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Publication DateEnvironmental Science and Pollution Research, ISSN 0944-1344, 10/2019, Volume 26, Issue 28, pp. 29327 - 29333
We know very little about the effects of two global stressors, elevated temperature and contaminants, on the grazing of marine copepods. To address this issue,...
Environmental Health | Ecotoxicology | Organic contaminants | Primary grazers | Environment, general | Climate change | Grazing rate | Pelagic community | Marine copepods | Environment | Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution | Environmental Chemistry | Atmospheric Protection/Air Quality Control/Air Pollution | Marine biology | Aquatic resources | Global temperature changes | Temperature | Marine pollution | Sex differences | Exposure | High temperature | Males | Grazing | Pyrene | Contaminants | Food availability | Temperature effects | Females | Food | Index Medicus
Environmental Health | Ecotoxicology | Organic contaminants | Primary grazers | Environment, general | Climate change | Grazing rate | Pelagic community | Marine copepods | Environment | Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution | Environmental Chemistry | Atmospheric Protection/Air Quality Control/Air Pollution | Marine biology | Aquatic resources | Global temperature changes | Temperature | Marine pollution | Sex differences | Exposure | High temperature | Males | Grazing | Pyrene | Contaminants | Food availability | Temperature effects | Females | Food | Index Medicus
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Uptake and toxicity of methylmethacrylate‐based nanoplastic particles in aquatic organisms
Environmental Toxicology and Chemistry, ISSN 0730-7268, 07/2016, Volume 35, Issue 7, pp. 1641 - 1649
The uptake and toxicity of 2 poly(methylmethacrylate)‐based plastic nanoparticles (PNPs) with different surface chemistries (medium and hydrophobic) were...
Plastic nanoparticle | Toxicity | Uptake | Daphnia magna | Corophium volutator | CONTAMINANTS | BEHAVIOR | ENCAPSULATION | ADSORPTION | CARBON NANOTUBES | ENVIRONMENTAL SCIENCES | INGESTION | MARINE-ENVIRONMENT | DAPHNIA-MAGNA | TOXICOLOGY | MICROPLASTICS | POLYSTYRENE NANOPARTICLES | Nanoparticles - chemistry | Methylmethacrylate - toxicity | Environmental Monitoring - methods | Water Pollutants, Chemical - chemistry | Toxicity Tests, Acute | Nanoparticles - toxicity | Dose-Response Relationship, Drug | Particle Size | Methylmethacrylate - chemistry | Water Pollutants, Chemical - metabolism | Daphnia - drug effects | Animals | Water Pollutants, Chemical - toxicity | Aliivibrio fischeri - drug effects | Aquatic Organisms - drug effects | Nanoparticles - metabolism | Aquatic Organisms - metabolism | Methylmethacrylate - metabolism | Nanoparticles | Aquatic life | Plastics | Index Medicus
Plastic nanoparticle | Toxicity | Uptake | Daphnia magna | Corophium volutator | CONTAMINANTS | BEHAVIOR | ENCAPSULATION | ADSORPTION | CARBON NANOTUBES | ENVIRONMENTAL SCIENCES | INGESTION | MARINE-ENVIRONMENT | DAPHNIA-MAGNA | TOXICOLOGY | MICROPLASTICS | POLYSTYRENE NANOPARTICLES | Nanoparticles - chemistry | Methylmethacrylate - toxicity | Environmental Monitoring - methods | Water Pollutants, Chemical - chemistry | Toxicity Tests, Acute | Nanoparticles - toxicity | Dose-Response Relationship, Drug | Particle Size | Methylmethacrylate - chemistry | Water Pollutants, Chemical - metabolism | Daphnia - drug effects | Animals | Water Pollutants, Chemical - toxicity | Aliivibrio fischeri - drug effects | Aquatic Organisms - drug effects | Nanoparticles - metabolism | Aquatic Organisms - metabolism | Methylmethacrylate - metabolism | Nanoparticles | Aquatic life | Plastics | Index Medicus
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Loading RightsEnvironmental Toxicology and Chemistry, ISSN 0730-7268, 03/2016, Volume 35, Issue 3, pp. 728 - 735
Acute toxicity differs between species but also varies within a species. Important intraspecific factors are the exposure duration and properties of the animal...
Copepod | Calanus finmarchicus | Oil toxicity | General Unified Threshold Model of Survival (GUTS) | Acute toxicity | General unified threshold model of survival (GUTS) | SURVIVAL | PETROLEUM | CRUDE-OIL | TOXICITY | ENVIRONMENTAL SCIENCES | DAPHNIA-MAGNA | TOXICOLOGY | LETHAL | ACCUMULATION | REPRODUCTION | EXPOSURE | 1,2-DIMETHYLNAPHTHALENE | Seawater - analysis | Solubility | Water Pollutants, Chemical - chemistry | Male | Lethal Dose 50 | Sex Characteristics | Toxicokinetics | Animals | Water Pollutants, Chemical - toxicity | Petroleum - toxicity | Female | Petroleum - analysis | Copepoda - metabolism | Crustaceans | Water pollution | Toxicity | Aquatic ecosystems | Index Medicus
Copepod | Calanus finmarchicus | Oil toxicity | General Unified Threshold Model of Survival (GUTS) | Acute toxicity | General unified threshold model of survival (GUTS) | SURVIVAL | PETROLEUM | CRUDE-OIL | TOXICITY | ENVIRONMENTAL SCIENCES | DAPHNIA-MAGNA | TOXICOLOGY | LETHAL | ACCUMULATION | REPRODUCTION | EXPOSURE | 1,2-DIMETHYLNAPHTHALENE | Seawater - analysis | Solubility | Water Pollutants, Chemical - chemistry | Male | Lethal Dose 50 | Sex Characteristics | Toxicokinetics | Animals | Water Pollutants, Chemical - toxicity | Petroleum - toxicity | Female | Petroleum - analysis | Copepoda - metabolism | Crustaceans | Water pollution | Toxicity | Aquatic ecosystems | Index Medicus
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Loading RightsScience of The Total Environment, ISSN 0048-9697, 12/2019, p. 135950
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Loading RightsENVIRONMENTAL SCIENCE & TECHNOLOGY, ISSN 0013-936X, 06/2019, Volume 53, Issue 12, pp. 7075 - 7082
Microplastic debris is a pervasive environmental contaminant that has the potential to impact the health of biota, although its modes of action remain somewhat...
ENVIRONMENTAL SCIENCES | POLYSTYRENE | PARTICLES | ENGINEERING, ENVIRONMENTAL | INGESTION | CALANUS-FINMARCHICUS | SIZE | BENZOPHENONE-3 | ENDOCRINE DISRUPTION | ZOOPLANKTON | EXPOSURE | ADULT | Profiling | Nylon | Biota | Lipids | Molting | Selectivity | Accumulation | Ingestion | Fibers | Toxicity testing | Polymers | Seawater | Lubricants | Algae | Byproducts | Exposure | Bioavailability | Variance analysis | Environmental impact | Feeding | Prey | Organic chemistry | Contaminants | Granular materials | Granules | Microplastics | Index Medicus
ENVIRONMENTAL SCIENCES | POLYSTYRENE | PARTICLES | ENGINEERING, ENVIRONMENTAL | INGESTION | CALANUS-FINMARCHICUS | SIZE | BENZOPHENONE-3 | ENDOCRINE DISRUPTION | ZOOPLANKTON | EXPOSURE | ADULT | Profiling | Nylon | Biota | Lipids | Molting | Selectivity | Accumulation | Ingestion | Fibers | Toxicity testing | Polymers | Seawater | Lubricants | Algae | Byproducts | Exposure | Bioavailability | Variance analysis | Environmental impact | Feeding | Prey | Organic chemistry | Contaminants | Granular materials | Granules | Microplastics | Index Medicus
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Loading RightsEnvironment International, ISSN 0160-4120, 01/2020, Volume 134, p. 105320
Endocrine disrupting compounds (EDCs) emerged as a major concern for water quality in the last decade and have been studied extensively since. Besides typical...
Endocrine disruption | Estrogen receptor | Dispersant | Crude oil | In vitro | WAF
Endocrine disruption | Estrogen receptor | Dispersant | Crude oil | In vitro | WAF
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Loading RightsEnvironmental Science & Technology, ISSN 0013-936X, 12/2018, Volume 52, Issue 24, pp. 14436 - 14444
The impact of oil microdroplets on the partitioning of polycyclic aromatic hydrocarbons (PAHs) between water and marine zooplankton was evaluated. The...
BIOACCUMULATION | ENVIRONMENTAL SCIENCES | PETROLEUM | ENGINEERING, ENVIRONMENTAL | INGESTION | POLYCYCLIC AROMATIC-HYDROCARBONS | CRITICAL-BODY-RESIDUE | BIOCONCENTRATION | CALANUS-FINMARCHICUS | ACUTE TOXICITY | EXPOSURE | DROPLETS | Oils | Dispersions | Bioavailability | Dispersion | Accumulation | Filters | Polycyclic aromatic hydrocarbons | Plankton | Partitioning | Crude oil | Droplets | Diffusion | Zooplankton | Seawater
BIOACCUMULATION | ENVIRONMENTAL SCIENCES | PETROLEUM | ENGINEERING, ENVIRONMENTAL | INGESTION | POLYCYCLIC AROMATIC-HYDROCARBONS | CRITICAL-BODY-RESIDUE | BIOCONCENTRATION | CALANUS-FINMARCHICUS | ACUTE TOXICITY | EXPOSURE | DROPLETS | Oils | Dispersions | Bioavailability | Dispersion | Accumulation | Filters | Polycyclic aromatic hydrocarbons | Plankton | Partitioning | Crude oil | Droplets | Diffusion | Zooplankton | Seawater
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Automatic determination of heart rates from microscopy videos of early life stages of fish
Journal of Toxicology and Environmental Health, Part A, ISSN 1528-7394, 09/2017, Volume 80, Issue 16-18, pp. 932 - 940
Toxic effects of organic hydrophobic contaminants include impacts on fish heart rate (HR) and cardiac functioning. Thus, in ecotoxicology as well as...
ENVIRONMENTAL SCIENCES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | ZEBRAFISH | ABNORMALITIES | POLYCYCLIC AROMATIC-HYDROCARBONS | TOXICITY | TOXICOLOGY | PYTHON | EMBRYOS | WATER | Fishes - embryology | Gadiformes - embryology | Models, Theoretical | Heart Rate | Animals | Fishes - classification | Heart - physiology | Microscopy, Video | Gadus morhua - embryology | Larva - physiology | Statistical analysis | Ecotoxicology | Image processing | Toxicity | Haddock | Hydrophobicity | Heart rate | Microscopy | Contaminants | Information processing | Fish | Heart diseases | Aquaculture | Index Medicus
ENVIRONMENTAL SCIENCES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | ZEBRAFISH | ABNORMALITIES | POLYCYCLIC AROMATIC-HYDROCARBONS | TOXICITY | TOXICOLOGY | PYTHON | EMBRYOS | WATER | Fishes - embryology | Gadiformes - embryology | Models, Theoretical | Heart Rate | Animals | Fishes - classification | Heart - physiology | Microscopy, Video | Gadus morhua - embryology | Larva - physiology | Statistical analysis | Ecotoxicology | Image processing | Toxicity | Haddock | Hydrophobicity | Heart rate | Microscopy | Contaminants | Information processing | Fish | Heart diseases | Aquaculture | Index Medicus
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Loading RightsEnvironmental Toxicology and Chemistry, ISSN 0730-7268, 03/2016, Volume 35, Issue 3, pp. 728 - 735
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Loading RightsEnvironmental Science & Technology, ISSN 0013-936X, 04/2018, Volume 52, Issue 7, p. 4358
Microbial degradation following oil spills results in metabolites from the original oil. Metabolites are expected to display lower bioaccumulation potential...
Heart | Larvae | Chemical analysis | Toxicity | Microorganisms | Metabolites | Bioaccumulation | Crude oil | Water analysis | Fish | Seawater | Biodegradation | Water chemistry | Fish oils | Hatching | Embryos | Oil spills | Organic chemistry | Microbial degradation | Marine organisms | Dichloromethane | Methylene chloride | Critical period | Lipophilicity | Functional groups | Acute toxicity
Heart | Larvae | Chemical analysis | Toxicity | Microorganisms | Metabolites | Bioaccumulation | Crude oil | Water analysis | Fish | Seawater | Biodegradation | Water chemistry | Fish oils | Hatching | Embryos | Oil spills | Organic chemistry | Microbial degradation | Marine organisms | Dichloromethane | Methylene chloride | Critical period | Lipophilicity | Functional groups | Acute toxicity
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Marine Environmental Research, ISSN 0141-1136, 09/2019, Volume 150, p. 104753
During accidental crude oil spills and permitted discharges of produced water into the marine environment, a large fraction of naturally occurring oil...
Fish development | Cartilage | Oil dispersion | Ecotoxicity | Oil droplets | Biometrics | Animal morphology | Larvae | Jaw | Toxicity | Dispersions | Experiments | Waste water | Marine environment | Components | Embryogenesis | Marine environments | Developmental stages | Crude oil | Fish | Droplets | Water purification | Seawater | Yolk | Embryonic development | Gastrulation | Fish oils | Hatching | Mortality | Exposure | Embryos | Survival | Oil spills | Organogenesis | Embryonic growth stage | Yolk sac | Craniofacial growth | Length | Morphology | Marine fish | Sea water | Repair & maintenance
Fish development | Cartilage | Oil dispersion | Ecotoxicity | Oil droplets | Biometrics | Animal morphology | Larvae | Jaw | Toxicity | Dispersions | Experiments | Waste water | Marine environment | Components | Embryogenesis | Marine environments | Developmental stages | Crude oil | Fish | Droplets | Water purification | Seawater | Yolk | Embryonic development | Gastrulation | Fish oils | Hatching | Mortality | Exposure | Embryos | Survival | Oil spills | Organogenesis | Embryonic growth stage | Yolk sac | Craniofacial growth | Length | Morphology | Marine fish | Sea water | Repair & maintenance
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Loading RightsSCIENTIFIC REPORTS, ISSN 2045-2322, 11/2019, Volume 9, Issue 1, pp. 1 - 13
Calanus copepods are keystone species in marine ecosystems, mainly due to their high lipid content, which is a nutritious food source for e.g. juvenile fish....
ACID | NORTH-ATLANTIC | RNA-SEQ | LIPID-CONTENT | MULTIDISCIPLINARY SCIENCES | GROWTH | GENE-EXPRESSION | FINMARCHICUS | WAX ESTERS | STARVATION | MARINE COPEPOD | Geographical distribution | Keystone species | Energy metabolism | Food sources | Transcription | Diapause | Lipids | Energy requirements | Diapause termination | Carnitine | Dormancy | Marine ecosystems | Oxidation | Lipid metabolism
ACID | NORTH-ATLANTIC | RNA-SEQ | LIPID-CONTENT | MULTIDISCIPLINARY SCIENCES | GROWTH | GENE-EXPRESSION | FINMARCHICUS | WAX ESTERS | STARVATION | MARINE COPEPOD | Geographical distribution | Keystone species | Energy metabolism | Food sources | Transcription | Diapause | Lipids | Energy requirements | Diapause termination | Carnitine | Dormancy | Marine ecosystems | Oxidation | Lipid metabolism
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Loading RightsThe Biological Bulletin, ISSN 0006-3185, 10/2019, Volume 237, Issue 2, pp. 90 - 110
Calanus finmarchicus and Calanus glacialis are keystone zooplankton species in North Atlantic and Arctic marine ecosystems because they form a link in the...
Ecosystem dynamics | Trophic levels | Ecosystems | Diapause | Genes | Lipids | Diapause termination | Dormancy | Ecosystem assessment | Predators | Plankton | Crude oil | Pollution effects | Polar environments | Phytoplankton | Oxidation | Lipid metabolism | Feed composition | Water chemistry | Oil pollution | Migrations | Exposure | Fjords | Metabolism | Gene expression | Utilization | Blooms | Surface water | Marine ecosystems | Catabolism | Water pollution | Disruption | Aquatic crustaceans | Zooplankton
Ecosystem dynamics | Trophic levels | Ecosystems | Diapause | Genes | Lipids | Diapause termination | Dormancy | Ecosystem assessment | Predators | Plankton | Crude oil | Pollution effects | Polar environments | Phytoplankton | Oxidation | Lipid metabolism | Feed composition | Water chemistry | Oil pollution | Migrations | Exposure | Fjords | Metabolism | Gene expression | Utilization | Blooms | Surface water | Marine ecosystems | Catabolism | Water pollution | Disruption | Aquatic crustaceans | Zooplankton
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Loading RightsMarine Environmental Research, ISSN 0141-1136, 06/2019, Volume 148, pp. 81 - 86
Regular discharges of produced water from the oil and gas industry represents the largest direct discharge of effluent into the marine environment worldwide....
Fish embryo | Deformations | Cardiotoxicity | Arctic | Produced water | Petroleum | FISH EMBRYOS | CRUDE-OIL | DROPLETS | EARLY-LIFE STAGES | ENVIRONMENTAL SCIENCES | TEMPERATURE | MARINE & FRESHWATER BIOLOGY | TOXICOLOGY | Heart | Heart beat | Ketones | Polycyclic aromatic hydrocarbons | Arctic research | Fishes | Larvae | Jaw | Toxicity | Marine fishes | Aromatic hydrocarbons | Hydrocarbons | Waste water | Marine environment | Toxicants | Risk assessment | Polyaromatic hydrocarbons | Fish | Saturated hydrocarbons | Organic compounds | Water pollution effects | Environmental regulations | Hatching | Deformation mechanisms | Effluents | Haddock | Exposure | Embryos | Water temperature | Survival | Discharge | Heart rate | Oil and gas industry | Phenols | Marine fish
Fish embryo | Deformations | Cardiotoxicity | Arctic | Produced water | Petroleum | FISH EMBRYOS | CRUDE-OIL | DROPLETS | EARLY-LIFE STAGES | ENVIRONMENTAL SCIENCES | TEMPERATURE | MARINE & FRESHWATER BIOLOGY | TOXICOLOGY | Heart | Heart beat | Ketones | Polycyclic aromatic hydrocarbons | Arctic research | Fishes | Larvae | Jaw | Toxicity | Marine fishes | Aromatic hydrocarbons | Hydrocarbons | Waste water | Marine environment | Toxicants | Risk assessment | Polyaromatic hydrocarbons | Fish | Saturated hydrocarbons | Organic compounds | Water pollution effects | Environmental regulations | Hatching | Deformation mechanisms | Effluents | Haddock | Exposure | Embryos | Water temperature | Survival | Discharge | Heart rate | Oil and gas industry | Phenols | Marine fish
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Loading RightsMarine Biology, ISSN 0025-3162, 1/2017, Volume 164, Issue 1, pp. 1 - 15
Mechanistic models are essential tools for interpreting and predicting the consequences of a changing environment and stressors such as pollution on the life...
Freshwater & Marine Ecology | Environment | Oceanography | Microbiology | Zoology | Marine & Freshwater Sciences | FEEDING HISTORY | TEMPERATURE | BIOENERGETICS | RESPIRATION | MARINE & FRESHWATER BIOLOGY | EGG-PRODUCTION | LIFE-HISTORY PUZZLE | REPRODUCTION | ENERGY BUDGET MODEL | HELGOLANDICUS | FOOD | Studies | Marine biology | Lipids | Stress response | Analysis | Original Paper
Freshwater & Marine Ecology | Environment | Oceanography | Microbiology | Zoology | Marine & Freshwater Sciences | FEEDING HISTORY | TEMPERATURE | BIOENERGETICS | RESPIRATION | MARINE & FRESHWATER BIOLOGY | EGG-PRODUCTION | LIFE-HISTORY PUZZLE | REPRODUCTION | ENERGY BUDGET MODEL | HELGOLANDICUS | FOOD | Studies | Marine biology | Lipids | Stress response | Analysis | Original Paper
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Loading RightsJournal of Toxicology and Environmental Health, Part A, ISSN 1528-7394, 09/2017, Volume 80, Issue 16-18, pp. 881 - 894
Copepods of the genus Calanus have the potential for accumulating lipophilic oil components due to their high lipid content and found to filter and ingest oil...
CALANUS-FINMARCHICUS | CRUDE-OIL | ACUTE TOXICITY | ZOOPLANKTON | MARINE COPEPOD | ENVIRONMENTAL SCIENCES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | INGESTION | THIOREDOXIN | GLACIALIS | GENE-EXPRESSION | TOXICOLOGY | REPRODUCTION | Polycyclic Aromatic Hydrocarbons - toxicity | Copepoda - drug effects | Gene Expression Regulation | Gene Expression Profiling | Seawater - chemistry | RNA - genetics | Environmental Exposure - adverse effects | Reproduction - drug effects | RNA - isolation & purification | Animals | Water Pollutants, Chemical - toxicity | Maternal Exposure - adverse effects | Petroleum - toxicity | Female | Chemical analysis | Genes | Aromatic hydrocarbons | Hydrocarbons | Fluorescence | Inflammatory response | Chaperones | Dispersions | Eggs | Gene sequencing | Antioxidants | Lipophilic | Crustaceans | Polycyclic aromatic hydrocarbons | Water analysis | Droplets | Seawater | Hatching | Exposure | Inflammation | Metabolism | Gene expression | Ribonucleic acid--RNA | Progeny | Offspring | Oil | Contaminants | Maternal transfer | Fluorescence microscopy | Index Medicus
CALANUS-FINMARCHICUS | CRUDE-OIL | ACUTE TOXICITY | ZOOPLANKTON | MARINE COPEPOD | ENVIRONMENTAL SCIENCES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | INGESTION | THIOREDOXIN | GLACIALIS | GENE-EXPRESSION | TOXICOLOGY | REPRODUCTION | Polycyclic Aromatic Hydrocarbons - toxicity | Copepoda - drug effects | Gene Expression Regulation | Gene Expression Profiling | Seawater - chemistry | RNA - genetics | Environmental Exposure - adverse effects | Reproduction - drug effects | RNA - isolation & purification | Animals | Water Pollutants, Chemical - toxicity | Maternal Exposure - adverse effects | Petroleum - toxicity | Female | Chemical analysis | Genes | Aromatic hydrocarbons | Hydrocarbons | Fluorescence | Inflammatory response | Chaperones | Dispersions | Eggs | Gene sequencing | Antioxidants | Lipophilic | Crustaceans | Polycyclic aromatic hydrocarbons | Water analysis | Droplets | Seawater | Hatching | Exposure | Inflammation | Metabolism | Gene expression | Ribonucleic acid--RNA | Progeny | Offspring | Oil | Contaminants | Maternal transfer | Fluorescence microscopy | Index Medicus
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Loading RightsEnvironmental Science & Technology, ISSN 0013-936X, 09/2018, Volume 52, Issue 17, p. 9899
The risk of accidental oil spills in the Arctic is on the rise due to increased shipping and oil exploration activities, making it essential to calibrate...
Parameter estimation | Oil and gas exploration | Octanol | Lipids | Structure-activity relationships | Oil spills | Crude oil | Bioaccumulation | Biological magnification | Risk assessment | Polar environments | Mathematical models | Shipping | Oil exploration
Parameter estimation | Oil and gas exploration | Octanol | Lipids | Structure-activity relationships | Oil spills | Crude oil | Bioaccumulation | Biological magnification | Risk assessment | Polar environments | Mathematical models | Shipping | Oil exploration
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JOURNAL OF TOXICOLOGY AND ENVIRONMENTAL HEALTH-PART A-CURRENT ISSUES, ISSN 1528-7394, 2017, Volume 80, Issue 16-18, pp. 820 - 829
Use of hydrogen peroxide (H2O2) for removal of salmon lice in the aquaculture industry has created concern that non-target organisms might be affected during...
INTERTIDAL COPEPOD | LIPID-PEROXIDATION | SALMO-SALAR L | EURYTEMORA-AFFINIS | SEA LICE | ENVIRONMENTAL SCIENCES | TIGRIOPUS-JAPONICUS | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | GENE-EXPRESSION | TOXICOLOGY | GLUTATHIONE-S-TRANSFERASE | SUPEROXIDE-DISMUTASE | ATLANTIC SALMON | Hydrogen Peroxide - toxicity | Malondialdehyde - metabolism | Reactive Oxygen Species - metabolism | Copepoda - drug effects | Glutathione - metabolism | Seawater - chemistry | Toxicity Tests, Acute | Lethal Dose 50 | Food Contamination - prevention & control | No-Observed-Adverse-Effect Level | Animals | Norway | Oxidative Stress - drug effects | Drug Resistance | Oxidative stress | Hydrogen peroxide | Toxicity | Salmon | Mortality | Fish farming | Population studies | Exposure | Malondialdehyde | Coastal zone | Antioxidants | Crustaceans | Developmental stages | Farms | Toxicity testing | Acute effects | Zooplankton | Hydrogen ion concentration | Aquaculture | Glutathione | Acute toxicity | Index Medicus
INTERTIDAL COPEPOD | LIPID-PEROXIDATION | SALMO-SALAR L | EURYTEMORA-AFFINIS | SEA LICE | ENVIRONMENTAL SCIENCES | TIGRIOPUS-JAPONICUS | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | GENE-EXPRESSION | TOXICOLOGY | GLUTATHIONE-S-TRANSFERASE | SUPEROXIDE-DISMUTASE | ATLANTIC SALMON | Hydrogen Peroxide - toxicity | Malondialdehyde - metabolism | Reactive Oxygen Species - metabolism | Copepoda - drug effects | Glutathione - metabolism | Seawater - chemistry | Toxicity Tests, Acute | Lethal Dose 50 | Food Contamination - prevention & control | No-Observed-Adverse-Effect Level | Animals | Norway | Oxidative Stress - drug effects | Drug Resistance | Oxidative stress | Hydrogen peroxide | Toxicity | Salmon | Mortality | Fish farming | Population studies | Exposure | Malondialdehyde | Coastal zone | Antioxidants | Crustaceans | Developmental stages | Farms | Toxicity testing | Acute effects | Zooplankton | Hydrogen ion concentration | Aquaculture | Glutathione | Acute toxicity | Index Medicus
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Loading RightsJournal of Toxicology and Environmental Health, Part A, ISSN 1528-7394, 08/2016, Volume 79, Issue 13-15, pp. 549 - 557
In this investigation, acute toxicity data were used from two previously reported studies where cold-water copepods were exposed to mechanically dispersed (MD)...
STORAGE | SENSITIVITY | COMPONENTS | TEMPERATE | MARINE COPEPOD | SOLUBLE FRACTIONS | ENVIRONMENTAL SCIENCES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | CHEMICALS | TOXICOLOGY | EXPRESSION | REPRODUCTION | CRUSTACEA | Toxicokinetics | Animals | Water Pollutants, Chemical - toxicity | Copepoda - drug effects | Petroleum - toxicity | Lipid Metabolism | Copepoda - metabolism | Fish | Lipids | Crustaceans | Toxicity | Crude oil | Mortality | Biometrics | Toxicology | Exposure | Public health
STORAGE | SENSITIVITY | COMPONENTS | TEMPERATE | MARINE COPEPOD | SOLUBLE FRACTIONS | ENVIRONMENTAL SCIENCES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | CHEMICALS | TOXICOLOGY | EXPRESSION | REPRODUCTION | CRUSTACEA | Toxicokinetics | Animals | Water Pollutants, Chemical - toxicity | Copepoda - drug effects | Petroleum - toxicity | Lipid Metabolism | Copepoda - metabolism | Fish | Lipids | Crustaceans | Toxicity | Crude oil | Mortality | Biometrics | Toxicology | Exposure | Public health
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Loading RightsJournal of Toxicology and Environmental Health, Part A, ISSN 1528-7394, 09/2017, Volume 80, Issue 16-18, pp. 845 - 861
Inorganic mercury (Hg) is highly toxic to organisms including crustaceans and displays multiple toxic modes of action (MoA). The main aim of this investigation...
OXIDATIVE STRESS | NORTH-ATLANTIC COPEPOD | DIATOM SKELETONEMA-MARINOI | TOXICITY | MECHANISMS | GENE ONTOLOGY | NUCLEAR RECEPTOR | ENVIRONMENTAL SCIENCES | TIGRIOPUS-JAPONICUS | IN-VITRO | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | TOXICOLOGY | EXPOSURE | Phosphorylation | Reactive Oxygen Species - metabolism | Signal Transduction | Copepoda - drug effects | Computational Biology |
OXIDATIVE STRESS | NORTH-ATLANTIC COPEPOD | DIATOM SKELETONEMA-MARINOI | TOXICITY | MECHANISMS | GENE ONTOLOGY | NUCLEAR RECEPTOR | ENVIRONMENTAL SCIENCES | TIGRIOPUS-JAPONICUS | IN-VITRO | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | TOXICOLOGY | EXPOSURE | Phosphorylation | Reactive Oxygen Species - metabolism | Signal Transduction | Copepoda - drug effects | Computational Biology |