Inverse modeling of pesticide degradation and pesticide-degrading population size dynamics in a bioremediation system: Parameterizing the Monod model

Chemosphere

Volumn 75, Issue 6, 2009, Pages 726-731

  Sniegowski, Kristel ^a   Mertens, Jan ^a   Diels, Jan ^a   Smolders, Erik ^a   Springael, Dirk ^a  

^a UNIVERSITY OF LEUVEN   (Belgium)

Author keywords

Biofilters; Inverse modeling; Monod kinetics; Pesticide degradation

Indexed keywords

BIOMASS DYNAMICS; FIRST ORDERS; FIRST-ORDER APPROXIMATIONS; INITIAL POPULATIONS; INVERSE MODELING; LAG-TIME; LINURON; MATRIXES; MONOD KINETICS; MONOD MODELS; PARAMETERIZING; PESTICIDE DEGRADATION; PESTICIDE LEACHING; PESTICIDE SUPPLIES; POPULATION SIZES; SHUFFLED COMPLEX EVOLUTIONS; WASTE WATERS;

BIOFILTERS; BIOFILTRATION; BIOLOGICAL MATERIALS; BIOMASS; BIOREMEDIATION; DYNAMICS; HERBICIDES; INVERSE PROBLEMS; LEACHING; MINERALOGY; POPULATION STATISTICS; SENSITIVITY ANALYSIS; SEWAGE; WASTEWATER; WASTEWATER TREATMENT;

DEGRADATION;

LINURON; PEAT; PESTICIDE;

BIOFILTRATION; BIOMASS; DEGRADATION; HERBICIDE; INVERSE ANALYSIS; LEACHING; MICROCOSM; MICROORGANISM; NUMERICAL MODEL; PESTICIDE; POPULATION SIZE; SENSITIVITY ANALYSIS; STRAW; WASTE TREATMENT; WASTEWATER;

ARTICLE; BIOFILTER; BIOMASS; BIOREMEDIATION; CONTROLLED STUDY; LEACHING; MICROCOSM; MINERALIZATION; NONHUMAN; POPULATION DYNAMICS; POPULATION SIZE; SIMULATION; STRAW; WASTE WATER; WATER CONTAMINATION;

BIODEGRADATION, ENVIRONMENTAL; KINETICS; LINURON; MODELS, THEORETICAL; PESTICIDES;

EID: 64049088407     PISSN: 00456535     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.chemosphere.2009.01.050     Document Type: Article

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