Publications

@article{girod:hal-03881273,

title = {A self-purifying microfluidic system for identifying drugs acting against adult schistosomes},

author = {Vincent Girod and Robin Houssier and Karin Sahmer and Marie-José Ghoris and Stéphanie Caby and Oleg Melnyk and Colette Dissous and Vincent Senez and Jérôme Vicogne},

url = {https://hal.archives-ouvertes.fr/hal-03881273},

doi = {10.1098/rsos.220648},

year  = {2022},

date = {2022-11-01},

urldate = {2022-11-01},

journal = {Royal Society Open Science},

volume = {9},

number = {11},

publisher = {The Royal Society},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@article{perez:hal-03873816,

title = {Methodological approaches for the structural, chemical, and microbial analysis of microbial biofilms developed on the surface of cementitious materials : Overview and future prospects},

author = {Cédric Perez and Christine Lors and Benjamin Erable},

url = {https://hal.archives-ouvertes.fr/hal-03873816},

doi = {10.1016/j.ibiod.2022.105485},

year  = {2022},

date = {2022-11-01},

urldate = {2022-11-01},

journal = {International Biodeterioration & Biodegradation},

volume = {175},

pages = {105485},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@article{luyckx:hal-03851601b,

title = {Impact of Silicon and Heavy Metals on Hemp (Cannabis sativa L.) Bast Fibres Properties: An Industrial and Agricultural Perspective},

author = {Marie Luyckx and Mathilde Blanquet and Arnaud Isenborghs and Gea Guerriero and Géraldine Bidar and Christophe Waterlot and Francis Douay and Stanley Lutts},

url = {https://hal.archives-ouvertes.fr/hal-03851601},

doi = {10.1007/s41742-022-00446-1},

year  = {2022},

date = {2022-10-01},

urldate = {2022-10-01},

journal = {International Journal of Environmental Research},

volume = {16},

number = {5},

pages = {82},

publisher = {Springer Verlag},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@article{KHALIFE2022101242,

title = {Molecular identification and azole susceptibility testing of Aspergillus section Fumigati isolated from soil samples in Lebanon},

author = {Sara Khalife and Agustin Resendiz-Sharpe and Katrien Lagrou and Emilie Fréalle},

url = {https://www.sciencedirect.com/science/article/pii/S1156523321001335},

doi = {https://doi.org/10.1016/j.mycmed.2021.101242},

issn = {1156-5233},

year  = {2022},

date = {2022-01-01},

urldate = {2022-01-01},

journal = {Journal of Medical Mycology},

volume = {32},

number = {2},

pages = {101242},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@article{Al-Lami2022,

title = {Phytomanagement of Pb/Zn/Cu tailings using biosolids-biochar or -humus 	combinations: Enhancement of bioenergy crop production, substrate 	functionality, and ecosystem services},

author = {Mariam-K. Al-Lami and Nadège Oustriere and Eva Gonzales and Joel-G. Burken},

year  = {2022},

date = {2022-01-01},

urldate = {2022-01-01},

journal = {Science of The Total Environment},

volume = {836},

pages = {155676},

abstract = {The extreme characteristics of mine tailings generally prohibit microbial processes and natural plant growth. Consequently, vast and numerous tailings sites remain barren for decades and highly susceptible to windblown dust and water erosion. Amendment-assisted phytostabilization is a cost-effective and ecologically productive approach to mitigate the potential transport of residual metals. Due to the contrasting and complementary characteristics of biosolids (BS) and biochar (BC), co-application might be more efficient than individually applied. Studies considering BS and BC co-application for multi-metal tailings revegetation are scarce. As tailings revegetation is a multidimensional issue, clearly notable demand exists for a study that provides a comprehensive understanding on the co-application impact on interrelated properties of physicochemical, biological, mineral nitrogen availability, metal immobilization, water-soil interactions, and impacts on plant cultivation and biomass production. This 8-month greenhouse study aimed at investigating the efficacy of co-application strategies targeting BS and carbon-rich amendments (BC or humic substances (HS)) to phytomanage a slightly alkaline Pb/Zn/Cu tailings with bioenergy crops (poplar, willow, and miscanthus). A complementary assessment linking revegetation effectiveness to ecosystem services (ES) provision was also included. Owing to their rich nutrient and organic matter contents, BS had the most pronounced influence on most of the measured properties including physicochemical, enzyme activities, NH4+-N and NO3−-N availability, immobilization of Zn, Cu, and Cd, and biomass production. Co-applying with BC exhibited efficient nutrient release and was more effective than BS alone in reducing metal bioavailability and uptake particularly Pb. Poplar and willow exhibited more superior phytostabilization efficiency compared to miscanthus which caused acidification-induced metal mobilization, yet BC and BS co-application was effective in ameliorating this effect. Enhancement of ES and substrate quality index mirrored the positive effect of amendment co-application and plant cultivation. Co-applying HS with BS resulted in improved nutrient cycling while BC enhanced water purification and contamination control services.},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@article{Al-Souki2022,

title = {Response of three Miscanthus x giganteus cultivars to toxic elements stress: Part 2, Comparison between two growing seasons},

author = {Karim-Suhail Al-Souki and Clarisse Liné and Jirí Moravec and Francis Douay and Bertrand Pourrut},

year  = {2022},

date = {2022-01-01},

urldate = {2022-01-01},

journal = {Plants},

volume = {11},

pages = {945},

abstract = {The positive impact on restoring soil functionality, decreasing toxic elements (TE) bioaccessibility, and enhancing soil physicochemical and biological parameters established a consensus on considering a Miscanthus  giganteus convenient species for phytomanaging wide TE contaminated areas. Nevertheless, information about the plant’s mode of reaction to elevated soil multi-TE concentrations is still scarce. For the sake of investigating the miscanthus response to stressful TE concentrations, an ex-situ pot experiment was initiated for 18 months, with three miscanthus cultivars referred to as B, U, and A planted in soils with gradient Cd, Pb, and Zn concentrations. A non-contaminated control soil was introduced as well, and plants were cultivated within. Results revealed that the long exposure to increasing soil TE concentrations caused the number of tillers per plant to decline and the TE concentrations in the leaves to boost progressively with the soil contamination. The photosynthetic pigments (chlorophyll a, b, and carotenoids) were negatively affected as well. However, the phenolic compounds, flavonoids, tannins, and anthocyanins, along with the antioxidant enzymatic activities of superoxide dismutase, ascorbate peroxidase, and glutathione reductase elevated progressively with the TE concentration and exposure duration. Conclusively, miscanthus plants demonstrated an intensified and synchronized antioxidative activity against the TE concentration.},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@article{Bagheri2022,

title = {Assessing plant uptake of organic contaminants by food crops tomato, 

	wheat, and corn through sap concentration factor},

author = {Majid Bagheri and Xiaolong He and Mariam-K. Al-Lami and Nadège Oustrière and Wenyan Liu and Matt-A. Limmer and Honglan Shi and Joel-G. Burken},

year  = {2022},

date = {2022-01-01},

journal = {International Journal of Phytoremediation},

abstract = {This study investigated uptake of two organic compounds including hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX) and exogenous caffeine by tomato (Solanum lycopersicum L.), corn (Zea mays L.), and wheat (Triticum aestivum L.). The plants were grown in a growth chamber under recommended conditions and then were exposed to these compounds for 19 days. The uptake of the compounds was measured by sap concentration factor. The plant samples (stem transpiration stream) and solution in the exposure media were taken and analyzed by high performance liquid chromatography-tandem mass spectrometry. The plant stem samples were analyzed after a freeze-thaw centrifugation process. The average sap concentration factor for the RDX by tomato, wheat, and corn was 0.71, 0.67, and 0.65. The average sap concentration factor for the exogenous caffeine by tomato, wheat, and corn was 0.72, 0.50, and 0.34. These relatively high sap concentration factor values were expected as available predictive models offer high sap concentration factor values for moderately hydrophobic and hydrophilic compounds. The generated sap concentration factor values for the RDX and exogenous caffeine are important for improving the accuracy of previously developed machine learning models predicting the uptake and translocation of emerging contaminants. 

NOVELTY STATEMENT The uptake of two organic compounds (RDX and exogenous caffeine) was examined in three crop plants (corn, wheat, and tomato). There have not been any uptake studies on exogenous caffeine and also we do not have good data for the uptake of RDX by these three crop plants. The estimated sap concentration factor from these experiments fills the gap in the data for developing predictive models for uptake of emerging contaminants. A novel rapid freeze–thaw/centrifugation extraction method followed by high performance liquid chromatography-tandem mass spectrometry (HPLC-MS/MS) was used to analyze the samples.},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@conference{Cheval2022,

title = {Construction of functional and fertile Technosols from materials, 

	waste and by-products for use in biointensive micro-gardening},

author = {Pénélope Cheval and Bertrand Vandoorne and Francis Douay and Christelle Pruvot and Aurélie Pelfrêne},

year  = {2022},

date = {2022-01-01},

booktitle = {Soil Science, Crossing Boundaries, Changing Society (22 WCSS), 31 

	July-5August 2022, Glasgow (Scotland, United Kingdom)},

abstract = {Soil is a limited resource subject to multiple pressures. Soil degradation sometimes leads to the loss of its functions, which is an irreversible process on a lifetime scale. The area covered by fertile soil decreases as it is exposed to anthropogenic activities. To meet the demand for the reconnection to food production in cities, it appears interesting to conceive functional Technosols using materials, waste, and by-products instead of extracting and transporting natural fertile soils. Technosols are soils with at least 20% of artifacts, a geomembrane or a technic hard rock. In the present work, two Technosols were designed and tested in a greenhouse experiment for a bio-intensive micro-gardening use. Their conception was based on the physico-chemical characteristics of soils known for their high agronomic potential for vegetable growing, as well as on the selection of available materials whose characteristics met the expectations. For one year, three aspects were studied to assess the ability of Technosols to support the production of food biomass. These include the pedological component by measuring the physico-chemical parameters of the Technosols; the biological component comprising several bio-indicator organisms of the soil fauna as well as ecophysiological indicators of the crops (photosynthetic and nitrogenous status) and their development; and the ecological engineering component by studying the ability of an ecosystem engineers to improve the fertility of the Technosols. After a few months, some pedogenetic processes were initiated and the indicators selected to evaluate the fertility of the constructed Technosols showed a good potential to support vegetable crops.},

note = {ACTI},

keywords = {ER4},

pubstate = {published},

tppubtype = {conference}

}

@conference{Cheval2022a,

title = {Using constructed Technosols for urban bio-intensive market gardening: 

	assessment of their habitat and food biomass production function},

author = {Pénélope Cheval and Bertrand Vandoorne and Francis Douay and Christelle Pruvot and Aurélie Pelfrêne},

year  = {2022},

date = {2022-01-01},

booktitle = {11th Conference on Soils of Urban, Industrial, Traffic and Mining 

	Areas (SUITMA), 5-9 September 2022, Berlin (Germany)},

abstract = {Soil is an essential component of terrestrial ecosystems as it provides many functions and ecosystem services. Soil is the product of various physical, chemical, and biological processes that take place over thousands to millions of years. As a result, soil is a non-renewable resource on a human lifetime scale. In urban areas, soil undergoes many anthropogenic pressures resulting from land development, which sometimes leads to a degradation of its quality along with a partial or total loss of its functions and ecosystem services. Consequently, the areas covered by fertile soils in urban and peri-urban environments are decreasing as they are reclaimed. Urban land-use policy is evolving and aims to enhance projects that reconnect food production in urban areas. As cities have available unused materials, wastes and by-products, it seems interesting to consider using them for the conception of Technosols for urban vegetable production. Technosols are soils with at least 20% of artifacts, a geomembrane, or a technic hard rock. In the present work, two constructed Technosols were designed and tested in a greenhouse experiment for market gardening. Their conception was based on the physico-chemical characteristics of soils known for their high agronomic potential for vegetable growing, as well as on the selection of available materials whose characteristics met the expectations (e.g., uncontaminated materials, locally available and sustainably supplied). During a one-year period, three aspects were studied to evaluate the capacity of the Technosols to ensure habitat (for specific soil fauna organisms selected regarding their ability to be suitable indicators of the quality of their environment) and food biomass production functions. First, the pedological component was examined by measuring the physico-chemical parameters of the Technosols; secondly the study focused on the characterization of the biological component, comprising several bio-indicator organisms of the soil fauna as well as eco-physiological indicators of the crops (photosynthetic and nitrogenous status) and their development; finally, the ecological engineering component was analyzed by studying the ability of an ecosystem engineer (Lumbricus terrestris) to improve the fertility of the Technosols. After a few months, some pedogenetic processes were initiated (e.g., settlement, weathering of parent materials) and the indicators selected to evaluate the fertility of the constructed Technosols (physico-chemical and biological parameters) showed a good potential to support vegetable crops. Upon establishment of the constructed Technosols, some of the selected soil fauna bioindicators were also able to sustain their fitness, suggesting the initiation of a future trophic web.},

note = {ACTI},

keywords = {ER4},

pubstate = {published},

tppubtype = {conference}

}

@article{Dufrenoy2022,

title = {Green synthesis of a new series of pyroglutamides targeting human 

	farnesyltransferase},

author = {Pierrick Dufrénoy and Marie Hechelski and Adam Daïch and Amaury Farce and Emmanuelle Lipka and Joëlle Dubois and Christophe Waterlot and Alina Ghinet},

year  = {2022},

date = {2022-01-01},

journal = {Sustainable Chemistry and Pharmacy},

volume = {30},

pages = {100894},

abstract = {Pyroglutamide derivatives have emerged as promising inhibitors of human farnesyltransferase (FTIs), an important target in oncology and also in rare diseases such as Hutchinson-Gilford progeria syndrome (HGPS). This report describes the chemical efforts to enrich the pyroglutamide series using greener and recyclable catalysts. The central reaction studied was an amidation between methyl pyroglutamates or vinylogues and amines. Ten catalysts have been tested in this amidation reaction: two classical Lewis acids (ZnCl2, ZrCl4), four impregnated montmorillonite K10 with ZnCl2 namely Cat1, Cat2, Cat3 and Cat4 (not activated, activated at 120 °C, 280 °C and 500 °C, respectively) and four montmorillonites K10 (commercial montmorillonite K10 not activated, activated at 120 °C, 280 °C and 500 °C). The most efficient catalyst was Cat4. The recyclability of Cat4 over five synthesis runs has been successfully tested. Twenty-six amides were synthesized and screened for their potential to inhibit human farnesyltransferase. Four points of chemical modulation around the pyrrolidine-2-one ring have been realized allowing to complete structure-activity relationships in these series. The study revealed several potent inhibitors targeting human farnesyltransferase in vitro with IC50 values in the submicromolar range and down to 30 nM. The docking of compounds in the active site of FTase highlighted that the S-isomers of pyroglutamides had good affinity. This study propels pyroglutamide derivatives as promising candidates for future functionality assays and in vivo evaluation.},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@article{Guerin2022,

title = {Removal of heavy metals from contaminated water using industrial 

	wastes containing calcium and magnesium},

author = {Théo Guérin and Nadège Oustrière and David Bulteel and Damien Betrancourt and Alina Ghinet and Sandhya Malladi and Justice-G. Kaleo-Bioh and Amaury Blanc-Brude and Abraham Pappoe and Christophe Waterlot},

year  = {2022},

date = {2022-01-01},

journal = {Journal of Cleaner Production},

volume = {337},

pages = {130472},

abstract = {Two industrial wastes (IW1 and IW2) were investigated as potential sorbents to retain cadmium and lead from contaminated water. The sorption experiments have been conducted through lab-engineered cartridge filtration system in order to get as close as possible to industrial processes. The effectiveness of IW1 and IW2 were compared to that of activated charcoal Norit® (AC), the best-known matrix for its excellent retention capacity. The sorption isotherms of metals on the three solid sorbents (IW1, IW2 and AC) were built, and then mathematically modelled. Free Gibbs energy (ΔG°) of the sorption processes as well as the equilibrium parameter (RL) have been calculated for each pollutant-sorbent couple. The study revealed that: i) for cadmium sorption, IW2 was much more effective than IW1 and especially than AC (18-fold higher in term of maximal sorption capacity); ii) if IW2 was slightly less effective than AC to retain lead, it can be still considered as an interesting sorbent due to its low cost; iii) the sorption of cadmium was as spontaneous on AC as on IW1, and almost half as much on IW2; iv) regarding lead retention, the sorption on the three sorbents was spontaneous; (v) the retention of cadmium and lead was mainly explained by precipitation since otavite, cerussite and hydrocerussite were identified and characterized by X-ray diffraction of used sorbents. The study showed that the industrial wastes studied stood out as new efficient materials with sorption power equal to or greater than the reference material AC. The prospect of a new generation of industrial wastes with lasting efficiency as contaminated water depollution agents comes at a key moment in the search for new perspectives in the circular economy.},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@conference{Janus2022,

title = {Synthesis of bio-sourced catalysts from ryegrass produced on the 

	metallurgical sites for the synthesis of therapeutic molecules: a 

	possible option? Feedback from the NEW-REGENERATIS project},

author = {Adeline Janus and Alina Ghinet and Christophe Waterlot},

year  = {2022},

date = {2022-01-01},

booktitle = {International Conference on Soils, Sediments and water (InterSoil'2022), 

	5-6 October, Bruxelles (Belgium)},

note = {ACTI},

keywords = {ER4},

pubstate = {published},

tppubtype = {conference}

}

@article{Mikajlo2022,

title = {Plant-soil nitrogen, carbon and phosphorus content after the addition 

	of biochar, bacterial inoculums and nitrogen fertilizer},

author = {Irina Mikajlo and Bertrand Pourrut and Brice Louvel and Jaroslav Hynst and Jaroslav Zahora},

year  = {2022},

date = {2022-01-01},

journal = {Journal of Plant Nutrition},

pages = {1-15},

abstract = {The use of biochar in combination with mineral or biological amendments to improve its influence on soil-plant properties has received growing attention. The changes of nitrogen, carbon and phosphorus content in Lactuca sativa var. capitata aboveground plant biomass and soil after the addition of beech wood biochar combined with the addition of bacterial inoculums (Bacofil and Novarefm) and nitrogen fertilizer have been studied using spectrophotometry methods. Pots were filled with the arable soil from the plots in the protection zone of water sources (Březová nad Svitavou, South Moravia, Czech Republic). Biochar with inoculums decreased plant growth in the first yield of Novaferm treatment and both yields of Bactofil treatment. Increased plant biomass growth was observed with Novaferm addition in the second yield. Total nitrogen increase has been obtained in the plant aboveground biomass and soil of the treatments amended with inoculums and nitrogen fertilizer. The decrease of phosphorus content has been observed in plant aboveground biomass in the biochar amended samples.},

note = {ACL},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@conference{Ofori-Agyeman2022,

title = {Optimization of phytomanagement strategies on soils contaminated with metals (Cd, Pb, Zn) to provide biomass for clean biofuel production – Experience from a pot trial},

author = {Felix Ofori-Agyeman and Christophe Waterlot and Michel Mench and Nadège Oustrière},

year  = {2022},

date = {2022-01-01},

booktitle = {21st International Conference- Exhibition on Soils, Sediments and Water (INTERSOL), 21-23 June, Lyon},

note = {ACTI},

keywords = {ER4},

pubstate = {published},

tppubtype = {conference}

}

@conference{Ofori-Agyeman2022a,

title = {Optimizing phytomanagement strategies on a metal (Cd, Pb, Zn, and 

	Cu)-contaminated soil to provide biomass for clean biofuel production 

	– progress from pot trial to Cd and Zn mixture},

author = {Felix Ofori-Agyeman and Christophe Waterlot and Michel Mench and Nadège Oustrière},

year  = {2022},

date = {2022-01-01},

booktitle = {8th European Bioremediation Conference, 12-17 June, Chania (Greece)},

pages = {224},

note = {ACTI},

keywords = {ER4},

pubstate = {published},

tppubtype = {conference}

}

@conference{Ozaki2022,

title = {Thirteen years after: dynamics of trace metals in free-ranging small 

	mammals related to soil aging (2006-2019)},

author = {Shinji Ozaki and Francis Douay and Sébastien Détriché and Francis Raoul and Renaud Scheifler and Clémentine Fritsch},

year  = {2022},

date = {2022-01-01},

booktitle = {SETAC Europe 33nd annual meeting, 15-19 May 2022, Copenhagen (Denmark)},

note = {ACTI},

keywords = {ER4},

pubstate = {published},

tppubtype = {conference}

}

@conference{Pelfrene2022,

title = {Bioaccessibilité des polluants : Apport à l’évaluation de l’exposition 

	des populations vivant sur des sites contaminés},

author = {Aurélie Pelfrêne},

year  = {2022},

date = {2022-01-01},

booktitle = {Cérémonie d’entrée des nouveaux associés de la SCIC Crisalid, 31 

	mai 2022},

note = {COM},

keywords = {ER4},

pubstate = {published},

tppubtype = {conference}

}

@conference{Schnackenberg2022,

title = {Effects of amendments on the mobility, bioaccessibility, and phytoavailability of As, Cd, Pb, and Zn in contaminated urban kitchen garden soils},

author = {Ashley Schnackenberg and Géraldine Bidar and Valérie Bert and Patrice Cannavo and Sébastien Détriché and Francis Douay and René Guenon and Liliane Jean-Soro and Alice Kohli and Thierry Lebeau and Karen Perronnet and Laure Vidal-Beaudet and Christophe Waterlot and Aurélie Pelfrêne},

year  = {2022},

date = {2022-01-01},

booktitle = {11th Conference on Soils of Urban, Industrial, Traffic and Mining Areas (SUITMA), 5-9 September 2022, Berlin (Germany)},

abstract = {Urban gardening is a growing trend that responds to the need for nature in cities, a growing movement towards healthy and sustainable eating and food production, and difficult economic and societal contexts. Both private and community gardens in these areas are often on urban wastelands, along roads, highways, or railways, near industrial sites, and have even sometimes earned the term “guerrilla gardens” for their lack of agronomic regulation. In France, many urban gardens are associated with varying levels of inorganic contaminants hailing from anthropogenic activity or geogenic metal(loid) presence. Moderately metal(loid)- contaminated urban kitchen garden soils can benefit from gentle remediation options including the use of soil amendments, which are able to improve soil function and agronomic quality while decreasing environmental and human health risk. This study first analyses the effects of common doses of a various commercialized soil amendments on the mobility of metalloid(s) in contaminated urban kitchen garden soils. Fourteen different amendments and amendment mixes were tested on three kitchen garden soils with diverse sources of anthropogenic or geogenous contamination and varying physico-chemical characteristics. Amendments from four differing categories were tested, including i) organic amendments like composts, ii) natural fertilizers such as bone meal, crushed horn, and organic poultry manure fertilizer, iii) calcareous amendments including two different limes, and iv) natural siliceous and alumino-silicate amendments, including diatomaceous earth and zeolite. Amendments at varying common doses were evaluated via chemical extractions on their ability to reduce the mobility of metallic elements after multiple weeks of maturation at a constant humidity and temperature. The most pertinent of these amendments were then chosen to be tested in conjunction with a vegetal model grown upon the amended soils in greenhouse conditions. 05.09.– 09.09 2022 Berlin, Germany Changes in physico-chemical soil characteristics, mobility and bioaccessibility of metal(loid)s in the soil, and phytoavailability in the lettuce were then tested. Mobility and bioaccessible metal(loid)s were evaluated with 0.05 M EDTA buffered at a pH of 7, an ammonium nitrate extraction, a 4-phase sequential extraction, and a UBM bioaccessibility test. Phytoavailability was determined using pseudo-total soil and plant metal(loid) contents. The study results show that it is possible to reduce both extractable and phytoavailable metal(oid)s with amendment addition. However, variable effects are seen according to the contaminated soil tested, and differences arise in the presence of a plant model.},

note = {ACTI},

keywords = {ER4},

pubstate = {published},

tppubtype = {conference}

}

@article{Vuillemin2022,

title = {Combining Phytoremediation and Biorefinery Strategies Assisted by 

	an Ecofriendly Zwitterionic Ionic Liquid: A New Challenge for a Cleaner 

	Bioeconomy},

author = {Marie Vuillemin and Christophe Waterlot and Anthony Verdin and Sylvain Laclef and Christine Cézard and David Lesur and Catherine Sarazin and Dominique Courcot and Caroline Hadad and Eric Husson and Albert Nguyen-van-Nhien},

year  = {2022},

date = {2022-01-01},

journal = {SSRN},

pages = {27pp},

abstract = {This study aims to investigate the ability of an imidazolium biobased Zwitterionic Ionic Liquids (ZILs) in enhancing the phytoextraction of copper from garden and vineyard soils using the model plant ryegrass (Lolium perenne L.). The copper/ZIL molar ratio (1/4) introduced was rationally established based on molecular modeling and on the maximal copper concentration in artificially contaminated soil. Higher accumulation of copper in the shoots was detected for the uncontaminated and copper contaminated ZIL amended soils (18.9 and 23.3 mg.kg-1, respectively) together with a similar ZIL concentration of around 3% w/w detected by LC-MS analyses. These data evidenced a phytoextraction improvement of 38 and 66% compared to non-amended soils. ZIL would be mainly present under Cu(II)-ZIL4 complexes in the shoots. However depending on the soil modalities, the presence of free copper and/or free ZIL led to different chemical compositions in lignin and monomeric sugar contents. In the biorefinery context, performances of enzymatic hydrolysis of shoots were related to the presence of both ZIL and copper under free or complex forms. Ecotoxicity of the different soils indicated that the quantity of copper and ZIL remaining in the soils had no significant toxicity. ZIL amendment in a copper-contaminated soil was demonstrated as being a promising way to promote the valorization of phytoremediation plants.},

note = {ACLO},

keywords = {ER4},

pubstate = {published},

tppubtype = {article}

}

@conference{Waterlot2022,

title = {Biomass valorization},

author = {Christophe Waterlot},

year  = {2022},

date = {2022-01-01},

urldate = {2022-01-01},

booktitle = {Current challenges of environmental contamination & its impact on  the ecosystems and human health, 4-5 juillet, Lille},

note = {ACTI},

keywords = {ER4},

pubstate = {published},

tppubtype = {conference}

}