Article
Engineering, Environmental
Duoqiang Pan, Xiaodong Zhao, Peng Wang, Ping Li, Yuhong Li, Wangsuo Wu, Zheming Wang, Qiaohui Fan
Summary: In this study, the sorption speciation of U(VI) at the phlogopite/water interface was investigated using batch sorption experiments, time-resolved luminescence spectroscopy, and theoretical calculation. The results showed that pH strongly influenced the sorption of U(VI) on phlogopite, while ionic strength had a weak effect. Multiple inner-sphere surface species were formed at the interface, and their abundances varied with pH. The formation of uranyl oxyhydroxides was observed at high pH. Density functional theory calculation indicated that a bidentate complex was the most favorable sorption configuration for U(VI) at acidic condition. The temperature had an enhancing effect on U(VI) sorption, but this effect was reversible.
JOURNAL OF HAZARDOUS MATERIALS
(2022)
Article
Chemistry, Analytical
Aly A. Helal, I. M. Ahmed, R. Gamal, S. A. Abo-El-Enein, A. A. Helal
Summary: This study investigated the removal of U(VI) using iron oxide nanoparticles (Fe3O4) and iron oxide nanoparticles with humic acid coatings (Fe3O4/HA). The effects of contact time, adsorbent mass, U(VI) concentration, and pH were studied using batch technique. The results showed that humic acid coatings decrease the sorption capacity of magnetite due to the formation of a polyanionic organic coating, altering the surface properties of the particles, reducing magnetite aggregation, and stabilizing magnetite suspension.
JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY
(2022)
Article
Environmental Sciences
Swati Verma, Ki-Hyun Kim
Summary: Ground water contamination by radioactive elements is a critical issue with significant threats to human health. Adsorption, especially using graphene oxide and its derivatives, is recognized as a promising method for removal due to their unique 2D structure, high surface area, and intercalated functional groups. This article provides insights into the practical applicability, preparation, and functionalization of graphene-based adsorbents for uranium removal, with guidance for future research directions in this field.
ENVIRONMENT INTERNATIONAL
(2022)
Article
Engineering, Environmental
Jianhong Ma, Min Zhang, Hui Zhang, Yongdong Wang, Feng Li, Nan Hu, Zhongran Dai, Yang Ding, Dexin Ding
Summary: In this study, hydrogel material HLSs/PAA gel was synthesized for the first time using humic-like substances (HLSs) extracted from spent coffee grounds (SCGs) and poly acrylic acid (PAA). The gel exhibited excellent U(VI) removal efficiency, stability, and anti-interference performance in an acidic environment.
JOURNAL OF HAZARDOUS MATERIALS
(2022)
Article
Geochemistry & Geophysics
Min Zhang, Richen Zhong, Chang Yu, Hao Cui
Summary: The solubility of uranium in metamorphic fluids is low, and U(IV) is the dominant form of dissolved uranium. This finding is consistent with geological observations. Furthermore, in oxidized pelite-buffered fluids at low temperatures, the solubility of U(VI) is relatively high, indicating that uranium can be mobilized by low-temperature geofluids.
Article
Environmental Sciences
Amir Elzoghby, Hager Fahmy, Mohamed Taha, Saber Ibrahim
Summary: Waste accumulation, particularly packaging plastic and industrial water, is a significant global challenge. The combination of waste recycling science and water treatment knowledge has shown promising results in the safe disposal of waste plastic materials and wastewater. Activated carbons prepared from polyethylene terephthalate (PET) exhibit excellent dispersion and adsorption capacity, making them effective for removing radioactive elements from wastewater.
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
(2023)
Article
Chemistry, Analytical
Ahmed M. M. Masoud, M. M. El-Maadawy, Mohamed H. H. Taha, Amr Meawad
Summary: Contamination of aquatic ecosystems with radioactive nuclides poses a significant threat to human health. This study investigated the use of Cement kiln dust (CKD) as a sorbent for uranium removal from aqueous solutions. The results showed a maximum adsorption capacity of 156.2 mg g(-1) at pH 3.0, indicating good sorption properties of CKD. Overall, the findings demonstrate the exceptional potential of CKD material for U(VI) recovery from aquatic environments.
JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY
(2023)
Article
Environmental Sciences
Yan Yang, Pingzhou Duan, Lixin Jiao, Jia He, Shuai Ding
Summary: This study investigates the sorption behavior of phenanthrene in sediment particle-size fractions amended with black carbon (BC) and humic acid (HA). It is found that BC increases the sorption capacity and affinity for phenanthrene, while HA enhances the sorption distribution coefficient but reduces the sorption affinity. These phenomena are influenced by the heterogeneity of organic matter at the particle-scale.
Article
Polymer Science
Oscar Nordness, Joshua D. Moon, Nico Marioni, Everett S. Zofchak, Peter M. Richardson, Matthew R. Landsman, Lynn E. Katz, Craig J. Hawker, Venkat Ganesan, Rachel A. Segalman, Raphaele J. Clement
Summary: The effects of ligand basicity on water and ion transport within hydrogel membranes are investigated using a library of functionalizable poly(ethylene glycol) diacrylate (PEGDA) polymer networks. The study reveals that the self-diffusion of water molecules and ions is primarily driven by the hydration level of the membrane. The interaction between triflate anions and the polymer significantly reduces ion and water mobility.
Article
Chemistry, Physical
Toni Haubitz, Bjoern Drobot, Satoru Tsushima, Robin Steudtner, Thorsten Stumpf, Michael U. Kumke
Summary: The study demonstrates that the use of specific organic solvents can suppress the quenching of uranyl(VI) luminescence, reigniting its fluorescence. Quenching occurs through the outer-sphere complex of U(VI) and halide in water, while the ligand-to-metal charge transfer is reduced in acetonitrile.
JOURNAL OF PHYSICAL CHEMISTRY A
(2021)
Article
Environmental Sciences
Lena Abu-Ali, Hyun Yoon, Matthew C. Reid
Summary: The speciation and fate of arsenic in soil-water systems is an interesting topic, especially due to its uptake into rice as an important human exposure pathway. This study evaluated the binding of arsenite to different dissolved organic matter (DOM) samples and investigated the chemical properties of DOM associated with high levels of As(III)-DOM complexation. The results showed that the organic sulfur content of DOM samples was strongly correlated with As(III)-DOM complexation and binding site densities, indicating that thiols are strong binding ligands for As(III) in natural organic matter.
Article
Chemistry, Inorganic & Nuclear
Rahul Agarwal, Rama Mohana Rao Dumpala, Manoj K. Sharma, Ashok Kumar Yadav, Tamal Kanti Ghosh
Summary: The stable uranyl/dipicolinic acid complex was successfully prepared in an aqueous medium, and could be electrochemically reduced to form a stable pentavalent uranyl complex under anaerobic conditions. The complexation ability of DPA in stabilizing the unstable U(V) oxidation state in aqueous medium was demonstrated through various spectroscopic and analytical techniques.
DALTON TRANSACTIONS
(2021)
Article
Engineering, Environmental
Charles M. Luft, Timothy C. Schutt, Manoj K. Shukla
Summary: The widespread use of poly- and perfluorinated alkyl substances (PFASs) has raised concerns globally about contamination and bioaccumulation. This study investigates the fate of these compounds by simulating their interaction with model humic substances and clay surfaces. The results show that pyrophyllite, with its hydrophobic surface, is capable of adsorbing medium- and long-chain PFAS molecules. The study also discusses adsorption mechanisms and potential approaches for remediating these compounds in the environment.
ENVIRONMENTAL SCIENCE & TECHNOLOGY
(2022)
Article
Geochemistry & Geophysics
Flavia M. S. Maia, Solange Ribet, Celine Bailly, Mireia Grive, Benoit Made, Gilles Montavon
Summary: An experimental study was conducted to evaluate the stability of Ca-U(VI)-CO3 ternary complexes at different temperatures. The results show that temperature has little effect on the formation of CaUO2(CO3)3^2-, but has minimal impact on the stability of Ca2UO2(CO3)3(aq).
APPLIED GEOCHEMISTRY
(2021)
Article
Chemistry, Inorganic & Nuclear
Soaad M. Elashry, Shiraz Labib, Mohamed F. Attallah
Summary: Activated carbon modified by quinoline (AC-Q) demonstrated effective sorption of natural uranium, with optimal removal conditions at pH 4.7 and equilibrium contact time of 90 minutes. Pseudo-second-order and Langmuir models were found to be the most suitable for describing the sorption behavior, with a sorption capacity of approximately 63 mg/g.
Article
Environmental Sciences
Julia Brendt, Carina Lackmann, Sebastian Heger, Mirna Velki, Sarah E. Crawford, Hongxia Xiao, Beat Thalmann, Andreas Schiwy, Henner Hollert
Summary: This study introduces a high-throughput micronucleus assay based on multi-well plates for risk assessment applications, offering faster evaluation and lower cost. The newly developed animal-free metabolization system ewoS9R shows promising potential in the micronucleus assay, yielding comparable results to rat-derived S9 for 6 of the 9 pro-genotoxic substances tested, suggesting its potential future applications. However, there are still substances that require rat-derived S9 for metabolization.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Article
Marine & Freshwater Biology
E. Tipping, S. Lofts, W. Keller
Summary: The WHAM-F-TOX model was used to quantify cation toxicity towards freshwater organisms, showing that species richness of crustacean zooplankton in lakes near Sudbury was primarily influenced by H, Al, Cu, and Ni. The model revealed that some lakes were affected by acidification, while others were influenced by toxic heavy metals, with varying degrees of impact over time. This study suggests that species richness can be modeled based on average toxic effects of different cations and a species sensitivity distribution, assuming common relative sensitivity among species.
AQUATIC TOXICOLOGY
(2021)
Article
Marine & Freshwater Biology
Anne-Katrin Mueller, Nele Markert, Katharina Leser, David Kaempfer, Sabrina Schiwy, Carolin Riegraf, Sebastian Buchinger, Lin Gan, Ali T. Abdallah, Bernd Denecke, Helmut Segner, Markus Brinkmann, Sarah E. Crawford, Henner Hollert
Summary: This study aimed to evaluate the impact of suspended sediments on fish, specifically in terms of endocrine responses caused by ECs released from sediments. The findings demonstrated that ECs from sediments can have endocrine-disrupting effects on fish, emphasizing the importance of considering sediment quality criteria during flood events.
AQUATIC TOXICOLOGY
(2021)
Article
Environmental Sciences
D. Scott Smith, R. Nasir, Wayne Parker, A. Peters, G. Merrington, R. van Egmond, S. Lofts
Summary: The study compared WHAM predictions with measured ionic silver in diverse DOM, capturing the variability within model uncertainty. WHAM significantly underestimated silver binding in sewage samples, proposing a revised empirical model to account for sewage-specific binding sites. It is suggested that as sewage organic matter degrades, WHAM may better model the form.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Article
Environmental Sciences
Julia Brendt, Sarah E. Crawford, Mirna Velki, Hongxia Xiao, Beat Thalmann, Henner Hollert, Andreas Schiwy
Summary: Metabolic activation systems derived from rat liver showed significant variability and shortcomings, prompting a comparison with a biotechnological alternative, ewoS9R, which demonstrated promising results in mutagenicity assays compared to traditional rat-derived systems. Further research is needed to fully assess the potential of ewoS9R as a replacement.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Article
Environmental Sciences
Simona Pedde, Paula A. Harrison, Ian P. Holman, Gary D. Powney, Stephen Lofts, Reto Schmucki, Marc Gramberger, James M. Bullock
Summary: As the pressure to address global warming intensifies, scenarios that incorporate various social, economic, and environmental factors are crucial to support climate change mitigation or adaptation actions by governments and stakeholders. While climate models have widely applied RCPs for producing climate scenarios, the scaling of SSPs for geographic and sectoral applications is still relatively new, with the UK lacking its own version of SSPs. Therefore, developing UK-specific SSPs has become a pressing need to balance consistency and legitimacy in addressing climate change impacts.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Article
Chemistry, Analytical
Stephen Lofts
Summary: This study presents an empirical speciation model that predicts the different forms of metals in soils using a minimal set of soil parameters. The model performs comparable to other complex models and is a useful tool for studying soil metal speciation.
ENVIRONMENTAL CHEMISTRY
(2021)
Article
Engineering, Environmental
Sarah E. Crawford, Markus Brinkmann, Jacob D. Ouellet, Frank Lehmkuhl, Klaus Reicherter, Jan Schwarzbauer, Piero Bellanova, Peter Letmathe, Lars M. Blank, Roland Weber, Werner Brack, Joost T. van Dongen, Lucas Menzel, Markus Hecker, Holger Schuettrumpf, Henner Hollert
Summary: While the frequency and intensity of floods are increasing globally, the indirect effects of pollutants remobilized and redistributed during flood events are often overlooked. A global examination of floods caused by extreme events and the subsequent distribution of sediment-bound pollutants is essential to improve interdisciplinary investigations and develop action plans to address environmental pollution issues from flooding. Action plans for river basins and coastal lowlands need to balance flood retention, catchment conservation, and economical water use.
JOURNAL OF HAZARDOUS MATERIALS
(2022)
Article
Environmental Sciences
Hamid Pouran, Mohammed Alkasbi, Elma Lahive, Stephen Lofts, Hao Zhang
Summary: The study utilized DGT technique to measure the concentration of ZnO NPs in soils, revealing variations in the dissolution of ZnO NPs and the available concentrations of dissolved and nanoparticulate zinc in different soils.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Review
Ecology
Niamh Eastwood, William A. Stubbings, Mohamed A. Abou-Elwafa Abdallah, Isabelle Durance, Jouni Paavola, Martin Dallimer, Jelena H. Pantel, Samuel Johnson, Jiarui Zhou, J. Scott Hosking, James B. Brown, Sami Ullah, Stephan Krause, David M. Hannah, Sarah E. Crawford, Martin Widmann, Luisa Orsini
Summary: This study proposes a framework that utilizes artificial intelligence to analyze the relationship between environmental change, biodiversity dynamics, and ecosystem functions. It also predicts the future of ecosystem services under different pollution and climate scenarios. The framework is applied to watersheds and offers a system-level approach for restoring natural capital by associating long-term biodiversity changes with chemical pollution.
TRENDS IN ECOLOGY & EVOLUTION
(2022)
Article
Environmental Sciences
Alex L. Riley, Jaime Amezaga, Ian T. Burke, Patrick Byrne, Nick Cooper, Richard A. Crane, Sean D. W. Comber, Catherine J. Gandy, Karen A. Hudson-Edwards, Elin Jennings, Elizabeth Lewis, Stephen Lofts, John M. MacDonald, Heath Malcolm, William M. Mayes, Patrizia Onnis, Justyna Olszewska, Bryan Spears, Adam P. Jarvis
Summary: Solid wastes deposited in the coastal zone pose significant challenges worldwide due to lax environmental regulations in the past. Rising sea levels and other factors increase the risk of contaminant release from these legacy disposal sites. This study presents a multi-criteria decision analysis to prioritize potential pollution risks in England and Wales using spatial data on waste type, climate projections, management infrastructure, and proximity to sensitive ecological features. It identified priority sites for remedial work and highlighted the need for advanced site prioritization protocols and funding allocation.
FRONTIERS IN ENVIRONMENTAL SCIENCE
(2022)
Article
Environmental Sciences
E. Lahive, M. Matzke, C. Svendsen, D. J. Spurgeon, H. Pouran, H. Zhang, A. Lawlor, M. Gloria Pereira, S. Lofts
Summary: In order to develop models for site-specific risk assessment of nanoparticles, it is important to understand how soil properties influence the transformation processes, bioavailability and toxicity of nanoparticles (NPs). This study investigated the influence of different soil properties on the bioavailability and toxicity of zinc oxide (ZnO) NPs and ionic Zn to earthworms. The results showed that soil properties had an effect on earthworm reproduction and toxicity, with different EC50 values observed for different soils.
ENVIRONMENTAL POLLUTION
(2023)
Article
Nanoscience & Nanotechnology
Fadri Gottschalk, Bruno Debray, Fred Klaessig, Barry Park, Jean-Marc Lacome, Alexis Vignes, Vicenc Pomar Portillo, Socorro Vazquez-Campos, Christine Ogilvie Hendren, Stephen Lofts, Samuel Harrison, Claus Svendsen, Ralf Kaegi
Summary: The challenges in distinguishing between natural and engineered nanomaterials and the lack of historical records on accidents involving engineered nanomaterials have made it difficult to estimate the accidental release and environmental impacts of such materials. Drawing on knowledge from the nuclear power industry, this study assesses the likelihood of accidental release rates of engineered nanomaterials in the next 10 and 30 years. By comparing risk predictive methodology with empirical evidence, the authors propose modelling approaches to estimate the probabilities of accidental release. The results from two independent modelling approaches correlate well and predict severe accidental release rates of 7% (M1) in the next 10 years and 10% and 20% (M2 and M1, respectively) in the next 30 years.
NATURE NANOTECHNOLOGY
(2023)
Article
Marine & Freshwater Biology
E. Tipping, S. Lofts, A. Stockdale
Summary: We developed a model that measures aquatic cationic toxicity based on the toxicities of metals and protons and the sensitivities of the test species. The WHAM-FTOX beta model combines the binding of cations by organisms with toxicity coefficients to estimate the variable FTOX. The model accounted for 72% of the variance in log10 alpha M,max.
AQUATIC TOXICOLOGY
(2023)
Article
Soil Science
Claudia Cagnarini, Stephen Lofts, Luigi Paolo D'Acqui, Jochen Mayer, Roman Grueter, Susan Tandy, Rainer Schulin, Benjamin Costerousse, Simone Orlandini, Giancarlo Renella
Summary: The study investigated the long-term dynamics of trace elements in agricultural fields using dynamic simulations, focusing on the effects of different organic amendments on soil concentrations. The results showed that dissolved organic carbon fluxes play a key role in estimating labile metal concentrations, with cadmium being particularly sensitive to this factor.
Review
Environmental Sciences
Attila Csaba Kondor, Anna Viktoria Vancsik, Laszlo Bauer, Lili Szabo, Zoltan Szalai, Gergely Jakab, Gabor Maasz, Marta Pedrosa, Maria Jose Sampaio, Ana Rita Lado Ribeiro
Summary: This review provides a critical overview of research on the removal efficiency of priority substances and compounds of emerging concern through bank filtration, discussing influencing factors and future challenges. The findings show that the efficiency of bank filtration is influenced by multiple factors and varies for different substances.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Xinyan Wang, Shuai Zhang, Huihui Yan, Zhao Ma, Yunshan Zhang, Haining Luo, Xueli Yang
Summary: This study investigated the association between ambient PM2.5, O3 pollution, and ovarian reserve in reproductive-aged Chinese women. The results showed that increased exposure to PM2.5 and O3 was associated with decreased AMH levels, indicating reduced ovarian reserve. Notably, the effects of O3 exposure on ovarian reserve were different from those of PM2.5 exposure.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Tingting Ma, Yanjuan Ding, Fengjiao Xu, Chen Zhang, Min Zhou, Ya Tang, Yanrong Chen, Yating Wen, Rufei Chen, Bin Tang, Shigui Wang
Summary: The dragonfly species Orthetrum albistylum can accumulate heavy metals, and its heat shock protein genes have the potential to serve as biomarkers for monitoring environmental pollutants.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Naoto Ishiwaka, Koya Hashimoto, Masayoshi K. Hiraiwa, Francisco Sanchez-Bayo, Taku Kadoya, Daisuke Hayasaka
Summary: Systemic insecticides and rising temperatures have combined effects on the abundance of Odonata nymphs in paddy fields. The standalone effect of insecticide exposure decreased the Odonata community, while nymphs decreased synergistically with temperature rise in paddy water. However, the impacts of each stressor alone varied among species.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Marco Vecchiato, Carlo Barbante, Elena Barbaro, Francois Burgay, Warren R. L. Cairns, Alice Callegaro, David Cappelletti, Federico Dallo, Marianna D'Amico, Matteo Feltracco, Jean-Charles Gallet, Andrea Gambaro, Catherine Larose, Niccolo Maffezzoli, Mauro Mazzola, Ivan Sartorato, Federico Scoto, Clara Turetta, Massimiliano Varde, Zhiyong Xie, Andrea Spolaor
Summary: The Arctic region is facing contamination from long-range pollution and local human activities. Polycyclic Aromatic Hydrocarbons (PAHs) are used as environmental indicators for emission, transport, and deposition processes. Research conducted in the Arctic surface snow in Ny-Ålesund, Svalbard from October 2018 to May 2019 shows that long-range inputs of PAHs mainly occur in winter, while the most abundant analyte retene exhibits opposite seasonal trends.
ENVIRONMENTAL POLLUTION
(2024)
Review
Environmental Sciences
Maoshui Zhuo, Zhijie Chen, Xiaoqing Liu, Wei Wei, Yansong Shen, Bing-Jie Ni
Summary: This paper discusses the application of three catalytic processes (photocatalysis, electrocatalysis, and biocatalysis) in the management of microplastic pollution, and introduces the efficiency and catalytic mechanisms of different catalysts. It also proposes the development prospects for sustainable management of microplastic pollution.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Shiyu Chen, Zhenzhen Shi, Qiang Zhang
Summary: In this study, a human physiologically based pharmacokinetic (PBPK) model of diethyl phthalate (DEP) was developed to assess its toxicity. The model considers the distribution and metabolism of DEP and its active metabolite monoethyl phthalate (MEP) in different tissue compartments. Sensitivity analysis and Bayesian Markov chain Monte Carlo (MCMC) simulations were performed to evaluate the uncertainty and variability of the model parameters. The results suggest that dermal absorption is an important route of exposure to DEP in the environment.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Bangguo Wang, Lijing Wang, Wenxi Cen, Tao Lyu, Peter Jarvis, Yang Zhang, Yuanxun Zhang, Yinghui Han, Lei Wang, Gang Pan, Kaili Zhang, Wei Fan
Summary: This study investigates the feasibility and mechanisms of a chemical-free nanobubble-based AOP for treating organic micropollutants in water. The results show that the oxygen nanobubble AOP has a significantly higher removal efficiency compared to air and nitrogen nanobubbles. The treatment performance is not affected by pH and the presence of ions. Higher initial concentrations of the micropollutant lead to slower treatment processes, but similar removal performance is achieved in the end. The presence of organic matter reduces the removal rate of the micropollutant. The results have practical feasibility for water and wastewater treatment.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Yingmei Huang, Jicai Yi, Yao Huang, Songxiong Zhong, Bin Zhao, Jing Zhou, Yuxuan Wang, Yiwen Zhu, Yanhong Du, Fangbai Li
Summary: This study investigates the impact of biochar on methylmercury (MeHg) accumulation in rice. The results show that biochar reduces MeHg levels in paddy soils by decreasing bioavailable Hg and microbial Hg methylation. Additionally, biochar decreases the uptake and translocation of MeHg in rice plants, resulting in a reduction of MeHg accumulation in rice grains.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Nengde Zeng, Fei Huang, Jiani Du, Chenghao Huang, Qian Yang, Xinhua Zhan, Baoshan Xing
Summary: This study investigates the protein targets and protein-ligand interactions related to PAH contamination in crop xylem sap using computational tools. The results show that phenanthrene has a more pronounced effect on the xylem sap proteins of maize and wheat, with maize DEPs associated with lipid biosynthesis and wheat DEPs exhibiting an increase in ABC transporters. This study provides insights into the regulation and movement of PAHs within plant xylem.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Xinwei Chen, Hao Ma, Run Wang, Man Wang, Binbin Zhu, Yanqing Cong, Xiayue Zhu, Guoqin Wang, Yi Zhang
Summary: Co3O4/TiO2-NRs electrodes with excellent photoresponse were prepared via plasma-assisted modification of Co3O4 on TiO2. The combination of Co3O4 and TiO2 improved the light utilization efficiency and showed potential for degradation of pollutants.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Wenjing Ji, Liying Song, Jing Wang, Hongqing Song
Summary: This study conducted a life-cycle assessment to examine the correlation between natural gas consumption and carbon emissions in different end uses in China. The results showed that both natural gas consumption and life-cycle carbon emissions have been increasing since 2017. Significant variations in NG life-cycle carbon emissions were found across different provinces and sectors, highlighting the need for targeted efforts to reduce carbon emissions.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Youyi Chen, Boxuan Zhang, Pojun Zhang, Guogui Shi, Hao Liang, Wu Cai, Jingyu Gao, Sumin Zhuang, Kaiyin Luo, Jiaqi Zhu, Chaoxiang Chen, Kunyu Ma, Jinrong Chen, Chun Hu, Xueci Xing
Summary: The synergistic effects of trace sulfadiazine and cast-iron corrosion scales on the formation of disinfection by-products in drinking water distribution systems were investigated. The presence of magnetite resulted in increased concentrations of DBPs due to the higher microbial activity and enhanced microbial extracellular electron transport pathway. The study highlights the importance of considering trace antibiotics pollution and corrosion scales in water sources for DBP control.
ENVIRONMENTAL POLLUTION
(2024)
Review
Environmental Sciences
Bishwa Raj Pokharel, Vijay Sheri, Manoj Kumar, Zhiyong Zhang, Baohong Zhang
Summary: This review summarizes the interactions, uptake, and transport of aluminum nanoparticles (Al-NPs) in plants, highlighting their negative effects on plant growth and development, as well as their potential to alter plant defense systems and gene expression.
ENVIRONMENTAL POLLUTION
(2024)
Article
Environmental Sciences
Yonglu Wang, Fengsong Zhang, Xiaoyong Liao, Xiao Yang, Guixiang Zhang, Liyun Zhang, Chaojun Wei, Pengge Shi, Jiongxin Wen, Xiaorong Ju, Can Xu, Yang Liu, Ying Lan
Summary: This study aims to explore the effects of thiencarbazone-methyl center dot isoxaflutole on soil microflora and the potential mitigation mechanisms to bacterial communities. It was found that increasing the application of thiencarbazone-methyl center dot isoxaflutole resulted in increased stress on soil bacterial community structure and diversity. Increasing soil pH was recognized as a key factor in improving the diversity and structure of soil microflora. Supplemental use of nitrapyrin or modified attapulgite can increase soil pH and improve bacterial diversity.
ENVIRONMENTAL POLLUTION
(2024)
