Critical Reviews in Food Science and Nutrition, ISSN 1040-8398, 05/2017, Volume 57, Issue 8, pp. 1618 - 1630
We have prepared a review of the physical-chemical composition and the functional and anti-nutritional properties of quinoa (Chenopodium quinoa Willd.). It is...
functional properties | nutritional value | celiac disease | Chenopodium quinoa Willd | anti-nutritional factors | Chenopodium quinoaWilld | MINERALS | FOOD SCIENCE & TECHNOLOGY | COMPONENTS | PSEUDOCEREALS | ANTIOXIDANT CAPACITY | CHENOPODIUM-QUINOA | NUTRITION & DIETETICS | FRACTIONS | FATTY-ACID | STARCH | TRITERPENE SAPONINS | WILLD SEEDS | Oxalates - analysis | Phytic Acid - analysis | Flavonoids - analysis | Amino Acids, Essential - analysis | Nutritive Value | Humans | Dietary Fiber - analysis | Saponins - analysis | Whole Grains - chemistry | Chenopodium quinoa - chemistry | Trypsin Inhibitors - analysis | Dietary Proteins - analysis | Tannins - analysis | Polyphenols - analysis | Dietary Fats - analysis | Dietary Carbohydrates - analysis | Micronutrients - analysis | Antioxidants - analysis | Nitrates - analysis | Quinoa | Celiac disease | Functional foods & nutraceuticals
functional properties | nutritional value | celiac disease | Chenopodium quinoa Willd | anti-nutritional factors | Chenopodium quinoaWilld | MINERALS | FOOD SCIENCE & TECHNOLOGY | COMPONENTS | PSEUDOCEREALS | ANTIOXIDANT CAPACITY | CHENOPODIUM-QUINOA | NUTRITION & DIETETICS | FRACTIONS | FATTY-ACID | STARCH | TRITERPENE SAPONINS | WILLD SEEDS | Oxalates - analysis | Phytic Acid - analysis | Flavonoids - analysis | Amino Acids, Essential - analysis | Nutritive Value | Humans | Dietary Fiber - analysis | Saponins - analysis | Whole Grains - chemistry | Chenopodium quinoa - chemistry | Trypsin Inhibitors - analysis | Dietary Proteins - analysis | Tannins - analysis | Polyphenols - analysis | Dietary Fats - analysis | Dietary Carbohydrates - analysis | Micronutrients - analysis | Antioxidants - analysis | Nitrates - analysis | Quinoa | Celiac disease | Functional foods & nutraceuticals
Journal Article
Water Research, ISSN 0043-1354, 2005, Volume 39, Issue 12, pp. 2621 - 2635
The development of a surface water monitoring network is a critical element in the assessment, restoration, and protection of stream water quality. This study...
Monitoring network | Surface water quality | Principal component analysis | monitoring network | ENVIRONMENTAL SCIENCES | WATER RESOURCES | ENGINEERING, ENVIRONMENTAL | surface water quality | principal component analysis | Sodium Chloride - analysis | Nitrogen - analysis | Environmental Monitoring - methods | Calcium - analysis | Data Collection | Rivers | Organic Chemicals - analysis | Principal Component Analysis - methods | Water Pollutants - analysis | Magnesium - analysis | Chlorophyll - analysis | Carbon - analysis | Nitrites - analysis | Phosphates - analysis | Water Supply - analysis | Nitrates - analysis | Hydrogen-Ion Concentration | Quality Control | Water | Nitrites | Analysis | Quality control | Water quality | Aquatic resources | Management | Salinity
Monitoring network | Surface water quality | Principal component analysis | monitoring network | ENVIRONMENTAL SCIENCES | WATER RESOURCES | ENGINEERING, ENVIRONMENTAL | surface water quality | principal component analysis | Sodium Chloride - analysis | Nitrogen - analysis | Environmental Monitoring - methods | Calcium - analysis | Data Collection | Rivers | Organic Chemicals - analysis | Principal Component Analysis - methods | Water Pollutants - analysis | Magnesium - analysis | Chlorophyll - analysis | Carbon - analysis | Nitrites - analysis | Phosphates - analysis | Water Supply - analysis | Nitrates - analysis | Hydrogen-Ion Concentration | Quality Control | Water | Nitrites | Analysis | Quality control | Water quality | Aquatic resources | Management | Salinity
Journal Article
Science of the Total Environment, ISSN 0048-9697, 2008, Volume 393, Issue 1, pp. 131 - 144
Arsenic concentrations in shallow groundwaters from the Hetao Basin of Inner Mongolia range between 0.6 and 572 μg/L. High As groundwaters generally occur in...
Sequential extraction | Reductive environment | Reductive dissolution | Release | CHEMICALLY ACTIVE FORMS | WEST-BENGAL | HEAVY-METALS | release | SEDIMENTS | sequential extraction | ORGANIC-MATTER | REDOX CHEMISTRY | reductive environment | reductive dissolution | ENVIRONMENTAL SCIENCES | TRACE-ELEMENTS | SPECIATION | SEQUENTIAL EXTRACTION PROCEDURE | DRINKING-WATER | Phosphorus - analysis | Environmental Monitoring | Sulfates - analysis | Metals - analysis | Arsenic - analysis | Chlorides - analysis | Water Pollutants, Chemical - analysis | Fluorine - analysis | Sulfur - analysis | Oxides - analysis | Geologic Sediments - analysis | China | Bicarbonates - analysis | Water Supply - analysis | Nitrates - analysis | Arsenic | Water, Underground | Oxides | Index Medicus
Sequential extraction | Reductive environment | Reductive dissolution | Release | CHEMICALLY ACTIVE FORMS | WEST-BENGAL | HEAVY-METALS | release | SEDIMENTS | sequential extraction | ORGANIC-MATTER | REDOX CHEMISTRY | reductive environment | reductive dissolution | ENVIRONMENTAL SCIENCES | TRACE-ELEMENTS | SPECIATION | SEQUENTIAL EXTRACTION PROCEDURE | DRINKING-WATER | Phosphorus - analysis | Environmental Monitoring | Sulfates - analysis | Metals - analysis | Arsenic - analysis | Chlorides - analysis | Water Pollutants, Chemical - analysis | Fluorine - analysis | Sulfur - analysis | Oxides - analysis | Geologic Sediments - analysis | China | Bicarbonates - analysis | Water Supply - analysis | Nitrates - analysis | Arsenic | Water, Underground | Oxides | Index Medicus
Journal Article
2010, 2nd ed., ISBN 9781420065817, xxxviii, 786
Book
Chemosphere, ISSN 0045-6535, 2006, Volume 65, Issue 6, pp. 1074 - 1081
To identify a sensitive biomarker of freshwater monitoring, we evaluated pollutant-induced expression of heat shock proteins (HSPs) and hemoglobins (Hbs) genes...
Hemoglobin | Heat shock protein 70 | Biomarker | Chironomus tentans | Gene expression | Freshwater monitoring | freshwater monitoring | HEAT-SHOCK-PROTEIN-70 | HSP70 | 4-NONYLPHENOL | TOXICITY | biomarker | hemoglobin | POTASSIUM DICHROMATE | FENITROTHION | ENVIRONMENTAL SCIENCES | heat shock protein 70 | RIPARIUS MG. DIPTERA | EXPOSURES | MIDGE | STRESS | gene expression | Cadmium Chloride - toxicity | Chironomidae - genetics | Phenols - toxicity | Fenitrothion - analysis | Ethinyl Estradiol - metabolism | Fresh Water - chemistry | Ethinyl Estradiol - toxicity | Heat-Shock Proteins - genetics | Diethylhexyl Phthalate - metabolism | Cadmium Chloride - analysis | Endosulfan - toxicity | Diethylhexyl Phthalate - toxicity | Fresh Water - analysis | Lead - toxicity | Cadmium Chloride - metabolism | Endosulfan - analysis | Benzo(a)pyrene - toxicity | Environmental Monitoring | Nitrates - toxicity | Diethylhexyl Phthalate - analysis | Lead - metabolism | Biomarkers - analysis | Hemoglobins - genetics | Ethinyl Estradiol - analysis | Water Pollutants, Chemical - analysis | Benzo(a)pyrene - analysis | Nitrates - metabolism | Potassium Dichromate - metabolism | Water Pollutants, Chemical - metabolism | Phenols - analysis | Water Pollutants, Chemical - toxicity | Lead - analysis | Fenitrothion - metabolism | Benzo(a)pyrene - metabolism | Chlorpyrifos - analysis | Chlorpyrifos - metabolism | Carbon Tetrachloride - metabolism | Larva - drug effects | Larva - growth & development | Potassium Dichromate - analysis | Nitrates - analysis | Heat-Shock Proteins - metabolism | Hemoglobins - metabolism | Phenols - metabolism | Carbon Tetrachloride - toxicity | Endosulfan - metabolism | Carbon Tetrachloride - analysis | Chironomidae - physiology | Gene Expression Regulation - drug effects | Fenitrothion - toxicity | Animals | Chlorpyrifos - toxicity | Potassium Dichromate - toxicity | Proteins | Micropollutants | Potassium compounds | Bisphenol-A | Nitrites | Epoxy resins | Carbon tetrachloride | Physiological aspects | Heat shock proteins | Glycosylated hemoglobin | Hormones, Sex
Hemoglobin | Heat shock protein 70 | Biomarker | Chironomus tentans | Gene expression | Freshwater monitoring | freshwater monitoring | HEAT-SHOCK-PROTEIN-70 | HSP70 | 4-NONYLPHENOL | TOXICITY | biomarker | hemoglobin | POTASSIUM DICHROMATE | FENITROTHION | ENVIRONMENTAL SCIENCES | heat shock protein 70 | RIPARIUS MG. DIPTERA | EXPOSURES | MIDGE | STRESS | gene expression | Cadmium Chloride - toxicity | Chironomidae - genetics | Phenols - toxicity | Fenitrothion - analysis | Ethinyl Estradiol - metabolism | Fresh Water - chemistry | Ethinyl Estradiol - toxicity | Heat-Shock Proteins - genetics | Diethylhexyl Phthalate - metabolism | Cadmium Chloride - analysis | Endosulfan - toxicity | Diethylhexyl Phthalate - toxicity | Fresh Water - analysis | Lead - toxicity | Cadmium Chloride - metabolism | Endosulfan - analysis | Benzo(a)pyrene - toxicity | Environmental Monitoring | Nitrates - toxicity | Diethylhexyl Phthalate - analysis | Lead - metabolism | Biomarkers - analysis | Hemoglobins - genetics | Ethinyl Estradiol - analysis | Water Pollutants, Chemical - analysis | Benzo(a)pyrene - analysis | Nitrates - metabolism | Potassium Dichromate - metabolism | Water Pollutants, Chemical - metabolism | Phenols - analysis | Water Pollutants, Chemical - toxicity | Lead - analysis | Fenitrothion - metabolism | Benzo(a)pyrene - metabolism | Chlorpyrifos - analysis | Chlorpyrifos - metabolism | Carbon Tetrachloride - metabolism | Larva - drug effects | Larva - growth & development | Potassium Dichromate - analysis | Nitrates - analysis | Heat-Shock Proteins - metabolism | Hemoglobins - metabolism | Phenols - metabolism | Carbon Tetrachloride - toxicity | Endosulfan - metabolism | Carbon Tetrachloride - analysis | Chironomidae - physiology | Gene Expression Regulation - drug effects | Fenitrothion - toxicity | Animals | Chlorpyrifos - toxicity | Potassium Dichromate - toxicity | Proteins | Micropollutants | Potassium compounds | Bisphenol-A | Nitrites | Epoxy resins | Carbon tetrachloride | Physiological aspects | Heat shock proteins | Glycosylated hemoglobin | Hormones, Sex
Journal Article
Environmental Science and Technology, ISSN 0013-936X, 07/2015, Volume 49, Issue 13, pp. 7834 - 7842
A modified SAPRC-11 (S11) photochemical mechanism with more detailed treatment of isoprene oxidation chemistry and additional secondary organic aerosol (SOA)...
EPOXIDES | ENVIRONMENTAL SCIENCES | ACID | ENGINEERING, ENVIRONMENTAL | SULFATE | PM2.5 | MEXICO-CITY | SOA FORMATION | HETEROGENEOUS REACTIONS | MODEL | GLYOXAL | PHOTOOXIDATION | Models, Theoretical | Air Pollutants - analysis | Sulfur Dioxide - analysis | Oxidation-Reduction | Aerosols - analysis | Organic Chemicals - analysis | Pyruvaldehyde - analysis | Particulate Matter - analysis | Texas | Pentanes - analysis | Hemiterpenes - analysis | Butadienes - analysis | Carbon - analysis | Seasons | Nitrates - analysis
EPOXIDES | ENVIRONMENTAL SCIENCES | ACID | ENGINEERING, ENVIRONMENTAL | SULFATE | PM2.5 | MEXICO-CITY | SOA FORMATION | HETEROGENEOUS REACTIONS | MODEL | GLYOXAL | PHOTOOXIDATION | Models, Theoretical | Air Pollutants - analysis | Sulfur Dioxide - analysis | Oxidation-Reduction | Aerosols - analysis | Organic Chemicals - analysis | Pyruvaldehyde - analysis | Particulate Matter - analysis | Texas | Pentanes - analysis | Hemiterpenes - analysis | Butadienes - analysis | Carbon - analysis | Seasons | Nitrates - analysis
Journal Article
Environmental Science and Pollution Research, ISSN 0944-1344, 8/2013, Volume 20, Issue 8, pp. 5864 - 5875
The occurrence and fate of eight PPCPs was studied in river waters from upstream to downstream of the three rivers in the Pearl River Delta, China. The...
Environment, general | Environmental Health | Ecotoxicology | Total nitrogen | Fluorescence | Environment | Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution | Pearl River Delta | Environmental Chemistry | Atmospheric Protection/Air Quality Control/Air Pollution | Pharmaceuticals | Caffeine | PERSONAL CARE PRODUCTS | SEWAGE-TREATMENT PLANTS | AQUATIC ENVIRONMENT | TANDEM MASS-SPECTROMETRY | ENVIRONMENTAL SCIENCES | ENDOCRINE DISRUPTORS | WASTE-WATER | DISSOLVED ORGANIC-MATTER | FLUORESCENCE EXCITATION | NATIONAL RECONNAISSANCE | DRINKING-WATER | Caffeine - analysis | Environmental Monitoring | Carbamazepine - analysis | Nitrogen - analysis | Ciprofloxacin - analysis | Water Pollutants, Chemical - analysis | Sulfamethoxazole - analysis | Water Quality | Acetaminophen - analysis | Quaternary Ammonium Compounds - analysis | China | Rivers - chemistry | Erythromycin - analysis | DEET - analysis | Carbon - analysis | Nitrites - analysis | Pharmaceutical Preparations - analysis | Trimethoprim - analysis | Nitrates - analysis | Rivers | Antibacterial agents | Water quality | Green technology | Studies | Water pollution | River basins | Index Medicus | Deltas | Correlation | Austenitic stainless steels | Low level
Environment, general | Environmental Health | Ecotoxicology | Total nitrogen | Fluorescence | Environment | Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution | Pearl River Delta | Environmental Chemistry | Atmospheric Protection/Air Quality Control/Air Pollution | Pharmaceuticals | Caffeine | PERSONAL CARE PRODUCTS | SEWAGE-TREATMENT PLANTS | AQUATIC ENVIRONMENT | TANDEM MASS-SPECTROMETRY | ENVIRONMENTAL SCIENCES | ENDOCRINE DISRUPTORS | WASTE-WATER | DISSOLVED ORGANIC-MATTER | FLUORESCENCE EXCITATION | NATIONAL RECONNAISSANCE | DRINKING-WATER | Caffeine - analysis | Environmental Monitoring | Carbamazepine - analysis | Nitrogen - analysis | Ciprofloxacin - analysis | Water Pollutants, Chemical - analysis | Sulfamethoxazole - analysis | Water Quality | Acetaminophen - analysis | Quaternary Ammonium Compounds - analysis | China | Rivers - chemistry | Erythromycin - analysis | DEET - analysis | Carbon - analysis | Nitrites - analysis | Pharmaceutical Preparations - analysis | Trimethoprim - analysis | Nitrates - analysis | Rivers | Antibacterial agents | Water quality | Green technology | Studies | Water pollution | River basins | Index Medicus | Deltas | Correlation | Austenitic stainless steels | Low level
Journal Article
Meat Science, ISSN 0309-1740, 02/2014, Volume 96, Issue 2, pp. 821 - 828
Regarding food borne intoxications, the accumulation of biogenic amines must be avoided in all kinds of food products. Moreover, biogenic amines can function...
Dry fermented sausages | Retail | Nitrite | Biogenic amines | N-nitrosamines | BACTERIA | MARKET | FOOD SCIENCE & TECHNOLOGY | HUMAN HEALTH | MEAT-PRODUCTS | POLYAMINES | VOLATILE NITROSAMINES | FOOD | Multivariate Analysis | Cadaverine - analysis | Desiccation | Volatile Organic Compounds - analysis | Fermentation | Nitrosamines - analysis | Putrescine - analysis | Chemical Phenomena | Meat Products - analysis | Nitrites - analysis | Principal Component Analysis | Nitrates - analysis | Cluster Analysis | Catecholamines | Polyamines | Nitrosoamines | Analysis | Index Medicus
Dry fermented sausages | Retail | Nitrite | Biogenic amines | N-nitrosamines | BACTERIA | MARKET | FOOD SCIENCE & TECHNOLOGY | HUMAN HEALTH | MEAT-PRODUCTS | POLYAMINES | VOLATILE NITROSAMINES | FOOD | Multivariate Analysis | Cadaverine - analysis | Desiccation | Volatile Organic Compounds - analysis | Fermentation | Nitrosamines - analysis | Putrescine - analysis | Chemical Phenomena | Meat Products - analysis | Nitrites - analysis | Principal Component Analysis | Nitrates - analysis | Cluster Analysis | Catecholamines | Polyamines | Nitrosoamines | Analysis | Index Medicus
Journal Article
1984, ISBN 0387134697, 493 pages.
Chemical analysis | trace elements | mercury | cadmium | copper | lead compounds | nitrates | sulphur dioxide | thallium
Book
American Journal of Epidemiology, ISSN 0002-9262, 06/2012, Volume 175, Issue 11, pp. 1091 - 1099
Health risk assessments of particulate matter less than 2.5 mu m in diameter (PM2.5) often assume that all constituents of PM2.5 are equally toxic. While...
particulate matter | risk assessment | sulfates | soot | nitrates | Meta-analysis | DISEASE PATIENTS | EMERGENCY-DEPARTMENT VISITS | HOSPITAL ADMISSIONS | meta-analysis | AMBIENT AIR-POLLUTION | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | TRAFFIC PARTICLES | HEART-RATE-VARIABILITY | CHEMICAL-COMPOSITION | DAILY MORTALITY | SENIOR ADULTS | HEALTH | Particulate Matter - toxicity | Air Pollutants - analysis | Multivariate Analysis | Sulfates - analysis | Uncertainty | United States | Humans | Air Pollution - adverse effects | Hospitalization - statistics & numerical data | Particulate Matter - chemistry | Carbon - analysis | Nitrates - analysis | Nitrates - toxicity | Medicare | Risk Assessment | Respiratory Tract Diseases - chemically induced | Models, Statistical | Regression Analysis | Particulate Matter - analysis | Sulfates - toxicity | Poisson Distribution | Air Pollution - analysis | Cardiovascular Diseases - chemically induced | Air Pollutants - toxicity | Carbon - toxicity | Air Pollutants - chemistry | Usage | Time-series analysis | Health risk assessment | Cardiovascular diseases | Health aspects | Particles | Methods | Risk factors | Systematic Reviews and Meta- and Pooled Analyses
particulate matter | risk assessment | sulfates | soot | nitrates | Meta-analysis | DISEASE PATIENTS | EMERGENCY-DEPARTMENT VISITS | HOSPITAL ADMISSIONS | meta-analysis | AMBIENT AIR-POLLUTION | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | TRAFFIC PARTICLES | HEART-RATE-VARIABILITY | CHEMICAL-COMPOSITION | DAILY MORTALITY | SENIOR ADULTS | HEALTH | Particulate Matter - toxicity | Air Pollutants - analysis | Multivariate Analysis | Sulfates - analysis | Uncertainty | United States | Humans | Air Pollution - adverse effects | Hospitalization - statistics & numerical data | Particulate Matter - chemistry | Carbon - analysis | Nitrates - analysis | Nitrates - toxicity | Medicare | Risk Assessment | Respiratory Tract Diseases - chemically induced | Models, Statistical | Regression Analysis | Particulate Matter - analysis | Sulfates - toxicity | Poisson Distribution | Air Pollution - analysis | Cardiovascular Diseases - chemically induced | Air Pollutants - toxicity | Carbon - toxicity | Air Pollutants - chemistry | Usage | Time-series analysis | Health risk assessment | Cardiovascular diseases | Health aspects | Particles | Methods | Risk factors | Systematic Reviews and Meta- and Pooled Analyses
Journal Article
Epidemiology, ISSN 1044-3983, 7/2010, Volume 21, Issue 4, pp. 501 - 511
Background: Epidemiologic evidence suggests that exposure to ambient particulate matter is associated with adverse health effects. Little is known, however,...
Health outcomes | Mortality | Particulate matter | Chlorides | Hospital admissions | Particle mass | Nitrates | Sulfates | AIR POLLUTION | Gravimetry | Health benefits | EUROPEAN CITIES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | NUMBER CONCENTRATION | MYOCARDIAL-INFARCTION | MEASUREMENT ERROR | COMPONENTS | PARTICULATE AIR-POLLUTION | PM10 | ULTRAFINE | CASE-CROSSOVER DESIGN | ATMOSPHERE | Air Pollution - statistics & numerical data | Urban Health - statistics & numerical data | Confidence Intervals | Humans | Particulate Matter - adverse effects | Air Pollution - adverse effects | Hospitalization - statistics & numerical data | Emergency Service, Hospital - statistics & numerical data | Regression Analysis | Particulate Matter - analysis | Time Factors | Cardiovascular Diseases - epidemiology | Cardiovascular Diseases - mortality | Poisson Distribution | Air Pollution - analysis | Cardiovascular Diseases - chemically induced | London - epidemiology | Index Medicus
Health outcomes | Mortality | Particulate matter | Chlorides | Hospital admissions | Particle mass | Nitrates | Sulfates | AIR POLLUTION | Gravimetry | Health benefits | EUROPEAN CITIES | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | NUMBER CONCENTRATION | MYOCARDIAL-INFARCTION | MEASUREMENT ERROR | COMPONENTS | PARTICULATE AIR-POLLUTION | PM10 | ULTRAFINE | CASE-CROSSOVER DESIGN | ATMOSPHERE | Air Pollution - statistics & numerical data | Urban Health - statistics & numerical data | Confidence Intervals | Humans | Particulate Matter - adverse effects | Air Pollution - adverse effects | Hospitalization - statistics & numerical data | Emergency Service, Hospital - statistics & numerical data | Regression Analysis | Particulate Matter - analysis | Time Factors | Cardiovascular Diseases - epidemiology | Cardiovascular Diseases - mortality | Poisson Distribution | Air Pollution - analysis | Cardiovascular Diseases - chemically induced | London - epidemiology | Index Medicus
Journal Article
Journal of Hazardous Materials, ISSN 0304-3894, 04/2014, Volume 270, pp. 102 - 109
This work investigated heavy metal pollution in surface sediments of the Jialu River, China. Sediment samples were collected at 19 sites along the river in...
Environmental factors | Benthos | Sediments | Canonical correspondence analysis | Heavy metals | CONTAMINATION | AGRICULTURAL INTENSIFICATION | YANGTZE-RIVER | LAKE | STREAM SEDIMENTS | ENVIRONMENTAL SCIENCES | ECOLOGICAL RISK-ASSESSMENT | POLLUTION | ENGINEERING, ENVIRONMENTAL | BASIN | ACCUMULATION | WATER | Phosphorus - analysis | Environmental Monitoring | Risk Assessment | Nitrogen - analysis | Arsenic - analysis | Biomass | Plants | Rivers | Water Pollutants, Chemical - analysis | Aquatic Organisms | Geologic Sediments - analysis | China | Population Density | Polycyclic Aromatic Hydrocarbons - analysis | Metals, Heavy - analysis | Urbanization | Nitrates - analysis | Environmental aspects | Sediments (Geology) | Index Medicus
Environmental factors | Benthos | Sediments | Canonical correspondence analysis | Heavy metals | CONTAMINATION | AGRICULTURAL INTENSIFICATION | YANGTZE-RIVER | LAKE | STREAM SEDIMENTS | ENVIRONMENTAL SCIENCES | ECOLOGICAL RISK-ASSESSMENT | POLLUTION | ENGINEERING, ENVIRONMENTAL | BASIN | ACCUMULATION | WATER | Phosphorus - analysis | Environmental Monitoring | Risk Assessment | Nitrogen - analysis | Arsenic - analysis | Biomass | Plants | Rivers | Water Pollutants, Chemical - analysis | Aquatic Organisms | Geologic Sediments - analysis | China | Population Density | Polycyclic Aromatic Hydrocarbons - analysis | Metals, Heavy - analysis | Urbanization | Nitrates - analysis | Environmental aspects | Sediments (Geology) | Index Medicus
Journal Article
Water Research, ISSN 0043-1354, 2011, Volume 45, Issue 13, pp. 4019 - 4027
Urban watersheds are susceptible to numerous pollutant sources and the identification of source-specific indicators can provide a beneficial tool in the...
Pharmaceuticals and personal care products | Sucralose | Wastewater indicator | Urban watershed | UNITED-STATES | PERSONAL CARE PRODUCTS | PHARMACEUTICALS | NITRATE | CONTAMINATION | WATER RESOURCES | TRACERS | ENVIRONMENTAL SCIENCES | ENGINEERING, ENVIRONMENTAL | DRINKING-WATER | GROUNDWATER | Gemfibrozil - analysis | Caffeine - analysis | Carbamazepine - analysis | Sucrose - analogs & derivatives | Phosphines - analysis | DEET - analysis | Sucrose - analysis | Primidone - analysis | Water Pollutants, Chemical - analysis | Sulfamethoxazole - analysis | Weather | Water pollution | Wastewater | Gemfibrozil | Carbamazepine | Point sources | Drinking water | Statistical analysis | Samples | Effluents | Statistical methods | Indicators | Waste water
Pharmaceuticals and personal care products | Sucralose | Wastewater indicator | Urban watershed | UNITED-STATES | PERSONAL CARE PRODUCTS | PHARMACEUTICALS | NITRATE | CONTAMINATION | WATER RESOURCES | TRACERS | ENVIRONMENTAL SCIENCES | ENGINEERING, ENVIRONMENTAL | DRINKING-WATER | GROUNDWATER | Gemfibrozil - analysis | Caffeine - analysis | Carbamazepine - analysis | Sucrose - analogs & derivatives | Phosphines - analysis | DEET - analysis | Sucrose - analysis | Primidone - analysis | Water Pollutants, Chemical - analysis | Sulfamethoxazole - analysis | Weather | Water pollution | Wastewater | Gemfibrozil | Carbamazepine | Point sources | Drinking water | Statistical analysis | Samples | Effluents | Statistical methods | Indicators | Waste water
Journal Article
Environmental Pollution, ISSN 0269-7491, 10/2017, Volume 229, pp. 586 - 594
Quantitative identification of nitrate (NO -N) sources is critical to the control of nonpoint source nitrogen pollution in an agricultural watershed. Combined...
MCMC mixing model | Nitrate | Uncertainty analysis | Stable isotopes | Pollution source identification | TRANSFORMATION | DENITRIFICATION | RIVER | APPORTIONMENT | GROUND-WATER | FRESH-WATER | ENVIRONMENTAL SCIENCES | MIXING MODELS | NITROGEN | SURFACE | DELTA-O-18 | Nitrogen Isotopes - analysis | Sewage - chemistry | Environmental Monitoring | Uncertainty | Groundwater - chemistry | Nitrogen - analysis | Fertilizers - analysis | Water Pollutants, Chemical - analysis | Manure - analysis | Oxygen Isotopes - analysis | China | Rivers - chemistry | Nitrification | Soil - chemistry | Denitrification | Agriculture | Nitrates - analysis | Environmental Pollution - analysis | Monte Carlo method | Pollution | Nitrogen fertilizers | Analysis | Markov processes | Water, Underground | Aquatic resources | Nitrogen
MCMC mixing model | Nitrate | Uncertainty analysis | Stable isotopes | Pollution source identification | TRANSFORMATION | DENITRIFICATION | RIVER | APPORTIONMENT | GROUND-WATER | FRESH-WATER | ENVIRONMENTAL SCIENCES | MIXING MODELS | NITROGEN | SURFACE | DELTA-O-18 | Nitrogen Isotopes - analysis | Sewage - chemistry | Environmental Monitoring | Uncertainty | Groundwater - chemistry | Nitrogen - analysis | Fertilizers - analysis | Water Pollutants, Chemical - analysis | Manure - analysis | Oxygen Isotopes - analysis | China | Rivers - chemistry | Nitrification | Soil - chemistry | Denitrification | Agriculture | Nitrates - analysis | Environmental Pollution - analysis | Monte Carlo method | Pollution | Nitrogen fertilizers | Analysis | Markov processes | Water, Underground | Aquatic resources | Nitrogen
Journal Article