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139 related items for PubMed ID: 25576781

  • 1. Arsenic speciation in the dispersible colloidal fraction of soils from a mine-impacted creek.
    Serrano S, Gomez-Gonzalez MA, O'Day PA, Laborda F, Bolea E, Garrido F.
    J Hazard Mater; 2015 Apr 09; 286():30-40. PubMed ID: 25576781
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  • 2. Colloidal mobilization of arsenic from mining-affected soils by surface runoff.
    Gomez-Gonzalez MA, Voegelin A, Garcia-Guinea J, Bolea E, Laborda F, Garrido F.
    Chemosphere; 2016 Feb 09; 144():1123-31. PubMed ID: 26454721
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  • 6. Dynamics of arsenic in the mining sites of Pine Creek Geosyncline, Northern Australia.
    Eapaea MP, Parry D, Noller B.
    Sci Total Environ; 2007 Jul 01; 379(2-3):201-15. PubMed ID: 17499841
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  • 7. Experimental evidence of colloids and nanoparticles presence from 25 waste leachates.
    Hennebert P, Avellan A, Yan J, Aguerre-Chariol O.
    Waste Manag; 2013 Sep 01; 33(9):1870-81. PubMed ID: 23746986
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  • 11. Arsenic speciation and bioaccessibility in arsenic-contaminated soils: sequential extraction and mineralogical investigation.
    Kim EJ, Yoo JC, Baek K.
    Environ Pollut; 2014 Mar 01; 186():29-35. PubMed ID: 24361561
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  • 12. Bioaccessibility of arsenic in mining-impacted circumneutral river floodplain soils.
    Mikutta C, Mandaliev PN, Mahler N, Kotsev T, Kretzschmar R.
    Environ Sci Technol; 2014 Nov 18; 48(22):13468-77. PubMed ID: 25358072
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  • 13. Arsenate adsorption structures on aluminum oxide and phyllosilicate mineral surfaces in smelter-impacted soils.
    Beaulieu BT, Savage KS.
    Environ Sci Technol; 2005 May 15; 39(10):3571-9. PubMed ID: 15952360
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  • 14. Speciation, mobilization, and bioaccessibility of arsenic in geogenic soil profile from Hong Kong.
    Cui JL, Zhao YP, Li JS, Beiyuan JZ, Tsang DCW, Poon CS, Chan TS, Wang WX, Li XD.
    Environ Pollut; 2018 Jan 15; 232():375-384. PubMed ID: 28966030
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  • 15. Combining single-particle inductively coupled plasma mass spectrometry and X-ray absorption spectroscopy to evaluate the release of colloidal arsenic from environmental samples.
    Gomez-Gonzalez MA, Bolea E, O'Day PA, Garcia-Guinea J, Garrido F, Laborda F.
    Anal Bioanal Chem; 2016 Jul 15; 408(19):5125-35. PubMed ID: 26847190
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  • 16. Size-fractionation of groundwater arsenic in alluvial aquifers of West Bengal, India: the role of organic and inorganic colloids.
    Majumder S, Nath B, Sarkar S, Chatterjee D, Roman-Ross G, Hidalgo M.
    Sci Total Environ; 2014 Jan 15; 468-469():804-12. PubMed ID: 24070874
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  • 17. Size-based speciation of natural colloidal particles by flow field flow fractionation, inductively coupled plasma-mass spectroscopy, and transmission electron microscopy/X-ray energy dispersive spectroscopy: colloids-trace element interaction.
    Baalousha M, Kammer FV, Motelica-Heino M, Baborowski M, Hofmeister C, Le Coustumer P.
    Environ Sci Technol; 2006 Apr 01; 40(7):2156-62. PubMed ID: 16646447
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  • 18. A systematic evaluation of Flow Field Flow Fractionation and single-particle ICP-MS to obtain the size distribution of organo-mineral iron oxyhydroxide colloids.
    Moens C, Waegeneers N, Fritzsche A, Nobels P, Smolders E.
    J Chromatogr A; 2019 Aug 16; 1599():203-214. PubMed ID: 31047657
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  • 19. Evolution of As speciation with depth in a soil profile with a geothermal As origin.
    Yang PT, Wu WJ, Hashimoto Y, Huang JH, Huang ST, Hseu ZY, Wang SL.
    Chemosphere; 2020 Feb 16; 241():124956. PubMed ID: 31605996
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  • 20. Speciation of arsenic in bulk and rhizosphere soils from artisanal cooperative mines in Bolivia.
    Acosta JA, Arocena JM, Faz A.
    Chemosphere; 2015 Nov 16; 138():1014-20. PubMed ID: 25577694
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