Your search keyword '"water pollutants"' showing total 6,239 results

1. Toxicity assessment of hexafluoropropylene oxide-dimer acid on morphology, heart physiology, and gene expression during zebrafish (Danio rerio) development

Author

Sylvia Gong, Flannery McLamb, Damian Shea, Jeanne P. Vu, Miguel F. Vasquez, Zuying Feng, Kesten Bozinovic, Ken K. Hirata, Richard M. Gersberg, and Goran Bozinovic

Subjects

Fluorocarbons, Embryology, Nonmammalian, Danio rerio, Health, Toxicology and Mutagenesis, Gene Expression, Chemical, RNA sequencing, General Medicine, Biological Sciences, Toxicology, Cardiovascular, Pollution, Good Health and Well Being, Embryo, HFPO-DA, Chemical Sciences, Genetics, Animals, Humans, Environmental Chemistry, Water Pollutants, Zebrafish, Environmental Sciences, Biotechnology

Abstract

Hexafluoropropylene oxide-dimer acid (HFPO-DA) is one of the emerging replacements for the “forever” carcinogenic and toxic long-chain PFAS. HFPO-DA is a polymerization aid used for manufacturing fluoropolymers, whose global distribution and undetermined toxic properties are a concern regarding human and ecological health. To assess embryotoxic potential, zebrafish embryos were exposed to HFPO-DA at concentrations of 0.5–20,000 mg/L at 24-, 48-, and 72-h post-fertilization (hpf). Heart rate increased significantly in embryos exposed to 2 mg/L and 10 mg/L HFPO-DA across all time points. Spinal deformities and edema phenotypes were evident among embryos exposed to 1000–16,000 mg/L HFPO-DA at 72 hpf. A median lethal concentration (LC50) was derived as 7651 mg/L at 72 hpf. Shallow RNA sequencing analysis of 9465 transcripts identified 38 consistently differentially expressed genes at 0.5 mg/L, 1 mg/L, 2 mg/L, and 10 mg/L HFPO-DA exposures. Notably, seven downregulated genes were associated with visual response, and seven upregulated genes were expressed in or regulated the cardiovascular system. This study identifies biological targets and molecular pathways affected during animal development by an emerging, potentially problematic, and ubiquitous industrial chemical.

Published

2022

2. Bioaccumulation of trace metals and genotoxicity responses in Liza aurata as an indicator of industrial pollution

Author

Aysegul Eregenler, Hale Oksuk, Funda Turan, Seda Ilgaz, M. Bertan Yilmaz, M. Lutfi Yola, Deniz Bilimleri ve Teknolojisi Fakültesi -- Su Ürünleri Yetiştiriciliği Bölümü, Turan, Funda, and Ergenler, Aysegül

Subjects

Health, Toxicology and Mutagenesis, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, Industrial pollution, medicine.disease_cause, Toxicology, Water pollutants, Dna-damage, medicine, Animals, Humans, Comet assay, Liza aurata, Ecosystem, River, Micronucleus Tests, Marine, Water, Environmental monitoring, Heavy, General Medicine, Bioaccumulation, Smegmamorpha, Perciformes, Trace Elements, Trace (semiology), Iskenderun bay, Fish, Lead, Metals, Environmental chemistry, Heavy-metals, Parameters, Environmental science, DNA damage, Agriculture, Environment & Ecology - Herbicides, Pesticides & Ground Poisoning - Bioaccumulation, Genotoxicity, Biomarkers, Cadmium

Abstract

Heavy metal contamination in the coastal and marine ecosystems is becoming a progressively serious risk to aquatic organisms and humans. This study reports the genetic damage and the accumulations of trace metals of L. aurata as a bioindicator species in the Payas coast of Iskenderun Bay, North-Eastern Mediterranean by COMET Assay. Fish were seasonally collected from a sampling site and a reference site for one year. Physicochemical parameters in water and trace metals in the tissues of fish collected from these sites were determined by electrochemical techniques. The high DNA damage frequency at the L. aurata was observed in the Payas coast of Iskenderun bay compared to the reference site because of pollutants that the detected high levels of Cd, Pb, Fe and Cu accumulation in L. aurata were exceed the maximum levels allowed by the national and international limit values. A significant positive correlation between Cd, Pb, Hg, Cr, Fe, Zn and Cu accumulations and DNA damage parameters was reported in the present study. Besides, we reported firstly, that it can be used successfully the electrochemical technique in the determination of trace metal concentrations in mullet. Consequently, obtained data indicate that L. aurata constitutes a useful tool as a sentinel organism for biomonitoring of the coastal ecosystem.

Published

2022

3. Sub-sewershed Monitoring to Elucidate Down-the-Drain Pesticide Sources

Author

Robert Budd, Jennifer Teerlink, Christopher Alaimo, Luann Wong, and Thomas M. Young

Subjects

lateral, removal, Chemical, General Chemistry, pesticides, Pyrethrins, Environmental Chemistry, Animals, Water Pollutants, influent, effluent, wastewater, Environmental Sciences, Environmental Monitoring

Abstract

Pesticides have been reported in treated wastewater effluent at concentrations that exceed aquatic toxicity thresholds, indicating that treatment may be insufficient to adequately address potential pesticide impacts on aquatic life. Gaining a better understanding of the relative contribution from specific use patterns, transport pathways, and flow characteristics is an essential first step to informing source control measures. The results of this study are the first of their kind, reporting pesticide concentrations at sub-sewershed sites within a single sewer catchment to provide information on the relative contribution from various urban sources. Seven monitoring events were collected from influent, effluent, and seven sub-sewershed sites to capture seasonal variability. In addition, samples were collected from sites with the potential for relatively large mass fluxes of pesticides (pet grooming operations, pest control operators, and laundromats). Fipronil and imidacloprid were detected in most samples (>70%). Pyrethroids were detected in >50% of all influent and lateral samples. There were significant removals of pyrethroids from the aqueous process stream within the facility to below reporting limits. Imidacloprid and fiproles were the only pesticides that were detected above reporting limits in effluent, highlighting the importance of source identification and control for the more hydrophilic compounds. Single source monitoring revealed large contributions of fipronil, imidacloprid, and permethrin originating from a pet groomer, with elevated levels of cypermethrin at a commercial laundry location. The results provide important information needed to prioritize future monitoring efforts, calibrate down-the-drain models, and identify potential mitigation strategies at the site of pesticide use to prevent introduction to sewersheds.

Published

2023

4. Internal Dynamics and Metabolism of Mercury in Biota: A Review of Insights from Mercury Stable Isotopes

Author

Mi-Ling Li, Sae Yun Kwon, Brett A. Poulin, Martin Tsz-Ki Tsui, Laura C. Motta, and Moonkyoung Cho

Subjects

Mammals, mercury, biota, Chemical, Mercury, General Chemistry, Biota, Mercury Isotopes, monitoring, bioaccumulation, Isotopes, stable isotope, Animals, Environmental Chemistry, Water Pollutants, metabolism, Water Pollutants, Chemical, Environmental Sciences, Environmental Monitoring

Abstract

Monitoring mercury (Hg) levels in biota is considered an important objective for the effectiveness evaluation of the Minamata Convention. While many studies have characterized Hg levels in organisms at multiple spatiotemporal scales, concentration analyses alone often cannot provide sufficient information on the Hg exposure sources and internal processes occurring within biota. Here, we review the decadal scientific progress of using Hg isotopes to understand internal processes that modify the speciation, transport, and fate of Hg within biota. Mercury stable isotopes have emerged as a powerful tool for assessing Hg sources and biogeochemical processes in natural environments. A better understanding of the tissue location and internal mechanisms leading to Hg isotope change is key to assessing its use for biomonitoring. We synthesize the current understanding and uncertainties of internal processes leading to Hg isotope fractionation in a variety of biota, in a sequence of better to less studied organisms (i.e., birds, marine mammals, humans, fish, plankton, and invertebrates). This review discusses the opportunities and challenges of using certain forms of biota for Hg source monitoring and the need to further elucidate the physiological mechanisms that control the accumulation, distribution, and toxicity of Hg in biota by coupling new techniques with Hg stable isotopes.

Published

2022

5. A study on water quality parameters estimation for urban rivers based on ground hyperspectral remote sensing technology

Author

Yikai Hou, Anbing Zhang, Rulan Lv, Song Zhao, Jie Ma, Hai Zhang, and Ziang Li

Subjects

Technology, Rivers, Nitrogen, Water Quality, Health, Toxicology and Mutagenesis, Environmental Chemistry, Phosphorus, Water Pollutants, Hyperspectral Imaging, General Medicine, Pollution, Environmental Monitoring

Abstract

The purpose of this research is to seek a better inversion algorithm. And on this basis, it explores the feasibility of using hyperspectral monitoring technology instead of laboratory physical and chemical index test and evaluates the prediction effect of inversion model on water quality change. So as to be more convenient, more economical and extensive monitoring methods for water quality monitoring of urban internal river are provided. This paper takes the water samples collected in Fuyang River in downtown Handan as the research object and obtains original spectral data of the samples by the ASD FieldSpec 4 field hyperspectral spectrometer. After the smoothing filter pretreatment by the Savitzky-Golay (SG) method and specified mathematical transformations, the modeling spectral indicators of various water quality parameters are selected and determined by calculating the maximum mean of absolute values for correlation coefficients of various spectral indicators and measured values in the wavelength range from 400 to 950 nm. By introducing partial least squares (PLS), random forest (RF), and Lasso (least absolute shrinkage and selection operator), six water quality parameter fitting models were constructed including turbidity (Turb), suspended substance (SS), chemical oxygen demand (COD), NH4-N, total nitrogen (TN), and total phosphorus (TP), which are also testified and evaluated through hyperspectral data. The results show that different spectral transformation methods highlight different information inversion effects. The first derivative of reciprocal logarithm of spectral data after SG smoothing has a good modeling effect on four water quality parameters including Turb, COD, NH

Published

2022

6. Oxidative Dissolution of Arsenic-Bearing Sulfide Minerals in Groundwater: Impact of Hydrochemical and Hydrodynamic Conditions on Arsenic Release and Surface Evolution

Author

Lucien Stolze, Maria Battistel, and Massimo Rolle

Subjects

Minerals, Chemical, reactive transport modeling, General Chemistry, Sulfides, Arsenic, Oxidative Stress, Solubility, Hydrodynamics, arsenic mobilization, &nbsp, Environmental Chemistry, Water Pollutants, flow-through experiments, Groundwater, sulfide mineral dissolution, surface passivation, Water Pollutants, Chemical, Environmental Sciences

Abstract

The dissolution of sulfide minerals can lead to hazardous arsenic levels in groundwater. This study investigates the oxidative dissolution of natural As-bearing sulfide minerals and the related release of arsenic under flow-through conditions. Column experiments were performed using reactive As-bearing sulfide minerals (arsenopyrite and löllingite) embedded in a sandy matrix and injecting oxic solutions into the initially anoxic porous media to trigger the mineral dissolution. Noninvasive oxygen measurements, analyses of ionic species at the outlet, and scanning electron microscopy allowed tracking the propagation of the oxidative dissolution fronts, the mineral dissolution progress, and the change in mineral surface composition. Process-based reactive transport simulations were performed to quantitatively interpret the geochemical processes. The experimental and modeling outcomes show that pore-water acidity exerts a key control on the dissolution of sulfide minerals and arsenic release since it determines the precipitation of secondary mineral phases causing the sequestration of arsenic and the passivation of the reactive mineral surfaces. The impact of surface passivation strongly depends on the flow velocity and on the spatial distribution of the reactive minerals. These results highlight the fundamental interplay of reactive mineral distribution and hydrochemical and hydrodynamic conditions on the mobilization of arsenic from sulfide minerals in flow-through systems.

Published

2022

7. GIS-based impact assessment and spatial distribution of air and water pollutants in mining area

Author

Mukesh Ruhela, Kaberi Sharma, Rakesh Bhutiani, Surendra Kumar Chandniha, Vikas Kumar, Kaomud Tyagi, Faheem Ahamad, and Inderjeet Tyagi

Subjects

Air Pollutants, Air Pollution, Iron, Health, Toxicology and Mutagenesis, Nitrogen Dioxide, Geographic Information Systems, Environmental Chemistry, Particulate Matter, Water Pollutants, General Medicine, Pollution, Environmental Monitoring

Abstract

Mining is a significant part of the transforming economy, which is generally considered as essential as well as social evil at the same time. It is one of the potential contributors to air and water pollution and possesses long-term impact on their quality. Keeping in view the exponential mining activities, we have selected an iron mine area in Bailadila, Chhattisgarh, India, as a sampling site and investigated the impact of mining activities on the air as well as water quality by setting up seven air quality and thirty water quality monitoring stations. From the results obtained, it was observed that concentration of air pollutants such as SO

Published

2022

8. Assessment of the effectiveness of a field-scale combined ecological treatment system at removing water pollutants, after optimization using a system dynamic model: a case study of rural inland ponds in China

Author

Mei, Liu, Julin, Yuan, Meng, Ni, and Qingping, Lian

Subjects

China, Nitrogen, Water Quality, Health, Toxicology and Mutagenesis, Environmental Chemistry, Water Pollutants, General Medicine, Wastewater, Ponds, Pollution

Abstract

Field-scale combined ecological treatment systems (FCETS) are designed to remove nutrients from aquaculture wastewater in ponds according to the characteristics of the nutrients present. We designed and established a numerical model based on the system dynamic (SD) method, to optimize the parameters of FCETS. Results showed that the mean removal rates of TSS, TN, NO

Published

2022

9. Can a Sediment Core Reveal the Plastic Age? Microplastic Preservation in a Coastal Sedimentary Record

Author

Laura Simon-Sánchez, Michaël Grelaud, Claudia Lorenz, Jordi Garcia-Orellana, Alvise Vianello, Fan Liu, Jes Vollertsen, and Patrizia Ziveri

Subjects

Geologic Sediments, Weathering, Microplastics, General Chemistry, Carbonyl index, Sediments, Accumulation, Environmental Chemistry, Water Pollutants, Chemical analysis, Plastics, Environmental Monitoring/methods, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The seafloor is the major sink for microplastic (MP) pollutants. However, there is a lack of robust data on the historical evolution of MP pollution in the sediment compartment, particularly the sequestration and burial rate of small MPs. By combining a palaeoceanographic approach and state-of-the-art analytical methods for MP identification down to 11 μm in size, we present the first high-resolution reconstruction of MP pollution from an undisturbed sediment core collected in the NW Mediterranean Sea. Furthermore, we investigate the fate of MPs once buried in the sediments by evaluating the changes in the size distribution of the MPs and the weathering status of the polyolefins, polyethylene, and polypropylene. Our results indicate that the MP mass sequestered in the sediment compartment mimics the global plastic production from 1965 to 2016. We observed an increase in the weathering status of the polyolefins as the size decreased. However, the variability in the size and weathering status of the MPs throughout the sedimentary record indicated that these pollutants, once incorporated into sediments, remain preserved with no further degradation under conditions lacking remobilization.

Published

2022

10. Long-term Effect of Water Pollutants (Heavy Metals) on the Morphofunctional State of the Adult Rat's Pituitary Gland

Author

A. M. Romanyuk and N. B. Hryntsova

Subjects

Pituitary gland, medicine.anatomical_structure, Chemistry, Environmental chemistry, Water pollutants, General Engineering, medicine, Term effect, Heavy metals

Abstract

In some northern regions of Ukraine there is an increased accumulation of salts of heavy metals in soil and drinking water, which negatively affect the health of the population and become a risk factor for many diseases. The role of the pituitary gland in the regulation of functional disorders of hormonal homeostasis in various pathological conditions is extremely important. The purpose of the study is to study the morphological, morphometric and biochemical rearrangements of the structural components of the adenohypophysis of adult male rats under conditions of long-term exposure to salts of heavy metals. Materials and methods. The experiment was performed on 24 white adult male rats, which were divided into 1 control and 1 experimental group. The experimental group consisted of rats, which for 90 days consumed ordinary drinking water, saturated with a combination of salts of heavy metals: zinc (ZnSO4 · 7H2O) – 5 mg/l, copper (CuSO4 · 5H2O) – 1 mg/l, iron (FeSO4) – 10 mg/l, manganese (MnSO4 · 5H2O) – 0.1 mg/l, lead (Pb (NO3) 2) – 0.1 mg/l and chromium (K2Cr2O7) – 0.1 mg/l. Results and discussion. Long-term effects on the body of experimental animals of salts of heavy metals caused a pronounced compensatory-adaptive changes in the pituitary gland of experimental animals of hypoxic nature. Morphological changes in the organ were accompanied by plethora of venous bed, deterioration of rheological properties of blood, increase in the area of connective tissue component of the gland, violation of histoarchitectonics of epithelial trabeculae, edema in the parenchyma, increase in linear indicators of the pituitary gland. Toxic effects of salts of heavy metals negatively affected the cellular composition of the adenohypophysis: there was an increase in the number of chromophobes and a decrease in the number of chromophilic acidophiles and basophils compared with control animals. At the same time, the increase in linear parameters, area of nuclei and cytoplasm of adenocytes can be attributed both to their compensatory hypertrophy and due to edema processes in the gland caused by deepening hypoxic effects and impaired blood flow from the organ as a result of venous plethora. Conclusion. Morphometric and biochemical parameters of the structural components of the anterior lobe of the adenohypophysis at 90 days of exposure to salts of heavy metals, of course, indicate a significant stress of adaptive processes by the adenohypophysis in response to stressors (salts of heavy metals)

Published

2021

11. Spatio-temporal geostatistical modelling of sulphate concentration in the area of the Reocín Mine (Spain) as an indicator of water quality

Author

Raúl Husillos, Manuel Cánovas, Mohammad Maleki, Nasser Madani, Elena Castillo, and Noemí Barral

Subjects

Hydrology, Sulfates, Health, Toxicology and Mutagenesis, Water pollutants, Flooding (psychology), General Medicine, STREAMS, Pollution, Lakes, Rivers, Spain, Water Quality, Environmental Chemistry, Environmental science, Water quality, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Water stored in open-pit lakes can be a water resource when the mine is closed. This study aimed to develop a reliable model to evaluate the water quality, based on the sulphate concentration, in the Reocin Mine area (Spain) by using geostatistical algorithms. To this end, water samples were taken from the beginning of the flooding period in November 2004 until August 2020. The model showed that the sulphate concentration was highest between February 2009 and February 2012 and decreased as the flooding process progressed. The area with the highest concentration (2000 mg L-1) was the central part of the study area, where the mine is located, while in the northeast and southwest, the values from the beginning of the flooding period were lower, below 500 mg L-1. In the last obtained model, the values decreased considerably to 1300 mg L-1 in the central area and below 250 mg L-1 in the northeast and southwest areas. The modelling conducted to assess the water quality in the area of influence of the mine determined that the flooding process has little influence on the water in the rivers and streams in the area, since the sulphate concentration measured in the adjacent rivers and streams was less than 250 mg L-1, indicating that anomalous concentrations were only found in the open-pit area. It was shown that geostatistical algorithms are useful tools that can be used to model the intensity and extension of water pollutants in space over time.

Published

2021

12. Accelerating the pace of ecotoxicological assessment using artificial intelligence

Author

Runsheng Song, Mengya Tao, Dingsheng Li, Yuwei Qin, Arturo A. Keller, Alexander Chang, and Sangwon Suh

Subjects

Environmental toxicity, Databases, Factual, Geography, Planning and Development, Chemical, Ecotoxicology, Risk Assessment, Databases, Life cycle assessment, Sensitivity distribution, Aquatic species, Artificial Intelligence, Machine learning, Environmental Chemistry, Water Pollutants, Factual, Toxicity data, Ecology, Artificial neural network, QSAR, Chemical toxicity, Bootstrapping, General Medicine, Lethal concentration 50, Environmental science, Biochemical engineering, Metric (unit), Water Pollutants, Chemical, Research Article

Abstract

Species Sensitivity Distribution (SSD) is a key metric for understanding the potential ecotoxicological impacts of chemicals. However, SSDs have been developed to estimate for only handful of chemicals due to the scarcity of experimental toxicity data. Here we present a novel approach to expand the chemical coverage of SSDs using Artificial Neural Network (ANN). We collected over 2000 experimental toxicity data in Lethal Concentration 50 (LC50) for 8 aquatic species and trained an ANN model for each of the 8 aquatic species based on molecular structure. The R2 values of resulting ANN models range from 0.54 to 0.75 (median R2 = 0.69). We applied the predicted LC50 values to fit SSD curves using bootstrapping method, generating SSDs for 8424 chemicals in the ToX21 database. The dataset is expected to serve as a screening-level reference SSD database for understanding potential ecotoxicological impacts of chemicals.

Published

2021

13. Microalgae and bio-polymeric adsorbents: an integrative approach giving new directions to wastewater treatment

Author

Palak Saket, Mrinal Kashyap, Kiran Bala, and Abhijeet Joshi

Subjects

Pollutant, Water pollutants, Scale (chemistry), Plant Science, Wastewater, Reuse, Biocompatible material, Pollution, Water Purification, Biodegradation, Environmental, Adsorption, Microalgae, Environmental Chemistry, Environmental science, Water Pollutants, Sewage treatment, Biochemical engineering, Water Pollutants, Chemical

Abstract

This review analyses the account of biological (microalgae) and synthetic (bio-polymeric adsorbents) elements to compass the treatment efficiencies of various water pollutants and mechanisms behind them. While considering pollutant removal, both techniques have their own merits and demerits. Microalgal-based methods have been dominantly used as a biological method for pollutant removal. The main limitations of microalgal methods are capacity, scale, dependence on variables of environment and duration of the process. Biopolymers on the other hand are naturally produced, abundant in nature, environmentally safe and biocompatible with cells and many times biodegradable. Algal immobilization in biopolymers has promoted the reuse of cells for further treatment and protected cells from toxic environment monitoring and controlling the external factors like pH, temperature and salinity can promote the removal process while working with the mentioned technologies. In this review, a mechanistic view of both these techniques along with integrated approaches emphasizing on their loopholes and possibilities of improvement in these techniques is represented. In addition to these, the review also discusses the post-treatment effect on algal cells which are specifically dependent on pollutant type and their concentration. All these insights will aid in developing integrated solutions to improve removal efficiencies in an environmentally safe and cost-effective manner.Novelty statement The main objective of this review is to thoroughly understand the role of micro-algal cells and synthetic adsorbents individually as well as their integrative effect in the removal of pollutants from wastewater. Many reviews have been published containing information related to either removal mechanism by algae or synthetic adsorbents. While in this review we have discussed the agents, algae and synthetic adsorbents along with their limitations and explained how these limitations can be overcome with the integration of both the moieties together in process of immobilization. We have covered both the analytical and mechanistic parts of these technologies. Along with this, the post-treatment effects on algae have been discussed which can give us a critical understanding of algal response to pollutants and by-products obtained after treatment. This review contains three different sections, their importance and also explained how these technologies can be improved in the future aspects.

Published

2021

14. In-Reservoir Physical Processes Modulate Aqueous and Biological Methylmercury Export from a Seasonally Anoxic Reservoir

Author

Austin K. Baldwin, Collin A. Eagles-Smith, James J. Willacker, Brett A. Poulin, David P. Krabbenhoft, Jesse Naymik, Michael T. Tate, Dain Bates, Nick Gastelecutto, Charles Hoovestol, Chris Larsen, Alysa M. Yoder, James Chandler, and Ralph Myers

Subjects

zooplankton, Pediatric Research Initiative, Food Chain, destratification, anoxia, Water, Chemical, General Chemistry, Mercury, Methylmercury Compounds, biological uptake, Oxygen, bioaccumulation, suspended sediment, Rivers, aquatic food web, Environmental Chemistry, Humans, Water Pollutants, methylation, Hypoxia, Environmental Sciences, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Anoxic conditions within reservoirs related to thermal stratification and oxygen depletion lead to methylmercury (MeHg) production, a key process governing the uptake of mercury in aquatic food webs. Once formed within a reservoir, the timing and magnitude of the biological uptake of MeHg and the relative importance of MeHg export in water versus biological compartments remain poorly understood. We examined the relations between the reservoir stratification state, anoxia, and the concentrations and export loads of MeHg in aqueous and biological compartments at the outflow locations of two reservoirs of the Hells Canyon Complex (Snake River, Idaho-Oregon). Results show that (1) MeHg concentrations in filter-passing water, zooplankton, suspended particles, and detritus increased in response to reservoir destratification; (2) zooplankton MeHg strongly correlated with MeHg in filter-passing water during destratification; (3) reservoir anoxia appeared to be a key control on MeHg export; and (4) biological MeHg, primarily in zooplankton, accounted for only 5% of total MeHg export from the reservoirs (the remainder being aqueous compartments). These results improve our understanding of the role of biological incorporation of MeHg and the subsequent downstream release from seasonally stratified reservoirs and demonstrate that in-reservoir physical processes strongly influence MeHg incorporation at the base of the aquatic food web.

Published

2022

15. Metal-doped carbon dots as robust nanomaterials for the monitoring and degradation of water pollutants

Author

Guillermo Gallareta-Olivares, Andrea Rivas-Sanchez, Angelica Cruz-Cruz, Syed Makhdoom Hussain, Reyna Berenice González-González, María Fernanda Cárdenas-Alcaide, Hafiz M.N. Iqbal, and Roberto Parra-Saldívar

Subjects

Environmental Engineering, Metals, Health, Toxicology and Mutagenesis, Quantum Dots, Public Health, Environmental and Occupational Health, Environmental Chemistry, Water Pollutants, General Medicine, General Chemistry, Pollution, Carbon, Water Purification, Nanostructures

Abstract

The contamination of the environment by domestic and industrial discharges is a relevant and persistent problem that needs novel solutions. Innovations in the detection, adsorption, and removal or in-situ degradation of toxic components are urgently required. Various effective techniques and materials have been proposed to address this problem, in which carbon dots (CDs) stand out because of their unique properties and low-cost and abundant nature. Their combination with different metals results in the enhancement of their innate properties. Metal-doped CDs have shown excellent results and competitive advantages in recent times. Considering the above useful critiques and CDs notable potentialities, this review discusses different approaches in detail to sense, adsorb, and photodegrade different pollutants in water samples. It was found that altering the electronic structure of CDs via metal doping has a great potential to enhance the optical, electrical, chemical, and magnetic capabilities of CDs, which in turn is beneficial for wastewater treatment.

Published

2022

16. Removal of humic substances from surface waters with recycled fluidized bed sand

Author

Juha Heikkinen, Janne Soimasuo, Joni Lehto, Anna Riikka Nickull, and Vesa Junnikkala

Subjects

Power station, 0208 environmental biotechnology, fluidized bed sand, Chemical, Portable water purification, 02 engineering and technology, 010501 environmental sciences, precipitation, 01 natural sciences, Waste Disposal, Fluid, Natural organic matter, Water Purification, Adsorption, Sand, Environmental Chemistry, Water Pollutants, Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, Biological Oxygen Demand Analysis, Precipitation (chemistry), humic substances, Waste Disposal, Water, General Medicine, 020801 environmental engineering, Fluidized bed, Environmental chemistry, Environmental science, Fluid, Surface water, water purification, Water Pollutants, Chemical

Abstract

Recycled bed sand from a power plant’s fluidized bed reactor was used to remove humic substances (HSs) from surface water samples. The performance of sand samples screened into different size fractions together with unscreened sand was evaluated in removing HSs by performing shaking and column experiments, and by monitoring the quality of the treated water samples in terms of pH, conductivity, chemical oxygen demand (COD), and colour. At the beginning of the column experiments, the used sand fractions removed HSs with over 80% efficiency. However, as the experiments proceeded, the removal efficiency rapidly decreased, reaching a steady state during which a column filled with small-particle-size screened sand removed 20–25% of the COD and colour at a 2.2 kg/h flow speed, and 25–35% of the COD and 30–35% of the colour at a slow 0.5 kg/h flow speed. With unscreened sand, the corresponding COD and colour removal efficiencies were 10–20% (COD) and 10–18% (colour) for fast column experiments, and 22–27% for COD and 25–30% for colour during slow column experiments. Elemental analysis revealed that recycled fluidized bed sand contained several cationic compounds known to form complexes with HSs. Especially calcium together with aluminium and iron are potential candidates for removing colour and COD from the water samples. Highlights: Recycled fluidized bed sand could be used as a low-cost adsorbent material for removing HSs from surface water samples Especially the COD and colour of the water samples could be reduced by the sand treatments Fluidized bed sand contained several cationic compounds forming complexes with HSs No significant amounts of heavy metals were leached during the sand treatments.

Published

2022

17. Recognition and Sequestration of Toxic Inorganic Water Pollutants with Hydrolytically Stable Metal‐Organic Frameworks

Author

Sumanta Let, Shivani Sharma, Subhajit Dutta, Sujit K. Ghosh, and Debanjan Mahato

Subjects

Personal account, 010405 organic chemistry, General Chemical Engineering, Water pollutants, Porous Coordination Polymers, General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Inorganic pollutants, 0104 chemical sciences, Contaminated water, Wastewater, Environmental chemistry, Materials Chemistry, Environmental science, Metal-organic framework, Water pollution

Abstract

Water pollution and crisis of freshwater is one of the most alarming concern globally, which threatens the development and survival of living beings. Recycling of contaminated water has been the prime demand of 21st century as the area of contamination in natural waterbodies increasing rapidly worldwide. Detoxification and purification of wastewater via adsorptive removal technology has been proven to be more efficient because of it's simplicity, lesser complexity and cost-effectiveness. As the most rapid-growing division of coordination chemistry, porous coordination polymers (PCPs) or metal-organic frameworks (MOFs) with the liberty of crafting tailorable porous architecture and presence of numerous functional sites have become quintessential for recognition and sequestration of water pollutants. This personal account intends to highlight our recent contributions in the field of sensing and sequestration of toxic aquatic inorganic pollutants by functionalized water stable MOFs.

Published

2021

18. Occurrence, distribution, and pollution indices of potentially toxic elements within the bed sediments of the riverine system in Pakistan

Author

Shah Faisal, Zia Ur Rahman, Abdur Rahman, Waleed Raziq, Sardar Khan, Abid Ali, Sajid Ullah, Riaz Ahmad, Zia Ud Din, Hamza Khan, Javed Nawab, Mazhar Iqbal Zafar, and Muhammad Qayash Khan

Subjects

Pollution, Geologic Sediments, Cost-Benefit Analysis, Health, Toxicology and Mutagenesis, media_common.quotation_subject, chemistry.chemical_element, Zinc, 010501 environmental sciences, 01 natural sciences, Rivers, Environmental Chemistry, Ecotoxicology, Pakistan, Water Pollutants, Effluent, Ecosystem, 0105 earth and related environmental sciences, media_common, Sediment, General Medicine, Contamination, Mercury (element), chemistry, Environmental chemistry, Environmental science, Enrichment factor, Environmental Monitoring

Abstract

Potentially toxic elements (PTEs) are a major source of pollution due to their toxicity, persistence, and bio-accumulating nature in riverine bed sediments. The sediment, as the largest storage and source of PTEs, plays an important role in transformation of mercury (Hg), lead (Pb), nickel (Ni), chromium (Cr), copper (Cu), zinc (Zn), and other toxic PTEs. Several important industrial hubs that contain a large population along the banks of different rivers, such as Kabul, Sutlej, Ravi, Jhelum, and Chenab in Pakistan, are acting as major sources of PTEs. In this study, 150 bed sediment samples (n=30 from each river) were collected from different sites. Total (acid extracted) PTE (Hg, Cu, Cr, Ni, Zn, and Pb) concentrations in bed sediments were determined using inductively coupled plasma mass spectrometry (ICP-MS). Sediment pollution indices were calculated in the major rivers of Pakistan. The results demonstrated high levels of Hg and Ni concentrations which exceeded the guideline standards of river authorities in the world. The contamination factor (CF) and contamination degree (CD) indices for Hg, Ni, and Pb showed a moderate to high (CF≥6 and CD≥24) contamination level in all the selected rivers. The values of geo-accumulation index (Igeo) were also high (Igeo≥5) for Hg and Pb and heavily polluted for Ni, while Cr, Cu, and Zn showed low to unpolluted (Igeo) values. Similarly, the enrichment factor (EF) values were moderately severe (5≤EF≤10) for Hg, Pb, and Ni in Sutlej, Ravi, and Jhelum, and severe (10≤EF≤25) in Kabul and Jhelum. Moreover, Hg and Ni showed severe to very severe enrichment in all the sampling sites. The ecological risk index (ERI) values represented considerable, moderate, and low risks, respectively, for Hg (The ERI value should not be bold. Please unbold the ERI in the whole paper. It should be same like RI, CD and EF. $$ \mathtt{80}\ge \mathtt{ERI} $$ ≥160), Pb and Ni (40≤ $$ \mathtt{ERI} $$ ≤80), and Cr, Cu, and Zn ( $$ \mathtt{ERI} $$ ≤40). Similarly, potential ecological risk index (PERI) values posed considerable (300≤RI≤600) risk in Ravi and moderate (150≤RI≤300) in Kabul and Jhelum, but low (RI≤150) risk in Ravi and Chenab. On the basis of the abovementioned results, it is concluded that bed sediment pollution can be dangerous for both ecological resources and human beings. Therefore, PTE contamination should be regularly monitored and a cost-effective and environmentally friendly wastewater treatment plant should be installed to ensure removal of PTEs before the discharge of effluents into the freshwater ecosystems.

Published

2021

19. A field-scale remediation of residual light non-aqueous phase liquid (LNAPL): chemical enhancers for pump and treat

Author

Paolo Rizzetto, Marco Petrangeli Papini, Carlo Esposito, Gian Piero Deidda, Giorgio Cassiani, and Paolo Ciampi

Subjects

chemical, Environmental remediation, light non-aqueous phase liquid desorption, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, Aquifer, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, groundwater, Vadose zone, Environmental Chemistry, hydrocarbons, hydrocarbon contamination, 0105 earth and related environmental sciences, petroleum, Pollutant, geography, residual hydrocarbons, geography.geographical_feature_category, hydrogeophysical monitoring, Environmental engineering, Contaminant remediation, General Medicine, Human decontamination, Contamination, Pollution, pilot test, 020801 environmental engineering, water pollutants, environmental pollution, water pollutants, chemical, Light non-aqueous phase liquid, Short Research and Discussion Article, Environmental science, Water Pollutants, Chemical, Groundwater

Abstract

The remediation of petroleum-contaminated soil and groundwater is a challenging task. The petroleum hydrocarbons have a long persistence in both the vadose zone and in the aquifer and potentially represent secondary and residual sources of contamination. This is particularly evident in the presence of residual free-phase. Pump-and-treat is the most common hydrocarbon decontamination strategy. Besides, it acts primarily on the water dissolved phase and reduces concentrations of contaminants to an asymptotic trend. This study presents a case of enhanced light non-aqueous phase liquid (LNAPL) remediation monitored using noninvasive techniques. A pilot-scale field experiment was conducted through the injection of reagents into the subsoil to stimulate the desorption and the oxidation of residual hydrocarbons. Geophysical and groundwater monitoring during pilot testing controlled the effectiveness of the intervention, both in terms of product diffusion capacity and in terms of effective reduction of pollutant concentrations. In particular, non-invasive monitoring of the reagent migration and its capability to reach the target areas is a major add-on to the remediation technique. Most of the organic contaminants were decomposed, mobilized, and subsequently removed using physical recovery techniques. A considerable mass of contaminant was recovered resulting in the reduction of concentrations in the intervention areas.

Published

2021

20. A dosage-effect assessment of acute toxicology tests of microplastic exposure in filter-feeding fish

Author

Jun Wang, Qiujie Wang, Zhengkun Pan, Chaonan Zhang, Shaolin Xie, Guohuan Xu, Aiguo Zhou, Li Zhang, Shaodan Wang, Jixing Zou, Qiao Ye, and Fang Zeng

Subjects

0301 basic medicine, Gill, Microplastics, Carps, Zoology, Particle (ecology), Aquatic Science, 03 medical and health sciences, Toxicity Tests, Acute, Animals, Environmental Chemistry, Water Pollutants, Silver carp, Hypophthalmichthys, Dose-Response Relationship, Drug, biology, Aquatic ecosystem, Filter feeder, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, Microspheres, Acute toxicity, Intestines, Oxidative Stress, 030104 developmental biology, 040102 fisheries, Polystyrenes, 0401 agriculture, forestry, and fisheries, Particulate Matter, sense organs, Biomarkers

Abstract

Abundant microplastics was found in aquatic ecosystem and aquatic organisms, which raised many concerns in public. Silver carp (Hypophthalmichthys molitrix), a species filter-feeding planktivorous fish, feed on particle between 4 and 85 μm in size, and the respiratory process works together with feeding mechanism when filtering plankton from water. The aim of this study was to assess the physiological response of silver carp exposed to 5 μm polystyrene microspheres during 48 h of exposure followed by 48 h of depuration through the gill histology, and oxidative stress biomarkers in intestine. The results revealed that microplastics can pass through the whole digestive tract of silver carp and be excreted by feces. Low microplastic concentration (80 μg/L) induced oxidative stress and up-regulation of TUB84 and HSP70 gene in intestine, and silver carp have ability to recover after the exposure to microplastic was removed. High microplastic concentration (800 μg/L) definitely cause significant damage to gills and intestines, in this situation, far beyond the possibility of fish own repair, and even when the threaten removed, silver carp can't recovery soon. Our studies assessed the dosage-effect relationship with physiological stress on silver carp when exposure to microplastics.

Published

2021

21. Occurrence and removal of pharmaceuticals in wastewater treatment plants

Author

Puganeshwary Palaniandy and Omar Fawzi Suleiman Khasawneh

Subjects

021110 strategic, defence & security studies, Environmental Engineering, General Chemical Engineering, Aquatic ecosystem, Water pollutants, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Toxicology, Wastewater, Environmental risk, Aquatic environment, Environmental Chemistry, Environmental science, Sewage treatment, Safety, Risk, Reliability and Quality, Effluent, 0105 earth and related environmental sciences, Environmental risk assessment

Abstract

Pharmaceutical compounds, such as antibiotics, nonsteroidal anti-inflammatory drugs (NSAIDs), anticonvulsants, β-blocker, etc. have emerged as new classes of water pollutants due to their potential or proven adverse effects on human health and the aquatic environment. This paper aims to systematically review the current data available on the global occurrence and removal of 43 pharmaceutical compounds in municipal wastewater treatment plants (M-WWTPs) in the period from 2010 to 2020. Moreover, this work intends to assess the global daily mass load and emissions of pharmaceuticals in different regions. Nevertheless, the environmental risk of pharmaceuticals in the final effluents of M-WWTPs was also evaluated. Lastly, the guidelines and regulations concerning the occurrence of pharmaceuticals in the aquatic environment were summarized and discussed. The findings highlighted that there is significant variation in the concentrations of pharmaceuticals between different regions. Meanwhile, the concentrations of pharmaceuticals in the influents of Asian region tend to be higher than those in other monitored regions. In this respect, the highest average daily mass loads were observed for acetaminophen (473 g/1000 in./day) and atenolol (592 g/1000 in./day), while amoxicillin (944 g/day), sulfamethoxazole (688.38 g/day) recorded the highest daily emissions. The environmental risk assessment based on the risk quotient (RQ) showed that twelve of the monitored pharmaceuticals pose a high potential risk to the aquatic ecosystems. The emphasized guidelines and regulations laid focus on the measures that can be used to mitigate the occurrence of pharmaceuticals in the environment. Research needs and future recommendations are also identified and proposed.

Published

2021

22. Spatial and temporal distribution of surface water contaminants in the Houston Ship Channel after the Intercontinental Terminal Company Fire

Author

Thomas J. McDonald, Ivan Rusyn, Suji Jang, Sharmila Bhandari, and Weihsueh A. Chiu

Subjects

Epidemiology, BTEX, 030501 epidemiology, Xylenes, Toxicology, Spatial distribution, Article, Fires, 03 medical and health sciences, chemistry.chemical_compound, Hazardous waste, Benzene Derivatives, Animals, Humans, Suspended solids, geography, volatile organic compounds (VOCs), geography.geographical_feature_category, Deer, Public Health, Environmental and Occupational Health, Water, Benzene, Contamination, Pollution, disaster response, chemistry, water pollutants, Environmental chemistry, Environmental science, Petroleum, 0305 other medical science, Surface water, Channel (geography), Environmental Monitoring, Toluene

Abstract

Background The fire at the Intercontinental Terminals Company (ITC, Deer Park, La Porte, TX, USA) from March 17 to 20, 2019 resulted in substantial releases of chemical contaminants to the environment, including the surface waters of the Houston Ship Channel. Objective To characterize spatial and temporal trends, as well as potential human health risks, from these releases. Methods Out of 433 substances with available data, seven were selected for analysis: benzene, toluene, ethylbenzene, xylenes, oil and grease, suspended solids, and total petroleum hydrocarbons. Spatial and temporal concentration trends were characterized, and hazard quotients and cancer risks were calculated to estimate the potential for human health impacts from these contaminants. Results Temporal analysis showed presence of these chemical contaminants in water immediately after the event; their concentrations dissipated substantially within 4 weeks. The spatial distribution of contaminants indicated the highest concentrations in the waterways within about 1 km of the ITC. The greatest potential human health risks stemmed from presence of benzene. Significance A short-term but substantial spike in the concentrations of a number of hazardous contaminants occurred near the incident, with concentrations returning to apparent baseline levels within 1 month likely due to a combination of volatization, dilution and degradation.

Published

2021

23. MXenes and MXene-based Materials for the Removal of Water Pollutants: Challenges and Opportunities

Author

Siavash Iravani and Mehrdad Khatami

Subjects

Inorganic Chemistry, Pollutant, 010405 organic chemistry, Chemistry, Water pollutants, Environmental chemistry, Heavy metals, Chemical stability, 010402 general chemistry, MXenes, 01 natural sciences, 0104 chemical sciences

Abstract

Two-dimensional MXenes with their attractive applicability and unique properties such as eco-friendly features, large surface area, remarkable chemical stability, high thermal/electrical conductivi...

Published

2021

24. Higher Fine Particle Fraction in Sediment Increased Phosphorus Flux to Estuary in Restored Yellow River Basin

Author

Weihong Zhu, Baodong Wang, Mats Tysklind, Wei Ouyang, Yidi Wang, Mengchang He, Andrea Critto, Chunye Lin, Haotian Wu, and Xuelei Wang

Subjects

Pollution, China, Geologic Sediments, media_common.quotation_subject, Drainage basin, chemistry.chemical_element, Chemical, 010501 environmental sciences, 01 natural sciences, phosphorus flux, remote sensing, Flux (metallurgy), Rivers, sedimentary chronology, Environmental Chemistry, Water Pollutants, Settore CHIM/12 - Chimica dell'Ambiente e dei Beni Culturali, 0105 earth and related environmental sciences, media_common, Hydrology, geography, geography.geographical_feature_category, diffuse pollution, Phosphorus, Sediment, Estuary, General Chemistry, Yellow River deltaic estuary, chemistry, fine particle, Environmental Monitoring, Estuaries, Water Pollutants, Chemical, Environmental science, Sedimentary rock, Particle size

Abstract

River delta-front estuaries (DEs) are vital interfaces for fluxes between terrestrial and marine environments. However, deep uncertainty exists in estimating the sedimentary pollutant flux from terrestrial environments in DEs due, in part, to a lack of direct measurements in these dynamic and complicated regions and uncertainty in the calculation method. Due to its high sediment content, the Yellow River (YR) has a strong ability to adsorb phosphorus; therefore, it reliably reflects estuarine sedimentary processes. Here, through the comprehensive analysis of field samples, monitoring data and remote sensing images, we conclude that riverine fine particles control the deltaic estuary pollution status and that particle size is the key factor. Based on the stable relationships between phosphorus and heavy metals, with r2 values of 0.990, 0.992, and 0.639 for As, Cd, and Cr, respectively, we estimated that the P flux reached 22.68 g/m2 yr in 2017. Analysis of the YR high-silt sediment load, which has a strong phosphorus adsorption ability and constitutes a substantial fraction of global fluvial sediment transport, revealed a negative correlation between the riverine sediment load and the estuarine phosphorus flux.

Published

2021

25. Using Estrogenic Activity and Nontargeted Chemical Analysis to Identify Contaminants in Sewage Sludge

Author

Gabrielle P Black, Thomas M. Young, Guochun He, and Michael S. Denison

Subjects

Estrone, Sewage, Chemical, 010501 environmental sciences, 01 natural sciences, Article, Water Purification, chemistry.chemical_compound, Environmental Chemistry, Bioassay, Water Pollutants, 0105 earth and related environmental sciences, Chemistry, business.industry, Estrogens, General Chemistry, Diisobutyl phthalate, Contamination, Oleic acid, Environmental chemistry, Sewage treatment, business, Water Pollutants, Chemical, Environmental Sciences, Sludge, Mesophile

Abstract

Diverse organic compounds, many derived from consumer products, are found in sewage sludge worldwide. Understanding which of these poses the most significant environmental threat following land application can be investigated through a variety of predictive and cell-based toxicological techniques. Nontargeted analysis using high-resolution mass spectrometry with predictive estrogenic activity modeling was performed on sewage sludge samples from 12 wastewater treatment plants in California. Diisobutyl phthalate and dextrorphan were predicted to exhibit estrogenic activity and identified in >75% of sludge samples, signifying their universal presence and persistence. Additionally, the application of an estrogen-responsive cell bioassay revealed reductions in agonistic activity during mesophilic and thermophilic treatment but significant increases in antagonism during thermophilic treatment, which warrants further research. Ten nontarget features were identified (metoprolol, fenofibric acid, erythrohydrobupropion, oleic acid, mestranol, 4'-chlorobiphenyl-2,3-diol, medrysone, scillarenin, sudan I, and N,O-didesmethyltramadol) in treatment set samples and are considered to have influenced the in vitro estrogenic activity observed. The combination of predictive and in vitro estrogenicity with nontargeted analysis has led to confirmation of 12 estrogen-active contaminants in California sewage sludge and has highlighted the importance of evaluating both agonistic and antagonistic responses when evaluating the bioactivity of complex samples.

Published

2021

26. Optical nanosensors based on fluorescent carbon dots for the detection of water contaminants: a review

Author

Shaikh M. Mobin, Vinay Sharma, Navpreet Kaur, and Pranav Tiwari

Subjects

Pollutant, Carbon dot, Materials science, Water contaminants, Water pollutants, chemistry.chemical_element, Nanotechnology, 02 engineering and technology, 010501 environmental sciences, Contamination, 021001 nanoscience & nanotechnology, 01 natural sciences, Fluorescence, chemistry, Nanosensor, Environmental Chemistry, 0210 nano-technology, Carbon, 0105 earth and related environmental sciences

Abstract

The increasing contamination of environmental media is a serious health issue requiring advanced methods to detect actual and emerging pollutants. In particular, high-sensitivity sensors for monitoring water pollutants are under deep investigation. Here, we review the synthesis, optical properties and applications of carbon dots for sensing contaminants in water samples. Fluorescence-based sensors have achieved ultrasensitive detection at nanomolar to picomolar concentrations. Carbon dot sensors have unique advantages such as biocompatibility, easy preparation, optical activity and wide applicability.

Published

2021

27. Comment on 'Suspect and Nontarget Screening of Per- and Polyfluoroalkyl Substances in Wastewater from a Fluorochemical Manufacturing Park'

Author

Yingting Jia, Qiyue Kang, Xiaohua Zhang, Qiang Li, Lei Wang, and Jianying Hu

Subjects

Waste management, Wastewater, Chemistry, Water pollutants, Environmental Chemistry, General Chemistry, Suspect

Published

2021

28. Isolating the AFFF Signature in Coastal Watersheds Using Oxidizable PFAS Precursors and Unexplained Organofluorine

Author

Elsie M. Sunderland, Denis R. LeBlanc, Andrea K Tokranov, Chad D. Vecitis, Colin P. Thackray, Xindi C. Hu, Heidi M. Pickard, and Bridger J. Ruyle

Subjects

Alkanesulfonates, Fluorocarbons, Extramural, Water pollutants, Water, Bayes Theorem, General Chemistry, 010501 environmental sciences, Contamination, 01 natural sciences, Multivariate clustering, Environmental chemistry, Humans, Environmental Chemistry, Environmental science, Water Pollutants, Chemical, 0105 earth and related environmental sciences

Abstract

Water supplies for millions of U.S. individuals exceed maximum contaminant levels for per- and polyfluoroalkyl substances (PFAS). Contemporary and legacy use of aqueous film forming foams (AFFF) is a major contamination source. However, diverse PFAS sources are present within watersheds, making it difficult to isolate their predominant origins. Here we examine PFAS source signatures among six adjacent coastal watersheds on Cape Cod, MA, U.S.A. using multivariate clustering techniques. A distinct signature of AFFF contamination enriched in precursors with six perfluorinated carbons (C6) was identified in watersheds with an AFFF source, while others were enriched in C4 precursors. Principal component analysis of PFAS composition in impacted watersheds showed a decline in precursor composition relative to AFFF stocks and a corresponding increase in terminal perfluoroalkyl sulfonates with < C6 but not those with ≥ C6. Prior work shows that in AFFF stocks, all extractable organofluorine (EOF) can be explained by targeted PFAS and precursors inferred using Bayesian inference on the total oxidizable precursor assay. Using the same techniques for the first time in impacted watersheds, we find that only 24%-63% of the EOF can be explained by targeted PFAS and oxidizable precursors. Our work thus indicates the presence of large non-AFFF organofluorine sources in these coastal watersheds.

Published

2021

29. Nontargeted Discovery of Novel Contaminants in the Great Lakes Region: A Comparison of Fish Fillets and Fish Consumers

Author

Sujan Fernando, Sadjad Fakouri Baygi, Bernard S. Crimmins, Philip K. Hopke, and Thomas M. Holsen

Subjects

Michigan, Chemistry, Water pollutants, Fishes, Fish fillet, General Chemistry, 010501 environmental sciences, Pesticide, Contamination, 01 natural sciences, Lakes, Tandem Mass Spectrometry, Bioaccumulation, Environmental chemistry, Animals, Humans, Environmental Chemistry, Great Lakes Region, %22">Fish , Retention time, Water Pollutants, Chemical, Environmental Monitoring, 0105 earth and related environmental sciences

Abstract

Sport fish fillets and human sera (fish consumers) were collected in the Lake Superior and Lake Michigan basin and screened for novel contaminants using the isotopic profile deconvoluted chromatogram (IPDC) algorithm. The IPDC algorithm was extended beyond traditional Cl/Br filters to detect additional potential bioaccumulative and toxic (PBT) such as perfluoroalkyl substances (PFAS). The IPDC algorithm screened for approximately 13.5 million theoretical molecular formulas. Additional algorithm modules were developed to detect data independent MS/MS fragmentation products and a retention time index calculator using a series of 13C-labeled perfluoroalkyl carboxylic acids (13C-PFCAs). Ten potential compound classes were isolated including six untargeted PFAS, six homologue groups of polyfluorinated carboxylic acids, polyfluorinated telomer alcohols (PoFTOHs), two hydroxylated polychlorobiphenyls, pesticides, herbicides, antifungals, pharmaceuticals, artificial sweeteners, and personal care products with minimal postprocessing efforts. The algorithm isolated 48 ubiquitous PoFTOHs in both fish fillet and serum of fish consumers suggesting a region wide distribution of this class of compounds. The 3, 4, and 7 fluorine substituted PoFTOH were the most abundant congeners in both biological matrices.

Published

2021

30. Effect of Groundwater Age and Recharge Source on Nitrate Concentrations in Domestic Wells in the San Joaquin Valley

Author

Ate Visser, Giovanni Castaldo, Thomas Harter, and Graham E. Fogg

Subjects

Irrigation, Environmental remediation, δ18O, Water Wells, Chemical, Aquifer, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, Nitrate, Environmental Chemistry, Water Pollutants, Groundwater, 0105 earth and related environmental sciences, Hydrology, geography, Nitrates, geography.geographical_feature_category, General Chemistry, Groundwater recharge, chemistry, Environmental science, San Joaquin, Water Pollutants, Chemical, Environmental Sciences, Environmental Monitoring

Abstract

Nitrate is one of the most abundant contaminants in groundwater globally, in the United States, and in California (CA). We studied well construction information, water chemistry, stable isotopes, and noble gases to understand how groundwater travel time and recharge source and mechanism control nitrate concentrations in domestic wells in the San Joaquin Valley (SJV), CA, a large semiarid, irrigated agricultural region. Using nonparametric statistics, we find a decreasing trend in nitrates with groundwater travel time and well depth. Samples collected from wells that are closer to rivers and that show indications of river water recharge, either low recharge temperature or low δ18O signature, have lower concentrations of nitrates than samples with isotopic signatures indicating mixed source or local precipitation recharge. The curbing effect of river water recharge on nitrate concentrations in domestic wells is similar for direct river recharge and water applied as irrigation. This suggests that irrigation with river water also has a diluting effect that reduces the concentration of nitrate found in groundwater. This conclusion supports the idea that flood-managed aquifer recharge may be considered for remediation of groundwater nitrate when designing replenishment of aquifers.

Published

2021

31. Remediation of cationic and anionic dyes from water by histidine modified mesoporous silica

Author

Abdullah M. Alswieleh

Subjects

Textile, business.industry, Environmental remediation, Chemistry, Health, Toxicology and Mutagenesis, Water pollutants, 010401 analytical chemistry, Public Health, Environmental and Occupational Health, Cationic polymerization, Soil Science, 010501 environmental sciences, Mesoporous silica, 01 natural sciences, Pollution, 0104 chemical sciences, Analytical Chemistry, Chemical engineering, Adsorption method, Organic dye, Environmental Chemistry, business, Waste Management and Disposal, Histidine, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

The organic dye is one of the most problematic water pollutants in the vicinity of leather and textile industries. Adsorption method via functional materials can be considered as an effective method for dye removal from wastewater. In present work, the synthesis of mesoporous silica nanoparticles (MSNs) functionalised with histidine (MSN-His) has been reported for simultaneous removal of methylene blue (MB) and phenol red (PR) from an aqueous solution. The properties of nanoparticles were characterised in terms of size, surface area and surface modification using a scanning electron microscope (SEM), transmission electron microscope (TEM) and Fourier transform infrared (FT-IR). The influence of various factors including the contact time, the initial concentration of the adsorbate and pH of the medium on the MB and PR adsorption efficiencies were investigated. The maximum adsorption capacity was calculated to be ca. 65 mg/g for MB in basic media, and ca. 55 mg/g for PR in acidic media. The adsorption isotherm is fitted with Freundlich for all solutions. The maximum removal efficiency was ca. 70% for MB in basic media and PR in acidic media after second cycle.

Published

2021

32. Nonylphenol, Octylphenol, and Nonylphenol Ethoxylates Dissemination in the Canadian Freshwater Environment

Author

Benoit Lalonde and Christine Garron

Subjects

Canada, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, Fresh Water, Wastewater, 010501 environmental sciences, Toxicology, 01 natural sciences, Water Purification, chemistry.chemical_compound, Phenols, Environmental monitoring, Ecotoxicology, 0105 earth and related environmental sciences, Water pollutants, General Medicine, Pollution, Nonylphenol, chemistry, Environmental chemistry, Environmental science, Ethylene Glycols, Water treatment, Water quality, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Nonylphenol, octylphenol, and nonylphenol ethoxylates are manmade compounds that are only discharged in the environment due to anthropogenic activities. The objectives of this study were to determine the current concentrations of these substances in the Canadian freshwater environment and to determine if past regulatory actions were beneficial to the environment. Freshwater samples (n = 241) were collected and analysed for 4-nonylphenols (NP), nonylphenol monoethoxylate (NP1EO), nonylphenol diethoxylate (NP2EO), and octylphenols at 35 sites in Canada from 2014 to 2019 with individual compound concentrations ranging from 1.29 to 477.22 ng/L. In addition, 18–65% of the samples were reported to be under the laboratory detection limit, depending on the compound. Sampling sites were categorised into five groups based on the dominant activities present upstream in their watersheds: mixed use sites; municipal waste water treatment plant (MWWTP)-associated sites; textile mill-associated sites; urban; and reference sites. All four compounds in the study were detected more frequently in urban and MWWTP-associated sites than at other locations. Additionally, there is a statistically significant (p

Published

2021

33. Research progresses on the application of perovskite in adsorption and photocatalytic removal of water pollutants

Author

Lei Huang, Xuanjie Huang, Jia Yan, Yonghui Liu, Hao Jiang, Hongguo Zhang, Jinfeng Tang, and Qiang Liu

Subjects

Oxygen, Environmental Engineering, Health, Toxicology and Mutagenesis, Environmental Chemistry, Water, Water Pollutants, Environmental Pollutants, Adsorption, Wastewater, Pollution, Waste Management and Disposal, Water Pollutants, Chemical

Abstract

The problem of global water pollution and scarcity of water resources is becoming increasingly serious. Multifunctional perovskites can well drive adsorption and photocatalytic reactions to remove water pollutants. There are many advantages of perovskites, such as abundant oxygen vacancies, easily tunable structural morphology, stable crystal state, highly active metal sites, and a wide photo response range. However, there are few reviews on the simultaneous application of perovskite to adsorption and photocatalytic removal of water pollutants. Thus, this paper discusses the preparation methods of perovskite, the factors affecting the adsorption of water environmental pollutants by perovskite, and the factors affecting perovskite photocatalytic water pollutants. The particle size, specific surface area, oxygen vacancies, electron-hole trapping agents, potentials of the valence band, and conduction band in perovskites are significant influencing factors for adsorption and photocatalysis. Strategies for improving the performance of perovskites in the fields of adsorption and photocatalysis are discussed. The adsorption behaviors and catalytic mechanisms are also investigated, including adsorption kinetics and thermodynamics, electrostatic interaction, ion exchange, chemical bonding, and photocatalytic mechanism. It summarizes the removal of water pollutants by using perovskites. It provides the design of perovskites as high-efficiency adsorbents and catalysts for developing new technologies.

Published

2022

34. Unravelling the emerging carcinogenic contaminants from industrial waste water for prospective remediation by electrocoagulation - A review

Author

Madhavan Yasasve, Muralidharan Manjusha, Dhinakaran Manojj, N.M. Hariharan, P. Sai Preethi, Perumal Asaithambi, Natchimuthu Karmegam, and Muthupandian Saravanan

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Industrial Waste, General Medicine, General Chemistry, Wastewater, Pollution, Waste Disposal, Fluid, Metals, Heavy, Carcinogens, Electrocoagulation, Environmental Chemistry, Humans, Water Pollutants, Prospective Studies, Oils, Water Pollutants, Chemical

Abstract

The need of the hour relies on finding new but sustainable ways to curb rising pollution levels. The accelerated levels of urbanization and increase in population deplete the finite resources essential for human sustenance. In this aspect, water is one of the non-renewable sources that is running out very fast and is polluted drastically day by day. One way of tackling the problem is to reduce the pollution levels by decreasing the usage of chemicals in the process, and the other is to find ways to reuse or reduce the contaminants in the effluent by treatment methods. Most of the available water recycling or treatment methods are not sustainable. Some of them even use toxic chemicals in the processing steps. Treatment of organic wastes from industries is a challenging task as they are hard to remove. Electrocoagulation is one of the emerging water treatment technologies that is highly sustainable and has a comparatively cheaper operating cost. Being a broad-spectrum treatment process, it is suitable for treating the most common water pollutants ranging from oils, bacteria, heavy metals, and others. The process is also straightforward, where electrical current is used to coagulate the contaminates. The presence of carcinogens in these waste water increases the need for its treatment towards further use. The present investigation is made as an extensive analysis of the emerging carcinogens and their various sources from process industries, especially in the form of organic waste and their removal by electrocoagulation and its coupled techniques. The paper also aims to ascertain why the electrocoagulation technique may be a better alternative compared with other methods for the removal of carcinogens in organic wastewater, an analysis which has not been explored before.

Published

2022

35. Hirudo verbana as a freshwater invertebrate model to assess the effects of polypropylene micro and nanoplastics dispersion in freshwater

Author

Nicolò Baranzini, Laura Pulze, Camilla Bon, Lorella Izzo, Stefania Pragliola, Vincenzo Venditto, and Annalisa Grimaldi

Subjects

Innate immune response, Microplastics, Chemical, Fresh Water, General Medicine, Chronic inflammation, Aquatic Science, Polypropylenes, Invertebrates, Medicinal leech, Plastic pollution, Polypropylene, Animals, Ecosystem, Humans, Plastics, Water Pollutants, Chemical, Environmental Chemistry, Water Pollutants

Abstract

Plastics are a heterogeneous class of synthetic compounds that, due to their unique characteristics find numerous applications both in industrial and civil fields. However, despite the great advantages that these materials brought in everyday life, the plastic wastes resulting from their massive use represent one of the main environmental problems at the global level. Once released, plastics persist for a long time and are subjected both to biotic and abiotic processes leading to the formation of small particles, known as micro and to nanoplastics, that interact with organisms, accumulating inside tissues and risking to enter in the trophic chain. Among the different types of plastic, polypropylene (PP) is one of the diffused, widely exploited in food and textile industries for disposable packaging and to produce surgical masks. Owing to the huge distribution and the resultant abundant presence of PP waste products, it results necessary investigate the possible toxicity on living organisms. For these reasons, here we analyzed the effects of PP micro and nanoplastics dispersed in freshwater, using the medicinal leech Hirudo verbana as invertebrate model. To better follow the plastics fate, fluorescent particles, labeled with a fluorophore, have been used. Animals were examined at various timings after plastics exposure and results were analyzed by means of microscopy, immunofluorescent and molecular biology analyses. After assessing the entrance of PP fragments into leech tissues, the activation of the innate immune response was evaluated. The results show that the presence of micro and nanoplastics induces an initial physical protection that consists in the secretion of mucus, followed by an increase of blood vessels and the recruitment of immune cells, in particular macrophages. Moreover, macrophages were directly involved in both phagocytic and encapsulation processes, as demonstrated by acid phosphatase (ACP) histoenzymatic and Thioflavin-T assays, expressing specific pro-inflammatory factors, such as HvRNASET2 and HmAIF-1, as demonstrated by immunolocalization and qPCR experiments. Finally, the expression levels of genes related to oxidative stress-induced enzymes have been investigated, in order to evaluate the possible increase in reactive oxygen species (ROS), due to the entry into the leech tissues of PP micro and nanoplastics. This work allows deepening the current knowledge of the possible harmful effects on human health deriving from micro and nanoplastics dispersion, leading new insight about freshwater ecosystems that often represent the first environments interested in plastic pollution.

Published

2022

36. PyLEnM: A Machine Learning Framework for Long-Term Groundwater Contamination Monitoring Strategies

Author

Aurelien O. Meray, Savannah Sturla, Masudur R. Siddiquee, Rebecca Serata, Sebastian Uhlemann, Hansell Gonzalez-Raymat, Miles Denham, Himanshu Upadhyay, Leonel E. Lagos, Carol Eddy-Dilek, and Haruko M. Wainwright

Subjects

Gaussian process model, Water Wells, groundwater contamination, Chemical, General Chemistry, unsupervised learning, Machine Learning, spatial estimation, Environmental Chemistry, Water Pollutants, open-source package, sensor placement optimization, Groundwater, Water Pollutants, Chemical, Environmental Sciences, Environmental Monitoring

Abstract

In this study, we have developed a comprehensive machine learning (ML) framework for long-term groundwater contamination monitoring as the Python package PyLEnM (Python for Long-term Environmental Monitoring). PyLEnM aims to establish the seamless data-to-ML pipeline with various utility functions, such as quality assurance and quality control (QA/QC), coincident/colocated data identification, the automated ingestion and processing of publicly available spatial data layers, and novel data summarization/visualization. The key ML innovations include (1) time series/multianalyte clustering to find the well groups that have similar groundwater dynamics and to inform spatial interpolation and well optimization, (2) the automated model selection and parameter tuning, comparing multiple regression models for spatial interpolation, (3) the proxy-based spatial interpolation method by including spatial data layers or in situ measurable variables as predictors for contaminant concentrations and groundwater levels, and (4) the new well optimization algorithm to identify the most effective subset of wells for maintaining the spatial interpolation ability for long-term monitoring. We demonstrate our methodology using the monitoring data at the Savannah River Site F-Area. Through this open-source PyLEnM package, we aim to improve the transparency of data analytics at contaminated sites, empowering concerned citizens as well as improving public relations.

Published

2022

37. Assessing Human Health Risks from Per- and Polyfluoroalkyl Substance (PFAS)-Impacted Vegetable Consumption: A Tiered Modeling Approach

Author

Christopher P. Higgins, Jennifer A. Arblaster, Juliane B. Brown, and Jason M. Conder

Subjects

Adult, 010501 environmental sciences, 01 natural sciences, Fifth percentile, Irrigation water, chemistry.chemical_compound, Human health, Environmental health, Vegetables, Humans, Environmental Chemistry, Child, Groundwater, 0105 earth and related environmental sciences, Fluorocarbons, Dietary exposure, Drinking Water, Water pollutants, General Chemistry, Perfluorooctane, Alkanesulfonic Acids, chemistry, Child, Preschool, Reference values, Environmental science, Caprylates, Water Pollutants, Chemical

Abstract

Irrigation water or soil contaminated with per- and polyfluoroalkyl substances (PFASs) raises concerns among regulators tasked with protecting human health from potential PFAS-contaminated food crops, with several studies identifying crop uptake as an important exposure pathway. We estimated daily dietary exposure intake of individual PFASs in vegetables for children and adults using Monte Carlo simulation in a tiered stochastic modeling approach: exposures were the highest for young children (1-2 years > adults > 3-5 years > 6-11 years > 12-19 years). Using the lowest available human health toxicity reference values (RfDs) and no additional exposure, estimated fifth percentile risk-based threshold concentrations in irrigation water were 38 ng/L (median 180 ng/L) for perfluorooctanoate (PFOA) and 140 ng/L (median 850 ng/L) for perfluorooctane sulfonate (PFOS). Thus, consumption of vegetables irrigated with PFAS-impacted water that meets the current 70 ng/L of PFOA and PFOS U.S. Environmental Protection Agency's lifetime health advisory for drinking water may or may not be protective of vegetable exposures to these contaminants. Hazard analyses using real-world PFAS-contaminated groundwater data for a hypothetical farm showed estimated exposures to most PFASs exceeding available or derived RfDs, indicating water-to-crop transfer is an important exposure pathway for communities with PFAS-impacted irrigation water.

Published

2020

38. Transformation of Illicit Drugs and Pharmaceuticals in Sewer Sediments

Author

Jianfa Gao, Jochen F. Mueller, Zhiguo Yuan, Phong K. Thai, Jiaying Li, and Guangming Jiang

Subjects

Sewage, Illicit Drugs, business.industry, Water pollutants, Reproducibility of Results, Sediment, General Chemistry, Wastewater, 010501 environmental sciences, Biodegradation, Ph changes, 01 natural sciences, 6. Clean water, Environmental chemistry, Humans, Environmental Chemistry, Environmental science, Illicit drug, Sanitary sewer, business, Water Pollutants, Chemical, 0105 earth and related environmental sciences

Abstract

In-sewer stability of human excreted biomarkers is a critical factor of wastewater-based epidemiology in back-estimating illicit drug and pharmaceutical use in the community. Biomarker stability has been investigated in sewers with the presence of biofilms, but the understanding in sewer sediments is still lacking. This study for the first time employed a laboratory sediment reactor to measure 18 illicit drug and pharmaceutical biomarkers under gravity sewer environments with the presence of sediments. Biomarkers exhibited various stability patterns due to transformation processes occurring in the bulk wastewater and sediments. The attenuation of a biomarker by sediments is driven by complex processes involving biodegradation, diffusion, and sorption, which is directly proportional to the ratio of sediment surface area against wastewater volume. The sediment-driven transformation coefficients of biomarkers are higher than the accordingly biofilm-mediated rates because of stronger microbial activities in sediments. Additionally, the stability of most biomarkers was insensitive to the natural pH variation in sewers, except for a few compounds (e.g., methadone, ketamine, and paracetamol) susceptible to pH changes. In general, this study delineates the stability data of various biomarkers in gravity sewers with sediments, which are novel and long-missing information for wastewater-based epidemiology and improve the reliability of back-estimation in complex sewer networks.

Published

2020

39. Microplastic Occurrences in Sediments Collected from Marmara Sea-Istanbul, Turkey

Author

Hasan Saygin, Asli Baysal, and Gul Sirin Ustabasi

Subjects

Geologic Sediments, Microplastics, Turkey, Health, Toxicology and Mutagenesis, Population, 010501 environmental sciences, Toxicology, 01 natural sciences, Ecotoxicology, Seawater, Water Pollutants, education, 0105 earth and related environmental sciences, education.field_of_study, Istanbul turkey, Sediment, 04 agricultural and veterinary sciences, General Medicine, Contamination, Pollution, Debris, Environmental chemistry, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Plastic pollution, Environmental Monitoring

Abstract

Microplastics are persistent, synthetic polymers that have managed to spread even to the most remote places on earth. Studies reporting on the abundance of microplastics have recently increased worldwide, which has raised environmental concerns among scientific communities. Nevertheless, evidence of microplastic contamination from Turkey is limited even though the location is a critical point and the population is higher than most countries in the region. Thus, we aimed to detect microplastics in sediment samples collected from the Marmara Sea in Istanbul-Turkey. In this study, fourteen sediment samples were collected and sub-sampled, then plastic debris was extracted, quantified and characterized by the morphology and polymer structure. The result revealed that all of the samples contained microplastics, and their concentrations ranged between 0.3 and 85.6 g/kg sediment, and the most abundant plastic types were acrylonitrile butadiene styrene, ethylene vinyl acetate, and polystyrene.

Published

2020

40. Pollutant analysis using passive samplers: principles, sorbents, calibration and applications. A review

Author

Piotr Stepnowski, Monika Paszkiewicz, and Klaudia Godlewska

Subjects

Pollutant, Sorbent, 010504 meteorology & atmospheric sciences, business.industry, Water pollutants, Sampling (statistics), Sorption, 010501 environmental sciences, 01 natural sciences, Polar organic chemical integrative sampler, Calibration, Environmental Chemistry, Environmental science, Water pollution, Process engineering, business, 0105 earth and related environmental sciences

Abstract

Passive techniques are a constantly evolving method of monitoring water pollution, allowing the simultaneous sampling and concentration of selected chemical compounds. The most popular aqueous passive samplers are those in which sorbents are used as receiving phases, including: the Polar Organic Chemical Integrative Sampler (POCIS). Originally, POCIS contained the copolymer poly(divinylbenzene)-co-N-vinylpyrrolidone, which allowed the collection of analytes with 0 ≤ log Kow ≤ 5, The limitation of the use of conventional samplers for sampling water pollutants only with a specific polarity has resulted in the fact that innovative sorbents are used more and more in POCIS-like samplers. In recent years, application of several innovative sorbents in POCIS-like samplers, for example: mixed-mode ion exchange polymeric sorbents, ionic liquids, molecularly imprinted polymers and carbon nanotubes has been described. This is the first review in which the usability of classical and innovative sorbents used in passive techniques principles has been collected and compared, and it has been shown that the type of sorbent can significantly affect the efficiency of sampling pollutants in the aquatic environment. The major points are the following: 1) principle of operation, of passive samplers, 2) characteristics of POCIS and sorbents used as receiving phases, 3) sampler calibration methods and environmental factors affecting their operation, 4) a detailed description of the application possibilities of conventional and innovative sorbents used in POCIS-like samplers. This review shows the growing number of works on the use of innovative sorption materials to overcome limitation of originally designed POCIS, and the published results, allow us to conclude that the type of sorbent may be a key factor in increasing the applicability of POCIS-like samplers.

Published

2020

41. Degradation of sucralose present in Splenda® sweetener by TiO2 photocatalysis assisted with photo-Fenton

Author

Centro de Investigación y Desarrollo Tecnológico en Electroquímica, J.A. Hernández, A. Álvarez-Gallegos, S. Silva-Martínez, and A. Sandoval-González

Subjects

Pollutant, Sucralose, chemistry.chemical_compound, Chemistry, General Chemical Engineering, Environmental chemistry, Water pollutants, Photocatalysis, Degradation (geology), Mineralization (soil science)

Abstract

The pollutant legislation and its ecotoxicological dates recognize several water pollutants. However, there are others that have not yet been recognized as emerging organic pollutants because the damage that could be caused to the environment, especially in the water, is still unknown. For example, it is interesting to pay attention on Splenda because is increasingly consumed worldwide today. Splenda is one of the emerging pollutants that has not yet been formally declared as a pollutant, but there are some findings that show Splenda as a water pollutant, specifically the sucralose molecule, due to persistence in the environment. In this work, the mineralization of Splenda, in different initial concentrations (72 mg l-1, 144 mg l-1 and 288 mg l-1), was carried out by TiO2 photocatalysis assisted with photo-Fenton. Splenda mineralization is less than 58% by these processes when used separately; however, Splenda was mineralized 62.8% (72 mg l-1), 83.7% (144 mg l-1) and 58.8% (288 mg l-1) by TiO2 photocatalysis assisted with photo-Fenton at 2 h, 5 h and 5 h, respectively. In all cases, the mineralization followed a pseudo-first-order reaction.

Published

2020

42. Novel Disinfection Byproducts Formed from the Pharmaceutical Gemfibrozil Are Bioaccumulative and Elicit Increased Toxicity Relative to the Parent Compound in Marine Polychaetes (Neanthes arenaceodentata)

Author

Eric D. Nelson, Daniel Schlenk, Justin B. Greer, John M. Rimoldi, Junqian Zhang, Rama S.V. Gadepalli, Isaiah Edwards, and Nicolette E. Andrzejczyk

Subjects

biology, Chemistry, Water pollutants, Oryzias, General Chemistry, 010501 environmental sciences, Neanthes arenaceodentata, biology.organism_classification, 01 natural sciences, Acute toxicity, In vivo, Environmental chemistry, Bioaccumulation, Toxicity, medicine, Environmental Chemistry, Gemfibrozil, 0105 earth and related environmental sciences, medicine.drug

Abstract

Formation of halogenated disinfection byproducts (DBPs) from pharmaceutically active compounds has been observed in water supply systems following wastewater chlorination. Although research has been limited thus far, several studies have shown that halogenated DBPs may elicit increased toxicity compared to their parent compounds. For example, the lipid regulator gemfibrozil has been shown to form chlorogemfibrozil (Cl-gemfibrozil) and bromogemfibrozil (Br-gemfibrozil) following chlorination, which are more potent antiandrogens in male Japanese medaka (Oryzias latipes) compared to their parent compounds. In the present study, we aimed to characterize the bioaccumulative ability of halogenated gemfibrozil DBPs in marine polychaetes via chronic sediment exposures and, consequently, to assess the chronic and acute toxicity of halogenated gemfibrozil DBPs through sediment (in vivo) and aqueous (in vivo and in silico) toxicity evaluations. Following 28 day sediment exposures, Cl-gemfibrozil and Br-gemfibrozil bioaccumulated within Neanthes arenaceodentata, with both compounds reducing survival and growth. The biota-sediment accumulation factors determined for Cl-gemfibrozil and Br-gemfibrozil were 2.59 and 6.86, respectively. Furthermore, aqueous 96 h toxicity tests with N. arenaceodentata indicated that gemfibrozil DBPs elicited increased toxicity compared to the parent compound. While gemfibrozil had an acute LC50 value of 469.85 ± 0.096 mg/L, Cl-gemfibrozil and Br-gemfibrozil had LC50 values of 12.34 ± 0.085 and 9.54 ± 0.086 mg/L, respectively. Although acute toxicity is relatively low, our results indicate that halogenated gemfibrozil DBPs are bioaccumulative and may elicit effects in apex food web organisms prone to accumulation following lifelong exposures.

Published

2020

43. Distributed treatment systems

Author

Kyle Murray, Peter Bier, John Boyle, Caleb McCollum, Andrew Ng, Tim Flagg, Erick Martinez, and Nathaniel Sheehan

Subjects

Engineering, business.industry, Ecological Modeling, Water pollutants, Section (typography), Scientific literature, Waste Disposal, Fluid, Pollution, Construction engineering, Water Purification, Treatment management, Wastewater, Management system, Environmental Chemistry, business, Waste Management and Disposal, Water Science and Technology, Waste disposal, Removal techniques

Abstract

This section presents a review of the scientific literature published in 2019 on topics relating to distributed treatment systems. This review is divided into the following sections: constituent removal, treatment technologies, planning and treatment management, and other topics. PRACTITIONER POINTS: Highlights changes and innovation in removal techniques and technologies in water treatment. Reviews management systems of distributed treatment systems. Discusses point-of-use treatment systems.

Published

2020

44. Impact of Hurricane Maria on Drinking Water Quality in Puerto Rico

Author

Akram N. Alshawabkeh, Solize Vosloo, José F. Cordero, Damian E. Helbling, Guangyu Li, Philip Larese-Casanova, Maria C. Sevillano-Rivera, Corey M. G. Carpenter, Ingrid Y. Padilla, Ameet J. Pinto, April Z. Gu, Yishan Lin, Irmarie Cotto, Roger W. Giese, Tao Jiang, Zaira Rosario-Pabón, and Carmen M. Vélez Vega

Subjects

Pollutant, Hydrology, Cyclonic Storms, Extramural, Drinking Water, Water pollutants, Puerto Rico, General Chemistry, 010501 environmental sciences, 01 natural sciences, Article, Arsenic, Water Quality, Environmental monitoring, Environmental Chemistry, Environmental science, Water quality, Water Pollutants, Chemical, Environmental Monitoring, 0105 earth and related environmental sciences

Abstract

This study performed a comprehensive assessment of the impact of Hurricane Maria (HM) on drinking water quality in Puerto Rico (PR) by integrating targeted chemical analysis of both inorganic (18 trace elements) and organic trace pollutants (200 micropollutants) with high-throughput quantitative toxicogenomics and in vitro biomarkers-based toxicity assays. Average concentrations of 14 detected trace elements and 20 organic micropollutants showed elevation after HM. Arsenic, sucralose, perfluorooctanoic acid (PFOA), atrazine-2-hydroxy, benzotriazole, acesulfame, and prometon were at significantly (p

Published

2020

45. Green Nanoparticles Investigation to Remove Water Pollutants by Fenton Reaction Using Celery Leaves Extract

Author

Nurfaizah Abu Tahrim and Saba Fayyadh

Subjects

Fenton reaction, Chemistry, Environmental chemistry, Water pollutants, General Engineering, Nanoparticle, General Agricultural and Biological Sciences, General Environmental Science

Published

2020

46. Mixed culture of Lactococcus lactis and Kluyveromyces marxianus isolated from kefir grains for pollutants load removal from Jebel Chakir leachate

Author

Irene Franciosa, Yasmin Cherni, Ismail Trabelsi, Lobna Elleuch, Mariam Kasmi, Abdelwaheb Chatti, Luca Simone Cocolin, and Cristian Botta

Subjects

16S, Microorganism, Culture, Chemical, 02 engineering and technology, 010501 environmental sciences, organic materials removal, ammonium nitrogen removal, bioremediation, landfill leachate, microorganisms, Kluyveromyces, RNA, Ribosomal, 16S, Environmental Pollutants, Kefir, Lactococcus lactis, Water Pollutants, Chemical, 01 natural sciences, Bioremediation, 020401 chemical engineering, Kluyveromyces marxianus, Environmental Chemistry, Water Pollutants, Leachate, Food science, 0204 chemical engineering, Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, Ribosomal, biology, Chemistry, Ecological Modeling, Chemical oxygen demand, biology.organism_classification, Pollution, Wastewater, RNA, Sewage treatment

Abstract

The wastewater from the dumping site usually contains high pollutant levels. Biological process and physico-chemical treatments are among several technologies for wastewater treatment. Using microorganisms in the treatment of landfill leachate is an emerging research issue. Furthermore, bioremediation is a feasible approach for pollutants removal from landfill leachate which would provide an efficient way to resolve the issue of landfill leachate. In this study, the performance of yeast and bacteria isolated from kefir grains was assessed for landfill leachate treatment. Kefir grains microbial composition was evaluated by molecular approaches (Rep-PCR and 16S rRNA gene sequencing). The obtained outcomes denoted that high concentrations of lactic acid bacteria and yeast populations (over 107 CFU/ml) were found in the kefir grains and were essentially composed of Lactococcus lactis, Lactobaccillus kefirien, bacillus sp., L. lactis, and Kluyveromyces marxianus. The co-culture with 1% of inoculum size was demonstrated as the most efficient in the degradation of different contaminants. The overall abatement rate of chemical oxygen demand (COD), ammonium nitrogen ( NH 4 + - N ), and salinity were 75.8%, 85.9%, and 75.13%, respectively. The bioremediation process resulted in up of 75% removal efficiency of Ni and Cd, and a 73.45%, 68.53%, and a 58.17% removal rates of Cu, Pb, and Fe, respectively. The research findings indicate the performance of L. lactis and K. marxianus co-culture isolated from kefir grains for the bioremediation of LFL. PRACTITIONER POINTS: Isolation and identification of microorganisms from kefir grains was carried out. Biological treatment of LFL using monoculture of (Lactoccocus lactis; Kluyveromyces marxianus) and co-culture (5% of L. lactis and 5% K. marxianus) has been performed. Biological treatment using co-culture strain is an effective approach to remove organic matter, NH 4 + - N and heavy metals.

Published

2020

47. Evidence of Air Dispersion: HFPO–DA and PFOA in Ohio and West Virginia Surface Water and Soil near a Fluoropolymer Production Facility

Author

Andrew A. May, Seth Newton, Jason E. Galloway, Anjelica V. P. Moreno, Mark J. Strynar, Linda K. Weavers, and Andrew B. Lindstrom

Subjects

Soil test, 010501 environmental sciences, 01 natural sciences, Article, Soil, chemistry.chemical_compound, Environmental Chemistry, Air dispersion, Ohio, 0105 earth and related environmental sciences, Fluorocarbons, Water pollutants, West virginia, Impact zone, Water, Oxides, General Chemistry, West Virginia, chemistry, Environmental chemistry, Fluoropolymer, Environmental science, Perfluorooctanoic acid, Caprylates, Surface water, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Perfluorooctanoic acid (PFOA) was used as a fluoropolymer manufacturing aid at a fluoropolymer production facility in Parkersburg, WV from 1951 to 2013. The manufacturer introduced a replacement surfactant hexafluoropropylene oxide dimer acid (HFPO–DA) that has been in use at this site since 2013. Historical releases of PFOA and related epidemiological work in this area has been primarily focused on communities downstream. To provide an update on the ongoing impacts from this plant, 94 surface water samples and 13 soil samples were collected mainly upstream and downwind of this facility. PFOA was detected in every surface water sample with concentrations exceeding 1000 ng/L at 13 sample sites within an 8 km radius of the plant. HFPO–DA was also found to be widespread with the highest levels (>100 ng/L) found in surface water up to 6.4 km north of the plant. One sample site, 28 km north of the plant, had PFOA at 143 ng/L and HFPO–DA at 42 ng/L. Sites adjacent to landfills containing fluorochemical waste had PFOA concentrations ranging up to >1000 ng/L. These data indicate that downwind atmospheric transport of both compounds has occurred and that the boundaries of the impact zone have yet to be fully delineated.

Published

2020

48. Fluoride removal from aqueous solution by municipal solid waste compost ash: kinetics, and isotherms studies

Author

Mehdi Qasemi, Mahmoud Shams, Ali Mohammadi, Mohammad Hossein Saghi, and Mohammad Hassan Kowsari

Subjects

Municipal solid waste, Aqueous solution, Compost, Health, Toxicology and Mutagenesis, Water pollutants, 010401 analytical chemistry, Kinetics, Public Health, Environmental and Occupational Health, Soil Science, 010501 environmental sciences, engineering.material, 01 natural sciences, Pollution, 0104 chemical sciences, Analytical Chemistry, chemistry.chemical_compound, Adsorption, chemistry, Environmental chemistry, engineering, Environmental Chemistry, Waste Management and Disposal, Fluoride, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

Fluoride (F–) is one of the common water pollutants, which causes severe diseases if be present over 1.5 mg/L suggested by WHO for drinking water. There is essential to find a simple and cost-effec...

Published

2020

49. Toxic effect of chronic waterborne copper exposure on growth, immunity, anti-oxidative capacity and gut microbiota of Pacific white shrimp Litopenaeus vannamei

Author

Dunwei Qian, Jian G. Qin, Chang Xu, Erchao Li, Liqiao Chen, and Chengzhuang Chen

Subjects

inorganic chemicals, 0301 basic medicine, Litopenaeus, Hepatopancreas, Aquatic Science, Gut flora, Weight Gain, Microbiology, Superoxide dismutase, 03 medical and health sciences, Penaeidae, Hemolymph, Animals, Environmental Chemistry, Water Pollutants, chemistry.chemical_classification, biology, Glutathione peroxidase, fungi, Aquatic animal, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, Immunity, Innate, Gastrointestinal Microbiome, Shrimp, Intestines, 030104 developmental biology, chemistry, 040102 fisheries, biology.protein, 0401 agriculture, forestry, and fisheries, Oxidation-Reduction, Copper

Abstract

Copper can be accumulated in water through excessive sewage discharge or residual algaecide to generate toxic effect to aquatic animals. In this study, the juvenile of Pacific white shrimp, Litopenaeus vannamei was exposed to 0 (control), 0.05, 0.1, 0.2, 0.5 or 1 mg Cu2+ L−1 for 30 days. Growth, immune function, anti-oxidative status and gut microbiota were evaluated. Weight gain and specific growth rate of L. vannamei were significantly decreased with the increase of ambient Cu2+. Enlarged lumen and ruptured cells were found in the hepatopancreas of shrimp in the 0.5 or 1 mg Cu2+ L−1 treatment. Total hemocyte counts of shrimp in 0.5 or 1 mg Cu2+ L−1 were significantly lower than in the control. The hemocyanin concentration was also significantly increased in 0.2 or 0.5 mg Cu2+ L−1. Lysozyme contents were reduced in shrimp when Cu2+ exceeded 0.2 mg L−1. Meanwhile, activities of superoxide dismutase and glutathione peroxidase were increased in the hepatopancreas and the activity of Na+-K+ ATPase was decreased in the gills with increasing Cu2+. The mRNA expressions of immune deficiency, toll-like receptor and caspase-3 were all significantly higher in the hepatopancreas in 0.05 mg Cu2+ L−1 than in the control. For the diversity of intestinal microbes, Bacteroidetes significantly decreased in 1 mg Cu2+ L−1 at the phylum level. KEGG pathway analysis demonstrates that 1 mg L−1 Cu2+ can significantly alter metabolism, cellular processes and environmental information processing. This study indicates that the concentration of 1 mg L−1 Cu can negatively impact growth, hemolymph immunity, anti-oxidative capacity and gut microbiota composition of L. vannamei.

Published

2020

50. Assessing Additivity of Cytotoxicity Associated with Disinfection Byproducts in Potable Reuse and Conventional Drinking Waters

Author

Stephanie S. Lau, Elizabeth D. Wagner, William A. Mitch, Xiao Wei, Katherine Bokenkamp, and Michael J. Plewa

Subjects

Halogenation, Chemistry, Drinking Water, Chinese hamster ovary cell, Water pollutants, Portable water purification, CHO Cells, General Chemistry, 010501 environmental sciences, 01 natural sciences, Water Purification, Disinfection, Cricetulus, Cell cytotoxicity, Cricetinae, Additive function, Environmental chemistry, Toxicity, Animals, Environmental Chemistry, Cytotoxicity, Water Pollutants, Chemical, Disinfectants, 0105 earth and related environmental sciences

Abstract

Recent studies used the sum of the measured concentrations of individual disinfection byproducts (DBPs) weighted by their Chinese hamster ovary (CHO) cell cytotoxicity LC50 values to estimate the DBP-associated cytotoxicity of disinfected waters. This approach assumed that cytotoxicity was additive rather than synergistic or antagonistic. In this study, we evaluated whether this assumption was valid for mixtures containing DBPs at the concentration ratios measured in authentic disinfected waters. We examined the CHO cell cytotoxicity of defined DBP mixtures based on the concentrations of 43 regulated and unregulated DBPs measured in eight drinking and potable reuse waters. The hypothesis for additivity was supported using three experimental approaches. First, we demonstrated that the calculated additive toxicity (CAT) and bioassay-based calculated additive toxicity (BCAT) of the DBP mixtures agree within 12% on a median basis. We also found an additive toxicity response (CAT ≈ BCAT) between the regulated and unregulated DBP classes. Finally, the empirical biological cytotoxicity of the DBP subset mixtures, independent of the calculated toxicity, was additive. These results support the validity of using the sum of cytotoxic potency-weighted DBP concentrations as an estimate of the CHO cell cytotoxicity associated with known DBPs in real disinfected waters.

Published

2020