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Biodegradation of the Recalcitrant Endocrine Disruptor Nonylphenol
Ana Soares
Research output
:
Thesis
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Doctoral Thesis (compilation)
Overview
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Dive into the research topics of 'Biodegradation of the Recalcitrant Endocrine Disruptor Nonylphenol'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Rate
100%
Soil
85%
Contaminated Soil
71%
Pseudomonas
42%
Investigation
28%
Constraint
28%
Contaminant
28%
Bed
28%
Culture
28%
Incubation
28%
Sweden
14%
Country
14%
Carbon
14%
Micro-Organism
14%
Liquid
14%
Biomass
14%
Acclimatization
14%
Groundwater
14%
Sludge
14%
pH
14%
Industrial Area
14%
Enrichment
14%
Water Pollution
14%
Leachate
14%
Disrupting
14%
Washing
14%
Immunology and Microbiology
Biodegradation
100%
Bacterium
66%
Bjerkandera
66%
Bioreactor
50%
Fungus
50%
Pseudomonas
50%
Inoculum
33%
Growth
16%
Fungal Strain
16%
pH
16%
Growth Rate
16%
Adsorption
16%
Leaching
16%
Food Science
Salt
100%
Mass Transfer
100%
Agricultural and Biological Sciences
Nonylphenol
100%
Organism
23%
Bacteria
15%
Temperature
15%
Inoculum
7%
White-Rot Fungi
7%
Area
3%
Water
3%
Microorganism
3%
Enzyme
3%
Groundwaters
3%
Washing
3%
Anaerobic Condition
3%
Biochemistry, Genetics and Molecular Biology
Non-Ionic Surfactant
7%
Inoculation
7%
Enzyme
3%