Last edited by Akinoshakar
Saturday, May 2, 2020 | History

3 edition of Bioremediation of lead arsenate-contaminated soils found in the catalog.

Bioremediation of lead arsenate-contaminated soils

Frank J. Peryea

Bioremediation of lead arsenate-contaminated soils

by Frank J. Peryea

  • 278 Want to read
  • 36 Currently reading

Published by s.n. in [S.l .
Written in English

    Subjects:
  • Soils -- Arsenic content,
  • Soil remediation,
  • Bioremediation,
  • Soil pollution,
  • Lead arsenate,
  • Pesticides -- Environmental aspects

  • Edition Notes

    Statementby Frank J. Peryea.
    ContributionsState of Washington Water Research Center., United States. Dept. of the Interior.
    The Physical Object
    Pagination30 leaves ;
    Number of Pages30
    ID Numbers
    Open LibraryOL17065399M
    OCLC/WorldCa36008548

    United States Solid Waste And EPA/// Environmental Protection Emergency Response September Agency (OS) PB >EPA National Priorities List Sites: AMERICAN SAMOA, GUAM, AND THE TRUST TERRITORIES — ^C-9 Printed on Recycled Paper. How to reduce accidental intake of contaminated soils May pdf 40 Кб Field mapping of soils – a simple “how to” guide - The Geology Trusts doc 34 Кб Soil and Ecological Site Identification Exercise Презентации ppt 5 Кб.

    Nickel (Ni), lead (Pb) and antimony (Sb) contents found in root, shoot, leaves and achenes of sunflower cultivars grown in arsenic contaminated soil Selenium (Se), strontium (Sr) and titanium (Ti) contents in root, shoot, leaves and seeds of sunflower cultivars grown in arsenic contaminated soil 93Author: Muhammad. Asif Imran. 1 iv. kÁrpÁt-medencei kÖrnyezettudomÁnyi konferencia i. kÖtet kÖrnyezettudomÁny És kÖrnyezeti nevelÉs kÖrnyezetkÉmia kÖrnyezetfizika kÖrnyezetfÖldrajz És -fÖldtan szerkesztı: orosz zoltÁn szabÓ valÉria molnÁr gÉza fazekas istvÁn borítóterv: szŐcs viktor barÁth endre debrecen,

      Arsenic Recovery by Stinging Nettle From Lead-Arsenate Contaminated Orchard Soils. USDA-ARS?s Scientific Manuscript database. Soil contamination with arsenic (As) is common in orc. Contents 11 Testing Amendments for Increasing Soil Availability of Radionuclides Nicholas R. Watt .. 12 Using Electrodics to Aid Mobilization of Lead in Soil David J. Butcher and Jae-Min Lim .. 13 Stable Isotope Methods for Estimating the Labile Metal Content of Soils Andrew J. Midwood .. 14 In Vitro Hairy Root Cultures as.


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Bioremediation of lead arsenate-contaminated soils by Frank J. Peryea Download PDF EPUB FB2

Remediation Considerations for Soils Historically-Contaminated with Lead Arsenate Lead arsenate was a commonly-used pesticide in fruit tree orchards from the s to s, and elevated arsenic (As) levels persist in soils where lead arsenate was once applied.

In book: Microbes and Enzymes in Soil Health and Bioremediation (pp) Living soils house the largest deposit of genes from fungi, bacteria, may lead to a broad range of diseases. The use of plants and associated microorganisms to remove, contain, inactivate, or degrade harmful environmental contaminants (generally termed phytoremediation) and to revitalize contaminated.

Findings of their study and potential applications could lead to more cost-effective and safe technologies to naturally monitor remediation of petroleum-contaminated soils (Ulfig et al., ).

Borazjani et al. () studied the bioremediation of soil contaminated with petroleum wastes. They took the polychlorinated biphenyls and petroleum Author: Pankaj Kumar Chaurasia, Shashi Lata Bharati, Ashutosh Mani.

Gutiérrez-Ginés MJ, Pastor J, Hernández AJ () Heavy metals in native mediterranean grassland species growing at abandoned mine sites: Ecotoxicological assessment and phytoremediation of polluted soils.

In: Sherameti I, Varma A (eds) Heavy metal contamination of soils, Soil Biology, vol Springer, Cham, pp – CrossRef Google ScholarAuthor: María del Carmen Molina, Luis Fernando Bautista, Ignacio Belda, Manuel Carmona, Eduardo Díaz, Gonzal.

The use of plants and associated microorganisms to remove, contain, inactivate, or degrade harmful environmental contaminants (generally termed phytoremediation) and to revitalize contaminated sites is gaining more and more attention.

In this review, prerequisites for a successful remediation will be discussed. The performance of phytoremediation as an environmental remediation Cited by: Microbial Mechanism to Combat Metal Stress.

Microorganisms and cyanobacteria have developed various methods, such as adsorption, methylation, uptake, oxidation and Bioremediation of lead arsenate-contaminated soils book to protect themselves from heavy metal toxicity (Rajendran et al., ; Kuamr and Singh, ).Adsorption is defined as the nonspecific binding of metal ions to polysaccharides/proteins associated with bacterial cell Author: Pratishtha Gupta, Rupa Rani, Zeba Usmani, Avantika Chandra, Vipin Kumar.

Abstract: Bioremediation of pesticide-contaminated soils: Herbicide interactions and phytoremediation studies. (), Poster In 12th Annual Conference on Hazardous Waste Research - Abstracts Book, May, Kansas City, MO.

Lead oxalate is highly insoluble (log K sp = −), but it is unlikely that lead oxalate would be thermodynamically stable in many soils.

According to the stability diagrams generated by GWB, the geochemical conditions under which lead oxalate is stable are at a minimum oxalate activity of ∼10 − over pH values of Cited by:   Fungi play important roles in biogeochemical processes such as organic matter decomposition, bioweathering of minerals and rocks, and metal transformations and therefore influence elemental cycles for essential and potentially toxic elements, e.g., P, S, Pb, and As.

Arsenic is a potentially toxic metalloid for most organisms and naturally occurs in trace quantities in soil, rocks, Cited by: Colding E.E. Accumulation of lead and arsenic by lettuce grown on lead-arsenate contaminated orchard soils. Open Agric. ; – [Google Scholar] de Oliveira L.M., Suchismita D., Gress J., Rathinasabapathi B., Chen Y., Ma L.Q.

Arsenic uptake by lettuce from As-contaminated soil remediated with Pteris vittata and organic by: 2. Phytoremediation of arsenate contaminated soil by transgenic canola and the plant growth-promoting bacterium Enterobacter cloacae CAL2. Plant Physiology and Biochemistry. ; Vivas A, Azcón R, Biró B, Barea J, Ruiz-Lozano J.

Influence of bacterial strains isolated from lead-polluted soil and their interactions with arbuscular. Arsenic, Lead, and Cadmium Bioavailability in Contaminated Soils: Comparison of in Vivo Animal Models and Prediction Using in Vitro Bioaccessibility Assays.

Assessing Metal Contamination in Lead Arsenate Contaminated Orchard Soils using Near and Mid-Infrared Diffuse Reflectance Spectroscopy.

Hansen, D. Evidence for Enhanced Biogeochemical Cycling at Soil Interfaces in the Vadose Zone. Adding chelating agents is a critical technique of heavy metal activation for enhancing phytoextraction through the formation of soluble metal complexes which will be more readily available for extraction.

The preliminary, dynamic, equilibrium activation experiments and speciation analysis of Pb, Cd and Tl in contaminated red soils were used to select six chelates with relatively good Author: Lirong Liu, Dinggui Luo, Guangchao Yao, Xuexia Huang, Lezhang Wei, Yu Liu, Qihang Wu, Xiaotao Mai, G.

Abstract. Brassicaceae are scattered all over the world, where they exclusively grow on serpentine rocks in Western Australia, New Zealand, South Africa, Japan, Philippines, Brazil, Portugal, Italy, Turkey, Cuba, eastern Canada, and western north America.

Although serpentine rocks cover only less than 1% of the earth’s surface their worldwide distribution has recently attracted many Cited by: 3.

Jiang, G. and X. Li (eds.). Springer, Singapore. ISBN pp, In 16 independently authored chapters, this book provides comprehensive coverage of the theoretical developments and technological breakthroughs to deepen our understanding of environmental pollution and human health and stimulate a comprehensive strategy to address these problems.

During the removal action, soils and waste oils were sampled in the field using a portable testing kit that allowed for the segregation of wastes for transport. Only one site had contaminated soils. Testing was conducted before and after removal of contaminated soils to determine whether PCBs remained.

Organism, media, and growth conditions. The organism used for the bioleaching tests was Aspergillus niger van Tieghem (ATCC ), from the culture collection of the Geomicrobiology Group (University of Dundee).A. niger was chosen because it has been shown to have significant geoactive properties in mineral bioweathering of the lead apatites pyromorphite and vanadinite (1, 2, Cited by: Full text of "Reviews of environmental contamination and toxicology.

[electronic resource]" See other formats. lead activity in lead arsenate contaminated soils. Journal of Soil Science. King, F. Aluminum and its alloys. Halsted Press. Ellis Horwood, New York. Manning, BA and Goldberg, S.

(). Arsenic (III) and arsenic (V) absorption on three California soils. Journal of .Immobilization of As(V) in Rhizopus oryzae Investigated by Batch and XAFS TechniquesCited by: 8.Full text of "Pesticides In The Modern World: Risks And Benefits" See other formats.