Remediation of heavy-metal contaminated soils using succinic acid by Arvind Kaul Download PDF EPUB FB2
Removal of heavy metals from a contaminated soil using tartaric acid Article in Journal of Environmental Sciences 18(4) February with Reads How we measure 'reads'.
Heavy Metals in Contaminated Soils: A Review of Sources, Chemistry, Risks and Best Available Strategies for Remediation Article (PDF Available) October. Although numerous papers were published in the field of plant-mediated remediation of heavy metal contaminants, the knowledge about the exact mechanism of soil microflora-assisted metal extraction is still unclear (Tak et al., ).
Land Reformation Using PGPR by Author: Shashi Kant Shukla, Rohit Kumar Mishra, Manisha Pandey, Vani Mishra, Ashutosh Pathak, Anand Pandey. Lei Yan, Weijia Xing, in Methods in Microbiology, Mass Culture of MTB. Even though MTB were discovered about 40 years ago, their mass production for commercial applications such as biological navigation, heavy metal treatment, and ground water remediation, is a challenging task for investigators and research is lacking in this area (Lingamdinne et al., ; Su, ).
The overall objective of this research was to determine whether establishment of vegetation in heavy metal- and radionuclide-contaminated soil will significantly affect retention of metals in soils and to develop mathematical models to predict the movement of metals in vegetated versus unvegetated soil.
Currently, most researchers focus on the use of chemical remediation and phytoremediation to control soil heavy metal pollution [7,8].There have been a number of studies on in situ immobilization of Pb-contaminated soils using hydroxyapatite, and two different mechanisms were mainly found: Dissolution–precipitation and ion exchange (between Pb 2+ in solution and Ca Cited by: 6.
The fate of the heavy metal in soils depends upon many soil processes that are governed by several soils properties of which soil pH and redox potential are known to be the most important parameters.
Thus, the solubility of trace elements is often shown as a function of pH affected by amount and kind of organic by: 4. Environmental Remediation Technologies for Metal-Contaminated Soils Hiroshi Hasegawa, Ismail Md. Mofizur Rahman, Mohammad Azizur Rahman (eds.) This book presents a comprehensive and detailed description of remediation techniques for metal-contaminated soils derived from both natural processes and anthropogenic activities.
Remediation of heavy metal contaminated soils: Phytoremediation as a potentially promising clean-up technology. Critical Reviews in Environmental Science and Technology, 39 (8), – CrossRef Google ScholarCited by: 1. Li L, Qu W, Zhang X, Lu J, Chen R, Wu F, Amine K () Succinic acid-based leaching system: a sustainable process for recovery of valuable metals from spent Li-ion batteries.
J Power Sources – CrossRef Google ScholarAuthor: Tenzin Dolker, Deepak Pant. The use of clay minerals to reduce metal bioavailability and resulting toxicity in groundwater and sub-soils has been successful for the remediation of heavy metal polluted environments [10,].
Clays differ in chemical and physical properties but show, in general, a comparatively high ion exchange capacity of 5 to >50 meq/ g clay Cited by: Structure and properties. EDDS has two chiral centers, and as such three stereoisomers. These are the enantiomeric (R,R) and (S,S) isomers and the achiral meso (R,S) isomer.
As a biodegradable replacement for EDTA, only the (S,S) stereoisomer is of interest. The (R,S) and (R,R) stereoisomers are less biodegradable, whereas the (S,S) stereoisomer has been shown Chemical formula: C₁₀H₁₆N₂O₈.
Introduction Development of the Monograph Background Acting upon its commitment to develop innovative treatment technolo- gies for the remediation of hazardous waste sites and contaminated soils and groundwater, the U.S.
Environmental Protection Agency (USl EPA) established the Technology Innovation Office (TIO) in the Office of. Succinic acid; Radio-isotope chelation such as this book chapter Use of Chelating Agents for Remediation of Heavy Metal Contaminated Soil and this review The use of chelating agents in the remediation of metal-contaminated soils: a review.
EPA/// January, Biological Remediation of Contaminated Sediments, with Special Emphasis on the Great Lakes Report of a Workshop Manitowoc, Wisconsin JulyEdited by C.T. Jafvert and J.E. Rogers Co-Chairmen: Chad T. Jafvert and John E. Rogers Environmental Research Laboratory U.S.
Environmental Protection Agency Athens, Georgia. The purpose of this book is to present the most recent advances in this field, mainly concerning the uptake and translocation of heavy metals in plants, mechanisms of toxicity, perception of metal and regulation of cell response under metal stress.
Methods and compositions for removing perchlorate and/or nitrate from contaminated material utilizing a DM bacteria. DM is a gram-negative, motile, polymorphic, facultative anaerobe which is deposited with the American Type Culture Collection under ATCC No.
PTA DM may be used as a substitute for anaerobic bacteria which are presently being used in Cited by: Journal of Biomimetics, Biomaterials and Biomedical Engineering Materials Science. Defect and Diffusion Forum.
Increasing Phytoremediation Efﬁciency of Heavy Metal-Contaminated Soil Using PGPR for Sustainable Agriculture Chapter December DOI: /_9 CITATIONS READS 4 1, 3 authors, including: Payman Abbaszadeh Dahaji Mansour Ghorbanpour Vali-e-Asr University Of Rafsanjan Arak University 11 PUBLICATIONS 21. Restoration of the heavy metal polluted soils is a priority direction in many countries.
Soil phytoremediation and protection of agricultural crops from heavy metals are actual problems of modern biotechnology. Bacteria are actively involved in global cycles of metals circulation in biosphere/5.
It is used as an intermediate for the synthesis of 1,4-butanediol, tetrahydrofuran, y-butyrolactone, and linear aliphatic esters - Novel biodegradable plastics such as polybutyrate succinate and poly(1,3-propylene succinate) can be made using succinic acid.
Inthe US market for succinic acid was x kg year with a market price of /5. In this paper, the acid-forming potential of mine waste samples collected from 17 mine sites in China were studied using a net acid generation (NAG) method. The samples contained different contents of total sulfur (ranging from to g kg −1), pyritic sulfur (ranging from 0 to g kg −1), and acid neutralization capacity (ANC.
• This redox status misbalance is known to be a major cause of heavy metal toxicity in plants. Tiwari and Lata Microbial remediation of heavy metals for plant growth promotion • Bacteria are the most crucial microbial organisms used for the remediation of heavy metal contaminated soils.
Adding phosphates to lead-contaminated soils offers one management technique for reducing risk of exposure of children to soil lead. Lead contaminated soils ( to 1, mg Pb kg-1) from a garden and a city lot in Cleveland, OH were incubated in a bench scale experiment for 1 year.
Six phosphate amendments including bone meal (BM), fish bone. This banner text can have markup. web; books; video; audio; software; images; Toggle navigation. Identified perchlorate reducers fall into several different categories. Coates et al. () investigated six different environments including pristine soil, paper mill waste sludge, heavy metal contaminated aquatic sediments, hydrocarbon contaminated lake sediments, hydrocarbon contaminated soils, and animal waste treatment sludge.
J Hazard Mater – Duddridge JE, Wainwright M () Heavy-metal accumulation by aquatic fungi and reduction in viability of gammarus-pulex fed Cd2+ contaminated Res – Fourest E, Roux JC () Heavy-metal biosorption by fungal mycelial byproducts—mechanisms and influence of pH. The model uses principles of both soil chemistry and plant physiology, and was calibrated using data from several plant species grown in field-contaminated soils with and without nutrient amendments.
A wide range of soils from three continents, some historically contaminated through biosolids application or other anthropogenic sources, were used. The influence of oxygen limitation for the production of succinic acid with recombinant strains of Yarrowia lipolytica Appl.
Microbiol. Biotechnol Remediation of heavy metal-contaminated sediments by solid-bed bioleaching Environ. Geol. 40 (), Remediation of hazardous waste contaminated soils Marcel Dekker, New York, Basel, p. Photochemistry is a key environmental process directly linked to the fate, source, and toxicity of pollutants in the environment.
This study explores two approaches for integrating light sources with nuclear magnetic resonance (NMR) spectroscopy: sample irradiation using a “sunlight simulator” outside the magnet versus direct irradiation of the sample inside the by:.
The textbook contains reviews of all the necessary fundamental principles of chemistry required for understanding soil-water chemistry and quality and soil-water treatments of chemically polluted soils and waters, for example, heavy-metal contaminated soil-water, acid drainage, and restoration of sodic soils and brackish waters.Book of Abstracts 1 Book of Abstracts 1 2 Contents 27 Chapter 1Keynote Speakers 29 Organizational Change Management for Sustainability 33 Climate Change and the Industrial Ecology of Carbon 35 Industrial ecology: Moving beyond technological innovation to culture change 37 Chapter 2Platform PresentationsDesigning Sustainable Cities 39 Designing an .Jelena Avdalović, Mila Ilić, Srđan Miletić, Vladimir Beškoski, Nikoleta Lugonja, Jelena Milić, Miroslav M.
Vrvić; Investigation Of Humic Acids Evolution During Ex Situ Bioremediation Of Petroleum Contaminated Soil, Book of abstracts of 1st International Conference on Advance Production and Processing,