Remediation of sediment and water contaminated by copper in small-scaled constructed wetlands: effect of bioaugmentation and phytoextraction

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• 作者：D. Huguenot (1) (2)
  P. Bois (1) (3)
  J. Y. Cornu (1) (4)
  K. Jezequel (1)
  M. Lollier (1)
  T. Lebeau (1) (5)
  
  1. Equipe D茅pollution Biologique des Sols ; Universit茅 de Haute Alsace ; EA 3991 LVBE (Laboratoire Vigne Biotechnologies et Environnement) ; 33 rue de Herrlisheim ; BP 50568 68008 ; Colmar ; France
  2. Laboratoire G茅omat茅riaux et Environnement (EA 4508) ; UPEM ; Universit茅 Paris-Est ; 77454 Marne-la-Vall茅e ; Paris ; France
  3. D茅partement de M茅canique ; Equipe M茅caFlu ; Laboratoire ICube (UMR 7357 CNRS/Unistra/ENGEES/INSA) ; 2 rue Boussingault ; 67000 ; Strasbourg ; France
  4. INRA ; UMR 1391 ISPA ; CS 20032 鈥?33882 ; Villenave d鈥橭rnon ; France
  5. UMR 6112 LPGN (Laboratoire de Plan茅tologie et G茅odynamique de Nantes) ; LUNAM ; Universit茅 de Nantes ; 2 rue de la Houssini猫re ; BP 92208 44322 ; Nantes ; France
  
• 关键词：Bioaccessibility ; Copper ; Phytoremediation ; Phragmites australis ; Siderophore ; producing bacteria
• 刊名：Environmental Science and Pollution Research
• 出版年：2015
• 出版时间：January 2015
• 年：2015
• 卷：22
• 期：1
• 页码：721-732
• 全文大小：1,518 KB
• 参考文献：1. Ailstock MS, Norman CM, Bushmann PJ (2001) Common reed / Phragmites australis: control and effects upon biodiversity in freshwater nontidal wetlands. Restor Ecol 9:49鈥?9 CrossRef
  2. Albarrac铆n VH, Amoroso MJ, Abate CA (2010) Bioaugmentation of copper polluted soil microcosms with / Amycolatopsis tucumanensis to diminish phytoavailable copper for / Zea mays plants. Chemosphere 79(2):131鈥?37 CrossRef
  3. Andreazza R, Okeke BC, Lambais MR, Bortolon L, de Melo GWB, de Oliveira Camargo FA (2010) Bacterial stimulation of copper phytoaccumulation by bioaugmentation with rhizosphere bacteria. Chemosphere 81:1149鈥?154 CrossRef
  4. Armstrong J, Armstrong W (1991) A convective through-flow of gases in / Phragmites australis (Cav.) Trin. ex Steud. Aquat Bot Physiol Ecol Aquat Macrophytes 39:75鈥?8
  5. Bailey SE, Olin TJ, Bricka RM, Adrian DD (1999) A review of potentially low-cost sorbents for heavy metals. Water Res 33:2469鈥?479 CrossRef
  6. Banas D, Marin B, Skraber S, Chopin EIB, Zanella A (2010) Copper mobilization affected by weather conditions in a stormwater detention system receiving runoff waters from vineyard soils (Champagne, France). Environ Pollut 158:476鈥?82 CrossRef
  7. Bois P, Huguenot D, Jezequel K, Lollier M, Cornu J-Y, Lebeau T (2013) Herbicide mitigation in microcosms simulating stormwater basins subject to polluted water inputs. Water Res 47(3):1123鈥?135 CrossRef
  8. Bois P, Huguenot D, Norini M-P, Ul Haque M, Vuilleumier S, Lebeau T (2011) Herbicide degradation and copper complexation by bacterial mixed cultures from a vineyard stormwater basin. J Soils Sediments 1鈥?4
  9. Bonanno G, Lo Giudice R (2010) Heavy metal bioaccumulation by the organs of / Phragmites australis (common reed) and their potential use as contamination indicators. Ecol Indic 10:639鈥?45 CrossRef
  10. Bragato C, Brix H, Malagoli M (2006) Accumulation of nutrients and heavy metals in / Phragmites australis (Cav.) Trin. ex Steudel and / Bolboschoenus maritimus (L.) Palla in a constructed wetland of the Venice lagoon watershed. Environ Pollut 144:967鈥?75 CrossRef
  11. Braud A, J茅z茅quel K, Bazot S, Lebeau T (2009) Enhanced phytoextraction of an agricultural Cr- and Pb-contaminated soil by bioaugmentation with siderophore-producing bacteria. Chemosphere 74:280鈥?86 CrossRef
  12. Braud A, J茅z茅quel K, Vieille E, Tritter A, Lebeau T (2006) Changes in extractability of Cr and Pb in a polycontaminated soil after bioaugmentation with microbial producers of biosurfactants, organic acids and siderophores. Water Air Soil Pollut Focus 6:261鈥?79 CrossRef
  13. Bruus Pedersen M, Kj忙r C, Elmegaard N (2000) Toxicity and bioaccumulation of copper to black bindweed ( / Fallopia convolvulus) in relation to bioavailability and the age of soil contamination. Arch Environ Contam Toxicol 39:431鈥?39 CrossRef
  14. Butterly CR, B眉nemann EK, McNeill AM, Baldock JA, Marschner P (2009) Carbon pulses but not phosphorus pulses are related to decreases in microbial biomass during repeated drying and rewetting of soils. Soil Biol Biochem 41:1406鈥?416 CrossRef
  15. Chen YX, Wang YP, Lin Q, Luo YM (2005) Effect of copper-tolerant rhizosphere bacteria on mobility of copper in soil and copper accumulation by / Elsholtzia splendens. Environ Int 31:861鈥?6 CrossRef
  16. Cornu JY, Huguenot D, Jezequel K, Lebeau T (2013) Raw sugar beet pulp sorption behaviour in mixture with sand and sediment. Isotherms and microcosms approaches. J Soils Sediments 13(1):220鈥?29 CrossRef
  17. Das C, Bhowal A, Datta S (2011) Bioremediation of copper-contaminated soil by co-application of bioaugmentation and biostimulation with organic nutrient. Bioremediation J 15(2):90鈥?8 CrossRef
  18. Dickopp J, Kazda M, Cizkova H (2011) Differences in rhizome aeration of / Phragmites australis in a constructed wetland. Ecol Eng 37:1647鈥?653 CrossRef
  19. Doumett S, Lamperi L, Checchini L, Azzarello E, Mugnai S, Mancuso S, Petruzzelli G, Del Bubba M (2008) Heavy metal distribution between contaminated soil and / Paulownia tomentosa, in a pilotscale assisted phytoremediation study: influence of different complexing agents. Chemosphere 72:1481鈥?490 CrossRef
  20. Dusek J, Picek T, C铆zkov谩 H (2008) Redox potential dynamics in a horizontal subsurface flow constructed wetland for wastewater treatment: diel, seasonal and spatial fluctuations. Ecol Eng 34:223鈥?32 CrossRef
  21. Flores-V茅lez LM, Ducaroir J, Jaunet AM, Robert M (1996) Study of the distribution of copper in an acid sandy vineyard soil by three different methods. Eur J Soil Sci 47:523鈥?32 CrossRef
  22. Gadd GM (2004) Microbial influence on metal mobility and application for bioremediation. Geoderma 122:109鈥?19 CrossRef
  23. Gregoire C, Elsaesser D, Huguenot D, Lange J, Lebeau T, Merli A, Mose R, Passeport E, Payraudeau S, Sch眉tz T, Schulz R, Tapia-Padilla G, Tournebize J, Trevisan M, Wanko A (2009) Mitigation of agricultural nonpoint-source pesticide pollution in artificial wetland ecosystems. Environ Chem Lett 7(3):205鈥?31 CrossRef
  24. Hoegy F, Lee X, Noel S, Rognan D, Mislin GLA, Reimmann C, Schalk IJ (2009) Stereospecificity of the siderophore pyochelin outer membrane transporters in fluorescent Pseudomonads. J Biol Chem 284:14949鈥?7 CrossRef
  25. Huguenot D, Bois P, Jezequel K, Cornu JY, Lebeau T (2010) Selection of low cost materials for the sorption of copper and herbicides as single or mixed compounds in increasing complexity matrices. J Hazard Mater 182:18鈥?6 CrossRef
  26. JORF, 2007. Arr锚t茅 du 11 janvier 2007 relatif aux limites et r茅f茅rences de qualit茅 des eaux brutes et des eaux destin茅es 脿 la consommation humaine mentionn茅es aux articles R. 1321鈥?, R. 1321鈥?, R. 1321鈥? et R. 1321鈥?8 du code de la sant茅 publique.
  27. Kadlec RH (2000) The inadequacy of first-order treatment wetland models. Ecol Eng 15:105鈥?19 CrossRef
  28. Knox AS, Paller MH, Nelson EA, Specht WL, Halverson NV, Gladden JB (2006) Metal distribution and stability in constructed wetland sediment. J Environ Qual 35:1948鈥?959 CrossRef
  29. Lebeau T, Braud A, J茅z茅quel K (2008) Performance of bioaugmentation-assisted phytoextraction applied to metal contaminated soils: a review. Environ Pollut 153:497鈥?22 CrossRef
  30. Lebeau T., 2011. Bioaugmentation for in situ soil remediation: how to ensure the success of such a process. In: Ajay Singh, Nagina Parmar and Ramesh and C. Kuhad (Eds.). Bioaugmentation, Biostimulation and Biocontrol, chapter 11. 鈥淪oil Biology鈥?series, Springer
  31. Lebourg A, Sterckeman T, Ciesielski H, Proix N (1996) Int茅r锚t de diff茅rents r茅actifs d鈥檈xtraction chimique pour l鈥櫭﹙aluation de la biodisponibilit茅 des m茅taux en traces du sol. Agronomie 16:201鈥?15 CrossRef
  32. Lesage E, Rousseau DPL, Van de Moortel A, Tack FMG, De Pauw N, Verloo MG (2007) Effects of sorption, sulphate reduction, and / Phragmites australis on the removal of heavy metals in subsurface flow constructed wetland microcosms. Water Sci Technol 56:193鈥?98 CrossRef
  33. Mackie KA, M眉ller T, Kandeler E (2012) Remediation of copper in vineyards鈥攁 mini review. Environ Pollut 167:16鈥?6 CrossRef
  34. Maillard E, Payraudeau S, Gregoire C, Imfeld G (2011) Removal of pesticide mixtures in a storm water wetland collecting runoff from a vineyard catchment. Sci Total Environ 409:2317鈥?324 CrossRef
  35. Meyer JL (1985) A detention basin/artificial wetland treatment system to renovate stormwater runoff from urban, highway, and industrial areas. Wetlands 5:135鈥?46 CrossRef
  36. 脰zdemir Z, Sagiroglu A (2000) / Salix acmophylla, / Tamarix smyrnensis and / Phragmites australis as biogeochemical indicators for copper deposits in ElazIg, Turkey. J Asian Earth Sci 18:595鈥?01 CrossRef
  37. Pehlivan E, YanIk BH, Ahmetli G, Pehlivan M (2008) Equilibrium isotherm studies for the uptake of cadmium and lead ions onto sugar beet pulp. Bioresour Technol 99:3520鈥?527 CrossRef
  38. P艂ociniczak T, Kukla M, Watroba R, Piotrowska-Seget Z (2013) The effect of soil bioaugmentation with strains of Pseudomonas on Cd, Zn and Cu uptake by / Sinapis alba L. Chemosphere 91:1332鈥?337 CrossRef
  39. Pulford, I., Flowers, H., 2006. Environmental chemistry at a glance. Wiley Blackwell
  40. Raaijmakers J, Van der Sluis I, Koster M, Bakker P, Weisbeek R, Schippers B (1995) Utilization of heterologous siderophores and rhizosphere competence of fluorescent / Pseudomonas spp. Can J Microbiol 41:126鈥?35 CrossRef
  41. Ribolzi O, Valles V, Gomez L, Voltz M (2002) Speciation and origin of particulate copper in runoff water from a Mediterranean vineyard catchment. Environ Pollut 117:261鈥?71 CrossRef
  42. Segura R, Arancibia V, Z煤帽iga MC, Past茅n P (2006) Distribution of copper, zinc, lead and cadmium concentrations in stream sediments from the Mapocho river in Santiago, Chile. J Geochem Explor 91:71鈥?0 CrossRef
  43. Sessitsch A, Kuffner M, Kidd P, Vangronsveld J, Wenzel WW, Fallmann K, Puschenreiter M (2013) The role of plant-associated bacteria in the mobilization and phytoextraction of trace elements in contaminated soils. Soil Biol Biochem 60:182鈥?94 CrossRef
  44. Sinicrope TL, Langis R, Gersberg RM, Busnardo MJ, Zedler JB (1992) Metal removal by wetland mesocosms subjected to different hydroperiods. Ecol Eng 1:309鈥?22 CrossRef
  45. So LM, Chu LM, Wong PK (2003) Microbial enhancement of Cu²⁺ removal capacity of / Eichhornia crassipes (Mart.). Chemosphere 52:1499鈥?503 CrossRef
  46. Speelmans M, Vanthuyne DRJ, Lock K, Hendrickx F, Du LG, Tack FMG, Janssen CR (2007) Influence of flooding, salinity and inundation time on the bioavailability of metals in wetlands. Sci Total Environ 380:144鈥?53 CrossRef
  47. Van Nevel L, Mertens J, Oorts K, Verheyen K (2007) Phytoextraction of metals from soils: how far from practice? Environ Pollut 150:34鈥?0 CrossRef
  48. Walker DJ, Hurl S (2002) The reduction of heavy metals in a stormwater wetland. Ecol Eng 18:407鈥?14 CrossRef
  49. Wanko A, Tapia G, Mose R, Gregoire C (2009) Adsorption distribution impact on preferential transport within horizontal flow constructed wetland (HFCW). Ecol Model 220:3342鈥?352 CrossRef
  50. Ye ZH, Baker AJM, Wong MH, Willis AJ (2003) Copper tolerance, uptake and accumulation by / Phragmites australis. Chemosphere 50:795鈥?00 CrossRef
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：Environment
  Environment
  Atmospheric Protection, Air Quality Control and Air Pollution
  Waste Water Technology, Water Pollution Control, Water Management and Aquatic Pollution
  Industrial Pollution Prevention
  
• 出版者：Springer Berlin / Heidelberg
• ISSN：1614-7499

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