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Environmental pollution
Elsevier
Environmental pollution

Elsevier

0269-7491

Environmental pollution/Journal Environmental pollutionSCIEI
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    Ecological adaptation of antimony-oxidizing bacteria (SbOB) drives habitat-specific bioremediation potential

    Wang, WeiqiZhang, XinyueLi, MinLiu, Xiaoyan...
    1.1-1.9页
    查看更多>>摘要:Antimony-oxidizing bacteria (SbOB) play vital roles in Sb detoxification, yet their environmental adaptation mechanisms remain unclear. Through comparative analysis of Sb-contaminated groundwater and soil ecosystems in Xikuangshan mining area, we revealed striking habitat-driven divergence in SbOB survival strategies, focusing on community diversity, ribosomal RNA operon (rrn) copies, niche breadth, and gene profiles. Results showed that SbOB markedly enhanced alpha-diversity in groundwater but minimally affected soil communities. Taxonomically, Hydrogenophaga, Pseudomonas, and Aeromonas prevailed in groundwater, whereas Acidobacteria, Chloroflexi, and Gemmatimonadaceae dominated soil ecosystems. Genomic traits revealed groundwater SbOB uniquely linked Sb oxidation (aioA) and metabolic pathways for sulfur oxidation (soxB), CO2 fixation (cbbL), and N2 fixation (nifH), enabling versatile energy acquisition. These taxa demonstrated rapid responses to fluctuating organic inputs via higher rrn copies, expanding their niche through autotrophy. Additionally, oxidative stress tolerance genes enabled them to thrive under oxygen fluctuations in groundwater. Conversely, soil SbOB with lower rrn copies prioritized antibiotic resistance for niche competition. These findings establish a habitat-specific framework for Sb bioremediation. Groundwater SbOB consortia, with their multifunctional metabolic toolkit, are prime candidates for engineering bioaugmentation systems to simultaneously detoxify Sb(III) and mitigate cocontaminants (e.g., sulfides, nitrate) in mining-impacted aquifers.
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    Association of long-term PM 2.5 and its components exposure with ovarian hyperstimulation syndrome risk in assisted reproductive technology patients

    He, Jia-LiangLiu, Rui-LingHu, Yu-LingYao, Quan-Zi...
    1.1-1.10页
    查看更多>>摘要:This study investigates the impact of long-term exposure to ambient fine particulate matter (PM2.5) and its components on the risk of ovarian hyper stimulation syndrome (OHSS) in women undergoing assisted reproductive technology (ART). We conducted a retrospective cohort study at a large reproductive medical center in Sichuan Province, China, including 45,703 women undergoing their first ART cycle between January 2018 and May 2024. The overall incidence of OHSS was 1.67 %. Exposure to PM2.5 and its components (black carbon [BC], organic matter [OM], sulfate [SO42-], nitrate [NO3-], and ammonium [NH4+]) was estimated based on residential addresses. Exposure windows were defined as three distinct time periods within the year preceding oocyte retrieval: (1) the 3 months immediately before retrieval, (2) months 4-12 before retrieval, and (3) the entire 12-month period before retrieval. Poisson regression assessed single-pollutant effects, while quantile g-computation evaluated joint effects. Distributed lag nonlinear models (DLNM) identified critical exposure windows. Results indicated that exposure to each pollutant was significantly associated with increased OHSS risk. Combined exposure over the previous year increased OHSS risk (RR: 1.22, 95 % CI: 1.13-1.32), with BC and NH4+ contributing most to 1 year effects, and SO42- dominating the 3 months before retrieval. DLNM identified the first 6 months before oocyte retrieval as a susceptible period, and stratified analysis showed that younger women (<35 years) were more sensitive to exposure. These findings underscore the need for policies to reduce air pollution and safeguard reproductive health.
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    • NETL
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    • Elsevier

    Deciphering early molecular responses to benzotriazole ultraviolet stabilizers-induced toxicity using a dose-dependent yeast functional genomics approach

    Xu, XinyuanZong, LinhaoZhang, ShashaCao, Dake...
    1.1-1.11页
    查看更多>>摘要:Benzotriazole ultraviolet stabilizers (BUVSs), widely used as anti-photoaging additives in industrial products, are increasingly detected in diverse environmental matrices and organisms. However, their toxicological profiles and mechanistic differences among structural analogues remain poorly characterized. In this study, we employed a dose-dependent yeast functional genomics approach to systematically map the biological pathways perturbed by 11 environmentally prevalent BUVSs at environmentally relevant concentrations. Our results revealed that the biological potency of BUVSs at gene level, determined by 20th percentile point of departure (POD) values from dose-response genes (DRGs) analysis (PODDRG20), spanned ranges from 0.0334 to 1.21 nM, with UV-360 exhibited the highest potency and UV-531 the lowest. Notably, both chemical structural complexity and logKow positively correlated with enhanced biological potency. The most sensitive biological pathways targeted by BUVSs were cell cycle and DNA replication. Crucially, early-stage molecular responses to BUVSs were evolutionarily conserved between yeast and human cell lines, as evidenced by cell cycle arrest in G1 phase (increasing from 57.23 % to 65.97 %) and suppression of S phase (decreasing from 19.80 % to 12.62 %), along with a marked reduction in DNA replication activity. This study establishes a high-throughput framework for precise BUVSs toxicity prioritization and uncovers previously unrecognized mechanisms driving their molecular toxicity, providing critical data to guide the design of environmentally friendly alternatives.
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    The sex matters: sex-biased stimulatory responses to contaminants

    Agathokleous, EvgeniosCalabrese, Edward J.Benelli, GiovanniCostantini, David...
    1.1-1.9页
    查看更多>>摘要:Hormetic regulation is a health hallmark determining susceptibility and lifespan, through which whole-animal performance is also stimulated by low doses of chemical contaminants. However, the sex-dependence of these stimulatory responses remains poorly understood. In this perspective, we highlight compelling evidence of sex-dependent stimulation by contaminants across diverse animal taxa. These responses occur at concentrations below (subNOAEL) or above (superNOAEL, sublethal) established toxicological thresholds, influencing traits such as growth, body mass, survival, and lifespan in a sex-dependent manner. The underlying mechanisms, including gene expression regulation and antioxidant capacity, often vary between sexes. While biphasic hormetic dose-response relationships are commonly observed, emerging evidence suggests that triphasic dose-response patterns may also occur and differ between sexes. The triphasic responses include the hormetic zone with stimulations, a sub-hormetic zone with potential negative effects, and a super-hormetic zone with adverse effects. Interestingly, the observed sex-biased responses often favor females, underscoring the need for further research. However, stimulations do not necessarily indicate beneficial effects and may introduce 'hidden' risks that warrant further long-term investigations integrating multiple dimensions such as resistance to disease or toxicity, metabolic efficiency and weight gain, and reproductive output. Understanding these phenomena is essential for improving ecological risk assessments, refining prevention and treatment strategies, and fostering resilience in affected organisms.
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    Spatial distribution and seasonal variations of typical UV filter and insect repellent personal care products in a coastal resort area in Qingdao, Chin

    Li, JiananZhao, ChunyaoLi, JiajiaZheng, Duan...
    1.1-1.11页
    查看更多>>摘要:The occurrence, concentration, spatial distribution, seasonal variations, and ecotoxicological risks of six typical UV filter and insect repellent personal care products (PCPs) were evaluated in multiple environmental matrices (river/estuary/wetland water, seawater, beach sands, local WWTP water and sludges) in a coastal resort area in Qingdao, China. Target PCPs were widely detected, with significantly higher levels in the summer across all matrices. Insect repellents (max = 841.49 ng/L for diethyltoluamide [DEET]) were typically found in higher concentrations in natural waters than UV filters (max = 356.24 ng/L for octocrylene [OC]), with oxybenzone (BP3) present in trace levels (generally below 1 ng/L). Seawater exhibited low-level PCPs (mostly below 100 ng/L in total), while high concentrations found in several estuaries suggest potential direct input of relevant PCPs. All target PCPs were present in beach sands (below 50 ng/g dry weight for individual PCP). Natural/constructed wetlands showed minimal removal effects. Insect repellents, particularly DEET (13.97-919.69 ng/L), were abundant in wastewater treatment plant (WWTP) influents, while OC levels were high in sludges (max = 3842.44 ng/g dry weight). Secondary biological treatment substantially removed PCPs despite increases in the primary aerated grit tank. Significant correlations (p < 0.05) were found between various matrices, such as sands and adjacent seawater for OC, and WWTP water and sludge for 2-ethylhexyl 4-methoxycinnamate (EHMC). Ecotoxicological risk assessments revealed no-to-medium risks at most sites for individual PCPs, with higher risks in the summer; during this period, river/estuary waters demonstrated higher total risks than seawater, with beach-adjacent seawater showing elevated risks, and several estuaries showed greater risks than their upper reaches. The findings underscore the necessity for research on UV filter and insect repellent PCPs and their associated risks in coastal resort areas.
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    • Elsevier

    Traffic-related PM2.5 pollution in Hong Kong: component-specific and source-resolved health risks and cytotoxicity

    Yang, QianXie, JiawenZhang, LuYu, Jian Zhen...
    1.1-1.11页
    查看更多>>摘要:Current studies on the source apportionment of fine particulate matter (PM2.5) primarily emphasized the contributions of sources to mass concentrations, leaving the acute and chronic health effects caused by specific sources and components insufficiently addressed. In this study, we integrated source profiles with acute cytotoxicity and chronic health risk to assess the component-specific and source-resolved health effects of PM2.5 in a coastal megacity, Hong Kong. An intracellular reactive oxygen species (ROS) analysis of 24-h integrated PM2.5 samples conducted on the BEAS-2b cell line revealed that trace metals dominantly drove PM2.5-induced ROS (contributing 52 % in roadside, 39 % in general urban, and 32 % for coastal background PM2.5). Among the analyzed metals, the primary culprits were Fe, Zn, and Cu, urging the need for non-exhaust pollution control. This study also provided quantitative evidence for the biological toxic potential of insoluble elemental carbon (EC), constituting 31 % and 22 % of overall ROS induction in roadside and general urban PM2.5, respectively. In conjunction with source profiles, our findings reveal a clear inequality in contributions attributed to the same source when assessed by mass, acute biological toxicity effect, and chronic health risks. For instance, local fresh on-road traffic emissions were predominant in accounting for the acute intracellular ROS induction (84 % in roadside and 63 % in general urban PM2.5). Meanwhile, regional sources brought in by long-rang transport, such as combustion & industrial emissions, posed more threats to chronic inhalation health risks induced by PM2.5, especially for general urban and coastal background aerosols in Hong Kong. This investigation has significant implications for developing toxicity-oriented pollution control strategies.
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    • NSTL
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    Quantifying contamination risks: Groundwater vulnerability assessment at an MSW dumpsite with advanced profiling tools

    Singh, PranjalHaritwal, Deepak KumarRamana, G. V.Datta, Manoj...
    1.1-1.15页
    查看更多>>摘要:Traditional groundwater vulnerability assessment methods rely on regional-scale parameters that often overlook local soil variation. They also tend to ignore the contamination potential at already contaminated sites, particularly in heterogeneous environments. This study employs advanced direct push profiling tools to quantify groundwater vulnerability at an MSW dumpsite using real-time hydrogeological and contamination data. A vulnerability score was developed considering waste, unsaturated and saturated zone permeability, water table depth, and the waste bulk electrical conductivity. All parameters were calculated from the cone penetrometer (CPT), direct push injection logger (DPIL) and electrical conductivity (EC) logger profiles. A laboratory and computational validation of DPIL and EC was carried out before the field tests and their capabilities and limitations were discussed in detail. It was concluded that the permeability of MSW was better estimated by the DPIL than CPT due to the presence of construction and demolition waste (C&DW) influencing the CPT values. Conversely, CPT provided more realistic values in the low permeability soils i.e., soils with permeability less than 10-6 m/s, which are beyond the measurable range of DPIL. The bulk EC was a reliable proxy for leachate contamination potential in most cases except in soils with very low water content. The groundwater vulnerability score (GWVS) was calculated for different regions in the landfill with varying subsurface and waste conditions. The boundary region of the landfill had a higher GWVS than the interior region due to the presence of high permeability unsaturated zone, indicating the need for remediation of the entire site. The proposed framework can assist in prioritizing remediation efforts on high-risk zones identified in this study.
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    • NETL
    • NSTL
    • Elsevier

    Determinants of pesticide exposure among girls in rural Costa Rica: A silicone wristband study

    Howe, Mecca E.Essandoh, Yaw EduRomanak, KevinXia, Chunjie...
    1.1-1.11页
    查看更多>>摘要:Pesticide exposure during childhood can disrupt endocrine and metabolic functions, increasing the risk of chronic diseases. Thus, it is important to understand the determinants of pesticide exposure among youth, especially in rural agricultural areas where individuals are more likely to be exposed due to the application of pesticides in nearby fields. Here we present novel data from the first investigation to use silicone wristbands to measure individual passive chemical exposure in Costa Rica. We evaluated the contributions of social-ecological context (SECs: rural agricultural, rural nonagricultural, urban/peri-urban, and mosaic), household factors (composition, occupation of household members, and income), perceptions of personal pesticide exposure, and distance to agricultural fields (general, pineapple, and banana) and forest to exposure to current-use pesticides (CUPs) and legacy organochlorine pesticides (OCPs) among a sample of girls from a rural agricultural region of Costa Rica. Wristbands were worn for an average of 4.5 days, and pesticide levels were analyzed using liquid/gas chromatography and mass spectrometry (LC/MS/MS). Higher pesticide concentrations were found in rural agricultural participants compared to those from urban/peri-urban and rural nonagricultural areas, with variation in exposure linked to proximity to large-scale monoculture and, particularly, pineapple plantations. By providing the first documentation of personal pesticide exposure among children and adolescents from Sarapiqu & iacute;, we show that exposure to pesticides is not dependent on household factors but is connected to proximity to intensive pineapple agriculture. This suggests that pesticides applied to pineapple fields are not contained within the plantations.
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    • NETL
    • NSTL
    • Elsevier

    Hyperbaric oxygen therapy attenuates carbon monoxide-induced lung injury by restoring mitochondrial dynamics and suppressing Pink1/ Parkin-mediated mitophagy

    Chen, Tzu-HaoHsu, Chien-ChinChang, Ching-PingHuang, Chien-Cheng...
    1.1-1.15页
    查看更多>>摘要:Carbon monoxide (CO), a major air pollutant from vehicle emissions, industrial combustion, and indoor fuel use, poses significant environmental and public health risks. Although acute carbon monoxide poisoning (COP) is well-documented, the underlying mechanisms driving long-term pulmonary complications following CO exposure remain poorly understood. Hyperbaric oxygen therapy (HBOT) is the standard treatment for COP, primarily for its ability to eliminate carboxyhemoglobin and reduce oxidative stress. However, its role in preventing longterm pulmonary dysfunction through the regulation of mitochondrial quality control requires further investigation. This study aimed to elucidate how mitochondrial dynamics and Pink1/Parkin-mediated mitophagy contribute to CO-induced lung injury and to evaluate the therapeutic potential of HBOT. Epidemiological analysis revealed an association between COP and an increased chronic obstructive pulmonary disease (COPD) risk. In a rat model, CO exposure led to emphysematous lung damage, persistent cytokine storms, and immune dysregulation. CD86+ and CD163+ macrophages and neutrophils were found in both bronchoalveolar lavage fluid and lung parenchyma, coexpressing pro-inflammatory cytokines (e.g., CCL5, CCL20, IL-1 beta, IL-10, IL-17). Alveolar barrier integrity was disrupted by downregulation of tight junction proteins ZO-1 and claudin 3. In alveolar type II cells, mitochondrial dynamics were impaired (decreased Opa1, increased Drp1), with concurrent activation of Pink1/Parkin-mediated mitophagy, pyroptosis, and apoptosis. These alterations led to alveolar damage and pulmonary dysfunction, including increased airway resistance, compliance, and hyperinflation-hallmarks of COPD-like pathology. Notably, HBOT reversed these changes by restoring mitochondrial homeostasis, suppressing cell death pathways, reducing inflammation, and improving lung function. These findings provide novel insights into the role of mitochondrial dynamics and selective mitophagy in the pathogenesis of CO-induced lung injury. It also underscores the therapeutic potential of HBOT in preventing and controlling long-term pulmonary complications.
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    • Elsevier

    The propensity for heavy metal accumulation in Ulmus pumila L. and its relationship with rhizosphere soil and total suspended particles in Urumqi, Northwest China ☆

    Baidourela, AliyaWen, HuihuiCai, LiSun, Qian...
    1.1-1.11页
    查看更多>>摘要:Urban populations in arid regions face increasing risks from long-term exposure to heavy metal pollutants. This study investigates the spatial distribution and interrelationships of seven heavy metals (Mn, Ni, Zn, Cd, Pb, Cu, Cr) across soil, elm tree tissues, and total suspended particulates (TSP) in four functional areas-industrial (IA), traffic (TA), park (PA), and residential (RA)-in Urumqi, a typical oasis city in northwestern China. Total heavy metal concentrations in soil were highest in IA (303 mg/kg) and lowest in RA (219 mg/kg). In elm tissues, metals accumulated most in bark and roots, followed by leaves and branches. Cr was predominantly enriched in roots (124.79 +/- 38.76 mg/kg), while Mn and Pb were preferentially accumulated in bark. Cd concentrations in soil exceeded those in other media by up to 38.6 times. In TSP, Cd showed low variability (CV = 6.1 %), whereas Cr exhibited substantial fluctuation (SD = 27.30). A significant root-soil correlation (r = 0.48, p = 0.008) and enrichment factor of 1.37 indicated selective uptake of Cr and Ni. Leaf-branch correlations increased with urbanization intensity, peaking in TA (r = 0.913, p < 0.001). Regression analysis showed that soil concentrations explained 85.9 % of heavy metal content in plants. Sequential extraction revealed residual fractions as dominant across all media. This study provides the first systematic analysis of multi-media (soil, plant, atmosphere) to address critical gaps in understanding organ-specific accumulation and pollution mitigation efficacy of Ulmus pumila L.
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    • NETL
    • NSTL
    • Elsevier