y. Liu, G. Ying, S. Liu et al., Removal of antibiotics and antibiotic resistance genes from domestic sewage by constructed wetlands: Optimization of wetland substrates and hydraulic loading, Sci. Total Environ, vol.565, pp.240-248, 2016.

X. Huang, J. Zheng, C. Liu, L. Liu, Y. Liu et al., Removal of antibiotics and resistance genes from swine wastewater using vertical flow constructed wetlands: Effect of hydraulic flow direction and substrate type, Chem. Eng. J, vol.308, pp.692-699, 2017.

J. Park, K. H. Cho, E. Lee, S. Lee, and J. Cho, Sorption of pharmaceuticals to soil organic matter in a constructed wetland by electrostatic interaction, Sci. Total Environ, vol.635, pp.1345-1350, 2018.

L. Liu, Y. Liu, Z. Wang, C. Liu, X. Huang et al., Behavior of tetracycline and sulfamethazine with corresponding resistance genes from swine wastewater in pilot-scale constructed wetlands, J. Hazard. Mater, vol.278, pp.304-310, 2014.

S. Rühmland, A. Wick, T. A. Ternes, and M. Barjenbruch, Fate of pharmaceuticals in a subsurface flow constructed wetland and two ponds, Ecol. Eng, vol.80, pp.125-139, 2015.

C. Ávila, A. Pedescoll, V. Matamoros, J. M. Bayona, and J. García, Capacity of a horizontal subsurface flow constructed wetland system for the removal of emerging pollutants: An injection experiment, Chemosphere, vol.81, pp.1137-1142, 2010.

M. Hijosa-valsero, V. Matamoros, J. Martin-villacorta, E. Becares, and J. M. Bayona, Assessment of full-scale natural systems for the removal of PPCPs from wastewater in small communities, Water Res, vol.44, pp.1429-1439, 2010.

C. Ávila, J. M. Bayona, I. Martín, J. J. Salas, and J. García, Emerging organic contaminant removal in a full-scale hybrid constructed wetland system for wastewater treatment and reuse, Ecol. Eng, vol.80, pp.108-116, 2015.

A. Francini, L. Mariotti, S. D. Gregorio, L. Sebastiani, and A. Andreucci, Removal of micro-pollutants from urban wastewater by constructed wetlands with Phragmites australis and Salix matsudana, Environ. Sci. Pollut. Res, vol.25, pp.36474-36484, 2018.

D. Q. Zhang, T. Hua, R. M. Gersberg, J. Zhu, W. J. Ng et al., Fate of diclofenac in wetland mesocosms planted with Scirpus validus, Ecol. Eng, vol.49, pp.59-64, 2012.

V. Matamoros, A. Caselles-osorio, J. García, and J. M. Bayona, Behaviour of pharmaceutical products and biodegradation intermediates in horizontal subsurface flow constructed wetland. A microcosm experiment, Sci. Total Environ, vol.394, pp.171-176, 2008.

M. Hijosa-valsero, R. Sidrach-cardona, J. Martín-villacorta, M. C. Valsero-blanco, J. M. Bayona et al., Statistical modelling of organic matter and emerging pollutants removal in constructed wetlands, Bioresour. Technol, vol.102, pp.4981-4988, 2011.

S. Zhu and H. Chen, The fate and risk of selected pharmaceutical and personal care products in wastewater treatment plants and a pilot-scale multistage constructed wetland system, Environ. Sci. Pollut. Res, vol.21, pp.1466-1479, 2014.

T. D. B?ezinova, J. Vymazal, M. Ko?eluh, and L. Kule, Occurrence and removal of ibuprofen and its metabolites in full-scale constructed wetlands treating municipal wastewater, Ecol. Eng, vol.120, pp.1-5, 2018.

V. Matamoros, M. Hijosa, and J. M. Bayona, Assessment of the pharmaceutical active compounds removal in wastewater treatment systems at enantiomeric level. Ibuprofen and naproxen, Chemosphere, vol.75, pp.200-205, 2009.

D. Q. Zhang, R. M. Gersberg, T. Hua, J. F. Zhu, M. K. Goyal et al., Fate of pharmaceutical compounds in hydroponic mesocosms planted with Scirpus validus, Environ. Pollut, vol.181, pp.98-106, 2013.

T. Koottatep, V. H. Phong, S. K. Chapagain, A. Panuvatvanich, C. Polprasert et al., Potential of laterite soil coupling fenton reaction in Acetaminophen (ACT) removal in constructed wetlands, Water Air Soil Pollut, vol.228, p.283, 2017.

Y. Vystavna, Z. Frkova, L. Marchand, Y. Vergeles, and F. Stolberg, Removal efficiency of pharmaceuticals in a full scale constructed wetland in East Ukraine, Ecol. Eng, vol.108, pp.50-58, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01608377

B. Petrie, S. Rood, B. D. Smith, K. Proctor, J. Youdan et al., Biotic phase micropollutant distribution in horizontal sub-surface flow constructed wetlands, Sci. Total Environ, vol.630, pp.648-657, 2018.

B. Berglund, G. A. Khan, S. E. Weisner, P. M. Ehde, J. Fick et al., Efficient removal of antibiotics in surface-flow constructed wetlands, with no observed impact on antibiotic resistance genes, Sci. Total Environ, pp.29-37, 2014.

Q. Yan, G. Feng, X. Gao, C. Sun, J. Guo et al., Removal of pharmaceutically active compounds (PhACs) and toxicological response of Cyperus alternifolius exposed to PhACs in microcosm constructed wetlands, J. Hazard. Mater, vol.301, pp.566-575, 2016.

Y. Choi, L. Kim, and K. Zoh, Removal characteristics and mechanism of antibiotics using constructed wetlands, Ecol. Eng, vol.91, pp.85-92, 2016.

Y. Liang, H. Zhu, G. Bañuelos, B. Shutes, B. Yan et al., Removal of sulfamethoxazole from salt-laden wastewater in constructed wetlands affected by plant species, salinity levels and co-existing contaminants, Chem. Eng. J, vol.341, pp.462-470, 2018.

M. Sgroi, C. Pelissari, P. Roccaro, P. H. Sezerino, J. García et al., Removal of organic carbon, nitrogen, emerging contaminants and fluorescing organic matter in different constructed wetland configurations, Chem. Eng. J, vol.332, pp.619-627, 2018.

V. Matamoros and J. M. Bayona, Elimination of pharmaceuticals and personal care products in subsurface flow constructed wetlands, Environ. Sci. Technol, vol.40, pp.5811-5816, 2006.

E. M. Dettenmaier, W. J. Doucette, and B. Bugbee, Chemical hydrophobicity and uptake by plant roots, Environ. Sci. Technol, vol.43, pp.324-329, 2009.

C. Wang, S. Zheng, P. Wang, and J. Qian, Effects of vegetations on the removal of contaminants in aquatic environments: A review, J. Hydrodyn. B, vol.26, pp.497-511, 2014.

D. Q. Zhang, T. Hua, R. M. Gersberg, J. Zhu, W. J. Ng et al., Fate of caffeine in mesocosms wetland planted with Scirpus validus, Chemosphere, vol.90, pp.1568-1572, 2013.

V. Matamoros, J. García, and J. M. Bayona, Behavior of selected pharmaceuticals in subsurface flow constructed wetlands: A pilot-scale study, Environ. Sci. Technol, vol.39, pp.5449-5454, 2005.

M. Breitholtz, M. Näslund, D. Stråe, H. Borg, R. Grabic et al., An evaluation of free water surface wetlands as tertiary sewage water treatment of micro-pollutants, Ecotoxicol. Environ. Saf, vol.78, pp.63-71, 2012.

R. Salgado, V. J. Pereira, G. Carvalho, R. Soeiro, V. Gaffney et al., Photodegradation kinetics and transformation products of ketoprofen, diclofenac and atenolol in pure water and treated wastewater, J. Hazard. Mater, vol.244, pp.516-527, 2013.

X. Yi, N. H. Tran, T. Yin, Y. He, K. Y. Gin et al., Removal of selected PPCPs, EDCs, and antibiotic resistance genes in landfill leachate by a full-scale constructed wetlands system, Water Res, vol.121, pp.46-60, 2017.

M. Truu, J. Juhanson, and J. Truu, Microbial biomass, activity and community composition in constructed wetlands, Sci. Total Environ, vol.407, pp.3958-3971, 2009.

O. Lorphensri, J. Intravijit, D. A. Sabatini, T. C. Kibbey, K. Osathaphan et al., Sorption of Acetaminophen, 17?-ethynylestradiol, nalidixic acid, and norfloxacin to silica, alumina, and a hydrophobic medium, Water Res, vol.40, pp.1481-1491, 2006.

A. Bialk-bielinska, S. Stolte, M. Matzke, A. Fabianska, J. Maszkowska et al., Hydrolysis of sulphonamides in aqueous solutions, J. Hazard. Mater, vol.221, pp.264-274, 2012.

D. Q. Zhang, J. Luo, Z. M. Lee, Y. Maspolim, R. M. Gersberg et al., Characterization of bacterial communities in wetland mesocosms receiving pharmaceutical-enriched wastewater, Ecol. Eng, vol.90, pp.215-224, 2016.

M. J. Brimecombe, F. A. Leij, and J. M. Lynch, Rhizodeposition and microbial populations, The Rhizosphere: Biogeochemistry and Organic Substrates at the Soil-Plant Interface

R. Pinton, Z. Varanini, P. Nannipieri, . Eds, and . Dekker, , pp.74-98, 2001.

V. Matamoros, L. X. Nguyen, C. A. Arias, V. Salvadó, and H. Brix, Evaluation of aquatic plants for removing polar microcontaminants: A microcosm experiment, Chemosphere, vol.88, pp.1257-1264, 2012.

Y. Wang, T. Yin, B. C. Kelly, and K. Y. Gin, Bioaccumulation behaviour of pharmaceuticals and personal care products in a constructed wetland, Chemosphere, vol.222, pp.275-285, 2019.

E. Pilon-smits, Phytoremediation. Ann. Rev. Plant Biol, vol.56, pp.15-39, 2005.