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Preface | ||
Contributors | ||
Rapid Detection/Identification of Microbes, Bacterial Spores, Microbial Communities, and Metabolic Activities in Environmental Matrices | 3 | |
Comparison of Effective Organisms in Bioremediation Processes: Potential Use of Nucleic Acid Probes to Estimate Cyanide Degradation in Situ | 21 | |
Modern Methods for Estimating Soil Microbial Biomass and Diversity: An Integrated Approach | 29 | |
Recent Advances in the Biodegradation of Polycyclic Aromatic Hydrocarbons by Mycobacterium Species | 51 | |
Toxic Metal Contamination Treatment with Microbes | 75 | |
Aerobic Biodegradation of Polychlorinated Biphenyls (PCBs): The Fate, Distribution, Kinetics and Enhancement of PCB Biodegradation Efficacy in the Bacterial Cell Suspension of Pseudomonas stutzeri | 95 | |
Adsorption of Heavy Metals to Microbial Biomass: Use of Biosorption for Removal of Metals from Solutions | 115 | |
Nonenzymic Degradation and Decolorization of Recalcitrant Compounds | 127 | |
The Impact of Sulfonation Pattern on Indigo Degradation by Phanerochaete chrysosporium Ligninolytic Enzymes | 135 | |
Screening of Fungal Strains for Remediation of Water and Soil Contaminated with Synthetic Dyes | 143 | |
Effect of Countermeasures of Radionuclide Uptake by Agricultural Plants | 149 | |
Low-Cost Microbiotests for Toxicity Monitoring during Bioremediation of Contaminated Soils | 155 | |
Application of Bioassays for Site-Specific Risk Assessment | 165 | |
Effect of PAH-Contaminated Soil on some Plants and Microorganisms | 177 | |
Development of immunomicroscopic methods for bioremediation | 187 | |
Ecotoxicological Evaluation of PAH-Contaminated Soil Using Earthworms | 199 | |
Use of Bioassays in Determining the Ecotoxicity of Industrial Soils | 205 | |
Genotoxicity Estimation in Soils Contaminated with Polycyclic Aromatic Hydrocarbons after Biodegradation | 211 | |
Ecotoxicological Hazard Assessment of Solid-Phase Samples | 217 | |
Monitoring of Polychlorinated Biphenyls in Slovak Freshwater Sediments: Use of Semipermeable Membrane Devices | 221 | |
Biopiles for Remediation of Petroleum-Contaminated Soils: A Polish Case Study | 229 | |
Why mycoremediations have not yet come into practice | 247 | |
From Laboratory to Industrial Scale: Composting of Polluted Soils from Former Coal Industry and Gas Plants: Future Research Needs | 267 | |
Plant Biotechnology for the Removal of Organic Pollutants and Toxic Metals from Wastewaters and Contaminated Sites: Phytoremediation | 285 | |
Consideration of Plant-Based Remediation and Restoration of Contaminated Sites Containing Heavy Metals: The Canadian Experience | 295 | |
Combined Removal of Oil, Toxic Heavy Metals and Arsenic from Polluted Soil | 313 | |
Landfarming Framework for Sustainable Soil Bioremediation | 319 | |
Spent Mushroom Substrate: White-Rot Fungi in Aged Creosote-Contaminated Soil | 335 | |
Bioremediation of PCBs from Contaminated Soil | 341 | |
Problems of Soil Renovation on Former Military Sites in Lithuania | 347 | |
The Capacity of Agricultural Soils to Auto-Regulate Bioremediation of Olive-Mill Wastewaters | 353 | |
Accumulation of Organic Contamination in Plant roots and the Influence of Plant Rhizosphere on Removal of PAH, TPH and Heavy Oil Fractions from Soil | 359 | |
Perspectives of Stable Isotope Approaches in Bioremediation Research | 367 | |
Screening of Litter Decomposing Fungi for Degradation of Polycyclic Aromatic Hydrocarbons (PAH), Phenanthrene and benzo[a]pyrene | 373 | |
Photosystem II-Based Biosensors for Phytoremediation | 377 | |
Degradation of Polychlorinated Biphenyls (PCBs) in Contaminated Soil with Horseredish Peroxidase and Peroxidase from White Radish Raphatus sativus | 381 | |
Successful Challenges during the Development and Application of Innovative Processes for the Bioremediation of Soils | 387 | |
Current State of Bioremediation in the Czech Republic | 405 | |
Subject Index | 413 |
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