Modeling the mechanisms for uptake and translocation of dioxane in a soil-plant ecosystem with STELLA

Journal of Contaminant Hydrology

Volumn 95, Issue 1-2, 2008, Pages 17-29

  Ouyang, Ying ^a  

^a ST JOHNS RIVER WATER MANAGEMENT DISTRICT   (United States)

Author keywords

Contaminant; Modeling; Phytoremediation; Soil plant ecosystem; STELLA; Uptake; Water potential

Indexed keywords

CONTAMINATION; ECOSYSTEMS; IMPURITIES; MATHEMATICAL MODELS; PARAFFINS;

PHYTOREMEDIATION; SOIL-PLANT ECOSYSTEM; WATER POTENTIAL;

SOIL POLLUTION CONTROL;

DIOXANE;

CONTAMINATION; ECOSYSTEMS; IMPURITIES; MATHEMATICAL MODELS; PARAFFINS; SOIL POLLUTION CONTROL;

BIOACCUMULATION; CHEMICAL COMPOUND; EXPERIMENTAL STUDY; PHYTOREMEDIATION; SIMULATION; SOIL POLLUTION; SOLVENT; TRANSLOCATION; TRANSPIRATION;

ARTICLE; ATMOSPHERE; BIOACCUMULATION; CALIBRATION; ECOSYSTEM; HYDROSTATIC PRESSURE; MATHEMATICAL MODEL; NONHUMAN; PHYTOREMEDIATION; PLANT; PLANT LEAF; PLANT ROOT; PLANT STEM; PLANT WATER POTENTIAL; PRIORITY JOURNAL; SANDY SOIL; SOIL POLLUTION; TOXICOKINETICS; WATER TRANSPORT;

BIOLOGICAL TRANSPORT; COMPUTER SIMULATION; DIOXANES; ECOSYSTEM; MODELS, BIOLOGICAL; PLANT PHYSIOLOGY; PLANT TRANSPIRATION; PLANTS; POPULUS; SOFTWARE; SOIL; SOIL POLLUTANTS;

POPULUS;

EID: 37049037950     PISSN: 01697722     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jconhyd.2007.07.010     Document Type: Article

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