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Brake disc fastening bolts endure complex thermomechanical loads and are susceptible to loosening during emergency braking, making comprehensive analysis of their thermomechanical response and failure mechanism critical. This study developed and experimentally validated a thermal-mechanical coupling model for a C/C-SiC axle-mounted brake disc system, investigating the bolt’s thermodynamic responses under emergency braking at different initial speeds and pressures. During the emergency braking process, a non-uniform temperature field and deformation field are generated in the bolt, causing it to bend slightly towards the brake flange. Significant stress concentration consistently occurs at the root of the first engaged thread, identifying it as the critical region for loosening initiation. Higher initial speeds elevate bolt maximum temperature and equivalent stress. Under 400 km/h emergency braking condition, the bolt reaches a maximum temperature of 159.91 °C, a maximum equivalent stress of 849.00 MPa, and a stress amplitude of 98.66 MPa. Braking pressure also exerts significant effects. The optimal strategy for a 400 km/h emergency braking is determined as follows: a braking pressure of 26 kN is applied when the speed exceeds 300 km/h, and 28 kN when the speed drops below 300 km/h. With this strategy, the bolt’s maximum temperature, maximum equivalent stress, and stress amplitude are reduced by 17.02%, 1.41%, and 4.33%, respectively. Full article

(This article belongs to the Special Issue Reliability in Mechanical Systems: Innovations and Applications)

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Open AccessReview

Liquid Biopsy in Non-Metastatic Prostate Cancer: Clinical Evidence and Future Directions

by Maria Chiara Sighinolfi, Giuseppe Pallotta, Marzia Del Re, Koosha Moosavi, Or Schubert, Francesco Rossi, Filippo Gavi, Simone Assumma, Enrico Panio, Angelo Totaro, Filippo Turri, Mauro Ragonese, Nazario Foschi, Pierluigi Russo, Ela Patel, Carlo Gandi, Giuseppe Palermo, Eros Scarciglia, Francesco Pinto, Simona Presutti, Marcio Covas Moschovas, Angelo Minucci, Roberto Iacovelli, Chiara Ciccarese, Luca Tagliaferri, Francesco Pierconti, Camilla Nero, Gian Franco Zannoni and Bernardo Rocco Show full author list Hide full author list

Cancers 2026, 18(5), 800; https://doi.org/10.3390/cancers18050800 (registering DOI) - 28 Feb 2026

Abstract

Background and Objective: Liquid biopsy has transformed the management of advanced prostate cancer, yet its clinical role in non-metastatic disease remains uncertain. Conventional biomarkers such as PSA, imaging, and pathology have limited ability to capture minimal residual disease and biological aggressiveness. The objective of this review was to critically evaluate the current evidence on circulating tumor cells (CTCs) and circulating tumor DNA (ctDNA) in non-metastatic prostate cancer, focusing on feasibility, prognostic value, and potential clinical applications. Methods: A narrative review of PubMed-indexed original studies evaluating liquid biopsy in clinically localized or non-metastatic prostate cancer was performed. Eligible studies included patients treated with curative-intent local therapy or experiencing biochemical recurrence without radiologic metastases. Study designs were predominantly prospective or retrospective observational cohorts. Liquid biopsy analytes included CTCs and ctDNA assessed from peripheral blood plasma using EpCAM-based enrichment, targeted next-generation sequencing, whole-genome sequencing, or ultra-sensitive tumor-informed assays. Primary outcomes included detection rates, associations with clinicopathologic features, biochemical recurrence, metastasis-free survival, and overall survival. Key Findings and Limitations: Across 11 studies, CTC detection using EpCAM-based platforms was infrequent in localized disease and biochemical recurrence and showed limited prognostic value (10–11% in preoperative settings). In contrast, ctDNA was detectable in a minority of patients but consistently identified biologically aggressive disease and a higher risk of recurrence when present, particularly using tumor-informed ultra-sensitive assays. Limitations include low detection rates, heterogeneous methodologies, small sample sizes, and predominantly exploratory study designs. Conclusions and Clinical Implications: Currently, its most promising application is not broad screening, but as a selective, biology-driven tool for detecting minimal residual disease and refining risk assessment. CtDNA acts as a biological risk modifier, potentially guiding the escalation or de-escalation of adjuvant therapy. However, prospective biomarker-driven trials are required to validate these strategies before routine clinical implementation. Full article

(This article belongs to the Special Issue Advances in the Management of Pelvic Tumors: 2nd Edition)

18 pages, 2647 KB

Open AccessArticle

Characteristics of Runoff Pollution from Roofs of Different Materials in Yinchuan City, China

by Xiangling Ding, Sisi Wang and Meng Jia

Water 2026, 18(5), 599; https://doi.org/10.3390/w18050599 (registering DOI) - 28 Feb 2026

Abstract

To evaluate the runoff pollution characteristics of roofs in an arid region, this study focused on Yinchuan City, China. It analyzed the runoff properties of various roof materials, including tile, asphalt, and color steel plate. Five rainfall events were monitored during 2024, with samples collected manually at roof pipe outlets and analyzed for suspended solids (SS), chemical oxygen demand (COD), total nitrogen (TN), total phosphorus (TP), and ammonia nitrogen (NH₃-N). The results indicated that the concentration of pollutants in runoff from these roofs decreased as rainfall duration increased. The event mean concentration (EMC) of TN and COD in runoff from all three roof materials exceeded the Class V surface water quality standards in China. The first flush of pollutants in roof runoff followed a descending order: SS > COD > TP > TN > NH₃-N. Cluster analysis of three rainfall parameters—dry period, precipitation, and rainfall intensity—revealed that dry period exerted the strongest influence on runoff quality, indicating that the overall quality of roof runoff was primarily influenced by the cumulative effects of atmospheric deposition, with rainwater scouring being the secondary factor. These findings provide critical insights for designing stormwater management strategies and rainwater harvesting systems in arid and semi-arid cities, emphasizing the need to prioritize first-flush control and consider local climatic conditions. Full article

(This article belongs to the Special Issue Stormwater Management in Sponge Cities)

33 pages, 970 KB

Open AccessReview

Effectiveness of Maternal Respiratory Syncytial Virus Vaccination in Conferring Infant Immunity: Review and Future Perspectives

by Masatoki Kaneko and Junsuke Muraoka

Vaccines 2026, 14(3), 232; https://doi.org/10.3390/vaccines14030232 (registering DOI) - 28 Feb 2026

Abstract

Respiratory syncytial virus (RSV) is a leading cause of acute lower respiratory tract infection in infants and young children worldwide and continues to impose a substantial disease burden despite recent advances in preventive strategies. Natural infection does not confer durable protective immunity, resulting in repeated reinfections, with the most severe disease occurring during early infancy. This review examines antibody-mediated prevention of RSV infection, with particular emphasis on vaccine development and maternal immunization. We reviewed current evidence on RSV pathogenesis, immune evasion, and antigenic characteristics relevant to vaccine design, focusing on viral surface glycoproteins targeted by preventive strategies. Recent data on licensed vaccines, long-acting monoclonal antibodies, and maternal immunization approaches were also evaluated. The RSV fusion (F) glycoprotein is the principal target of neutralizing antibodies and underpins currently licensed vaccines and monoclonal antibody products. Although circulating RSV strains show gradual antigenic evolution, primarily in the attachment protein, the F protein remains relatively conserved, resulting in only modest reductions in neutralization by human polyclonal sera over time. Constrained evolution of the F protein likely contributes to the sustained effectiveness of F-based interventions. However, waning F-specific neutralizing antibody titers contribute to susceptibility to reinfection, underscoring the importance of passive immunization strategies during early life. Maternal vaccination and long-acting monoclonal antibodies represent key advances in protecting young infants against RSV, but challenges remain in achieving equitable global implementation. Continued evaluation of antigenic evolution, the durability of protection, and optimization of maternal and infant immunization strategies will be critical for long-term disease control. Full article

(This article belongs to the Special Issue Research on Immune Response and Vaccines: 2nd Edition)

21 pages, 2384 KB

Open AccessArticle

TIGIT Blockade Potentiates the Anti-Leukemic Activity of Exercise-Mobilized Donor Lymphocytes and Expanded γδ T-Cells

by Grace M. McKenzie, Josie Voss, Emmanuel Katsanis, Richard J. Simpson and Forrest L. Baker

Cancers 2026, 18(5), 797; https://doi.org/10.3390/cancers18050797 (registering DOI) - 28 Feb 2026

Abstract

Background: Donor lymphocyte infusion (DLI) is commonly used to prevent or treat leukemic relapse following allogeneic hematopoietic cell transplantation; however, efficacy is limited by immune exhaustion, checkpoint-mediated inhibition, and the risk of graft-versus-host disease (GvHD). Gamma delta (γδ) T-cells represent a promising “off-the-shelf” adoptive cell therapy (ACT) with favorable safety and MHC-independent cytotoxicity, yet their function is similarly constrained by the leukemic tumor microenvironment (TME). Acute exercise mobilizes cytotoxic lymphocyte subsets, and is an emerging strategy to enhance cellular immunotherapies, including DLI and expanded γδ T-cells. This study examined how exercise-mobilized lymphocytes and exercise-expanded γδ T-cells interact with TIGIT blockade to improve anti-leukemic activity. Methods: Healthy participants completed an acute cycling bout, after which peripheral blood mononuclear cells (PBMCs) and ex vivo expanded γδ T-cells were phenotyped and cytotoxicity was determined against leukemia cells with TIGIT checkpoint inhibition. The therapeutic relevance of combining TIGIT blockade with rest- or exercise-expanded γδ T-cells was further evaluated in NSG-IL15 mice challenged with K562-luc leukemia. Results: Acute exercise increased circulating CD8⁺ and γδ T-cells with higher TIGIT and PD-1 expression. Exercise-expanded γδ T-cells maintained increased PD-1 and TIGIT expression and exhibited increased co-expression of DNAM-1 and TIGIT. Exercise mobilized PBMCs and exercise-expanded γδ T-cells demonstrated enhanced cytotoxicity, further amplified by TIGIT blockade. In vivo, TIGIT-treated exercise-expanded γδ T-cells modestly improved tumor suppression and prolonged tumor-free survival compared to untreated controls. Conclusions: Exercise primes DLI and γδ T-cell products for enhanced responsiveness to TIGIT checkpoint inhibition. Targeting TIGIT likely augments DNAM-1 dependent cytotoxicity and improves anti-leukemic activity, supporting the integration of exercise-enhanced DLI and γδ T-cell therapies with immune checkpoint blockade as a safe strategy to improve relapse control in leukemia. Full article

(This article belongs to the Special Issue Cancer Immunotherapy in Clinical and Translational Research)

25 pages, 4589 KB

Open AccessArticle

Spatiotemporal Dynamics and Driving Forces of Desertification in Northwestern China

by Li Li, Min Yan, Li Zhang, Hamed Karimian, Wei Shao, Guozhen Zha and Yiming Kang

Land 2026, 15(3), 403; https://doi.org/10.3390/land15030403 (registering DOI) - 28 Feb 2026

Abstract

The arid region of Northwest China (ARNWC) faces severe desertification, posing a major threat to ecological sustainability and socio-economic development. However, systematic evaluation of desertification across the entire northwestern arid zone remains limited. To address the uncertainty caused by mixed pixels in sparsely vegetated drylands, this study innovatively integrates vegetation and soil indices to develop a robust machine learning-based system for classifying desertification levels in the ARNWC over three decades. In addition, the geographical detector method is employed to quantify the driving factors influencing desertification. The key findings are as follows: (1) Desertification expansion predominantly occurred between 1990 and 1995, followed by a gradual improvement from 1995 to 2020. Transitions between severe and moderate desertification were the most frequent, with approximately 15 × 10⁴ km² shifting from severe to moderate desertification. (2) Physiographic factors were the primary drivers of changes in desertification level, followed by climatic factors. Fractional Vegetation Cover (FVC) had the strongest influence, with an average q-value of 0.72. (3) The explanatory power of the drivers increased significantly through interactions, with the combination of FVC and evaporation (EVA) showing the most pronounced effect. Overall, the methods and findings of this study provide critical insights for targeted desertification control and ecological restoration strategies in arid regions. Although this approach primarily captures desertification symptoms related to surface cover, it offers a valuable long-term perspective on surface cover dynamics. Full article

(This article belongs to the Special Issue Recent Progress in Land Degradation Processes, Control and Restoration)

30 pages, 792 KB

Open AccessArticle

Organisational, Psychosocial and Institutional Determinants of Water Reuse Technology Adoption: A Structural Equation Modelling Approach in Peru

by Francisco Segundo Mogollón García, Danny Alonso Lizarzaburu-Aguinaga, Gladys Sandi Licapa-Redolfo, Luis Alberto Vera Zelada, Persi Vera Zelada, Rolando Licapa-Redolfo, Denis Javier Aranguri Cayetano and Elmer Ovidio Luque Luque

Water 2026, 18(5), 596; https://doi.org/10.3390/w18050596 (registering DOI) - 28 Feb 2026

Abstract

The global water crisis and the urgent need to transition toward regenerative economic models position the circular water economy as a strategic pathway for achieving Sustainable Development Goal 6. While technical feasibility and engineering performance of water reuse technologies have been extensively documented, the socio-organisational and institutional factors conditioning their adoption by industrial and urban entities remain poorly understood. This study addresses this knowledge gap by examining how organisational resources, institutional frameworks, and psychosocial factors are associated with implementation outcomes of circular water economy practices. Using partial least squares structural equation modelling (PLS-SEMs) on survey data from 150 organisational decision-makers across three Peruvian regions (Lima, Trujillo, and Cajamarca), we tested a multidimensional theoretical model integrating resource-based view, theory of planned behaviour, and institutional theory. Results reveal that external regulatory pressure (β = 0.345, p < 0.001), institutional framework quality (β = 0.287, p < 0.001), organisational resource availability (β = 0.273, p = 0.001), and pro-environmental organisational culture (β = 0.255, p = 0.013) show significant positive associations with technology implementation. Counterintuitively, individual attitudes exhibited a negative association (β = −0.350, p < 0.001), suggesting that favourable perceptions disconnected from organisational capacity may generate resistance rather than facilitate adoption. Implementation fully mediates all relationships with performance outcomes (R² = 82.3%), confirming its role as a critical bottleneck in the adoption process. These findings provide empirical evidence for prioritising institutional reforms and organisational capacity-building over awareness campaigns in water reuse promotion strategies, particularly in emerging economy contexts characterised by regulatory fragmentation and limited technical capabilities. Full article

37 pages, 7143 KB

Open AccessReview

Aqueous Phase Recycling in Hydrothermal Liquefaction: Mechanisms, Feedstock Interactions, and Sustainable Biorefinery Integration

by Ayaz Ali Shah, Altaf Alam Noonari, Iftikhar Ahmed Channa, Muhammad Ashraf, Aamir Raza, Asif Shah, Nabi Bakhsh Mallah, Muhammad Azam Usto and Muhammad Ilyas Khan

Sustainability 2026, 18(5), 2370; https://doi.org/10.3390/su18052370 (registering DOI) - 28 Feb 2026

Abstract

The aqueous phase (AP) produced during hydrothermal liquefaction (HTL) contains high organic loads and a chemically complex mixture of dissolved intermediates, posing significant environmental management challenges. Aqueous phase recycling (APR) has emerged as a strategy to enhance bio-crude yield, improve energy recovery, and reduce freshwater consumption by reintroducing reactive water-soluble species into subsequent cycles. However, repeated recycling can lead to the accumulation of N-containing compounds and phenolics, potentially diminishing bio-crude quality and heating value through secondary polymerization and condensation reactions. Simultaneously, the carbon and nutrient-rich character of AP presents opportunities for valorization via anaerobic digestion, microalgae cultivation, and supercritical water gasification. Despite growing interest, APR-HTL research remains feedstock-specific, and a systematic understanding of AP compositional evolution across multiple recycling cycles is limited. This review synthesizes recent progress, highlighting mechanistic linkages between AP composition, bio-crude performance, and integrated biorefinery strategies. Full article

(This article belongs to the Section Waste and Recycling)

53 pages, 11113 KB

Open AccessArticle

Sand–Steel Interface Performance Using Fibre Reinforcement: Experimental and Physics-Guided Artificial Intelligence Prediction

by Rayed Almasoudi, Abolfazl Baghbani and Hossam Abuel-Naga

Sustainability 2026, 18(5), 2368; https://doi.org/10.3390/su18052368 (registering DOI) - 28 Feb 2026

Abstract

Soil–steel interface shear governs load transfer and long-term serviceability in piles, retaining systems, and buried infrastructure; yet the large-displacement interface mechanics of fibre-reinforced sands remain poorly resolved, limiting sustainable design. This study couples large-displacement ring-shear testing with physics-guided hybrid AI to quantify and predict the peak and residual resistance of sand–polypropylene fibre mixtures sliding on smooth and rough steel. Two quartz sands with contrasting particle morphology were tested under 25–200 kPa normal stress and 0–1.0% fibre content, producing a design-oriented database that captures post-peak evolution and residual states. The experiments reveal a strongly nonlinear reinforcement law: an optimum fibre range enhances dilation, stabilises the shear band, suppresses post-peak softening, and increases residual strength, whereas excessive fibres disrupt the granular skeleton and reduce mobilisation efficiency. Roughness and confinement act as amplifiers, intensifying fibre-driven dilation and asperity interlock. To translate mechanisms into prediction, three strategies were benchmarked: a deep neural network (DNN), the Physics-Guided Neural Additive Model (PG-NAM++), and the physics-anchored Residual-DNN that learns only the correction to a mechanical baseline. Residual-DNN achieved the tightest agreement and the highest physical consistency for both peak and residual strength, enabling robust parameter selection with reduced uncertainty and overdesign. The combined experimental–AI framework advances the United Nations Sustainable Development Goals (SDGs) by supporting SDG 9 through resilient, innovation-led infrastructure design and contributing to SDG 12 by enabling optimised (rather than maximal) use and reuse of reinforcement materials within circular ground-improvement practice. Full article

(This article belongs to the Special Issue Advancing Sustainable Building Practices: Integrating Green Materials, Healthy Structures, and AI-Driven Solutions)

35 pages, 7801 KB

Open AccessReview

Non-Coding Regulatory Variants in Autoimmune Disease: Biological Mechanisms, Immune Context, and Integrative Multi-Omics Interpretation

by Ahmed S. A. Ali Agha, Nawras A. Al-Zaki, Saif Aldeen Nasser Alshammari, Lama Odeh, Renata Obekh, Nour Sameer, Hussam M. Askari, Nancy Hakooz, Ibrahim Al-Adham and Phillip J. Collier

Biology 2026, 15(5), 407; https://doi.org/10.3390/biology15050407 (registering DOI) - 28 Feb 2026

Abstract

Autoimmune diseases arise from complex interactions between genetic susceptibility, immune regulation, and tissue-specific inflammatory processes, yet most risk variants identified by genome-wide association studies occur in non-coding regions with poorly defined biological functions. This review addresses the challenge of interpreting non-coding regulatory variants in autoimmunity by synthesizing emerging analytical frameworks that integrate functional genomics, single-cell profiling, spatial transcriptomics, and multi-omics data. We describe stepwise strategies that refine statistical associations through regulatory annotation, immune cell–state resolution, and perturbational evidence, highlighting complementary approaches such as massively parallel reporter assays, transcriptome-wide association studies, and single-cell expression quantitative trait locus mapping. These methods demonstrate that many autoimmune risk variants exert context-dependent effects that emerge only in specific immune cell states, activation trajectories, or tissue microenvironments. Advances in spatial and chromatin-informed technologies further clarify how regulatory variation shapes immune circuits in diseases such as systemic lupus erythematosus and rheumatoid arthritis. Finally, we discuss how machine learning-enabled multi-omics integration supports molecular endotyping and therapeutic inference while emphasizing interpretability and reproducibility. Collectively, this review highlights a shift from static variant annotation toward dynamic, context-aware analytical frameworks that enable mechanism-informed interpretation of genetic risk in autoimmune disease. Full article

(This article belongs to the Section Immunology)

28 pages, 982 KB

Open AccessArticle

Mitigating Disruptions in the Distribution Centre for the Australian Household Hydrogen Supply Chain

by Pranto Chakrabarty, Sanjoy Kumar Paul, Andrea Trianni and Suvash C. Saha

Energies 2026, 19(5), 1226; https://doi.org/10.3390/en19051226 (registering DOI) - 28 Feb 2026

Abstract

Australia is committed to achieving net-zero emissions by 2050, a goal that may require a major transformation of the household energy sector. Hydrogen can, however, be deployed as a complementary energy source to electricity by displacing natural gas. But the potential for hydrogen to make this transition is dependent on building a credible Australian household hydrogen supply chain (HHSC), which includes national distribution centres (NDCs), regional distribution centres (RDCs) and local distribution centres (LDCs). The HHSC is particularly vulnerable to operational disruptions under rapid adoption pathways and in perfect-competition market conditions, where infrastructure, supply, and pricing decisions are decentralised. Hydrogen flows may be disrupted at the NDCs and RDCs, leading to failure to meet demand and monetary losses across the HHSC. While many studies have assessed vulnerabilities within hydrogen supply chains, there is little attention paid to the consequences of distribution-level failures. This research aims to quantify the impacts associated with distribution centre (DC) disruptions in the HHSC using a multi-period network optimisation model to assess three operational situations: ideal situations, disrupted-DC situations without mitigation strategies, and disrupted-DC situations with suitable mitigation strategies. The results indicate that without mitigation strategies, demand fulfilment could potentially drop to zero, penalty costs could increase drastically, and profitability could decrease due to not meeting demand. In contrast, the implications of suitable mitigation strategies, including rerouting hydrogen through alternate, unaffected NDCs or RDCs, using spare capacity by increasing operating hours, and maintaining safety stock at RDCs, significantly increase HHSC performance. In these situations, demand fulfilment increases to up to 95%, and profitability improves substantially. This study contributes to the hydrogen supply chain literature by demonstrating how HHSCs can be planned and replanned to manage disruptions in DCs. The study also provides practical insights for policymakers and managers for a sustainable HHSC. Full article

(This article belongs to the Special Issue Energy Economics, Finance and Policy Towards Sustainable Energy: 2nd Edition)

17 pages, 306 KB

Open AccessReview

Scoping Review of the Models for Case-Based Health Programs in Africa: Towards Case-Based Surveillance for HIV in Lesotho

by Maletsatsi E. Motebang, Puleng Ramphalla and Joyce Tsoka-Gwegweni

Int. J. Environ. Res. Public Health 2026, 23(3), 308; https://doi.org/10.3390/ijerph23030308 (registering DOI) - 28 Feb 2026

Abstract

The review aims at exploring models for case-base health programs across Africa that could best help Lesotho succeed in its efforts to establish a case-based surveillance (CBS) system for their HIV program. The review involves looking through several sources and databases including EBSCOHOST, Google Scholar, Science Direct and PubMed. The insights of suitable models were from the following Africa countries: South Africa, Kenya, Guinea, Tanzania, Ghana, Mozambique and Zambia. The study articles were published within the last 10 years, specifically from 2014 to 2024. This range was used as part of their inclusion criteria to ensure relevance of the articles. The studied models focused on infectious diseases such as measles, HIVand COVID-19. The key takeaway is that setting up electronic medical records systems (EMRs) is critical as a first step for any effective CBS. Using unique identifiers, establishing clear data governance policies and building strong infrastructure is a necessity in making CBS work. For a successful establishment of CBS, Lesotho should adopt these strategies that can be sustainable, improve disease tracking, response and ultimately health outcomes for Basotho. Full article

(This article belongs to the Special Issue Public Health and Implementation Research for HIV Prevention Interventions)

13 pages, 8451 KB

Open AccessCommunication

Bi-Continuous Emulsions Stabilized by pH-Responsive Self-Assembled Aggregates of Amphiphilic Random Copolymer with One-Step Emulsification

by Hao Du, Yun Zhang, Yuyun Yang, Tongtong Cao, Ming Li and Yuhua Cao

Polymers 2026, 18(5), 619; https://doi.org/10.3390/polym18050619 (registering DOI) - 28 Feb 2026

Abstract

We reported a simplified one-step emulsification strategy to prepare bi-continuous emulsions with a gel-like property using the pH-responsive self-assembled aggregates of an amphiphilic random copolymer poly (styrene-co-methacrylic acid) (P(St-co-MAA)) as the interfacial stabilizers. Using caprylic/capric triglyceride (GTCC) as the oil phase, 1.0% P(St-co-MAA) aqueous solution with a pH between 7.0 and 8.0 as the water phase, and an oil/water phase ratio of 6:4, bi-continuous emulsions could be formed directly through one-step emulsification. Systematic characterization with a fluorescence microscope, scanning electron microscope, and confocal laser scanning microscope confirmed the formation of the bi-continuous emulsions. The three-phase contact angle measurements confirmed that the surface wettability of the self-assembled aggregates changed with pH, and the three-phase contact angles of the bi-continuous emulsions formed at a pH between 7.0 and 8.0 were close to 90°. Furthermore, rheological analysis of the bi-continuous emulsion showed the storage modulus (G′) dominating over the loss modulus (G″), which verified that the bi-continuous emulsion was attributed to the existence of a three-dimensional elastic gel network. The pH-dependent wettability of the self-assembled aggregates as the stabilizers enabled pH to control the emulsion type from O/W to bi-continuous to W/O. The work provides a simple, rapid, and robust approach to preparing bi-continuous emulsions without intricate particle modifications and cumbersome procedures. Full article

(This article belongs to the Section Polymer Chemistry)

28 pages, 1904 KB

Open AccessArticle

Environmental Drivers and Explainable Modeling to Resolve Trace Metal Dynamics in a Lotic System

by Akasya Topçu, Dilara Gerdan Koç, İlknur Meriç Turgut and Serkan Taşdemir

Toxics 2026, 14(3), 215; https://doi.org/10.3390/toxics14030215 (registering DOI) - 28 Feb 2026

Abstract

Trace metal contamination in lotic freshwater systems exhibits pronounced heterogeneity arising from coupled hydrological connectivity, geochemical partitioning, and anthropogenic forcing, complicating exposure characterization in urban and peri-urban catchments. Addressing this complexity requires integrative analytical approaches capable of deciphering system-level controls, prompting an investigation of the environmental structuring and governing controls of dissolved trace metal signatures in a human-impacted stream using a system-oriented computational framework. To capture temporal variability associated with seasonal hydrological contrasts and heterogeneous pollution inputs, a station-based, season-resolved sampling strategy was implemented during the wet and dry seasons. Physicochemical gradients (pH, temperature, dissolved oxygen, and electrical conductivity), inorganic nitrogen species (NH₃, NO₂⁻, and NO₃⁻), and phosphorus fractions (total phosphorus, TP; total orthophosphate, TOP; soluble reactive P, SRP) were jointly analyzed with dissolved concentrations of chromium (Cr), copper (Cu), nickel (Ni), lead (Pb), cadmium (Cd), mercury (Hg), and arsenic (As). Regression-based machine learning models were used to quantify element-specific sensitivities to hydrochemical drivers under wet–dry periods and to identify optimal predictive configurations. Predictive performance was consistently high for trace metals (R² generally >0.95), with Random Forest providing the best accuracy for Cr, Ni, Pb, Cd, As, and Hg, whereas Cu was most reliably captured by an XGBoost tree ensemble (R² = 0.994). Explainability analyses revealed heterogeneous, metal-specific control regimes: Cr was primarily driven by temperature, Ni by NO₂⁻ and redox-sensitive conditions, Cd by NH₃ and temperature, and As by Hg in combination with phosphorus-related and redox-linked proxies, while Pb showed comparatively lower predictability relative to other metals. Trace metal distributions are therefore structured primarily by differential environmental sensitivity rather than uniform source-driven inputs, reinforcing the need for integrative computational frameworks when interpreting freshwater contamination under intensifying anthropogenic and climatic pressures. Full article

(This article belongs to the Special Issue Distribution and Behavior of Trace Metals in the Environment)

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15 pages, 1111 KB

Open AccessArticle

The Impact of Upward Social Comparison on Smartphone Addiction Among Adolescents: The Moderating Role of Football Participation

by Anzu Li, Huarui Huang, Yi Zheng, Nian Li and Yizhou Shui

Behav. Sci. 2026, 16(3), 346; https://doi.org/10.3390/bs16030346 (registering DOI) - 28 Feb 2026

Abstract

Against the background of widespread digital technology use and the increasing prevalence of smartphone addiction among adolescents, upward social comparison has been identified as an important trigger of addictive behaviors. However, the moderating role of sports participation and potential differences across types of sports remain unclear. This cross-sectional study aimed to examine the effect of upward social comparison on smartphone addiction among adolescents and to test the moderating role of football participation. A questionnaire survey was conducted among 2451 primary and secondary school students from 162 schools across 13 provinces in China. The survey included the Upward Social Comparison Scale, the Smartphone Addiction Scale—Short Version, and the Sports Participation Scale. SPSS 27.0 was used to perform descriptive statistics and correlation analyses. Moderation analyses and multi-group comparisons were conducted using PROCESS 4.2. The results showed that upward social comparison positively predicted smartphone addiction among adolescents. Sports participation significantly buffered the association between upward social comparison and smartphone addiction (β = −0.055, p < 0.001). Football participation showed a significant moderating effect (β = −0.062, p < 0.05). Higher levels of football participation were associated with a stronger buffering effect. In contrast, individual sports did not show a significant moderating effect (β = −0.029, p = 0.394). These findings suggest that upward social comparison is a risk factor for smartphone addiction among adolescents. Football participation may effectively reduce this risk, but individual sports did not exhibit a comparable moderating effect. This study provides empirical evidence to support the development of targeted intervention strategies for adolescent smartphone addiction. Full article

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