Your search keyword '"ENVIRONMENTAL risk"' showing total 9,694 results

1. N-doping strategy for enhancing the adsorption performance of Ti2CT2 MXene for Sr ion.

Author

Li, Sifan, Zhang, Yujuan, Qiu, Kaikai, Zhang, Yu, Jin, Jingyuan, and Shi, Weiqun

Subjects

*RADIOACTIVE wastes, *POLAR effects (Chemistry), *CHARGE transfer, *ENVIRONMENTAL risk, *STRONTIUM, *RADIOISOTOPES

Abstract

Radionuclides, such as strontium (Sr), are hazardous radioactive isotopes commonly found in nuclear waste, posing serious environmental and health risks due to their long half-lives and ability to bioaccumulate. Inspired by the electronic modification effect, this study theoretically predicts that doping can significantly enhance the adsorptive performance of MXenes for radionuclides. Specifically, we employed comprehensive first-principles simulations to investigate the impact of nitrogen (N) doping on the adsorption behavior of Ti2CT2 (T = O, F, OH) MXenes for Sr ions, focusing on surface N doping and C-site N doping as effective strategies to improve adsorption. The results confirmed that both types of N doping are beneficial for the adsorption performance of Ti2CT2, and the adsorption strengths of Ti2CT2 with surface N doping are significantly enhanced. This was analyzed and attributed to the ability of N doping to enhance the charge transfer between the Ti2CT2 surface and Sr ions, thus enhancing the adsorption properties. By elucidating the N doping mechanisms, this study is expected to provide theoretical guidance for the design of high-performance MXene materials in radionuclides remediation applications. [ABSTRACT FROM AUTHOR]

Published

2024

2. Paper Meets Plastic: The Perceived Environmental Friendliness of Product Packaging.

Author

Sokolova, Tatiana, Krishna, Aradhna, and Döring, Tim

Subjects

PLASTICS in packaging, ENVIRONMENTAL risk, CONSUMER attitudes, PACKAGING materials, PAPER, CONSUMER preferences, WILLINGNESS to pay, COGNITIVE bias

Abstract

Packaging waste makes up more than 10% of the landfilled waste in the United States. While consumers often want to make environmentally friendly product choices, we find that their perceptions of the environmental friendliness of product packaging may systematically deviate from its objective environmental friendliness. Eight studies (N = 4,103) document the perceived environmental friendliness (PEF) bias whereby consumers judge plastic packaging with additional paper to be more environmentally friendly than identical plastic packaging without the paper. The PEF bias is driven by consumers' "paper = good, plastic = bad" beliefs and by proportional reasoning, wherein packaging with a greater paper-to-plastic proportion is judged as more environmentally friendly. We further show that the PEF bias impacts consumers' willingness to pay and product choice. Importantly, this bias can be mitigated by a "minimal packaging sticker" intervention, which increases the environmental friendliness perceptions of plastic-only packaging, rendering plastic-packaged products to be preferable to their plastic-plus-paper-packaged counterparts. This research contributes to the packaging literature in marketing and to research on sustainability while offering practical implications for managers and public policy officials. [ABSTRACT FROM AUTHOR]

Published

2023

3. Dissolution‐Recrystallization: A Novel Mechanism for Fluorochromic Detection of Th4+ Using Color‐Tunable Luminescent Metal–Organic Frameworks.

Author

Cui, Yunyi, Lu, Huangjie, Hou, Huiliang, Bai, Yaoyao, Yang, Junpu, Li, Yarui, Qiu, Jie, Wang, Shuao, and Lin, Jian

Subjects

*LEWIS acidity, *OPTOELECTRONIC devices, *CRUST of the earth, *ENVIRONMENTAL risk, *LUMINESCENCE

Abstract

Thorium, a predominant actinide in the Earth's crust, presents significant environmental and health risks due to its radioactive nature. These risks are particularly pronounced during the mining and processing of monazite for rare earth elements (REEs), which contain substantial thorium concentrations. Current instrumental analysis methods for thorium, offer high accuracy but require laborious sample preparations and expensive instruments, making them unsuitable for on‐site analysis. Herein, we present a class of color‐tunable luminescent lanthanide‐based metal–organic frameworks (Ln‐MOFs) as fluorochromic sensors for Th4+ cations. Utilizing a heterobimetallic Eu3+/Tb3+ doping strategy, the luminescence colors of EuxTb1‐x‐BDC‐OH can be finely tuned from red, to orange, and to green. More intriguingly, the higher Lewis acidity of Th4+ facilitates the transformation of EuxTb1‐x‐BDC‐OH into a UiO‐type Th‐MOF via a dissolution‐recrystallization mechanism. This process results in a gradual reduction of characteristic Ln3+ emissions and the emergence of blue color ligand‐based fluorescence, thereby leading to selective fluorochromic responses with increasing Th4+ concentrations and enabling visible detection of Th4+ cations. Additionally, a custom‐built portable optoelectronic device is fabricated, which directly converts luminescence colors into red‐green‐blue (RGB) values. This device enables easy quantification of Th4+ concentrations without the need for complex instrumentation. [ABSTRACT FROM AUTHOR]

Published

2024

4. Impact of salmon farming in the antibiotic resistance and structure of marine bacterial communities from surface seawater of a northern Patagonian area of Chile.

Author

Ortiz-Severín, Javiera, Hodar, Christian, Stuardo, Camila, Aguado-Norese, Constanza, Maza, Felipe, González, Mauricio, and Cambiazo, Verónica

Abstract

Background: Aquaculture and salmon farming can cause environmental problems due to the pollution of the surrounding waters with nutrients, solid wastes and chemicals, such as antibiotics, which are used for disease control in the aquaculture facilities. Increasing antibiotic resistance in human-impacted environments, such as coastal waters with aquaculture activity, is linked to the widespread use of antibiotics, even at sub-lethal concentrations. In Chile, the world's second largest producer of salmon, aquaculture is considered the primary source of antibiotics residues in the coastal waters of northern Patagonia. Here, we evaluated whether the structure and diversity of marine bacterial community, the richness of antibiotic resistance bacteria and the frequency of antibiotic resistance genes increase in communities from the surface seawater of an area with salmon farming activities, in comparison with communities from an area without major anthropogenic disturbance. Results: The taxonomic structure of bacterial community was significantly different between areas with and without aquaculture production. Growth of the culturable fraction under controlled laboratory conditions showed that, in comparison with the undisturbed area, the bacterial community from salmon farms displayed a higher frequency of colonies resistant to the antibiotics used by the salmon industry. A higher adaptation to antibiotics was revealed by a greater proportion of multi-resistant bacteria isolated from the surface seawater of the salmon farming area. Furthermore, metagenomics data revealed a significant higher abundance of antibiotic resistant genes conferring resistance to 11 antibiotic families in the community from salmon farms, indicating that the proportion of bacteria carrying the resistance determinants was overall higher in salmon farms than in the undisturbed site. Conclusions: Our results revealed an association between bacterial communities and antibiotic resistance from surface seawater of a coastal area of Chile. Although the total bacterial community may appear comparable between sites, the cultivation technique allowed to expose a higher prevalence of antibiotic resistant bacteria in the salmon farming area. Moreover, we demonstrated that metagenomics (culture-independent) and phenotypic (culture-dependent) methods are complementary to evaluate the bacterial communities' risk for antibiotic resistance, and that a human—influenced environment (such as salmon farms) can potentiate bacteria to adapt to environmental stresses, such as antibiotics. [ABSTRACT FROM AUTHOR]

Published

2024

5. Adsorption of malachite green dyes from aqueous solution by metal organic framework-5 incorporated coal fly ash (MOF-5/CFA)

Author

Hasan Harahsheh, Yazeed Ahmad, Dahlan, Irvan, and Abdullah, Ahmad Zuhairi

Subjects

*SUSTAINABILITY, *INDUSTRIAL wastes, *MALACHITE green, *COAL ash, *METAL-organic frameworks, *FLY ash, *ENVIRONMENTAL risk

Abstract

AbstractDye contamination of water is a global issue with significant environmental and health risks. This research explores the use of metal organic framework-5 (MOF-5) adsorbents modified with coal fly ash to effectively remove malachite green (MG) dye from water, addressing global dye pollution. Preliminary batch adsorption experiments showed that the addition of CFA to MOF-5 significantly increased the removal efficiency of MG dye (77.90 ± 1.74%) compared to using pristine MOF-5 (30.00 ± 2.14%). Batch adsorption studies showed that MG adsorption efficiency increased with shaking rate and contact time but decreased with adsorbent dosage. Temperature study reveals exothermic behavior of adsorption process. MOF-5/CFA adsorbents can be regenerated for up to four cycles. The results demonstrated that the highest adsorption efficiency of 80.32 ± 0.90% was achieved under the following conditions: a stirring speed of 300 rpm, a dosage of 0.3 g of MOF-5/CFA adsorbent, a temperature of 27 °C, 2 h contact time, and an initial dye concentration of 100 mg/L. Analysis of adsorption isotherms and kinetics revealed that the Langmuir isotherm and pseudo-second-order kinetic models provided the most accurate fit to the experimental data. FTIR analysis revealed significant functional groups in the prepared adsorbent and only minor spectral changes in the spent adsorbents. SEM analysis showed a rough, porous MOF-5/CFA surface before dye adsorption, becoming smoother and less porous afterwards. This study demonstrates the promise of MOF-5/CFA as an alternative adsorbent for the removal of MG dyes from water, paving the way for advances in wastewater treatment and the sustainable use of industrial waste materials. [ABSTRACT FROM AUTHOR]

Published

2024

6. Advances in mechanism for the microbial transformation of heavy metals: implications for bioremediation strategies.

Author

Ding, Chunlian, Ding, Zihan, Liu, Qingcai, Liu, Weizao, and Chai, Liyuan

Subjects

*MICROBIAL remediation, *HEAVY metals, *ENVIRONMENTAL risk, *CHEMICAL speciation, *BIOREMEDIATION

Abstract

Heavy metals are extensively discharged through various anthropogenic activities, resulting in an environmental risk on a global scale. In this case, microorganisms can survive in an extreme heavy metal-contaminated environment via detoxification or resistance, playing a pivotal role in the speciation, bioavailability, and mobility of heavy metals. Therefore, studies on the mechanism for the microbial transformation of heavy metals are of great importance and can provide guidance for heavy metal bioremediation. Current research studies on the microbial transformation of heavy metals mainly focus on the single oxidation, reduction and methylation pathways. However, complex microbial transformation processes and corresponding bioremediation strategies have never been clarified, which may involve the inherent physicochemical properties of heavy metals. To uncover the underlying mechanism, we reclassified heavy metals into three categories based on their biological transformation pathways, namely, metals that can be chelated, reduced or oxidized, and methylated. Firstly, we comprehensively characterized the difference in transmembrane pathways between heavy metal cations and anions. Further, biotransformation based on chelation by low-molecular-weight organic complexes is thoroughly discussed. Moreover, the progress and knowledge gaps in the microbial redox and (de)methylation mechanisms are discussed to establish a connection linking theoretical advancements with solutions to the heavy metal contamination problem. Finally, several efficient bioremediation strategies for heavy metals and the limitations of bioremediation are proposed. This review presents a solid contribution to the design of efficient microbial remediation strategies applied in the real environment. [ABSTRACT FROM AUTHOR]

Published

2024

7. Is environmental risk assessment possible with the alternatives to acute fish toxicity test? Case study with pharmaceuticals.

Author

Mlnaříková, Marie, Pípal, Marek, Bláhová, Lucie, and Bláha, Luděk

Subjects

ACUTE toxicity testing, ENVIRONMENTAL risk assessment, TOXICITY testing, ENVIRONMENTAL risk, ZEBRA danio, CHEMICAL testing

Abstract

Background: Acute fish toxicity test (AFT) is one of the cornerstones of environmental risk assessment (ERA) of chemicals for the aquatic environment. Despite many efforts to find an alternative able to fully replace the test, there is still lasting pressure from stakeholders for AFT results. Results: Here, we present the results of a case study with eight pharmaceuticals from various pharmaceutical groups with different levels of expected toxicity to fish. Selected compounds were tested in two validated alternative tests—fish embryo toxicity test with zebrafish (Danio rerio) (zFET) and in vitro RTgill-W1 assay according to their corresponding OECD guidelines TG 236 and TG 249, respectively. Data for AFT were collected from PubMed and ECOTOX knowledgebase databases, and acute toxicity to fish was further predicted in silico by the ECOSAR program. Predicted environmental risks (risk quotients, RQ, calculated using the exposure data from NORMAN) from both zFET and RTgill-W1 well correlated with the average RQs based on AFT LC50s. The strongest and most significant correlation was observed while comparing the AFT results with the median of combined alternative methods (zFET, RTgill-W1, ECOSAR). Conclusions: This proposed approach combining experimental data with modeling could serve as a reliable tool for predictions of environmental risks promoting the 3R alternatives to acute fish toxicity testing. [ABSTRACT FROM AUTHOR]

Published

2024

8. Multimodal, microspectroscopic speciation of legacy phosphorus in two US mid‐Atlantic agricultural soils.

Author

Szerlag, Kathryn D., Siebecker, Matthew G., Izaditame, Fatemeh, Northrup, Paul, Tappero, Ryan, and Sparks, Donald L.

Subjects

*AGRICULTURE, *MANGANESE oxides, *CHEMICAL speciation, *ENVIRONMENTAL risk, *PHYTIC acid

Abstract

To understand phosphorus (P) mobility in agricultural soils and its potential environmental risk, it is essential to directly measure solid phase P speciation. Often, bulk P K‐edge X‐ray absorption near edge structure (XANES) spectroscopy followed by linear combination fitting (LCF) is utilized to determine the solid P phases in soil. However, this method may limit results to only a few major phases. Additionally, XANES spectra for different P species may have very similar features, leading to an over‐ or underestimate of their contribution to LCF. Here, an improved P speciation by pairing multimodal microbeam‐X‐ray fluorescence (µ‐XRF) mapping coupled with µ‐XANES (microbeam‐X‐ray absorption near edge structure) analysis to directly speciate major and minor P phases on the micron scale is provided. We combined maps of both tender (P, sulfur, aluminum, and silicon) and hard energy (calcium, iron [Fe], and manganese) elements to evaluate the elemental co‐locations with P. To better account for uncertainty assigning XANES peaks to individual compounds, a more quantitative fingerprinting by "spectral feature analysis" was completed. With this analysis, an R‐factor is reported for the fit. These results were compared to traditional LCF. Pre‐edge fitting results revealed the presence of a two‐component pre‐edge feature for phosphate adsorbed to ferrihydrite. Additionally, phytate co‐precipitated with ferrihydrite (Phytate‐Fe‐Cop) had a pre‐edge feature, indicating direct association with Fe. Lastly, a unique P species associated with manganese oxide was identified in the soil via multimodal mapping and µ‐XANES. These results allow for better prediction of P dissolution and mobility. Core Ideas: Coupling multimodal microbeam‐X‐ray fluorescence maps with µ‐XANES (microbeam‐X‐ray absorption near edge structure) spectra aids in phosphorus species identification in soils.Fingerprinting by spectral feature analysis overcomes common problems of self‐absorption in LCF of P µ‐XANES.Phosphate adsorbed to ferrihydrite has a two‐component pre‐edge feature determined via spectral feature analysis.Phytate co‐precipitated with ferrihydrite has a pre‐edge feature and a peak shift to higher energy.A unique species of phosphorus associated with manganese oxide was identified via multimodal mapping and µ‐XANES. [ABSTRACT FROM AUTHOR]

Published

2024

9. Epigenetic regulation of cardiovascular diseases induced by behavioral and environmental risk factors: Mechanistic, diagnostic, and therapeutic insights.

Author

Bi, Feifei, Gao, Chen, and Guo, Hongchao

Subjects

*GENE expression, *ENVIRONMENTAL risk, *NOISE pollution, *SEDENTARY behavior, *NON-coding RNA

Abstract

Behavioral and environmental risk factors are critical in the development and progression of cardiovascular disease (CVD). Understanding the molecular mechanisms underlying these risk factors will offer valuable insights for targeted preventive and therapeutic strategies. Epigenetic modifications, including DNA methylation, histone modifications, chromatin remodeling, noncoding RNA (ncRNA) expression, and epitranscriptomic modifications, have emerged as key mediators connecting behavioral and environmental risk factors to CVD risk and progression. These epigenetic alterations can profoundly impact on cardiovascular health and susceptibility to CVD by influencing cellular processes, development, and disease risk over an individual's lifetime and potentially across generations. This review examines how behavioral and environmental risk factors affect CVD risk and health outcomes through epigenetic regulation. We review the epigenetic effects of major behavioral risk factors (such as smoking, alcohol consumption, physical inactivity, unhealthy diet, and obesity) and environmental risk factors (including air and noise pollution) in the context of CVD pathogenesis. Additionally, we explore epigenetic biomarkers, considering their role as causal or surrogate indicators, and discuss epigenetic therapeutics targeting the mechanisms through which these risk factors contribute to CVD. We also address future research directions and challenges in leveraging epigenetic insights to reduce the burden of CVD related to behavioral and environmental factors and improve public health outcomes. This review aims to provide a comprehensive understanding of behavioral and environmental epigenetics in CVD and offer valuable strategies for therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2024

10. Unravelling complexities: a study on geopolitical dynamics, economic complexity, R&D impact on green innovation in China.

Author

Sun, Aihui, Işık, Cem, Razi, Ummara, Xu, Hui, Yan, Jiale, and Gu, Xiao

Subjects

*SUSTAINABLE investing, *SUSTAINABILITY, *RENEWABLE natural resources, *SUSTAINABLE development, *ECONOMIC impact, *ENVIRONMENTAL risk

Abstract

Green innovation is essential in achieving sustainable development goals of enhancing resource efficiency, reducing environmental impact, and promoting renewable resource consumption. Identifying the factors that promote green innovation is necessary to capitalise on the benefits of green innovation. The literature has overlooked the economic and geopolitical factors influencing sustainable technological development. Limited studies have analysed the multifaced drivers of green innovations. Therefore, this study fills the gap by exploring the impact of geopolitical risk, economic complexity, and R&D expenditures on green innovation in China from 1995 to 2022. The study employed the "bootstrapping autoregressive distributed lag" (BARDL) method and examined the long-term cointegration. Diagnostic tests confirm that the data series are normally distributed, and unit root tests establish an integration order of I(1). Outcomes of the BARDL approach indicate that increases in economic complexity, R&D expenditures and economic growth significantly enhance the green innovation initiatives. Conversely, rising geopolitical risk deters steady investment in green innovation in the short and long run. The results highlight that while economic complexity and R&D expenditures have greater capabilities and resources to support innovative activities, geopolitical risk acts as a mitigator and diverts focus and resources away from long-term environmental sustainability projects; therefore, effective policy measures focusing on these variables can increase investments in green innovations. [ABSTRACT FROM AUTHOR]

Published

2024

11. "No fish – no fishermen": staying as a voluntary choice despite environmental risks.

Author

Sun, Yuan, Mallick, Bishawjit, and Bayrak, Mucahid Mustafa

Subjects

*CLIMATE change adaptation, *ENVIRONMENTAL risk, *CLIMATE change, *FISHERS, *HOUSEHOLDS

Abstract

While climate change may amplify global mobility patterns, most affected individuals voluntarily stay in their locales. This research studies the multiple forms of voluntary non-migration amidst socio-environmental challenges, focusing on the traditional fishermen community in southwestern Bangladesh. Through 25 in-depth interviews and two focus group discussions, the research uncovers that despite socio-environmental obstacles, such as the loss of the primary source of livelihood – the river, a substantial number of fishermen are determined to stay in the locality voluntarily. The households who voluntarily stay face livelihood challenges that coexist with their vulnerabilities. The fishermen employ diverse livelihood strategies to cope with the adversities and strive to maintain their livelihoods in situ. This study emphasises that voluntary non-migration could serve as both an adaptation strategy in vulnerable locales and an outcome of livelihood decisions, highlighting its fluid and dynamic nature. The implications of these findings are relevant for future research and policy formulation in promoting local adaptation and supporting the population choosing to remain in place in the face of environmental challenges. [ABSTRACT FROM AUTHOR]

Published

2024

12. Developing an Approach for Integrating Chemical Analysis and Transcriptional Changes to Assess Contaminants in Water, Sediment, and Fish.

Author

Cardenas Perez, Ana Sharelys, Challis, Jonathan K., Alcaraz, Alper James, Ji, Xiaowen, Ramirez, Alexis Valerio Valery, Hecker, Markus, and Brinkmann, Markus

Subjects

*EMERGING contaminants, *ENVIRONMENTAL risk assessment, *NON-target organisms, *FATHEAD minnow, *ANALYTICAL chemistry, *ENVIRONMENTAL risk

Abstract

Pharmaceuticals in aquatic environments pose threats to aquatic organisms because of their continuous release and potential accumulation. Monitoring methods for these contaminants are inadequate, with targeted analyses falling short in assessing water quality's impact on biota. The present study advocates for integrated strategies combining suspect and targeted chemical analyses with molecular biomarker approaches to better understand the risks posed by complex chemical mixtures to nontarget organisms. The research aimed to integrate chemical analysis and transcriptome changes in fathead minnows to prioritize contaminants, assess their effects, and apply this strategy in Wascana Creek, Canada. Analysis revealed higher pharmaceutical concentrations downstream of a wastewater‐treatment plant, with clozapine being the most abundant in fathead minnows, showing notable bioavailability from water and sediment sources. Considering the importance of bioaccumulation factor and biota–sediment accumulation factor in risk assessment, these coefficients were calculated based on field data collected during spring, summer, and fall seasons in 2021. Bioaccumulation was classified as very bioaccumulative with values >5000 L kg–1, suggesting the ability of pharmaceuticals to accumulate in aquatic organisms. The study highlighted the intricate relationship between nutrient availability, water quality, and key pathways affected by pharmaceuticals, personal care products, and rubber components. Prioritization of these chemicals was done through suspect analysis, supported by identifying perturbed pathways (specifically signaling and cellular processes) using transcriptomic analysis in exposed fish. This strategy not only aids in environmental risk assessment but also serves as a practical model for other watersheds, streamlining risk‐assessment processes to identify environmental hazards and work toward reducing risks from contaminants of emerging concern. Environ Toxicol Chem 2024;43:2252–2273. © 2024 SETAC [ABSTRACT FROM AUTHOR]

Published

2024

13. A framework for assessing corporate sustainability risks along global supply chains: an application in the mobile phone industry.

Author

Escrig-Olmedo, Elena, Fernández-Izquierdo, María Ángeles, Ferrero-Ferrero, Idoya, Rivera-Lirio, Juana María, and Muñoz-Torres, María Jesús

Subjects

*SUPPLY chain management, *CORPORATE sustainability, *ENVIRONMENTAL risk, *SUPPLY chains, *SOCIAL impact

Abstract

In today's globalized world, characterized by complex supply chain networks, integrating sustainability supply chain risks into the corporate assessment models seems crucial. To tackle the global challenges this paper presents a Sustainability Risk Assessment Framework that allows measurement of environmental and social risks upstream and downstream, along global supply chains, using a combination of quantitative methods (environmental and social footprint computing tools) and qualitative methods (hotspots analysis) from three dimensions (by scenarios, by product components, by lifecycle stage). To test this framework this study focuses on the mobile phone industry, due to the importance of its environmental and social impacts. The results show the low impact of recycling strategies in environmental terms and social terms on the mobile phone industry. Fostering re-use strategies by companies will substantially improve their impacts. This framework overcomes some of the weaknesses of the corporate sustainability risk assessment methodologies, combining quantitative methods and qualitative methods. [ABSTRACT FROM AUTHOR]

Published

2024

14. A dempster-shafer evidence theory for environmental risk assessment in failure modes and effects analysis of oil and gas exploitation plant.

Author

Shams, Gholamreza, Hatefi, Seyed Morteza, and Nemati, Shahla

Subjects

FAILURE mode & effects analysis, DEMPSTER-Shafer theory, ENVIRONMENTAL risk assessment, POLLUTANTS, PETROLEUM chemicals industry, ENVIRONMENTAL risk

Abstract

Copyright of Scientia Iranica. Transaction E, Industrial Engineering is the property of Scientia Iranica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. Evaluating Areal Windspeeds and Wave Heights by Gaidai Risk Evaluation Method.

Author

Gaidai, Oleg, Sheng, Jinlu, Cao, Yu, Zhu, Yan, and Liu, Zirui

Subjects

NONLINEAR dynamical systems, ENVIRONMENTAL risk, OFFSHORE structures, WIND waves, RISK assessment

Abstract

This study presents a state-of-the-art risk evaluation approach, designed for spatiotemporal multivariate environmental dynamic wind-wave systems, being either measured or Monte Carlo (MC) numerically simulated over a representative time-lapse. The main objective of this study has been to benchmark/validate the effectiveness and accuracy of the Gaidai multivariate risk evaluation methodology, using the application to in situ raw windspeeds, along with correlated wave-heights measurements, delivered by North Pacific area of the National Oceanic and Atmospheric Administration (NOAA) ocean buoys. The current study outlines a novel risk evaluation methodology, suitable for environmental dynamic systems, that are either MC numerically modeled, or directly physically measured. The intercorrelations between the wind-wave environmental system's critical/key dimensions and components, along with the high dimensionality of complex environmental systems, are not easily addressed by contemporary classic reliability methods. The objective of this study is to apply a novel reliability/risk evaluation methodology to a combined windspeed and correlated wave-height raw data set, recorded by the NOAA buoys within the North Pacific area, to demonstrate the efficiency of the proposed methodology. By reliability/risk assessment in the current study authors primarily mean probability forecast of certain multivariate hazard event. It is well known that when combined, windspeeds along with correlated wave heights form nonlinear dynamic environmental systems, that are complex, multidimensional, nonstationary, and yet intercorrelated. Global warming is only one of several significant factors that have ongoing impact on ocean windspeeds along with correlated wave heights, and environmental system risk evaluation is essential for marine, naval, and offshore structures, operating within specific in situ offshore areas of interest subject to realistic in situ ocean/sea weather conditions. The main goal of this study had been to benchmark and validate novel multivariate risk analysis methodology, making it possible to extract essential information directly from in situ raw environmental measurements. The methodology presented in this study opens the possibility of efficiently yet accurately assessing global failure/damage and hazard risks for multivariate nonstationary nonlinear environmental sea/ocean wind-wave systems. [ABSTRACT FROM AUTHOR]

Published

2024

16. Practical estimation and use of natural background concentrations in surface waters for nickel in Europe.

Author

Wilson, Iain, Peters, Adam, Merrington, Graham, Middleton, Ellie, Schlekat, Christian, and Garman, Emily

Subjects

ENVIRONMENTAL quality, ANTHROPOGENIC effects on nature, ENVIRONMENTAL management, ENVIRONMENTAL toxicology, ENVIRONMENTAL chemistry, ENVIRONMENTAL risk

Abstract

Estimates of ambient background concentrations in surface waters, referred to as natural background concentrations (NBCs) in European guidance documents, may be an important factor in determining whether a monitoring site meets the legally binding Environmental Quality Standard (EQS) when assessing naturally occurring substances. Here, we focus on utilizing routine regulatory surface water monitoring data to provide risk assessors and environmental practitioners with a transparent, implementable, repeatable, and resource‐effective approach to estimate NBCs. The methodology does not use additional environmental sampling beyond that which is routine or require advanced statistical methods, or the incorporation of highly specialist, and not always readily accessible, local knowledge. It determines both whether a site is suitable for NBC assessment as well as the identification of suitable surrogate sites and local NBCs using 11 criteria: six for identifying if a site is suitable for NBC correction, and five for identifying suitable surrogate sites for local NBC values. The criteria consider both the extent of any EQS exceedance, after accounting for bioavailability in line with the European guidance and potential anthropogenic impacts at the site, and can be applied in a simple sequential procedure. The method has been applied to derive NBCs for nickel on three case‐study countries—Cyprus, France, and Spain—to determine its useability and impact on compliance. The methodology presented addresses a gap in the current guidance regarding the practical and consistent implementation of NBCs and could be applied to other naturally occurring substances in an EQS or Water Quality Guideline compliance assessment process. Integr Environ Assess Manag 2024;20:2128–2141. © 2024 WCA Environment Ltd and NiPERA Inc. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC). Key Points: A methodology is presented utilizing routine regulatory surface water monitoring data to provide risk assessors and environmental practitioners with a transparent, implementable, repeatable, and resource‐effective approach to estimate natural background concentrations (NBCs).The methodology determines both whether a site is suitable for NBC assessment as well as the identification of suitable surrogate sites and local NBCs using 11 criteria: six for identifying if a site is suitable for NBC correction, and five for identifying suitable surrogate sites for local NBC values.The method has been applied to derive NBCs for nickel on three case‐study countries—Cyprus, France, and Spain—to determine its useability and impact on compliance. [ABSTRACT FROM AUTHOR]

Published

2024

17. The postmodern era of environmental regulation.

Author

Toll, John

Subjects

SUSTAINABILITY, NATURAL resources, EMERGING contaminants, ENVIRONMENTAL sciences, ENVIRONMENTAL quality, ENVIRONMENTAL risk, DESERTIFICATION

Abstract

The article discusses the challenges and shortcomings of current environmental regulations, particularly in the United States, focusing on the excessive emphasis on chemical exposure and remediation. The author highlights the need for a shift towards a more holistic approach that considers ecosystem services and human values. The article also calls for regulatory reform to align with the United Nations' Sustainable Development Goals by 2050, emphasizing the importance of interdisciplinary collaboration and adaptive management in addressing environmental issues. [Extracted from the article]

Published

2024

18. Technology acceptance of the PFAS Guide among European companies.

Author

Zheng, Gina and Onencan, Abby Muricho

Subjects

FLUOROALKYL compounds, TECHNOLOGY Acceptance Model, ENVIRONMENTAL toxicology, ENVIRONMENTAL chemistry, INNOVATION adoption, ENVIRONMENTAL risk

Abstract

In 2023, European governments submitted a proposal to comprehensively ban per‐ and polyfluoroalkyl substances (PFAS), prompting a shift toward PFAS‐free alternatives. However, recent research has emphasized the need for an integrated approach to chemical assessment and environmental management rather than abrupt PFAS substitution, as alternatives may pose similar or greater risks. The PFAS Guide was developed to aid corporations in this critical transition. Its goal is to simplify PFAS identification, safe substitution, and gradual elimination. This study applies the Technology Acceptance Model (TAM) to assess how perceived usefulness (PU) and ease of use of the PFAS Guide impact corporate intentions to adopt it. Our analysis, based on responses from 104 European companies, demonstrates a positive link between PU, ease of use, and a company's intent to adopt the PFAS Guide. This underscores the importance of corporations perceiving the PFAS Guide as a valuable and user‐friendly resource, given its substantial impact on PFAS phase‐out. Descriptive statistics revealed an interesting finding: 51.9% of the participants fell into the "other" group, as outlined in the PFAS Guide. This raises questions regarding the grouping of companies into various sectors. Based on our results, we propose improvements to the PFAS Guide by broadening sector representation to encompass a more diverse range of industries with sector‐specific guidance, ensuring content relevance, and accentuating user experience using interactive resources. Future research should focus on the actual adoption and use of the guide to gain deeper insights into adoption rates and long‐term PFAS Guide utilization. Furthermore, additional investigations should incorporate subgroup analyses, data triangulation, and a longitudinal approach to enhance our understanding of the factors that support and hinder integrated chemical assessment and environmental management. These research efforts are pivotal in guiding chemical policy and management practices, contributing to a PFAS‐free future. Integr Environ Assess Manag 2024;20:2175–2188. © 2024 The Author(s). Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC). Key Points: The study reveals a strong correlation between perceived usefulness and ease of use of the PFAS Guide with a company's intention to adopt it, emphasizing its crucial role in supporting effective PFAS phase‐out strategies.In the PFAS Guide, 51.9% of participants fell into the "other" group, indicating challenges with sector‐based categorization and underscoring the need for more nuanced classification methods.Recommendations include broadening sector representation, ensuring content relevance, and enhancing user experience to facilitate PFAS Guide adoption among corporations transitioning to PFAS‐free alternatives.Focus on actual adoption rates, subgroup analyses, and longitudinal approaches is essential to inform policy decisions and advance sustainable chemical management practices toward a PFAS‐free future. [ABSTRACT FROM AUTHOR]

Published

2024

19. 电解猛渣资源化回收利用技术研究进展 及"双碳"影响评估.

Author

唐雪莲, 李会泉, 胡应燕, 李强, 何发锂, 刘作华, and 褚建文

Subjects

ELECTROLYTIC manganese, MANGANESE industry, CARBON emissions, POLLUTION, ELECTROLYTIC reduction, ENVIRONMENTAL risk

Abstract

Copyright of Nonferrous Metals (Extractive Metallurgy) is the property of Beijing Research Institute of Mining & Metallurgy Technology Group and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

20. Characteristics of tetracycline antibiotic resistance gene enrichment and migration in soil–plant system.

Author

Wang, Lei, Yu, Lina, and Cai, Baiyan

Subjects

LIVESTOCK breeding, MOBILE genetic elements, HORIZONTAL gene transfer, HEAVY metal toxicology, POLLUTANTS, ENVIRONMENTAL risk

Abstract

Tetracycline Resistance Genes (TRGs) have received widespread attention in recent years, as they are a novel environmental pollutant that can rapidly accumulate and migrate in soil plant systems through horizontal gene transfer (HGT), posing a potential threat to food safety and public health. This article systematically reviews the pollution sources, enrichment, and migration characteristics of TRGs in soil. The main sources of TRGs include livestock manure and contaminated wastewater, especially in intensive farming environments where TRGs pollution is more severe. In soil, TRGs diffuse horizontally between bacteria and migrate to plant tissues through mechanisms such as plasmid conjugation, integron mediation, and phage transduction. The migration of TRGs is not limited to the soil interior, and increasing evidence suggests that they can also enter the plant system through plant root absorption and the HGT pathway of endophytic bacteria, ultimately accumulating in plant roots, stems, leaves, fruits, and other parts. This process has a direct impact on human health, especially when TRGs are found in crops such as vegetables, which may be transmitted to the human body through the food chain. In addition, this article also deeply analyzed various factors that affect the migration of TRGs, including the residual level of tetracycline in soil, the type and concentration of microorganisms, heavy metal pollution, and the presence of new pollutants such as microplastics. These factors significantly affect the enrichment rate and migration mode of TRGs in soil. In addition, two technologies that can effectively eliminate TRGs in livestock breeding environments were introduced, providing reference for healthy agricultural production. The article concludes by summarizing the shortcomings of current research on TRGs, particularly the limited understanding of TRG migration pathways and their impact mechanisms. Future research should focus on revealing the migration mechanisms of TRGs in soil plant systems and developing effective control and governance measures to reduce the environmental transmission risks of TRGs and ensure the safety of ecosystems and human health. [ABSTRACT FROM AUTHOR]

Published

2024

21. Agriculture supply chain risks and COVID-19: mitigation strategies and implications for the practitioners.

Author

Sharma, Rohit, Shishodia, Anjali, Kamble, Sachin, Gunasekaran, Angappa, and Belhadi, Amine

Subjects

SUPPLY chain disruptions, SUPPLY chains, SUSTAINABILITY, FARM supplies, ENVIRONMENTAL risk

Abstract

The agricultural supply chains (ASCs) are exposed to unprecedented risks following COVID-19. It is necessary to investigate the impact of risks and to create resilient ASC organisations. In this study, we have identified and assessed the ASC risks caused by disruptions. These threats were assessed using Fuzzy Linguistic Quantifier Order Weighted Aggregation (FLQ-OWA). The findings reveal that supply risks, demand risks, financial risks, logistics and infrastructure risks, management and operational, policy and regulation, and biological and environmental risks have a significant impact in ASC depending upon the organisations scope and scale. Various strategies such as adoption of industry 4.0 technologies, supply chain collaboration and shared responsibility is identified for sustainable future. Theoretical and managerial implications are provided based on the outcomes of the study. [ABSTRACT FROM AUTHOR]

Published

2024

22. Efficient removal of basic yellow 28 dye from water using facilely synthesized ZnO and Mg3B2O6 nanostructures.

Author

Al-Wasidi, Asma S., El-Sayyad, Gharieb S., Saad, Fawaz A., Shah, Reem K., and Abdelrahman, Ehab A.

Subjects

*LANGMUIR isotherms, *LEATHER industry, *ENVIRONMENTAL risk, *ADSORPTION capacity, *ALLERGIES

Abstract

Basic yellow 28 dye, used extensively in the textile and leather industries, poses significant environmental and health risks, including allergic reactions, skin irritation, and respiratory problems. This study reports the Pechini sol-gel synthesis of novel ZnO/Mg3B2O6 nanostructures for the decontamination of basic yellow 28 dye from aqueous solutions. The nanostructures were synthesized by calcining at 650 and 850 °C for 5 h, producing ZM650 and ZM850, respectively. The average crystallite sizes were 39.28 nm for ZM650 and 51.03 nm for ZM850. BET surface areas were 70.71 m2/g for ZM650 and 48.13 m2/g for ZM850. FE-SEM and HR-TEM analyses revealed distinct morphological structures, with ZM650 exhibiting a dense aggregation of rod-like particles and ZM850 showing larger clusters. The maximum adsorption capacities were 381.68 mg/g for ZM650 and 303.03 mg/g for ZM850. The optimum adsorption was observed at a pH of 10, a contact time of 70 min, and a temperature of 298 K. Regeneration using a 6 M HCl solution demonstrated efficient reusability over five cycles. The adsorption process followed pseudo-second-order kinetics and the Langmuir isotherm, indicating monolayer adsorption. Also, the adsorption process was found to be physical and exothermic. [ABSTRACT FROM AUTHOR]

Published

2024

23. 1D-2D hydrodynamic and sediment transport modelling using MIKE models.

Author

Pareta, Kuldeep

Subjects

WATER management, BED load, SEDIMENT transport, WATER levels, RIVER sediments, FLOOD risk, MEANDERING rivers, ENVIRONMENTAL risk

Abstract

A comprehensive modeling framework utilizing hydrodynamic and sediment transport models (MIKE Hydro River, MIKE 21 FM, MIKE 21C) was applied to the 33.57 km stretch of the Banshadhara River from Banshadhara bridge, Gunupur to Kashinagar town. Daily discharge, water levels, and sediment data from 2013 to 2022 of Gunupur and Kashinagar gauge stations was used as model input, and calibration–validation of models. Additionally, satellite remote sensing data used for determined Manning's roughness (n) values as well compared the model outputs. Calibration procedures ensured high accuracy, with MIKE Hydro River achieving 98.3% agreement between observed and simulated water levels. 1D sediment transport model showing significant variability in total bed load values ranging from 0.3 to 3.83 m^3/s. The Wilcock & Crowe gravel bed load formula accurately predicted bed load transport within the expected magnitude, albeit tending to overestimate transport, indicative of supply-limited conditions. 2D MIKE 21 FM simulations highlighted flow dynamics, with rapid flood arrival at Kashinagar and varying current speeds along the river, especially at bends. MIKE 21C, focused on the central portion, indicated erosion processes at river bends with high discharge. Sediment transport model accuracy was approximately 86.7%, capturing general trends despite occasional discrepancies. Over a 10-year simulation, erosion trends and potential river course shifting were observed, particularly near bends. The analysis provides valuable insights for river management, flood risk mitigation, water resource management, infrastructure planning, and environmental preservation in the Banshadhara River basin and similar environments. Article Highlights: Accurate modeling predicts river erosion and possible course shifts, vital for flood risk planning. Sediment transport varies widely, indicating complex riverbed dynamics impacting river management. Study offers insights into managing river ecosystems, infrastructure, and environmental preservation. [ABSTRACT FROM AUTHOR]

Published

2024

24. Perception and attitude towards natural and human-made risks in Portugal in a school context.

Author

Martins, Bruno and Nunes, Adélia

Subjects

*SPACE perception, *ATTITUDE change (Psychology), *ENVIRONMENTAL risk, *AT-risk students, *RISK perception, *ATTITUDE (Psychology)

Abstract

AbstractPerception is very important when analysing and managing risk as it is vital for better preparing the individual and society. The aims of this study are to: (i) find out about students’ perceptions of the spatial dimension of natural and environmental risks affecting mainland Portugal; (ii) understand how students perceive risks, taking causal attribution, level of knowledge, and future trends into account; (iii) relate students’ perceptions to behaviour, actions, and willingness to change attitudes to mitigating and reducing risks. In this study, a questionnaire was administered to 786 ninth year students between April and May 2022. Stepwise regression was applied to determine the factors that control the change in risk behaviour. The results of this study indicate levels of risk perception that are considered low to moderate. Female students tended to develop a greater sense of fear in the face of risk manifestations. [ABSTRACT FROM AUTHOR]

Published

2024

25. Geospatial analysis of environmental atmospheric risk factors in neurodegenerative diseases: a systematic review update.

Author

Oliveira, Mariana, Padrão, André, Teodoro, Ana Cláudia, Freitas, Alberto, and Gonçalves, Hernâni

Subjects

*DISEASE risk factors, *SUNSHINE, *ALZHEIMER'S disease, *POLLUTANTS, *ENVIRONMENTAL risk

Abstract

Following up the previously published systematic review on the same topic and realizing that new studies and evidence had emerged on the matter, we conducted an update on the same research terms. With the objective of updating the information relating environmental risk factors on neurodegenerative diseases and the geographic approaches used to address them, we searched PubMed, Web of Science and Scopus for all scientific studies considering the following three domains: neurodegenerative disease, environmental atmospheric factor and geographical analysis, using the same keywords as in the previously published systematic review. From February 2020 to February 2023, 35 papers were included versus 34 in the previous period, with dementia (including Alzheimer's disease) being the most focused disease (60.0%) in this update, opposed to multiple sclerosis on the last review (55.9%). Also, environmental pollutants such as PM2.5 and NO2 have gained prominence, being represented in 65.7% and 42.9% of the new studies, opposed to 9.8% and 12.2% in the previous review, compared to environmental factors such as sun exposure (5.7% in the update vs 15.9% in the original). The mostly used geographic approach remained the patient's residence (82.9% in the update vs 21.2% in the original and 62.3% in total), and remote sensing was used in 45.7% of the new studies versus 19.7% in the original review, with 42.0% of studies using it globally, being the second most common approach, usually to compute the environmental variable. This review has been registered in PROSPERO with the number CRD42020196188. [ABSTRACT FROM AUTHOR]

Published

2024

26. Biological aging mediates the association between volatile organic compounds and cardiovascular disease.

Author

Cao, Qingqing, Song, Yu, Huan, Changsheng, Jia, Zexin, Gao, Qian, Ma, Xiaoqing, Zhou, Guihong, Chen, Siyu, Wei, Jin, Wang, Yuchuan, Wang, Chongjian, Mao, Zhenxing, Hou, Jian, and Huo, Wenqian

Subjects

*DISEASE risk factors, *VOLATILE organic compounds, *ENVIRONMENTAL risk, *LOGISTIC regression analysis, *ODDS ratio

Abstract

Background: Evidence for the relationship between individual and combined volatile organic compounds (VOCs) and cardiovascular disease (CVD) is limited. Besides, the mediating role of biological aging (BA) has not been studied. Therefore, this study aimed to examine the association between VOCs and CVD risk and to explore the mediating effects of BA. Methods: Logistic regression models were used to investigate the relationships of metabolites of volatile organic compounds (mVOCs) and BA with CVD. In addition, weighted quantile sum (WQS) regression, adaptive elastic networks, and Environmental Risk Score (AENET-ERS) were utilized to assess overall associations of mixed VOCs co-exposure with CVD. Mediation analyses were used to identify potential mediating effects of BA. Results: In the single-pollutant model, CYMA was shown to be associated with an increased risk of CVD. Additionally, we identified significantly positive associations between the WQS index and CVD (odds ratio (OR) = 1.292, 95% confidence interval (CI): 1.006, 1.660), and DHBMA had the greatest contribution for CVD (0.246). Furthermore, the AENET-ERS results showed that 8 mVOCs were significantly associated with CVD, and ERS was related to an elevated risk of CVD (OR = 1.538, 95%CI: 1.255, 1.884). Three BA indicators mediated the association of the mVOCs mixture with CVD, with mediating effect proportions of 11.32%, 34.34%, and 7.92%, respectively. Conclusion: The risk of CVD was found to increase with both individual and combined exposure to VOCs. BA mediates the positive effects of VOCs on CVD, suggesting that this pathway may be one of the mechanisms of CVD. Highlights: Individual and mixed exposure to VOCs were associated with elevated CVD risk. DHBMA dominates mixtures of mVOCs for increased CVD risk. BA mediates the effect of VOCs mixture exposure on CVD. [ABSTRACT FROM AUTHOR]

Published

2024

27. Internet usage, environmental knowledge, and the surge of air pollution concern in China.

Author

Fan, Shiwei

Subjects

*CONSCIOUSNESS raising, *POLLUTION, *GEOGRAPHICAL perception, *ENVIRONMENTAL literacy, *ENVIRONMENTAL risk

Abstract

Environmental pollution has become a serious public concern in China. What impact does the Internet have on people’s perception of pollution? This study evaluates the causal effect of the Internet usage on the perception of air pollution by scrutinizing data from the China General Social Survey 2013. The results indicate that people who rely more heavily on the Internet for information perceive more severe pollution. This amplification effect cannot be attributed to the contextual factors including economic development or pollution severity through increasing the usage of the Internet. This study concludes with an exploratory mechanism analysis which demonstrates that people acquire greater environmental knowledge by using the Internet which serves to raise the awareness and amplify the perceived seriousness of air pollution. [ABSTRACT FROM AUTHOR]

Published

2024

28. Review of evidence linking exposure to environmental stressors and associated alterations in the dynamics of immunosenescence (ISC) with the global increase in multiple sclerosis (MS).

Author

Bolton, Christopher

Subjects

*ENVIRONMENTAL exposure, *SOCIAL determinants of health, *IMMUNOSENESCENCE, *ENVIRONMENTAL risk, *T cells

Abstract

Historical survey confirms that, over the latter part of the 20th century, autoimmune-based diseases, including multiple sclerosis (MS), have shown a worldwide increase in incidence and prevalence. Analytical population studies have established that the exponential rise in MS is not solely due to improvements in diagnosis and healthcare but relates to an increase in autoimmune risk factors. Harmful environmental exposures, including non-communicable social determinants of health, anthropogens and indigenous or transmissible microbes, constitute a group of causal determinants that have been closely linked with the global rise in MS cases. Exposure to environmental stressors has profound effects on the adaptive arm of the immune system and, in particular, the associated intrinsic process of immune ageing or immunosenescence (ISC). Stressor-related disturbances to the dynamics of ISC include immune cell-linked untimely or premature (p) alterations and an accelerated replicative (ar) change. A recognised immune-associated feature of MS is pISC and current evidence supports the presence of an arISC during the disease. Moreover, collated data illustrates the immune-associated alterations that characterise pISC and arISC are inducible by environmental stressors strongly implicated in causing duplicate changes in adaptive immune cells during MS. The close relationship between exposure to environmental risk factors and the induction of pISC and arISC during MS offers a valid mechanism through which pro-immunosenescent stressors may act and contribute to the recorded increase in the global rate and number of new cases of the disease. Confirmation of alterations to the dynamics of ISC during MS provides a rational and valuable therapeutic target for the use of senolytic drugs to either prevent accumulation and enhance ablation of less efficient untimely senescent adaptive immune cells or decelerate the dysregulated process of replicative proliferation. A range of senotherapeutics are available including kinase and transcriptase inhibitors, rapalogs, flavanols and genetically-engineered T cells and the use of selective treatments to control emerging and unspecified aspects of pISC and arISC are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

29. Environmental risk scenarios of specific NGT applications in Brassicaceae oilseed plants.

Author

Koller, Franziska, Cieslak, Michael, and Bauer-Panskus, Andreas

Subjects

TRANSGENIC organisms, OILSEED plants, RAPESEED, UNSATURATED fatty acids, ENVIRONMENTAL risk, OILSEEDS

Abstract

Background: Oilseed plants of the Brassicaceae plant family are cultivated for food, feed and industrial purposes on large-scale in Europe. This review gives an overview of current market-oriented applications of new genomic techniques (NGTs) in relevant Brassicaceae oilseed crops based on a literature survey. In this respect, changes in oil quality, yield, growth and resistance to biotic and abiotic stress are under development in oilseed rape (Brassica napus), camelina (Camelina sativa), and pennycress (Thlaspi arvense). Main findings: Environmental risk scenarios starting with hazard identification are developed for specific NGT applications in Brassicaceae oilseed crops with either a changed oil composition or with fitness-related traits. In case of a changed oil composition, an increase or decrease of polyunsaturated fatty acids (PUFA) may lead to risks for health and survival of pollinators. Regarding fitness-related traits, other risks were identified, i.e. an increased spread and persistence of NGT plants. Furthermore, there are indications for potential disturbance of interactions with the environment, involving signalling pathways and reaction to stress conditions. Conclusion: It is shown that for environmental risk scenarios of the technological specificities of NGTs, the plants' biology and the scale of releases have to be considered in combination. Therefore, the release of NGT plants into the environment for agricultural purposes will, also in future, require risk assessment and monitoring of individual traits as well as of combinatorial and long-term cumulative effects. In addition, risk management should develop concepts and measures to control and potentially limit the scale of releases. This is especially relevant for NGT Brassicaceae in Europe, which is a centre of diversity of this plant family. [ABSTRACT FROM AUTHOR]

Published

2024

30. Hydrochemical characterization and health risk assessment of shallow groundwater in a northern coalfield of Anhui Province, China.

Author

Song, Jiageng and Zhou, Xiang

Subjects

ENVIRONMENTAL health, WATER quality management, HEALTH risk assessment, COAL mining, GROUNDWATER quality, SILICATE minerals, ENVIRONMENTAL risk

Abstract

In a global context, the hydrochemical characteristics of shallow groundwater in coalfields exhibit high degrees of diversity and complexity that are rooted in the intricate interplay of geological variations, diverse climatic conditions, and extensive human activities. The specific types and concentrations of ions, such as Ca2+, Cl−, and NO3−, show stark differences across geographical regions. Given the crucial roles of coalfields as energy suppliers, the potential environmental contamination risks posed by mining activities to groundwater cannot be overlooked as such pollution directly impacts human health and ecological safety. This study focuses on the Huainan coal mining area in northern Anhui Province (China), where shallow groundwater samples were systematically collected and analyzed to determine the hydrochemical characteristics and ascertain the water quality status. By integrating hydrogeochemical analysis techniques with inverse modeling methods, it was revealed that the groundwater in this region is predominantly HCO3-Ca type, exhibiting weak alkaline characteristics. The formation mechanisms are primarily governed by silicate rock weathering and mineral dissolution-precipitation processes, albeit with discernible influences from human activities. PHREEQC simulations were used to further confirm the precipitation tendencies of minerals like calcite, dolomite, and fluorite as well as the significant dissolution characteristics of halite. The inverse modeling pathway analysis reveals specific hydrochemical processes along different paths: paths I and IV are notably dominated by Ca2+ dissolution-precipitation and cation exchange-adsorption processes, whereas paths II and III are closely associated with the precipitation of calcium montmorillonite as well as dissolution of kaolinite, calcite, quartz, and mineral incongruents. Moreover, evaluations based on the entropy-weighted water quality index (EWQI) indicated overall positive trends of the groundwater quality indicators within the Huainan mining area, reflecting the effectiveness of regional water quality management efforts and providing a scientific basis for future water quality protection and improvement strategies. In summary, this study not only deepens our understanding of the groundwater chemistry in the Huainan coal mining area but also underscores the importance of scientifically assessing and managing groundwater resources to address the environmental challenges potentially arising from coal mining activities. [ABSTRACT FROM AUTHOR]

Published

2024

31. Progress in phenanthroline-derived extractants for trivalent actinides and lanthanides separation: where to next?

Author

Yang, Xiaofan, Xu, Lei, Fang, Dong, Zhang, Anyun, and Xiao, Chengliang

Subjects

*RADIOISOTOPES, *NUCLEAR energy, *NUCLEAR fuels, *CHEMICAL properties, *SPENT reactor fuels, *ENVIRONMENTAL risk

Abstract

Spent nuclear fuel (SNF) released from reactors possesses significant radioactivity, heat release properties, and high-value radioactive nuclides. Therefore, using chemical methods for reprocessing can enhance economic efficiency and reduce the potential environmental risks of nuclear energy. Due to the presence of relatively diffuse f-electrons, the chemical properties of trivalent lanthanides (Ln(III)) and actinides (An(III)) in SNF solutions are quite similar. Separation methods have several limitations, including poor separation efficiency and the need for multiple stripping agents. The use of novel multi-dental phenanthroline-derived extractants with nitrogen donor atoms to effectively separate An(III) over Ln(III) has been widely accepted. This review first introduces the development history of phenanthroline-derived extractants for extraction and complexation with An(III) over Ln(III). Then, based on structural differences, these extractants are classified into four categories: nitrogen-coordinated, N,O-hybrid coordinated, highly preorganized structure, and unsymmetric structure. Each category's design principles, extraction, and separation performance as well as their advantages and disadvantages are discussed. Finally, we have summarized and compared the unique characteristics of the existing extractants and provided an outlook. This work may offer a reliable reference for the precise identification and selective separation between An(III) and Ln(III), and point the way for future development and exploration. [ABSTRACT FROM AUTHOR]

Published

2024

32. Saponin Molecules from Quinoa Residues: Exploring Their Surfactant, Emulsifying, and Detergent Properties.

Author

Bustos, Kiara A. García, Muñoz, Salvador Sanchez, da Silva, Silvio S., Alarcon, Miguel A. D. Flores, dos Santos, Júlio C., Andrade, Gilberto J. Colina, and Hilares, Ruly Terán

Subjects

*CRITICAL micelle concentration, *SURFACE tension, *CIRCULAR economy, *ENVIRONMENTAL risk, *SAPONINS, *QUINOA

Abstract

The indiscriminate use of synthetic surfactants, despite their desirable properties, poses significant environmental risks to ecosystems. This study explores saponins extracted from quinoa (Chenopodium quinoa) residues as a sustainable alternative. Saponin extract (SE) with 42% purity, obtained through hydrodynamic cavitation and membrane technology, was analyzed to determine its techno-functional properties. The critical micelle concentration (CMC) was 1.2 g/L, reducing the surface tension (ST) from 72.0 mN/m to 50.0 mN/m. The effects of temperature (30–90 °C), pH (2–12), and salinity (10,000–150,000 ppm NaCl) on ST and the emulsification index (EI) were assessed using a Box–Behnken design. Optimized conditions yielded an ST of 49.02 mN/m and an EI of 63%. Given these characteristics, SE was evaluated as a detergent across diverse swatches. This study showcases the attributes of quinoa-derived saponins, highlighting their potential for eco-friendly detergent applications. [ABSTRACT FROM AUTHOR]

Published

2024

33. Distribution Patterns of tfd I and tfd II Gene Clusters and New Insights into the Formation of the Architecture of pJP4, a Canonical 2,4-dichlorophenoxyacetic Acid (2,4-D) Degradation Plasmid.

Author

Iasakov, Timur

Subjects

*BACTERIAL adaptation, *GENE clusters, *COMPARATIVE genomics, *XENOBIOTICS, *ENVIRONMENTAL risk, *PLASMIDS

Abstract

Currently, pJP4 is one of the best-known plasmids for the biodegradation of xenobiotics that mediate the degradation of 2,4-dichlorophenoxyacetic acid (2,4-D), which is associated with serious health and environmental risks. Although the sequencing and proposed theory of pJP4 formation occurred almost 20 years ago (2004), pJP4 is still the model object of many studies focused on the biodegradation of 2,4-D. The uniqueness of this plasmid is due to the presence of two evolutionarily distinct gene clusters, tfdI and tfdII, controlling the degradation of 2,4-D. Recent advances in plasmid biology, especially those concerning the characterization of new IncP-1 plasmids and the systematization of tfd gene cluster findings, serve as a basis for proposing new insights into the formation of the clusters' architecture of the canonical plasmid, pJP4, and their distribution among other plasmids. In the present work, a comparative genomic and phylogenetic in silico study of plasmids with tfdI and tfdII clusters was carried out. The possible initial distribution patterns of tfdI clusters among plasmids of different incompatibility groups (non-IncP-1) and tfdII clusters among IncP-1 plasmids using the IS1071-based composite transposon were revealed. A new theory on the formation of the architecture of the tfdI and tfdII clusters of pJP4 through sequential internal rearrangements, recombination, and ISJP4 insertion, is proposed. In addition, small gene clusters resulting from internal rearrangements of pJP4 (tfdIISA and ORF31/32) served as fingerprints for exploring the distribution of tfdI and tfdII clusters. The revealed patterns and formulated theory extend the frontiers of plasmid biology and will be beneficial for understanding the role of plasmids in bacterial adaptation to xenobiotic-contaminated environments. [ABSTRACT FROM AUTHOR]

Published

2024

34. Repurposing waste-iron electrocoagulated algal biomass as effective heterogenous (bio)electro-fenton catalyst for phthalate removal from wastewater.

Author

Raj, Rishabh, Dhanda, Anil, Kumar, Santosh, Das, Sovik, and Ghangrekar, Makarand Madhao

Subjects

*HETEROGENEOUS catalysts, *POWER density, *ENVIRONMENTAL risk, *BIOCHAR, *CATALYSTS, *MICROPOLLUTANTS

Abstract

The presence of refractory micropollutants in natural waters poses significant environmental and health risks. Preferably, advanced oxidation techniques like electro-Fenton (EF) and bio-electro-Fenton (BEF) are used to mitigate micropollutants; nevertheless, their field-scale implementation is limited by prohibitive catalyst cost. As an alternative, waste-iron electrocoagulated algal biomass (A-BC/Fe) was explored as a heterogeneous Fenton catalyst to eliminate dimethyl phthalate (DMP) from wastewater. The Fenton-conducive morphological, chemical, and electrochemical properties of the A-BC/Fe catalyst were revealed by detailed characterisation. In EF treatment, 10 mg/L of DMP was completely degraded within 15 min at pH of 7.0, 50 mM Na2SO4, and cathode potential of − 1.4 V vs. Ag/AgCl. Moreover, the EF system achieved 87.80 ± 2.10% and 96.14 ± 1.10% of DMP removal from secondary and tertiary treated municipal sewage, respectively. The A-BC/Fe catalyst-driven EF process disintegrated DMP into benign non-toxic by-products and showed stable performance over eight batch cycles with only a 1.71% decline in DMP removal efficiency. Further, the A-BC/Fe-catalysed BEF system eliminated 94.81 ± 1.90% of DMP in 4 h while achieving a maximum power density of 124.03 ± 5.64 mW/m2. This investigation underscores the potential of repurposing electrocoagulated algal biomass as a sustainable heterogenous catalyst for micropollutant remediation. [ABSTRACT FROM AUTHOR]

Published

2024

35. Use of the Pesticide Toxicity Index to Determine Potential Ecological Risk in the Santiago-Guadalajara River Basin, Mexico.

Author

de Anda, José, Shear, Harvey, Lugo-Melchor, Ofelia Yadira, Padilla-Tovar, Luis Eduardo, Bravo, Sandra Daniela, and Olvera-Vargas, Luis Alberto

Subjects

BODIES of water, METHOXYCHLOR, WATERSHEDS, ENVIRONMENTAL risk, MASS surveillance, DDT (Insecticide)

Abstract

The Santiago-Guadalajara River Basin (SGRB), located in western Mexico, is one of the most polluted rivers in the country. A pesticide monitoring program was carried out from January 2022 to September 2022, during which time water samples collected at 25 sites in the main stem and tributaries revealed the presence of 13 of the 24 pesticides analyzed, including α-BHC, β-BHC, γ-BHC (Lindane), γ-Chlordane, Hexachlorobenzene, Heptachlor, Aldrin, α-Endosulfan, DDT, -4,4, Methoxychlor, Chlorpyrifos-methyl, Endosulfan sulfate, and Dicofol. A high level of correlation was found between the identified pesticides, which could mean that several of these pesticides reached a stable level within the monitored water bodies. Most of the identified pesticides are classified as high environmental risk according to the Stockholm Convention because of their persistence and high degree of toxicity to the environment and human health. A Pesticide Toxicity Index (PTI) was applied to identify the streams considered to be of concern due to the presence of pesticides exceeding the threshold limits established by national and international guidelines. Performing a calculation for the entire Santiago-Guadalajara River Basin, the PTI reached a value of 0.833, which, according to the criteria of this method, classifies it as a "Moderate" level of risk for aquatic life. Increased regulatory and surveillance measures by state and federal authorities are required to prevent the use of these pesticides, which have been restricted globally. [ABSTRACT FROM AUTHOR]

Published

2024

36. Assessment of Ecological Hazards in the Inaouen Wadi and Its Tributaries Using the Presence of Potentially Toxic Elements in Its Sediments.

Author

Rezouki, Sanae, Moubchir, Tarik, El Hanafi, Laila, Flouchi, Rachid, Zahir, Ilham, Alzain, Mashail N., El Guerrouj, Bouchra, Noman, Omar, Shahat, Abdelaaty A., and Allali, Aimad

Subjects

INDUCTIVELY coupled plasma atomic emission spectrometry, NUCLEOSYNTHESIS, POLLUTION management, ECOLOGICAL assessment, HUMAN origins, ECOLOGICAL risk assessment, ENVIRONMENTAL risk

Abstract

Inaouen wadi is the second largest tributary of the Sebou river, one of Morocco's major rivers, which holds significant economic and social importance. Unfortunately, this watercourse is severely impacted by pollution from various human activities, particularly industrial sources. However, available data on the presence of potentially toxic elements (PTEs) that could harm human health in this region remain limited. PTEs pose major environmental risks due to their toxicity, persistence, and bioaccumulation. This study aimed to assess the concentrations of PTEs in the sediments of Inaouen wadi and its main tributaries based on sediment samples collected from 12 locations in 2019. The concentrations of Cd, Pb, Cr, Ag, Al, Cu, Fe, and Zn were measured using inductively coupled plasma atomic emission spectroscopy (ICP–AES), and sediment contamination levels were evaluated using multiple indices: the enrichment factor (EF), the geo-accumulation index (Igeo), the potential ecological hazard index (RI), and the modified ecological risk index (MRI). The results indicate that concentrations of Pb, Cd, Cr, Cu, Fe, and Zn are significantly influenced by urban discharges, particularly at sites S1, S3, and S5 near the cities of Taza and Oued-Amlil. The maximum values recorded were 7.01 g/kg for Pb, 0.9 g/kg for Cd, 0.1 g/kg for Cr, 19.9 g/kg for Fe and 1.9 g/kg for Zn. The enrichment factor (EF) revealed anthropogenic sources of Fe and Pb, confirming the human origin of these elements. The geo-accumulation index (Igeo) showed that the areas around stations S1, S3, and S5 are highly contaminated by Pb, Cd, and Fe, a finding also supported by the MRI. The study identified potential ecological risks at stations S1, S3, and S5, highlighting the urgent need for improved pollution management practices to mitigate environmental risks. [ABSTRACT FROM AUTHOR]

Published

2024

37. Perceptions and attitudes about the contribution of the environment to childhood cancer: a pilot study in a medical guild and undergraduate students.

Author

Jarquin-Yañez, Lizet, Cruz, Eunice Tello, Martinez-Acuña, Monica Imelda, and Calderon-Hernandez, Jaqueline

Subjects

CHILDHOOD cancer, ENVIRONMENTAL medicine, RISK perception, ENVIRONMENTAL risk, ENVIRONMENTAL health

Abstract

Background: Identifying and recognizing environmental risk factors for childhood cancer is crucial to prevent it. Medical guild are the first contact to monitor children's health. Therefore, courses about the contribution of chemical toxins in the environment and health outcomes such as cancer should be included in their professional training. This study aimed to evaluate the perceptions and attitudes of a medical guild and undergraduate students in health sciences about the contribution of the environment to childhood cancer. Methods: A pilot study was conducted, an online survey including thirteen questions was shared among medical guild members and undergraduate students in health sciences. Frequencies, percentages, and chi-square homogeneity tests were calculated to compare groups. Results: Genetic factors ranked as the first possible cause of childhood cancer (88.2% medical guild and 97.7% undergraduate students). However, 70.6% of medical guild and 64.6% of undergraduate students reported that they have ever suspected that childhood cancer could be related to the environmental conditions in which children live. More than 95% of the participants reported that they would find it useful to have more knowledge about environmental risks and cancer. When data were analyzed by profession (medical guild) and academic year (undergraduate students), no significant differences were observed. Nonetheless, comparisons by academic discipline between undergraduate students, showed that a higher percentage of medicine and environmental sciences and health (over 98%) reported environmental exposure as risk factors associated with childhood cancer compared to 75% from physiotherapy, (p = 0.001). Conclusions: In this study, the environmental contribution to childhood cancer is not clear among the medical guild and undergraduate students. They should be trained on the topic of cancer and the environment. [ABSTRACT FROM AUTHOR]

Published

2024

38. Assessment of groundwater quality in the eastern part of tehran plain: Implications for human health.

Author

Fijani, Elham, Meysami, Sahar, and Ahmadpour, Ali

Subjects

GROUNDWATER quality, HEALTH risk assessment, WATER quality, GROUNDWATER management, ENVIRONMENTAL risk, ARSENIC

Abstract

Groundwater quality is a critical concern for human health, particularly in urban areas like the eastern part of Tehran Plain, where geological features and anthropogenic activities contribute to contamination risks. This study aimed to assess the quality of groundwater in this region, focusing on its implications for public health. The objectives of the study were to identify factors influencing hydrogeochemistry, evaluate environmental risk based on metal(loid)s using water quality indices, and conduct a health risk assessment. Groundwater samples were collected and analyzed for chemistry, water quality, heavy metal contamination, and associated health risks. The results indicated a relatively stable pH condition and a wide variation in the concentration of dissolved solids. The Water Quality Index (WQI) was employed to evaluate the overall water quality, revealing that approximately 50% of the samples fell into the poor and very poor quality categories, with two samples deemed unsuitable for drinking. Heavy metal contamination varied across different metals, with some indicating low levels while others showed moderate to very high levels. Priority pollutants such as mercury and arsenic were identified as having a greater potential impact on water quality deterioration. Exposure and health risk assessments indicated a negligible risk associated with aluminum exposure but high risks associated with arsenic, chromium, and mercury exposure. Carcinogenic risk assessments for arsenic, chromium, and mercury exceeded acceptable thresholds, emphasizing the urgent need for further investigation into contamination sources and strategies for mitigation. These findings highlight the importance of continuous monitoring and sustainable groundwater management practices, providing valuable insights for other regions facing similar challenges in groundwater quality and public health. [ABSTRACT FROM AUTHOR]

Published

2024

39. A global dataset of 7 billion individuals with socio-economic characteristics.

Author

Ton, Marijn J., Ingels, Michiel W., de Bruijn, Jens A., de Moel, Hans, Reimann, Lena, Botzen, Wouter J. W., and Aerts, Jeroen C. J. H.

Subjects

DEMOGRAPHIC surveys, LAND tenure, DEVELOPING countries, ENVIRONMENTAL risk, POPULATION statistics

Abstract

In global impact modeling, there is a need to address the heterogeneous characteristics of households and individuals that drive different behavioral responses to, for example, environmental risk, socio-economic policy changes and spread of diseases. In this research, we present GLOPOP-S, the first global synthetic population dataset with 1,999,227,130 households and 7,335,881,094 individuals for the year 2015, consistent with population statistics at an administrative unit 1 level. GLOPOS-S contains the following attributes: age, education, gender, income/wealth, settlement type (urban/rural), household size, household type, and for selected countries in the Global South, ownership of agricultural land and dwelling characteristics. To generate GLOPOP-S, we use microdata from the Luxembourg Income Study (LIS) and Demographic and Health Surveys (DHS) and apply synthetic reconstruction techniques to fit national survey data to regional statistics, thereby accounting for spatial differences within and across countries. Additionally, we have developed methods to generate data for countries without available microdata. The dataset can be downloaded per region or country. GLOPOP-S is open source and can be extended with other attributes. [ABSTRACT FROM AUTHOR]

Published

2024

40. Do environmental risk perceptions promote individual pro-environmental behaviors? — the role of environmental concerns and natural exposure.

Author

Zhang, Fangwen, Niu, Xueting, and Wang, Shuzhen

Subjects

GEOGRAPHICAL perception, GREEN behavior, PSYCHOMETRICS, ENVIRONMENTAL risk, ENVIRONMENTAL management, RISK perception

Abstract

Environmental risk is a special risk that threatens human life and property and may affect people's environmental behavior, while pro-environmental behavior is the key to coping with environmental problems. This study explores the mechanisms by which environmental risk perception influences pro-environmental behavior based on the protective motivation theory (PMT) and the stimulus-organism-response model (SOR). In this mechanism, we believe that two factors, environmental concern, and natural exposure, play essential roles, and we developed a theoretical model of environmental risk perception influencing pro-environmental behavior. We recruited a sample of 626 general residents (316 males and 310 females) of age (mean (SD) = 37.37 ± 12.84). Participants filled out a paper-and-pencil questionnaire, which included questionnaires on general socio-demographic characteristics and an environmental, psychological scale assessing general environmental risk perceptions, environmental concern, nature exposure, and pro-environmental behavior. The study results showed that environmental risk perception promotes pro-environmental behaviors, environmental concern mediates the relationship between environmental risk perception and pro-environmental behaviors, and nature exposure positively moderates the relationship between environmental risk perception and environmental concern and thus influences pro-environmental behaviors. Our study explains how environmental risk perception affects pro-environmental behavior, constructs a theoretical model of environmental risk perception, and expands the scope of application of the PMT theory and the SOR model. Based on the results of this study, it is suggested that in environmental management, individuals should be aware of environmental risks and encouraged to get close to nature to promote pro-environmental behaviors and realize the harmonious coexistence between human beings and nature. [ABSTRACT FROM AUTHOR]

Published

2024

41. Evaluation of Soils Around the Crude Oil Desalting Plant by MCDM Method to Reduce Pollution in the Koreyt Camp Area of Ahvaz, Iran.

Author

Saudi, Maryam, Karimi Organi, Fatemeh, Mohsenifar, Kamran, Parnian, Amir, and Dashti, Soolmaz

Subjects

*ANALYTIC hierarchy process, *SOIL remediation, *SOIL pollution, *ENVIRONMENTAL remediation, *ENVIRONMENTAL risk

Abstract

In order to identify the factors causing environmental pollution caused by petroleum industries in Ahvaz County, Khuzestan province, regarding local concerns, the area of soil affected by the operational activity of crude oil desalting plantation (CODP) should be determined. In addition, in order to identify obvious environmental risks leading to soil pollution, it is necessary to identify hazardous activities ‎(HA). MCDM methods, or multi-criteria decision-making models, for ranking options, and choosing the best option for identifying environmental risks. Therefore, in this research, by examining models of multi-criteria decision-making, including the AHP Analytical Hierarchy Process and the TOPSIS Model (Technique for Order of Preference by Similarity to Ideal Solution), HAs for determining the possibilities of contamination have been discussed. HAs are considered to determine the possibility of contamination. According to the results, the transfer of saline oil from the exploitation unit to the CODP, with a specific ‎vector weight of 0.214 in the AHP method and a proximity coefficient of 0.445 in the ‎TOPSIS method, gain highest rank in terms of HAs in the study area. Regarding the risk assessment and assurance of the creation of salinity and sometimes petroleum pollutants in the region, and also the local obligations and regulations of the founders, industrial devices should preferably use biological methods to remediate and naturalize the environment. According to the results, and regarding the fact that halophyte can grow and develop well in the saline conditions; halophyte culture (haloculture technique) can be used as a method for soil bioremediation. [ABSTRACT FROM AUTHOR]

Published

2024

42. Exploring the activation potential of heme for 2,4-dichlorophenol, 2,4,6-trichlorophenol, and pentachlorophenol.

Author

Lan, Wenbo, Meng, Yanbin, Kong, Xianghe, Wang, Xiaofeng, and Nie, Changming

Subjects

*FRONTIER orbitals, *ENERGY levels (Quantum mechanics), *MOLECULAR spectra, *CHLOROPHENOLS, *VIBRATIONAL spectra, *TRICHLOROPHENOL, *ENVIRONMENTAL risk

Abstract

The presence of chlorophenols in water poses a significant threat to human health and the environment. In response to this issue, a study was undertaken to evaluate the catalytic capabilities of chlorinated Heme towards common chlorophenols present in water, such as 2,4-dichlorophenol, 2,4,6-trichlorophenol, and pentachlorophenol. The study employed the B3LYP method, a sophisticated computational technique within density functional theory, to investigate the molecular interactions and transformations involved. It scrutinized structural parameters, Wiberg Bond Indices, which offer insights into the strength and nature of chemical bonds, along with spectroscopic data including infrared vibrational spectra, ultraviolet-visible absorption spectra, and molecular fluorescence spectra. Furthermore, the research analyzed molecular binding energies and orbital energy levels before and after the formation of complexes between Heme and the targeted chlorophenols. The findings indicate that Heme displays a notable activation characteristic towards these chlorophenols. This suggests that Heme could act as an effective catalyst in the degradation of chlorophenols in water, presenting a novel approach to water purification. The theoretical insights derived from this study are invaluable, potentially guiding the development of more efficient catalytic systems for treating chlorophenol-contaminated water, thereby reducing the environmental and health risks associated with these hazardous compounds. [ABSTRACT FROM AUTHOR]

Published

2024

43. Exploring the temporal toxicity signature: A baseline evaluation of the heavy metal concentration in estuarine core sediments in the coastal region of cauvery delta, bay of bengal.

Author

Sathyanarayanan, Baranidharan, Sivaprakasam, Vasudevan, Periyasami, Sivaranjan, Jeyasingh, Vigneshwar, and Sambath, Pravinraj

Subjects

ESTUARINE sediments, HEAVY metal toxicology, ROCK texture, NONPOINT source pollution, POINT sources (Pollution), HEAVY metals, ESTUARIES, ENVIRONMENTAL risk

Abstract

Globally, the concentration of heavy metals and sediment toxicity analysis are significant liabilities to aquatic environments. This scrutiny outlines the sediment textures, heavy metals and toxicity status associated with environmental pollution indices in the core sediment of the Cauvery and Vettar estuaries, East coast of India. The impact of rapid industrialization, urbanization, harbour activities and agricultural activities influences on the twain estuary is a significant concern to designate the environment. The contamination status of the sediments affects the potential biodiversity, ecological risks and human health. A total of two core sediments were recovered from the Cauvery and Vettar estuaries in March 2023 to decipher the environmental pollution status. Meticulous observation of the textural studies underscores the prevalence of sand content in Cauvery, and Vettar sediments consist of predominate clay content and minor silt contents. Furthermore, the organic matter is augmented in the Vettar River due to the higher input of waste disposal, seaweeds and algae due to the surrounding landmass. Twain core sediments argue that heavy metal concentration is decreasing in order as Fe > Zn > Ni > Pb > Cu > Cr by using portable X-ray fluorescence (pXRF) spectrometry. Remarkable results of environmental pollution indices such as Igeo, Ef, Cf, Cd and mCd state very highly polluted, extreme enrichments, high contamination and very high degree of contamination. Furthermore, the potential ecological risk indices such as PLI, SQGs, and PERI argue polluted, medium to high toxicity and moderate adverse ecological risk to the estuarine regions. Statistical analysis of the heavy metal affirms the enrichment of Fe metals may derive from lithogenic and/or anthropogenic influences, and the other studied metals such as Cu, Ni, Zn, Pb and Cr may be influenced by the anthropogenic activities in the aspect of point and non-point pollution sources. This could result from both estuaries undergoing higher pollution, in which the Vettar estuary is a considerable environmental risk zone compared to the Cauvery river due to the impact of industrial effluents and rapid urbanization activities. This finding underscores the urgent need for enhanced estuarine sediment quality study and comprehensive assessment of sediment toxicity, regulating the beneficial acumen for the government to follow the suitable remediation on the embellish policy of river and marine environments. [ABSTRACT FROM AUTHOR]

Published

2024

44. Comprehensive analysis of PFAS presence from environment to plate.

Author

Dimitrakopoulou, Maria-Eleni, Karvounis, Manos, Marinos, George, Theodorakopoulou, Zacharoula, Aloizou, Eleni, Petsangourakis, George, Papakonstantinou, Mihalis, and Stoitsis, Giannis

Subjects

FLUOROALKYL compounds, ENVIRONMENTAL health, ENVIRONMENTAL risk, WATER sampling, FOOD safety

Abstract

Per- and polyfluoroalkyl substances (PFAS) pose an emerging environmental risk impacting food products and ecosystems. This study analyzes over 150,000 entries from food safety authorities and scientific publications from 2017 onwards. Our findings show that fish & seafood, and biota have the highest PFAS concentrations due to environmental contamination and bioaccumulation. Surface water samples also frequently contain PFAS, raising concerns about long-term ecological and human health effects. Comprehensive strategies are essential to mitigate these risks. [ABSTRACT FROM AUTHOR]

Published

2024

45. Love thy neighbour: Feral buffalos show greater space use, resource overlap and encounters during the wet season in the Northern Territory.

Author

Pike, Kyana N., Perry, Justin, Vanderduys, Eric, Arnould, John P. Y., and Hoskins, Andrew

Subjects

*CONTINUOUS time models, *WATER buffalo, *SPATIAL ecology, *ENVIRONMENTAL degradation, *DISEASE vectors, *BIOSECURITY, *ENVIRONMENTAL risk

Abstract

Managing feral water buffalo in the Northern Territory is a formidable challenge. As an introduced species, buffalo are associated with a myriad of biosecurity, economic, cultural and environmental issues ranging from overgrazing, decreased water quality, disease vectors to the destruction of cultural assets. Nevertheless, the buffalo are also a harvestable resource that can support economic development of the region. To mitigate some of the biosecurity, economic, cultural and environmental risks they pose and manage buffalo effectively, we need a detailed understanding of their spatial and behavioural ecology. However, several factors make understanding how best to manage the dense populations of wild individuals challenging as buffalo inhabit remote areas with limited infrastructure and accessibility and their large size and often aggressive nature can make them difficult to observe in otherwise inaccessible areas. GPS tracking allows for high‐frequency data collection and surveillance of individual buffalo. Here, we investigated how the different seasonal periods of a Northern Territory floodplain area shaped patterns of habitat use for 17 buffalo tracked over 16 months. We found in the dry season, buffalo space use is restricted, and the size of home ranges are significantly smaller than in the wet season. During the wet season, buffalo expand their home range area as well as their social encounter area with other buffalo. These differences in their space use and social patterns suggest that increased disease surveillance may be needed for the wet season when buffalo are more likely to share space and interact. During the dry season, however, buffalo movement is more predictable and restricted, suggesting greater optimisation opportunities for buffalo management. Results from these models can be used by land holders, Traditional Owners and wildlife managers to make evidence‐based decisions to improve buffalo management with respect to disease risk, sustainable harvest and damage to environmental and cultural assets. [ABSTRACT FROM AUTHOR]

Published

2024

46. Engineering bacterial biocatalysts for the degradation of phthalic acid esters.

Author

Durante‐Rodríguez, Gonzalo, de Francisco‐Polanco, Sofía, Fernández‐Arévalo, Unai, and Díaz, Eduardo

Subjects

*EMERGING contaminants, *ENDOCRINE disruptors, *INDUSTRIAL goods, *POLLUTANTS, *ENVIRONMENTAL risk

Abstract

Phthalic acid esters (PAEs) are synthetic diesters derived from o‐phthalic acid, commonly used as plasticizers. These compounds pose significant environmental and health risks due to their ability to leach into the environment and act as endocrine disruptors, carcinogens, and mutagens. Consequently, PAEs are now considered major emerging contaminants and priority pollutants. Microbial degradation, primarily by bacteria and fungi, offers a promising method for PAEs bioremediation. This article highlights the current state of microbial PAEs degradation, focusing on the major bottlenecks and associated challenges. These include the identification of novel and more efficient PAE hydrolases to address the complexity of PAE mixtures in the environment, understanding PAEs uptake mechanisms, characterizing novel o‐phthalate degradation pathways, and studying the regulatory network that controls the expression of PAE degradation genes. Future research directions include mitigating the impact of PAEs on health and ecosystems, developing biosensors for monitoring and measuring bioavailable PAEs concentrations, and valorizing these residues into other products of industrial interest, among others. [ABSTRACT FROM AUTHOR]

Published

2024

47. Systematic Assessment of Practical Challenges in Rural Domestic Sewage Treatment in China: Examining Treatment Models, Ecological Risks, and Management Dilemmas.

Author

Gao, Yi, Wei, Luoyu, Ge, Yihong, Xiong, Xia, Liu, Ming, Jiang, Xiaomei, Pan, Ke, Guo, Xiaobo, Lei, Yunhui, and Yang, Nuan

Subjects

*SEWAGE purification, *SEWAGE, *SEPARATION (Technology), *RURAL geography, *POLLUTANTS, *ENVIRONMENTAL risk

Abstract

The treatment and purification of rural domestic sewage (RDS) is a pivotal focus in enhancing the living environment in rural areas. Since 2008, special funds for comprehensive rural environmental improvement have been established by the Chinese government. Numerous projects have been implemented to treat RDS, resulting in a significant enhancement of China's rural sewage treatment ratio. However, current discussions often focus on technical investigations, process selection, and operation modes pertaining to urban sewage while overlooking the unique challenges posed by decentralized sewage treatment facilities in rural areas. This work aims to provide technical support for addressing rural sewage treatment and purification in China through an analysis of limitations associated with prevailing mainstream sewage treatment and separation technologies, ecological risks arising from new pollutants present in domestic wastewater, and subsequent management difficulties. [ABSTRACT FROM AUTHOR]

Published

2024

48. The socio-environmental determinants of diabetes and their consequences.

Author

Avogaro, Angelo, Rigato, Mauro, di Brino, Eugenio, Bianco, Daniela, Gianotto, Irene, and Brusaporco, Giovanni

Subjects

*GLOBAL burden of disease, *NON-communicable diseases, *SUSTAINABILITY, *ENVIRONMENTAL risk, *MEDICAL care

Abstract

Aims: The intricate connections between health and the environment are often overlooked globally, yet they play a pivotal role in shaping our well-being. Results: Astonishingly, environmental risk factors contribute to nearly 24% of the global disease burden, underscoring the critical impact of our surroundings on health. At the crossroads of this issue lies Diabetes, a rapidly growing non-communicable disease that highlights the delicate balance between human health and environmental sustainability. This epidemic offers a unique lens through which to explore how environmental factors contribute to the prevalence of Diabetes, revealing the complex interplay at work. Despite growing awareness, healthcare systems worldwide face challenges integrating environmental threats into more effective diabetes care strategies Conclusions: This perspective highlights the urgent need for collaborative efforts and innovative solutions that address the environmental dimensions of diabetes management. Doing so can build healthier communities and pave the way for a more sustainable future. [ABSTRACT FROM AUTHOR]

Published

2024

49. The Influence of Risk Perceptions on Consumers’ Willingness to Pay for Nutrient-enhanced Microgreens.

Author

Rihn, Alicia, Walters, Kellie, and Bumgarner, Natalie

Subjects

*WILLINGNESS to pay, *WAGE decreases, *CONSUMER preferences, *LOGISTIC regression analysis, *PRODUCTION methods

Abstract

Microgreens are young plants used as ingredients and flavoring in various dishes. Their production time is short, and their production methods can be altered to enhance the nutritional content. To date, consumers’ preferences for microgreens that display different esthetic and nonesthetic traits have not been addressed. Additionally, consumers’ perceived risk of production methods used to enhance nutrition has not been investigated. An online survey and choice experiment involving a sample of 821 consumers in Tennessee were performed to investigate these topics. A mixed logit model was used to analyze the data. Both esthetic and nonesthetic traits influenced the consumers’ preferences. Green microgreens were preferred and valued more than light or dark purple microgreens. When fertilizer was used during production to enhance nutrients, consumers perceived the microgreens as riskier to the environment and for personal consumption relative to microgreens with light-induced nutrient enhancement. Using lighting during production to enhance nutrients generated a $0.47 to $0.79 premium relative to no nutrient enhancement. In general, if participants’ perceived risk aligned with the nutrient enhancement attribute (i.e., light, fertilizer), then their willingness to pay for the microgreens decreased. This was amplified for the fertilizer nutrient enhancement attribute more than it was for the light enhancement attribute. In-state production and microgreen height also impacted consumer preferences for microgreens. [ABSTRACT FROM AUTHOR]

Published

2024

50. Evidence‐driven indoor air quality improvement: An innovative and interdisciplinary approach to improving indoor air quality.

Author

Lovrić, Mario, Gajski, Goran, Fernández‐Agüera, Jessica, Pöhlker, Mira, Gursch, Heimo, Borg, Alex, Switters, Jon, and Mureddu, Francesco

Subjects

*INDOOR air quality, *AIR quality monitoring, *ENVIRONMENTAL sciences, *AIR quality, *ENVIRONMENTAL risk, *AIR pollution, *INDOOR air pollution

Abstract

Indoor air pollution is a recognized emerging threat, claiming millions of lives annually. People are constantly exposed to ambient and indoor air pollution. The latest research shows that people in developed countries spend up to 90% of their time indoors and almost 70% at home. Although impaired IAQ represents a significant health risk, it affects people differently, and specific populations are more vulnerable: children, the elderly, and people with respiratory illnesses are more sensitive to these environmental risks. Despite rather extensive research on IAQ, most of the current understanding about the subject, which includes pollution sources, indoor–outdoor relationships, and ventilation/filtration, is still quite limited, mainly because air quality monitoring in the EU is primarily focused on ambient air quality and regulatory requirements are lacking for indoor environments. Therefore, the EDIAQI project aims to improve guidelines and awareness for advancing the IAQ in Europe and beyond by allowing user‐friendly access to information about indoor air pollution exposures, sources, and related risk factors. The solution proposed with EDIAQI consists of conducting a characterization of sources and routes of exposure and dispersion of chemical, biological, and emerging indoor air pollution in multiple cities in the EU. The project will deploy cost‐effective/user‐friendly monitoring solutions to create new knowledge on sources, exposure routes, and indoor multipollutant body burdens. The EDIAQI project brings together 18 organizations from 11 different European countries that provide interdisciplinary skills and expertise in various fields, including environmental science and technology, medicine, and toxicology, as well as policy design and public engagement. [ABSTRACT FROM AUTHOR]

Published

2024