Modeling arsenic desorption from herbicide-contaminated soils

Environmental Toxicology and Chemistry

Volumn 28, Issue 6, 2009, Pages 1338-1345

  Qi, Yongqiang ^a   Donahoe, Rona J ^b  

^a Beijing Water Supply Co   (China)

^b UNIVERSITY OF ALABAMA   (United States)

Author keywords

Arsenic; Contaminated soil; Dual site; Sequential leaching; Sorption model

Indexed keywords

AGRICULTURAL AREAS; AQUEOUS CONCENTRATIONS; AQUEOUS PHASE; CONTAMINATED SOIL; CONTAMINATED SOILS; DESORPTION MECHANISM; DESORPTION MODELS; DIFFERENT MECHANISMS; DUAL-SITE; ENVIRONMENTAL PROBLEMS; FIRST ORDER KINETICS; INDUSTRIAL SITES; KINETIC FACTORS; PHYSICAL ENVIRONMENTS; RAIN LEACHING; RELEASE MECHANISM; SEQUENTIAL LEACHING; SOIL COMPONENTS; SORPTION MODEL; SORPTION PROCESS; SORPTION SITES; STRAIGHT LINES; TYPE II;

ACID RAIN; ACIDS; ADSORPTION; ARSENIC; CONTAMINATION; DESORPTION; GEOLOGIC MODELS; HERBICIDES; LEACHING; SOILS; TRACE ELEMENTS; WEED CONTROL;

SOIL POLLUTION;

ARSENIC TRIOXIDE; HERBICIDE; TRACE ELEMENT;

ACID RAIN; ARSENIC; DESORPTION; HERBICIDE; INDUSTRIAL LOCATION; LEACHING; MODELING; NUMERICAL MODEL; SOIL POLLUTION;

ACID RAIN; ARTICLE; BIOSORPTION; DESORPTION; ECOTOXICITY; ENVIRONMENTAL IMPACT; KINETICS; LEACHING; PRIORITY JOURNAL; SOIL POLLUTION; STATISTICAL MODEL;

ARSENIC; HERBICIDES; MODELS, THEORETICAL; SOIL POLLUTANTS;

EID: 67649199680     PISSN: 07307268     EISSN: None     Source Type: Journal    
DOI: 10.1897/08-487.1     Document Type: Article

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