Efficiency of co-composting process to remove genotoxicity from sewage sludge contaminated with hexavalent chromium
暂无分享,去创建一个
[1] M. Hafidi,et al. Use of the co-composting time extract agar to evaluate the microbial community changes during the co-composting of activated sludge and date palm waste , 2015, International Journal of Recycling of Organic Waste in Agriculture.
[2] M. Hafidi,et al. Two culture approaches used to determine the co-composting stages by assess of the total microflora changes during sewage sludge and date palm waste co-composting , 2014, Journal of Environmental Health Science and Engineering.
[3] Xinhui Liu,et al. Seed germination, root elongation, root‐tip mitosis, and micronucleus induction of five crop plants exposed to chromium in fluvo‐aquic soil , 2014, Environmental toxicology and chemistry.
[4] Mohamed Hafidi,et al. Assessment of biotransformation of organic matter during co-composting of sewage sludge-lignocelullosic waste by chemical, FTIR analyses, and phytotoxicity tests , 2014 .
[5] Liang Chen,et al. Hexavalent Chromium Leaching Influenced Factors in the Weathering Chrome Slag , 2014 .
[6] B. D. Pandey,et al. Characterizing toxic Cr(VI) contamination in chromite mine overburden dump and its bacterial remediation. , 2013, Journal of hazardous materials.
[7] D. Goyal,et al. Microbial Waste Biomass for Removal of Chromium(VI) from Chrome Effluent , 2013 .
[8] M. Virta,et al. Biotests for environmental quality assessment of composted sewage sludge. , 2013, Waste management.
[9] M. Oves,et al. Chromium reducing and plant growth promoting novel strain Pseudomonas aeruginosa OSG41 enhance chickpea growth in chromium amended soils , 2013 .
[10] M. Hafidi,et al. Molecular behaviour of humic acid-like substances during co-composting of olive mill waste and the organic part of municipal solid waste , 2012 .
[11] E. Pinelli,et al. Long-Term Field Metal Extraction by Pelargonium: Phytoextraction Efficiency in Relation to Plant Maturity , 2012, International journal of phytoremediation.
[12] H. Hamdi,et al. Assessment of the genotoxicity of quinolone and fluoroquinolones contaminated soil with the Vicia faba micronucleus test. , 2012, Ecotoxicology and environmental safety.
[13] E. Pinelli,et al. Lead-induced genotoxicity to Vicia faba L. roots in relation with metal cell uptake and initial speciation. , 2011, Ecotoxicology and environmental safety.
[14] N. Sarwar,et al. Role of mineral nutrition in minimizing cadmium accumulation by plants. , 2010, Journal of the science of food and agriculture.
[15] Erik Meers,et al. Chemically enhanced phytoextraction of Pb by wheat in texturally different soils. , 2010, Chemosphere.
[16] G. Owens,et al. Influence of indian mustard (Brassica juncea) on rhizosphere soil solution chemistry in long-term contaminated soils: a rhizobox study. , 2010, Journal of environmental sciences.
[17] C. C. Chen,et al. Chromate reduction by zero-valent Al metal as catalyzed by polyoxometalate. , 2009, Water research.
[18] E. Pinelli,et al. New direct contact approach to evaluate soil genotoxicity using the Vicia faba micronucleus test. , 2009, Chemosphere.
[19] R. Rodríguez-Vázquez,et al. Toxicity assessment of soil amended with tannery sludge, trivalent chromium and hexavalent chromium, using wheat, oat and sorghum plants. , 2009, Journal of hazardous materials.
[20] O. P. Shukla,et al. Involvement and interaction of microbial communities in the transformation and stabilization of chromium during the composting of tannery effluent treated biomass of Vallisneria spiralis L. , 2009, Bioresource technology.
[21] M. I. Ansari,et al. Genotoxicity of agricultural soils in the vicinity of industrial area. , 2009, Mutation research.
[22] Can Chen,et al. Biosorbents for heavy metals removal and their future. , 2009, Biotechnology advances.
[23] M. Warne,et al. Models for the field-based toxicity of copper and zinc salts to wheat in 11 Australian soils and comparison to laboratory-based models. , 2008, Environmental pollution.
[24] J. Gu,et al. The role of EDTA in phytoextraction of hexavalent and trivalent chromium by two willow trees , 2008, Ecotoxicology.
[25] C. Dumat,et al. Multi-metal contamination of a calcic cambisol by fallout from a lead-recycling plant , 2008 .
[26] G. Merlina,et al. Assessment of the genotoxicity of olive mill waste water (OMWW) with the Vicia faba micronucleus test. , 2007, Mutation research.
[27] Almas Zaidi,et al. Effect of metal tolerant plant growth promoting Bradyrhizobium sp. (vigna) on growth, symbiosis, seed yield and metal uptake by greengram plants. , 2007, Chemosphere.
[28] S. Prasher,et al. Simultaneous mobilization of heavy metals and polychlorinated biphenyl (PCB) compounds from soil with cyclodextrin and EDTA in admixture. , 2007, Chemosphere.
[29] Tongbin Chen,et al. Stabilization of nickel and chromium in sewage sludge during aerobic composting. , 2007, Journal of hazardous materials.
[30] O. P. Shukla,et al. Isolation and characterization of chromate resistant bacteria from tannery effluent. , 2007, Journal of environmental biology.
[31] T. Sun,et al. Genotoxicity assessment of soils from wastewater irrigation areas and bioremediation sites using the Vicia faba root tip micronucleus assay. , 2007, Journal of environmental monitoring : JEM.
[32] H. E. Hajjouji,et al. Vicia faba小核試験によるオリーブ工場排水(OMWW)遺伝毒性の評価 , 2007 .
[33] R. Crinelli,et al. Uptake and toxicity of Cr(III) in celery seedlings. , 2006, Chemosphere.
[34] M. Tejada,et al. Use of organic amendment as a strategy for saline soil remediation: Influence on the physical, chemical and biological properties of soil , 2006 .
[35] S. Gupta,et al. Municipal sludge leachate-induced genotoxicity in mice--a subacute study. , 2005, Mutation research.
[36] J. Vink,et al. Plant-specific responses to zinc contamination in a semi-field lysimeter and on hydroponics. , 2005, Environmental pollution.
[37] G. Merlina,et al. Sequential extraction of heavy metals during composting of sewage sludge. , 2005, Chemosphere.
[38] P. White,et al. The mutagenic hazards of aquatic sediments: a review. , 2004, Mutation research.
[39] Xiao-yan Li,et al. Reduction of hexavalent chromium by ascorbic acid in aqueous solutions. , 2004, Chemosphere.
[40] S. Gupta,et al. Cytogenetic effects of leachates from tannery solid waste on the somatic cells of Vicia faba , 2004, Environmental toxicology.
[41] A. Zayed,et al. Chromium in the environment: factors affecting biological remediation , 2003, Plant and Soil.
[42] N. Ahmed,et al. Reduction of chromate by microorganisms isolated from metal contaminated sites of Karachi, Pakistan , 2000, Biotechnology Letters.
[43] N. Bolan,et al. Distribution and bioavailability of copper in farm effluent. , 2003, The Science of the total environment.
[44] S. Monarca,et al. Genotoxicity of surface water treated with different disinfectants using in situ plant tests , 2003, Environmental and molecular mutagenesis.
[45] Y. Bayhan,et al. Biosorption of chromium(VI) from aqueous solution by cone biomass of Pinus sylvestris. , 2002, Bioresource technology.
[46] V. Pandey,et al. Chromium ions inactivate electron transport and enhance superoxide generation in vivo in pea (Pisum sativum L. cv. Azad) root mitochondria , 2002 .
[47] E. Yurkow,et al. Photochemical reduction of hexavalent chromium in glycerol-containing solutions. , 2002, Environmental pollution.
[48] Colin R. Janssen,et al. Cadmium Toxicity for Terrestrial Invertebrates: Taking Soil Parameters Affecting Bioavailability Into Account , 2001, Ecotoxicology.
[49] E. Thornton,et al. Chromium(VI) reduction by hydrogen sulfide in aqueous media: stoichiometry and kinetics. , 2001, Environmental science & technology.
[50] L. Giovannetti,et al. The impact of chromium contamination on soil heterotrophic and photosynthetic microorganisms , 2001 .
[51] B. Volesky,et al. Biosorption: a solution to pollution? , 2000, International microbiology : the official journal of the Spanish Society for Microbiology.
[52] L. Cortellini. Evaluation of toxic and genotoxic activity of some composts from different origin. , 2000 .
[53] R. Marcos,et al. Genotoxicity and radioresistance in electroplating workers exposed to chromium. , 1999, Mutation research.
[54] J. Férard,et al. Assessment of the genotoxicity of contaminated soil with the Allium/Vicia-micronucleus and the Tradescantia-micronucleus assays. , 1999, Mutation research.
[55] S. Wasay,et al. A comparative study of Cd, Cr(III), Cr(VI), Hg, and Pb uptake by minerals and soil materials , 1996 .
[56] T. Ma,et al. The improved Allium/Vicia root tip micronucleus assay for clastogenicity of environmental pollutants. , 1995, Mutation research.
[57] T Viraraghavan,et al. Fungal biosorption — an alternative treatment option for heavy metal bearing wastewaters: a review , 1995 .
[58] A. Bianchi,et al. Chromium toxicity in Salvia sclarea - I. Effects of hexavalent chromium on seed germination and seedling development , 1993 .
[59] M. Costa. DNA-protein complexes induced by chromate and other carcinogens. , 1991, Environmental health perspectives.
[60] S. Paglialunga,et al. Induction of micronuclei in Vicia faba root tips treated with heavy metals (cadmium and chromium) in the presence of NTA. , 1988, Mutation research.
[61] K. G. Stollenwerk,et al. Adsorption and Desorption of Hexavalent Chromium in an Alluvial Aquifer Near Telluride, Colorado , 1985 .
[62] R. Anderson,et al. Nutritional role of chromium. , 1981, The Science of the total environment.