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Publication DateWater Research, ISSN 0043-1354, 2010, Volume 44, Issue 20, pp. 6011 - 6020
Municipal biosolids are in widespread use as additives to agricultural soils in the United States. Although it is well known that digested sewage sludge is...
Persistence | Municipal sludge | PPCPs | Half-life | Bioavailability | Land application | SEWAGE-SLUDGE | WASTE-WATER CONTAMINANTS | BACTERICIDE TRICLOSAN | WATER RESOURCES | SURFACE-WATER | TRICLOCARBAN | METHYL-TRICLOSAN | BIOACCUMULATION | ENVIRONMENTAL SCIENCES | RESISTANCE GENES | ENVIRONMENTAL FATE | ENGINEERING, ENVIRONMENTAL | DEGRADATION | Carbanilides - analysis | Environmental Monitoring | Carbamazepine - analysis | Sewage - analysis | Ciprofloxacin - analysis | Diphenhydramine - analysis | Triclosan - analysis | Thiabendazole - analysis | Azithromycin - analysis | Doxycycline - analysis | Soil | Fluoxetine - analysis | Antimitotic Agents - analysis | Tetracycline - analysis | Soils | Polyvinyl chlorides | Contaminants | Outdoor | Mathematical models | Norfloxacin | Monitoring | Pharmaceuticals | Waste water | persistence | land application | bioavailability | half-life
Persistence | Municipal sludge | PPCPs | Half-life | Bioavailability | Land application | SEWAGE-SLUDGE | WASTE-WATER CONTAMINANTS | BACTERICIDE TRICLOSAN | WATER RESOURCES | SURFACE-WATER | TRICLOCARBAN | METHYL-TRICLOSAN | BIOACCUMULATION | ENVIRONMENTAL SCIENCES | RESISTANCE GENES | ENVIRONMENTAL FATE | ENGINEERING, ENVIRONMENTAL | DEGRADATION | Carbanilides - analysis | Environmental Monitoring | Carbamazepine - analysis | Sewage - analysis | Ciprofloxacin - analysis | Diphenhydramine - analysis | Triclosan - analysis | Thiabendazole - analysis | Azithromycin - analysis | Doxycycline - analysis | Soil | Fluoxetine - analysis | Antimitotic Agents - analysis | Tetracycline - analysis | Soils | Polyvinyl chlorides | Contaminants | Outdoor | Mathematical models | Norfloxacin | Monitoring | Pharmaceuticals | Waste water | persistence | land application | bioavailability | half-life
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Loading RightsWater Research, ISSN 0043-1354, 05/2014, Volume 55, pp. 133 - 142
We determined national baseline levels and release inventories of 77 traditional and novel brominated flame retardants (BFRs) in biosolids composites (prepared...
Environmental persistence | Polybrominated diphenylether | Brominated flame retardants | Emerging contaminants | Biosolids | Land application | PERSONAL CARE PRODUCTS | PHARMACEUTICALS | PBDES | ENVIRONMENT | WATER RESOURCES | REDUCTIVE DEBROMINATION | POLYBROMINATED DIPHENYL ETHERS | LAKE-ONTARIO | ENVIRONMENTAL SCIENCES | DECABROMODIPHENYL ETHER | ENGINEERING, ENVIRONMENTAL | DIBENZODIOXINS | PLANT UPTAKE | Flame Retardants - analysis | Sewage - chemistry | Environmental Monitoring | United States | Halogenated Diphenyl Ethers - analysis | Soil Pollutants - analysis | Water Pollutants, Chemical - analysis | Surveys | Mesocosms | Fireproofing agents | Sludge | Closed ecological systems | Inventories | Stockpiling | Bromination | Flame retardants | Outdoor | Soil (material) | Sewage sludge | Land
Environmental persistence | Polybrominated diphenylether | Brominated flame retardants | Emerging contaminants | Biosolids | Land application | PERSONAL CARE PRODUCTS | PHARMACEUTICALS | PBDES | ENVIRONMENT | WATER RESOURCES | REDUCTIVE DEBROMINATION | POLYBROMINATED DIPHENYL ETHERS | LAKE-ONTARIO | ENVIRONMENTAL SCIENCES | DECABROMODIPHENYL ETHER | ENGINEERING, ENVIRONMENTAL | DIBENZODIOXINS | PLANT UPTAKE | Flame Retardants - analysis | Sewage - chemistry | Environmental Monitoring | United States | Halogenated Diphenyl Ethers - analysis | Soil Pollutants - analysis | Water Pollutants, Chemical - analysis | Surveys | Mesocosms | Fireproofing agents | Sludge | Closed ecological systems | Inventories | Stockpiling | Bromination | Flame retardants | Outdoor | Soil (material) | Sewage sludge | Land
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Loading RightsScience of the Total Environment, ISSN 0048-9697, 07/2015, Volume 520, pp. 146 - 153
Biofilters have been implemented in urban areas due to their ability to improve road runoff quality. However, little is known about the role of soil...
Mesocosms | Biodegradation | Polycyclic aromatic hydrocarbons | Planted swales | Road runoff | Infiltration water | POLYCYCLIC AROMATIC-HYDROCARBONS | URBAN | GRASS SWALES | MASS-BALANCE | ENVIRONMENTAL SCIENCES | ATMOSPHERIC DEPOSITION | SOIL | DEGRADATION | WATER-QUALITY | CONSTRUCTED WETLAND | SEINE RIVER-BASIN | Biodegradation, Environmental | Environmental Monitoring | Plant Roots | Soil Microbiology | Ecosystem | Polycyclic Aromatic Hydrocarbons - analysis | Soil | Plants | Soil Pollutants - analysis | Benzopyrene | Closed ecological systems | Analysis | Soil microbiology | Polyallylamine hydrochloride | Dissipation | Outflow | Outdoor | Plants (organisms) | Grasses | Remediation | Soil (material) | Analytical chemistry | Medicinal Chemistry | or physical chemistry | Organic chemistry | Cheminformatics | Catalysis | Chemical Sciences | Theoretical and
Mesocosms | Biodegradation | Polycyclic aromatic hydrocarbons | Planted swales | Road runoff | Infiltration water | POLYCYCLIC AROMATIC-HYDROCARBONS | URBAN | GRASS SWALES | MASS-BALANCE | ENVIRONMENTAL SCIENCES | ATMOSPHERIC DEPOSITION | SOIL | DEGRADATION | WATER-QUALITY | CONSTRUCTED WETLAND | SEINE RIVER-BASIN | Biodegradation, Environmental | Environmental Monitoring | Plant Roots | Soil Microbiology | Ecosystem | Polycyclic Aromatic Hydrocarbons - analysis | Soil | Plants | Soil Pollutants - analysis | Benzopyrene | Closed ecological systems | Analysis | Soil microbiology | Polyallylamine hydrochloride | Dissipation | Outflow | Outdoor | Plants (organisms) | Grasses | Remediation | Soil (material) | Analytical chemistry | Medicinal Chemistry | or physical chemistry | Organic chemistry | Cheminformatics | Catalysis | Chemical Sciences | Theoretical and
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Loading RightsScience of the Total Environment, ISSN 0048-9697, 08/2018, Volume 631-632, pp. 341 - 347
Agricultural ditches host a diverse community of species. These species often are unwarrantedly exposed to fertilizers and a wide-array of pesticides...
Outdoor testing | Mesocosm | Aquatic invertebrates | Agrochemicals | Mixtures | BIODIVERSITY | ECOTOXICOLOGY | CHRONIC TOXICITY | HERBICIDES | MAYFLY NYMPHS | PESTICIDES | ENVIRONMENTAL SCIENCES | STRESSORS | DAPHNIA-MAGNA | ECOLOGY | Mesocosms | Insecticides | Closed ecological systems | Agricultural chemicals industry | Fertilizers
Outdoor testing | Mesocosm | Aquatic invertebrates | Agrochemicals | Mixtures | BIODIVERSITY | ECOTOXICOLOGY | CHRONIC TOXICITY | HERBICIDES | MAYFLY NYMPHS | PESTICIDES | ENVIRONMENTAL SCIENCES | STRESSORS | DAPHNIA-MAGNA | ECOLOGY | Mesocosms | Insecticides | Closed ecological systems | Agricultural chemicals industry | Fertilizers
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Loading RightsEnvironmental Research, ISSN 0013-9351, 07/2014, Volume 132, pp. 321 - 327
An outdoor mesocosm study was conducted in Baltimore, Maryland, to explore the fate of thirteen perfluoroalkyl substances (PFASs) over the course of three...
Environmental fate | Half-life | Perfluoroalkyl chemicals | Emerging contaminants | Biosolids | SEWAGE-SLUDGE SURVEY | SUBSTANCES PFASS | PERFLUOROOCTANE SULFONATE | FATE | ENVIRONMENTAL SCIENCES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | FLUOROTELOMER ALCOHOL | NATIONAL INVENTORY | US BIOSOLIDS | PERFLUORINATED COMPOUNDS | EXPOSURE | WATER | Sewage - chemistry | Hydrocarbons, Fluorinated - chemistry | Hydrocarbons, Fluorinated - analysis | Soil Pollutants - analysis | Soil Pollutants - chemistry | Sewage - analysis | Mesocosms | Ammonium perfluorooctanoate | Surface active agents | Mass spectrometry | Analysis | Closed ecological systems | Perfluoroalkyls | Outdoor | Sulfonates | Liquid chromatography | Soil (material) | Furnishings | Drying | Half-Life | Emerging Contaminants | Perfluoroalkyl Chemicals | Environmental Fate
Environmental fate | Half-life | Perfluoroalkyl chemicals | Emerging contaminants | Biosolids | SEWAGE-SLUDGE SURVEY | SUBSTANCES PFASS | PERFLUOROOCTANE SULFONATE | FATE | ENVIRONMENTAL SCIENCES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | FLUOROTELOMER ALCOHOL | NATIONAL INVENTORY | US BIOSOLIDS | PERFLUORINATED COMPOUNDS | EXPOSURE | WATER | Sewage - chemistry | Hydrocarbons, Fluorinated - chemistry | Hydrocarbons, Fluorinated - analysis | Soil Pollutants - analysis | Soil Pollutants - chemistry | Sewage - analysis | Mesocosms | Ammonium perfluorooctanoate | Surface active agents | Mass spectrometry | Analysis | Closed ecological systems | Perfluoroalkyls | Outdoor | Sulfonates | Liquid chromatography | Soil (material) | Furnishings | Drying | Half-Life | Emerging Contaminants | Perfluoroalkyl Chemicals | Environmental Fate
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Loading RightsJournal of Hazardous Materials, ISSN 0304-3894, 05/2012, Volume 217-218, pp. 338 - 349
► Rapid increase in bacterial abundance as treatment of dispersant. ► Grazing effect of heterotrophic flagellates on bacteria as a food source. ► Severely...
Planktonic communities | Dispersant | Outdoor vertical mesocosm | Crude oil | Total petroleum hydrocarbon | PETROLEUM | MICROCOSMS | SPILL DISPERSANTS | COMMUNITIES | ENVIRONMENTAL SCIENCES | ENGINEERING, ENVIRONMENTAL | DEGRADATION | PHYTOPLANKTON | Marine Biology | Petroleum - toxicity | Plankton - drug effects | Mesocosms | Petroleum mining | University and college libraries | Closed ecological systems
Planktonic communities | Dispersant | Outdoor vertical mesocosm | Crude oil | Total petroleum hydrocarbon | PETROLEUM | MICROCOSMS | SPILL DISPERSANTS | COMMUNITIES | ENVIRONMENTAL SCIENCES | ENGINEERING, ENVIRONMENTAL | DEGRADATION | PHYTOPLANKTON | Marine Biology | Petroleum - toxicity | Plankton - drug effects | Mesocosms | Petroleum mining | University and college libraries | Closed ecological systems
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Loading RightsEnvironmental Pollution, ISSN 0269-7491, 09/2014, Volume 192, pp. 186 - 195
The sensitivity of diatom taxonomy and trait-based endpoints to chemicals has been poorly used so far in Environmental Risk Assessment. In this study, diatom...
Ecological traits | Environmental risk assessment | Petroleum middle distillate | Bioindication indices | Fungicide | BIODEGRADATION | FUNCTIONAL DIVERSITY | POLYCYCLIC AROMATIC-HYDROCARBONS | ECOLOGICAL GUILDS | FRESH-WATER MICROCOSMS | COMMUNITIES | ENVIRONMENTAL SCIENCES | MULTIPLE TRAITS | INDICATORS | FRAMEWORK | ECOSYSTEM | Diatoms - physiology | Environmental Monitoring | Water Pollutants, Chemical - toxicity | Ecosystem | Diatoms - classification | Organic Chemicals - toxicity | Biomass | Water Pollutants, Chemical - analysis | Organic Chemicals - analysis | Mesocosms | Closed ecological systems | Index Medicus | Ecological effects | Ecological monitoring | Outdoor | Ecology | Exposure | Pollution abatement | Biological | Biological diversity | Life Sciences
Ecological traits | Environmental risk assessment | Petroleum middle distillate | Bioindication indices | Fungicide | BIODEGRADATION | FUNCTIONAL DIVERSITY | POLYCYCLIC AROMATIC-HYDROCARBONS | ECOLOGICAL GUILDS | FRESH-WATER MICROCOSMS | COMMUNITIES | ENVIRONMENTAL SCIENCES | MULTIPLE TRAITS | INDICATORS | FRAMEWORK | ECOSYSTEM | Diatoms - physiology | Environmental Monitoring | Water Pollutants, Chemical - toxicity | Ecosystem | Diatoms - classification | Organic Chemicals - toxicity | Biomass | Water Pollutants, Chemical - analysis | Organic Chemicals - analysis | Mesocosms | Closed ecological systems | Index Medicus | Ecological effects | Ecological monitoring | Outdoor | Ecology | Exposure | Pollution abatement | Biological | Biological diversity | Life Sciences
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Loading RightsEnvironmental Pollution, ISSN 0269-7491, 03/2013, Volume 174, pp. 189 - 193
We determined the first nationwide inventories of alkylphenol surfactants in U.S. sewage sludges (SS) using samples from the U.S. Environmental Protection...
Alkylphenol ethoxylates | National inventory | Surfactants | Soil half-life | Emerging contaminants | Biosolids | RIVER WATER | 4-NONYLPHENOL | PERSONAL CARE PRODUCTS | AQUATIC ENVIRONMENT | ENVIRONMENTAL SCIENCES | LINEAR ALKYLBENZENE SULFONATES | ENDOCRINE DISRUPTORS | NONYLPHENOL POLYETHOXYLATES | DEGRADATION-PRODUCTS | WASTE-WATER | POLYETHOXYLATE SURFACTANTS | Sewage - chemistry | Environmental Monitoring | Models, Chemical | United States | Waste Disposal, Fluid | Soil Pollutants - analysis | Phenols - analysis | Environmental Pollution - statistics & numerical data | Sewage - statistics & numerical data | Ecosystem | Soil - chemistry | Agriculture | Surface-Active Agents - analysis | Mesocosms | Surface active agents | Analysis | Closed ecological systems | Regulations | Inventories | Sewage | Stockpiling | Outdoor | Pollution abatement | Soil (material)
Alkylphenol ethoxylates | National inventory | Surfactants | Soil half-life | Emerging contaminants | Biosolids | RIVER WATER | 4-NONYLPHENOL | PERSONAL CARE PRODUCTS | AQUATIC ENVIRONMENT | ENVIRONMENTAL SCIENCES | LINEAR ALKYLBENZENE SULFONATES | ENDOCRINE DISRUPTORS | NONYLPHENOL POLYETHOXYLATES | DEGRADATION-PRODUCTS | WASTE-WATER | POLYETHOXYLATE SURFACTANTS | Sewage - chemistry | Environmental Monitoring | Models, Chemical | United States | Waste Disposal, Fluid | Soil Pollutants - analysis | Phenols - analysis | Environmental Pollution - statistics & numerical data | Sewage - statistics & numerical data | Ecosystem | Soil - chemistry | Agriculture | Surface-Active Agents - analysis | Mesocosms | Surface active agents | Analysis | Closed ecological systems | Regulations | Inventories | Sewage | Stockpiling | Outdoor | Pollution abatement | Soil (material)
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Loading RightsEnvironmental Toxicology and Chemistry, ISSN 0730-7268, 07/2017, Volume 36, Issue 7, pp. 1775 - 1784
Glyphosate is currently the most widely used herbicide in agricultural production. It generally enters aquatic ecosystems through surface water runoff and...
Oxidative stress | Mussel | Periphyton | Algae | Stress response | Glyphosate | Freshwater toxicology | Herbicide | CATALASE | BIOFILMS | HERBICIDES | ENVIRONMENTAL SCIENCES | IMPACT | EVOLUTION | SEDIMENT | WATER MICROBIAL COMMUNITIES | CHEMISTRY | HYDROGEN-PEROXIDE | TOXICOLOGY | SUPEROXIDE-DISMUTASE | Biomarkers - metabolism | Glycine - analogs & derivatives | Pigments, Biological - analysis | Glycine - metabolism | Half-Life | Herbicides - toxicity | Chlorophyll - metabolism | Water Pollutants, Chemical - analysis | Spectrophotometry, Ultraviolet | Catalase - metabolism | Water Pollutants, Chemical - metabolism | Animals | Glycine - toxicity | Water Pollutants, Chemical - toxicity | Ecosystem | Herbicides - analysis | Carotenoids - metabolism | Bivalvia - metabolism | Bivalvia - drug effects | Lipid Peroxidation | Glycine - analysis | Herbicides - metabolism | Superoxide Dismutase - metabolism | Mesocosms | Chlorophyll | Closed ecological systems | Physiological aspects | Aquatic resources | Biological markers | Agricultural runoff | Water runoff | Lipid peroxidation | Superoxide dismutase | Community relations | Biochemistry | Ashes | Information dissemination | Herbicides | Catalase | Agricultural production | Dissipation | Outdoor | Attenuation | Peroxidation | Agricultural management | Carotene | Markers | Superoxide | Exposure | Metabolism | Surface runoff | Runoff | Mussels | Surface water | Drift | Aquatic ecosystems | Biochemical markers | Index Medicus
Oxidative stress | Mussel | Periphyton | Algae | Stress response | Glyphosate | Freshwater toxicology | Herbicide | CATALASE | BIOFILMS | HERBICIDES | ENVIRONMENTAL SCIENCES | IMPACT | EVOLUTION | SEDIMENT | WATER MICROBIAL COMMUNITIES | CHEMISTRY | HYDROGEN-PEROXIDE | TOXICOLOGY | SUPEROXIDE-DISMUTASE | Biomarkers - metabolism | Glycine - analogs & derivatives | Pigments, Biological - analysis | Glycine - metabolism | Half-Life | Herbicides - toxicity | Chlorophyll - metabolism | Water Pollutants, Chemical - analysis | Spectrophotometry, Ultraviolet | Catalase - metabolism | Water Pollutants, Chemical - metabolism | Animals | Glycine - toxicity | Water Pollutants, Chemical - toxicity | Ecosystem | Herbicides - analysis | Carotenoids - metabolism | Bivalvia - metabolism | Bivalvia - drug effects | Lipid Peroxidation | Glycine - analysis | Herbicides - metabolism | Superoxide Dismutase - metabolism | Mesocosms | Chlorophyll | Closed ecological systems | Physiological aspects | Aquatic resources | Biological markers | Agricultural runoff | Water runoff | Lipid peroxidation | Superoxide dismutase | Community relations | Biochemistry | Ashes | Information dissemination | Herbicides | Catalase | Agricultural production | Dissipation | Outdoor | Attenuation | Peroxidation | Agricultural management | Carotene | Markers | Superoxide | Exposure | Metabolism | Surface runoff | Runoff | Mussels | Surface water | Drift | Aquatic ecosystems | Biochemical markers | Index Medicus
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Loading RightsEcotoxicology and Environmental Safety, ISSN 0147-6513, 03/2013, Volume 89, pp. 196 - 203
Traces of pesticides are frequently detected in surface waters. As a consequence, specific environmental quality criteria (EQS) for a set of single pesticides...
Regulation | Hazard concentration | Mixture | Pesticides | Chronic exposure | JOINT ALGAL TOXICITY | QUANTIFICATION | SENSITIVITY | CATCHMENT | VARIABILITY | ENVIRONMENTAL SCIENCES | PREDICTABILITY | FLUORESCENCE | COMMUNITY | TOXICOLOGY | SURFACE WATERS | Environmental Monitoring - standards | Herbicides - toxicity | Phytoplankton - drug effects | Pesticides - analysis | Plants - drug effects | Biodiversity | Water Pollutants, Chemical - analysis | Water Pollutants, Chemical - toxicity | Time Factors | Pesticides - toxicity | Photosynthesis - drug effects | Herbicides - analysis | Water - chemistry | Inhibitory Concentration 50 | Chlorophyta - drug effects | Case studies | Mesocosms | Herbicides | Environmental quality | Closed ecological systems | Phytochemistry | Standards | Index Medicus | Inhibitors | Communities | Surface water | Outdoor
Regulation | Hazard concentration | Mixture | Pesticides | Chronic exposure | JOINT ALGAL TOXICITY | QUANTIFICATION | SENSITIVITY | CATCHMENT | VARIABILITY | ENVIRONMENTAL SCIENCES | PREDICTABILITY | FLUORESCENCE | COMMUNITY | TOXICOLOGY | SURFACE WATERS | Environmental Monitoring - standards | Herbicides - toxicity | Phytoplankton - drug effects | Pesticides - analysis | Plants - drug effects | Biodiversity | Water Pollutants, Chemical - analysis | Water Pollutants, Chemical - toxicity | Time Factors | Pesticides - toxicity | Photosynthesis - drug effects | Herbicides - analysis | Water - chemistry | Inhibitory Concentration 50 | Chlorophyta - drug effects | Case studies | Mesocosms | Herbicides | Environmental quality | Closed ecological systems | Phytochemistry | Standards | Index Medicus | Inhibitors | Communities | Surface water | Outdoor
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Loading RightsEnvironmental Toxicology and Chemistry, ISSN 0730-7268, 05/2014, Volume 33, Issue 5, pp. 11148 - 11148
The phaseout of polybrominated diphenyl ethers (PBDEs) has prompted the search for appropriate substitutes. These substitutes, referred to as novel brominated...
Bioaccumulation | Bromination | Biotransformation | Flame retardants | Biocompatibility | Lipids | Outdoor | Biochemistry
Bioaccumulation | Bromination | Biotransformation | Flame retardants | Biocompatibility | Lipids | Outdoor | Biochemistry
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Aquatic Toxicology, ISSN 0166-445X, 2007, Volume 81, Issue 2, pp. 168 - 182
Copper is commonly used as an algicide and plant herbicide in the aquatic environment. Despite of its frequent application in rivers, ponds and lakes, few...
Phytoplankton | Macrophytes | Copper | Periphyton | Experimental channels | OUTDOOR EXPERIMENTAL DITCHES | ACTIVE INGREDIENT CHLORPYRIFOS | TOXICITY | PHYTOPLANKTON COMMUNITY | MARINE & FRESHWATER BIOLOGY | macrophytes | periphyton | phytoplankton | copper | FUNGICIDE CARBENDAZIM | POLLUTION EXPERIMENT | NATURAL-WATERS | TOXICOLOGY | PSEUDOKIRCHNERIELLA-SUBCAPITATA | STRESS | experimental channels | INSECTICIDE | Magnoliopsida - drug effects | Phytoplankton - drug effects | Environmental Exposure | Biodiversity | Copper - analysis | Water Pollutants, Chemical - toxicity | Time Factors | Chlorophyll - analysis | Geologic Sediments - analysis | Ecosystem | Eukaryota - drug effects | Fresh Water - analysis | Copper - toxicity | Ecosystems
Phytoplankton | Macrophytes | Copper | Periphyton | Experimental channels | OUTDOOR EXPERIMENTAL DITCHES | ACTIVE INGREDIENT CHLORPYRIFOS | TOXICITY | PHYTOPLANKTON COMMUNITY | MARINE & FRESHWATER BIOLOGY | macrophytes | periphyton | phytoplankton | copper | FUNGICIDE CARBENDAZIM | POLLUTION EXPERIMENT | NATURAL-WATERS | TOXICOLOGY | PSEUDOKIRCHNERIELLA-SUBCAPITATA | STRESS | experimental channels | INSECTICIDE | Magnoliopsida - drug effects | Phytoplankton - drug effects | Environmental Exposure | Biodiversity | Copper - analysis | Water Pollutants, Chemical - toxicity | Time Factors | Chlorophyll - analysis | Geologic Sediments - analysis | Ecosystem | Eukaryota - drug effects | Fresh Water - analysis | Copper - toxicity | Ecosystems
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Loading RightsScience of the Total Environment, ISSN 0048-9697, 07/2015, Volume 521-522, pp. 173 - 182
The Predicted No Effect Concentration (PNEC) for dissolved copper based on the species sensitivity distribution (SSD) of 24 marine single species tests was...
Marine mesocosm | Species sensitivity distribution | Copper | Ecosystem | ENVIRONMENTAL SCIENCES | CARBON | SPECIATION | ORGANIC-MATTER | TOXICITY | PRINCIPAL RESPONSE CURVES | EXPOSURE | WATER | Water Pollutants, Chemical - analysis | Aquatic Organisms | Dose-Response Relationship, Drug | Animals | Copper - analysis | Water Pollutants, Chemical - toxicity | Bivalvia | Copepoda | Phytoplankton | Copper - toxicity | Mollusca | Toxicity Tests | Zooplankton | Mesocosms | Closed ecological systems | Marine | Reproduction (biology) | Algae | Outdoor | Sponges | Dissolution
Marine mesocosm | Species sensitivity distribution | Copper | Ecosystem | ENVIRONMENTAL SCIENCES | CARBON | SPECIATION | ORGANIC-MATTER | TOXICITY | PRINCIPAL RESPONSE CURVES | EXPOSURE | WATER | Water Pollutants, Chemical - analysis | Aquatic Organisms | Dose-Response Relationship, Drug | Animals | Copper - analysis | Water Pollutants, Chemical - toxicity | Bivalvia | Copepoda | Phytoplankton | Copper - toxicity | Mollusca | Toxicity Tests | Zooplankton | Mesocosms | Closed ecological systems | Marine | Reproduction (biology) | Algae | Outdoor | Sponges | Dissolution
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