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Faba bean plants in the 1/8 mixture with soil had the ability to accumulate Pb, Zn and Cu. 95% of the absorbed Pb were in the roots, and Cu and Zn were found in the shoots by 35% and 45%, respectively. There was a decrease in the root hairs and the number of cell layers of the root cortex alongside epidermis lesions. From the 50 tested rhizobacterial strains, 20 were able to grow at 150 mg/dm3 of Pb, 6 were resistant to 150 mg/dm3 of Zn and 8 resisted to 20 mg/dm3 of Cu. Best four strains had adsorption potentials and the biosorption was higher for Cu. These strains were capable of producing auxin and exopolysaccharides. The most tolerant strains (FD1 and FD2) isolated near the mining site produced siderophores and high amounts of exopolysaccharides. The use of such strains and V. faba could be of important biotechnological value in decreasing heavy metal pollution of mining soils.
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83--96
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Bibliogr. 26 poz., tab., rys.
Twórcy
autor
- Laboratory of Biology and Biotechnology of Microorganisms, Faculty of Sciences Semlalia, Cadi Ayyad University, PO Box 2390, Marrakesh, Morocco
- Commissariat à l’énergie atomique, Division of Life Sciences, Institut de Biosciences et Biotechnologies d’Aix-Marseille, Laboratoire d’écologie microbienne de la rhizosphère et d’environnements extrêmes, Université Aix-Marseille, 13108, Saint Paul-Lez Durance, France
autor
- Laboratory of Biology and Biotechnology of Microorganisms, Faculty of Sciences Semlalia, Cadi Ayyad University, PO Box 2390, Marrakesh, Morocco
autor
- Laboratory of Biology and Biotechnology of Microorganisms, Faculty of Sciences Semlalia, Cadi Ayyad University, PO Box 2390, Marrakesh, Morocco
autor
- Laboratory of Hydrobiology, Ecotoxicology and Sanitation, Faculty of Sciences Semlalia, Cadi Ayyad University, PO Box 2390, Marrakesh, Morocco
autor
- Commissariat à l’énergie atomique, Division of Life Sciences, Institut de Biosciences et Biotechnologies d’Aix-Marseille, Laboratoire d’écologie microbienne de la rhizosphère et d’environnements extrêmes, Université Aix-Marseille, 13108, Saint Paul-Lez Durance, France
autor
- Centre Régional de la Recherche Agronomique de Meknes, INRA, Morocco
autor
- Laboratory of Biology and Biotechnology of Microorganisms, Faculty of Sciences Semlalia, Cadi Ayyad University, PO Box 2390, Marrakesh, Morocco
autor
- Laboratory of Biology and Biotechnology of Microorganisms, Faculty of Sciences Semlalia, Cadi Ayyad University, PO Box 2390, Marrakesh, Morocco
Bibliografia
- [1] SHAHID M., DUMAT C., KHALID S., SCHRECK E., XIONG T., NIAZI N.K., Foliar heavy metal uptake, toxicity and detoxification in plants: A comparison of foliar and root metal uptake, J. Hazard. Mater., 2017, 325, 36.
- [2] GOSWAMI L., SARKAR S., MUKHERJEE S., DAS S., BARMAN S., RAUL P., Vermicomposting of tea factory coal ash: Metal accumulation and metallothionein response in Eisenia fetida (Savigny) and Lampito mauritii (Kinberg), Biores. Technol., 2014, 166, 96.
- [3] NONNOI F., CHINNASWAMY A., GARCÍA DE LA TORRE V.S., COBA DE LA PEÑA T., LUCAS M.M., PUEYO J.J., Metal tolerance of rhizobial strains isolated from nodules of herbaceous legumes (Medicago spp. and Trifolium spp.) growing in mercury-contaminated soils, Appl. Soil. Ecol., 2012, 61, 49.
- [4] HAKKOU R., BENZAAZOUA M., BUSSIÈRE B., Acid mine drainage at the abandoned Kettara mine (Morocco): 1. Environmental Characterization, Min. Water. Environ., 2008, 27, 145.
- [5] GABR R.M., HASSAN S.H.A., SHOREIT A.A.M., Biosorption of lead and nickel by living and non-living cells of Pseudomonas aeruginosa ASU 6a, Int. Biodeterior. Biodegrad., 2008, 62, 195.
- [6] SENEVIRATNE M., WEERASUNDARA L., OK Y.S., RINKLEBE J., VITHANAGE M., Phytotoxicity attenuation in Vigna radiata under heavy metal stress at the presence of biochar and N fixing bacteria,J. Environ. Manage., 2017, 186, 293.
- [7] BENSIDHOUM L., NABTI E., TABLI N., KUPFERSCHMIED P., WEISS A., ROTHBALLER M., Heavy metal tolerant Pseudomonas protegens isolates from agricultural well water in northeastern Algeria with plant growth promoting, insecticidal and antifungal activities, Eur. J. Soil. Biol., 2016, 75, 38.
- [8] DARY M., CHAMBER-PÉREZ M.A., PALOMARES A.J., PAJUELO E., In situ phytostabilisation of heavy metal polluted soils using Lupinus luteus inoculated with metal resistant plant-growth promoting rhizobacteria, J. Hazard. Mater., 2010, 177, 323.
- [9] AUBERT H., PINTA M., Trace Elements in Soils, Soil Sci., 1978, 125.
- [10] SABER S., BENLKHOUBI N., LEBKIRI A., RIFI E.H., ELFAHIME E., KHADMAOUI A., Bioaccumulation of trace elements in forage crops (Bersim : Trifolium alexandrinum), Int. J. Innov. Appl. Stud., 2015, 12, 525.
- [11] KARIMI R., CHOROM M., SOLHI S., SOLHI M., Potential of Vicia faba and Brassica arvensis for phytoextraction of soil contaminated with cadmium, lead and nickel, Afr. J. Agricult. Res., 2012, 7, 3293.
- [12] AIT ALI N., BERNAL M.P., ATER M., Tolerance and bioaccumulation of cadmium by Phragmites australis grown in the presence of elevated concentrations of cadmium, copper, and zinc, Aquat. Bot., 2004, 80, 163.
- [13] BENIDIRE L., LAHROUNI M., DAOUI K., FATEMI Z.A., GOMEZ CARMONA R., GÖTTFERT M., OUFDOU K., Phenotypic and genetic diversity of Moroccan rhizobia isolated from Vicia faba and study of genes that are likely to be involved in their osmotolerance, Syst. Appl. Microbiol., 2018, 41, 51.
- [14] EL BAZ S., BAZ M., BARAKATE M., HASSANI L., EL GHARMALI A., IMZILN B., Resistance to and accumulation of heavy metals by actinobacteria isolated from abandoned mining areas, Sci. World. J., 2015, 2015, 1.
- [15] SPIERS A.J., BOHANNON J., GEHRIG S.M., RAINEY P.B., Biofilm formation at the air-liquid interface by the Pseudomonas fluorescens SBW25 wrinkly spreader requires an acetylated form of cellulose, Mol. Microbiol., 2003, 50, 15.
- [16] BANO N., MUSARRAT J., Characterization of a new Pseudomonas aeruginosa Strain NJ-15 as a potential biocontrol agent, Curr. Microbiol., 2003, 46, 324.
- [17] WANG C., TIAN Y., WANG X., GENG J., JIANG J., YU H., Lead-contaminated soil induced oxidative stress, defense response and its indicative biomarkers in roots of Vicia faba seedlings, Ecotoxicol., 2010, 19, 1130.
- [18] PROBST A., LIU H., FANJUL M., LIAO B., HOLLANDE E., Response of Vicia faba L. to metal toxicity on mine tailing substrate: Geochemical and morphological changes in leaf and root, Environ. Exp. Bot., 2009, 66, 297.
- [19] SINGH R.P., TRIPATHI R.D., SINHA S.K., MAHESHWARI R., SRIVASTAVA H.S., Response of higher plants to lead contaminated environment, Chemosphere, 1997, 34, 2467.
- [20] BLOISE A., BARCA D., GUALTIERI A.F., POLLASTRI S., BELLUSO E., Trace elements in hazardous mineral fibres, Environ. Pollut., 2016, 216, 314.
- [21] PAJUELO E. RODRÍGUEZ-LLORENTE I.D., LAFUENTE A., PÉREZ-PALACIOS P., DOUKKALI B., CAVIEDES M.A., Engineering the rhizosphere for the purpose of bioremediation: an overview, CAB Rev. Persp. Agric. Vet. Sci. Nutr. Nat. Res., 2014, 9, 1.
- [22] PASTOR J., HERNÁNDEZ A.J., PRIETO N., FERNÁNDEZ-PASCUAL M., Accumulating behaviour of Lupinus albus L. growing in a normal and a decalcified calcic luvisol polluted with Zn, J. Plant. Phys., 2003, 160, 1457.
- [23] BONDARENKO O.,RAHMAN P.K.S.M.,RAHMAN T.J., KAHRU A.,IVASK A., Effects of rhamnolipids from Pseudomonas aeruginosa DS10-129 on luminescent bacteria: toxicity and modulation of cadmium bioavailability, Microb. Ecol., 2010, 59, 588.
- [24] BROOS K., BEYENS H., SMOLDERS E., Survival of rhizobia in soil is sensitive to elevated zinc in the absence of the host plant, Soil Biol. Biochem., 2005, 37, 573.
- [25] VIGLIOTTA G., MATRELLA S., CICATELLI A., GUARINO F., CASTIGLIONE S., Effects of heavy metals and chelants on phytoremediation capacity and on rhizobacterial communities of maize, J. Environ. Manage., 2016, 179, 93.
- [26] NIES D.H., Efflux-mediated heavy metal resistance in prokaryotes, FEMS Microbiol. Rev., 2003, 27, 313.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-964bb733-f6f7-41bb-a17a-7e3dcdb7ff39