Environments

27 pages, 2995 KiB

Open AccessArticle

Photovoltaic System for Residential Energy Sustainability in Santa Elena, Ecuador

by Angela García-Guillén, Marllelis Gutiérrez-Hinestroza, Lucrecia Moreno-Alcívar, Lady Bravo-Montero and Gricelda Herrera-Franco

Environments 2025, 12(8), 281; https://doi.org/10.3390/environments12080281 - 15 Aug 2025

Abstract

The instability of the energy supply, growing demand and the need to reduce carbon emissions are priority challenges in developing countries such as Ecuador, where power outages affect productivity and generate economic losses. Therefore, solar energy is positioned as a sustainable alternative. The [...] Read more.

The instability of the energy supply, growing demand and the need to reduce carbon emissions are priority challenges in developing countries such as Ecuador, where power outages affect productivity and generate economic losses. Therefore, solar energy is positioned as a sustainable alternative. The objective of this study is to evaluate a pilot photovoltaic (PV) system for residential housing in coastal areas in the Santa Elena province, Ecuador. The methodology included the following: (i) criteria for the selection of three representative residential housings; (ii) design of a distributed generation system using PVsyst software; and (iii) proposal of strategic guidelines for the design of PV systems. This proposed system proved to be environmentally friendly, achieving reductions of between 16.4 and 32 tonnes of CO₂ in the first 10 years. A return on investment (ROI) of 16 years was achieved for the low-demand (L) scenario, with 4 years for the medium-demand (M) scenario and 2 years for the high-demand (H) scenario. The sensitivity analysis showed that the Levelized Cost of Energy (LCOE) is more variable in the L scenario, requiring more efficient designs. It is proposed to diversify the Ecuadorian energy matrix through self-supply PV systems, which would reduce electricity costs by 6% of consumption (L scenario), 30% (M scenario), and 100% (H scenario). Although generation is concentrated during the day, the net metering scheme enables compensation for nighttime consumption without the need for batteries, thereby improving the system’s profitability. The high solar potential and high tariffs make the adoption of sustainable energy solutions a justifiable choice. Full article

(This article belongs to the Special Issue Balancing Energy and Environmental Sustainability: Innovations, Impacts, and Pathways)

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20 pages, 7249 KiB

Open AccessArticle

Enhanced Degradation of 4-Nitrophenol via a Two-Stage Co-Catalytic Fenton Packed-Bed Reactor with External Circulation

by Yan Liu, Jingyu Liu, Yongyou Hu, Yueyue Shi, Chaoyang Tang, Jianhua Cheng, Xiaoqiang Zhu, Guobin Wang and Jieyun Xie

Environments 2025, 12(8), 280; https://doi.org/10.3390/environments12080280 - 14 Aug 2025

Abstract

To mitigate the consumption of active sites on co-catalysts by H₂O₂ and to enhance the efficiency and stability of co-catalytic Fenton reactions, an external circulation two-stage packed-bed reactor (ECTPBR) was developed using DPW (diatomite plate@polydopamine@WC) as a co-catalyst to degrade [...] Read more.

To mitigate the consumption of active sites on co-catalysts by H₂O₂ and to enhance the efficiency and stability of co-catalytic Fenton reactions, an external circulation two-stage packed-bed reactor (ECTPBR) was developed using DPW (diatomite plate@polydopamine@WC) as a co-catalyst to degrade 4-nitrophenol (4-NP). Under suitable conditions, the ECTPBR could achieve over 91.97% 4-NP degradation, with low iron sludge production (11.97 mg/L) and minimal tungsten leaching (3.6363 mg/L). The two-stage strategy enabled spatial separation of Fe³⁺ reduction and Fenton reactions, minimizing the loss of active sites on DPW, ensuring long-term system stability, and reducing the toxicity of 4-NPdegradation products. In addition, external circulation enhanced mass transfer and improved resistance to shock loads. These advantages suggest that the ECTPBR may serve as an effective strategy for applying co-catalytic Fenton reactions in the treatment of toxic and refractory organic wastewater. Full article

(This article belongs to the Special Issue Advances in Heavy Metal Remediation Technologies)

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18 pages, 629 KiB

Open AccessArticle

Bridging Nutritional and Environmental Assessment Tools: A One Health Integration Using Zinc Supplementation in Weaned Pigs

by Jinsu Hong, Joel Tallaksen and Pedro E. Urriola

Environments 2025, 12(8), 279; https://doi.org/10.3390/environments12080279 - 12 Aug 2025

Abstract

Zinc is an essential trace mineral for livestock, but excessive use can contribute to ecotoxicity and antimicrobial resistance. The objective of this study was to assess the impact of different zinc oxide (ZnO) levels in diets for weaned pigs on growth performance, mortality, [...] Read more.

Zinc is an essential trace mineral for livestock, but excessive use can contribute to ecotoxicity and antimicrobial resistance. The objective of this study was to assess the impact of different zinc oxide (ZnO) levels in diets for weaned pigs on growth performance, mortality, dietary zinc flow, and environmental impacts. A 6-week feeding trial with 432 weaned pigs assessed three dietary treatments: high ZnO (pharmaceutical levels), intermediate ZnO, and low ZnO (EU recommendation). Growth performance for the growing–finishing period was modeled using the NRC (2012), and dietary Zn intake and fecal Zn excretion were estimated. Environmental impacts were analyzed via life cycle assessment (LCA) using SimaPro LCA software. High ZnO improved growth performance and reduced mortality (p < 0.05), but increased nursery fecal zinc excretion, resulting in a total fecal Zn excretion per pig of 54,125 mg, 59,485 mg, and 106,043 mg for low-, intermediate-, and high-ZnO treatments, respectively. In the nursery phase, high-ZnO treatment had the greatest impact on environmental footprint, increasing freshwater ecotoxicity and marine ecotoxicity indicators by 59.6% and 57.9%, respectively. However, high-ZnO-fed pigs had a greater body weight at the end of the nursery phase and were predicted to achieve a higher growth rate per 130 kg market pig, with fewer days to market and by sparing feed. Therefore, high-ZnO-fed pigs had reduced environmental burdens, including global warming potential, ozone depletion, land use, and mineral resource depletion. These findings demonstrate how livestock nutritionists can apply integrated modeling approaches to link animal performance with environmental outcomes within a One Health framework. Full article

(This article belongs to the Special Issue Environmental Challenges and Sustainable Contributions to the One Health Approach)

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18 pages, 1120 KiB

Open AccessArticle

Quantification of Acetaminophen, Ibuprofen, and β-Blockers in Wastewater and River Water Bodies During the COVID-19 Pandemic

by Neliswa Mpayipheli, Anele Mpupa, Ntakadzeni Edwin Madala and Philiswa Nosizo Nomngongo

Environments 2025, 12(8), 278; https://doi.org/10.3390/environments12080278 - 12 Aug 2025

Abstract

The consumption of pharmaceuticals during the COVID-19 pandemic increased significantly. As such, over-the-counter drugs such as acetaminophen (ACT), ibuprofen (IBU), metoprolol (MET), and propranolol (PRO) were among the pharmaceuticals that were widely used to contain COVID-19 symptoms. Therefore, this study investigated the occurrence [...] Read more.

The consumption of pharmaceuticals during the COVID-19 pandemic increased significantly. As such, over-the-counter drugs such as acetaminophen (ACT), ibuprofen (IBU), metoprolol (MET), and propranolol (PRO) were among the pharmaceuticals that were widely used to contain COVID-19 symptoms. Therefore, this study investigated the occurrence of ACT, IBU, MET, and PRO in wastewater and river water systems, focusing on two provinces in South Africa (Gauteng (GP) and KwaZulu-Natal (KZN)). Generally, WWTP influents had the highest concentrations in both provinces. ACT, MET, and PRO were frequently detected compared to ibuprofen, particularly in KZN, during the second wave of the COVID-19 pandemic. However, a low detection occurred during the fourth wave of the COVID-19 pandemic. The concentrations of ACT, IBU, MET, and PRO in influent wastewater samples ranged from ND-480 µg/L, ND-54.1 µg/L, ND-52.8 µg/L, to ND-13.1 µg/L, respectively. In comparison with influent samples, ACT, IBU, MET, and PRO concentrations of effluent wastewater samples were generally at lower concentration levels: ACT (ND-289 µg/L), IBU (ND-36.1 µg/L), MET (ND-13.9 µg/L), and PRO (ND-5.53 µg/L). The removal efficiencies of the selected pharmaceuticals in KZN WWTPs ranged from 6.1 to 100% and −362.6 to 100% in the GP province. The ecological risk assessment results showed a low to high ecological risk against fish, Daphnia magna, and algae due to the presence of these pharmaceuticals. Full article

(This article belongs to the Special Issue Monitoring and Assessment of Inorganic and Organic Microcontaminants in Soil, Sediment, Water Systems)

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12 pages, 234 KiB

Open AccessReview

Trifluoroacetic Acid: A Narrative Review on Physico-Chemical Properties, Exposure Pathways, and Toxicological Concerns

by Andrea Moscato, Maria Valentina Longo, Margherita Ferrante and Maria Fiore

Environments 2025, 12(8), 277; https://doi.org/10.3390/environments12080277 - 12 Aug 2025

Abstract

Trifluoroacetic acid (TFA) is a persistent degradation product of widely used fluorinated compounds such as hydrofluorocarbons, hydrofluoroolefins, hydrochlorofluorocarbons (HCFCs) and hydrochlorofluoroolefins. Its chemical stability, water solubility, and environmental persistence raise concerns about potential human and ecological risks. To provide an overview of current [...] Read more.

Trifluoroacetic acid (TFA) is a persistent degradation product of widely used fluorinated compounds such as hydrofluorocarbons, hydrofluoroolefins, hydrochlorofluorocarbons (HCFCs) and hydrochlorofluoroolefins. Its chemical stability, water solubility, and environmental persistence raise concerns about potential human and ecological risks. To provide an overview of current knowledge on TFA, we conducted a literature search (PubMed and Scopus, December 2024–January 2025) focusing on its environmental fate, human exposure, toxicokinetic, ecotoxicology, and regulation. A narrative approach was applied, prioritizing recent and high-quality evidence. TFA is ubiquitous in air, water, food, and consumer products. Human exposure occurs mainly through ingestion and inhalation. It is rapidly absorbed and excreted mostly unchanged in urine, with limited metabolic transformation. Though not bioaccumulated in fat, its environmental persistence and ongoing exposure raise concerns about long-term systemic effects. Ecotoxicological data show chronic toxicity in aquatic and terrestrial species, with environmental concentrations often exceeding safety thresholds. Currently, no binding EU limit exists for TFA, although several countries have proposed drinking water guidelines. TFA represents an emerging environmental contaminant with potential human health and ecological impacts. Strengthened monitoring, long-term toxicological studies, and precautionary regulatory action are urgently needed. Full article

(This article belongs to the Special Issue Challenges in Environmental and Occupational Monitoring: New Methods, New Chemicals, New Concerns for Safety and Health)

17 pages, 3246 KiB

Open AccessArticle

A Citizen Science Approach for Documenting Mass Coral Bleaching in the Western Indian Ocean

by Anderson B. Mayfield

Environments 2025, 12(8), 276; https://doi.org/10.3390/environments12080276 - 11 Aug 2025

Abstract

During rapid-onset environmental catastrophes, scientists may not always have sufficient time to conduct proper environmental surveys in all representative areas. Although coral bleaching events can be predicted to a certain extent in some areas by tracking sea surface temperatures (SSTs), current models from [...] Read more.

During rapid-onset environmental catastrophes, scientists may not always have sufficient time to conduct proper environmental surveys in all representative areas. Although coral bleaching events can be predicted to a certain extent in some areas by tracking sea surface temperatures (SSTs), current models from NOAA’s Coral Reef Watch tend to underestimate severity of bleaching in the Indian Ocean, as was evident in March 2024 when corals began bleaching after only experiencing 1–2 degree-heating weeks. To characterize the impacts of this event, I conducted citizen science-style surveys at 22 sites along a 600-km stretch of the Kenyan coastline. Thereafter, I trained an artificial intelligence (AI) to extract coral abundance and bleaching data from 2300 coral reef images spanning 11–12 hectares of reef area to estimate both coral cover and bleaching prevalence. The AI’s accuracy was >80%, though it was prone to false-positive bleaching classifications. Bleaching severity varied significantly across sites, as well as over time, as seawater continued to warm over the duration of the study period; on average, over 75% of all reef-building scleractinians had bleached. Across the 22 sites, the mean healthy coral cover was only 7–8%, vs. >30% at sites in the same areas in the late 1990s. Whether these corals can recover, and then withstand such heatwaves in the future, will be known all too soon. Full article

(This article belongs to the Special Issue Coastal and Marine Environmental Ecology Problems Identified and Addressed by Means of Artificial Intelligence Tools)

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47 pages, 10040 KiB

Open AccessArticle

Analysis of Urban-Level Greenhouse Gas and Aerosol Variability at a Southern Italian WMO/GAW Observation Site: New Insights from Air Mass Aging Indicators Applied to Nine Years of Continuous Measurements

by Francesco D’Amico, Luana Malacaria, Giorgia De Benedetto, Salvatore Sinopoli, Teresa Lo Feudo, Daniel Gullì, Ivano Ammoscato and Claudia Roberta Calidonna

Environments 2025, 12(8), 275; https://doi.org/10.3390/environments12080275 - 10 Aug 2025

Abstract

Gaseous pollutants and aerosols resulting from anthropic activities and natural phenomena require adequate source apportionment methodologies to be fully assessed. Furthermore, it is crucial to differentiate between fresh anthropogenic emissions and the atmospheric background. The proximity method based on the O₃/NO [...] Read more.

Gaseous pollutants and aerosols resulting from anthropic activities and natural phenomena require adequate source apportionment methodologies to be fully assessed. Furthermore, it is crucial to differentiate between fresh anthropogenic emissions and the atmospheric background. The proximity method based on the O₃/NO_x (ozone to nitrogen oxides) ratio has been used at the Lamezia Terme (code: LMT) World Meteorological Organization—Global Atmosphere Watch (WMO/GAW) regional station in Italy to determine the variability of CO (carbon monoxide), CO₂ (carbon dioxide), CH₄ (methane), SO₂ (sulfur dioxide), and eBC (equivalent black carbon), thus allowing the differentiation between local and remote sources of emission. Prior to this work, all O₃/NO_x ratios lower than 10 were grouped under the LOC (local) proximity category, thus including very low ratios (≤1), which are generally attributed by the literature to “urban” air masses, particularly enriched in anthropogenic emissions. This study, aimed at nine continuous years of measurements (2015–2023), introduces the URB category in the assessment of CO, CO₂, CH₄, SO₂, and eBC variability at the LMT site, highlighting patterns and peaks in concentrations that were previously neglected. The daily cycle, which is locally influenced by wind circulation and Planetary Boundary Layer (PBL) dynamics, is particularly susceptible to urban-scale emissions and its analysis has allowed the highlighting of notable peaks in concentrations that were previously neglected. Correlations with wind corridors and speeds indicate that most evaluated parameters are linked to northeastern winds at LMT and wind speeds under 5.5 m/s. Weekly cycle analyses, i.e., differences between weekdays (MON-FRI) and weekends (SAT-SUN), have also highlighted tendencies driven by seasonality and wind corridors. The results highlight the potential of the URB category as a tool necessary to access a given area’s anthropogenic output and its impact on air quality and the environment. Full article

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27 pages, 22030 KiB

Open AccessArticle

Spatiotemporal Dynamics of Urban Air Pollution in Dhaka City (2020–2024) Using Time-Series Sentinel-5P Satellite Images and Google Earth Engine (GEE)

by Md. Mostafizur Rahman, Md. Kamruzzaman, Mst Ilme Faridatul and György Szabó

Environments 2025, 12(8), 274; https://doi.org/10.3390/environments12080274 - 10 Aug 2025

Abstract

This study investigated the spatiotemporal dynamics of four major air pollutants—carbon monoxide (CO), nitrogen dioxide (NO₂), sulphur dioxide (SO₂), and ozone (O₃)—across Dhaka from 2020 to 2024 using Sentinel-5P TROPOMI satellite data. A 60-month time-series analysis was [...] Read more.

This study investigated the spatiotemporal dynamics of four major air pollutants—carbon monoxide (CO), nitrogen dioxide (NO₂), sulphur dioxide (SO₂), and ozone (O₃)—across Dhaka from 2020 to 2024 using Sentinel-5P TROPOMI satellite data. A 60-month time-series analysis was conducted, integrating spatial mapping, seasonal composites, and Mann–Kendall trend testing. Results indicated clear seasonal variations: CO and NO₂ concentrations peaked during winter, with maximum monthly averages of 0.05287 mol/m² and 0.00035 mol/m², respectively, while SO₂ reached a high of 0.00043 mol/m² in pre-monsoon months. In contrast, O₃ peaked in May (0.13023 mol/m²), following an inverse seasonal trend driven by photochemical activity. Spatial analysis revealed persistent pollution hotspots in central-western zones like Tejgaon and Mirpur for CO and NO₂, while SO₂ was concentrated in southern industrial zones such as Keraniganj and Jatrabari. The Mann–Kendall test identified moderate to strong increasing trends for CO (τ = 0.8, p = 0.086 in June and September) and SO₂ (τ = 0.8, p = 0.086 in April and May), although most trends lacked statistical significance due to the limited temporal window. This study demonstrates the viability of combining satellite remote sensing and cloud-based processing for urban air quality monitoring and provides actionable insights for targeted seasonal interventions and evidence-based policymaking in Dhaka’s evolving urban context. Full article

(This article belongs to the Special Issue Air Pollution in Urban and Industrial Areas III)

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34 pages, 23162 KiB

Open AccessArticle

Analysis and Evaluation of Sulfur Dioxide and Equivalent Black Carbon at a Southern Italian WMO/GAW Station Using the Ozone to Nitrogen Oxides Ratio Methodology as Proximity Indicator

by Francesco D’Amico, Luana Malacaria, Giorgia De Benedetto, Salvatore Sinopoli, Teresa Lo Feudo, Daniel Gullì, Ivano Ammoscato and Claudia Roberta Calidonna

Environments 2025, 12(8), 273; https://doi.org/10.3390/environments12080273 - 9 Aug 2025

Abstract

The measurement and evaluation of the atmospheric background levels of greenhouse gases (GHGs) and aerosols are useful to determine long-term tendencies and variabilities, and pinpoint peaks attributable to anthropogenic emissions and exceptional natural emissions such as volcanoes. At the Lamezia Terme (code: LMT) [...] Read more.

The measurement and evaluation of the atmospheric background levels of greenhouse gases (GHGs) and aerosols are useful to determine long-term tendencies and variabilities, and pinpoint peaks attributable to anthropogenic emissions and exceptional natural emissions such as volcanoes. At the Lamezia Terme (code: LMT) World Meteorological Organization–Global Atmosphere Watch (WMO/GAW) observation site located in the south Italian region of Calabria, the “Proximity” methodology based on photochemical processes, i.e., the ratio of tropospheric ozone (O₃) to nitrogen oxides (NO_x) has been used to discriminate the local and remote atmospheric concentrations of GHGs. Local air masses are heavily affected by anthropogenic emissions while remote air masses are more representative of atmospheric background conditions. This study applies, to eight continuous years of measurements (2016–2023), the Proximity methodology to sulfur dioxide (SO₂) for the first time, and also extends it to equivalent black carbon (eBC) to assess whether the methodology can be applied to aerosols. The results indicate that SO₂ follows a peculiar pattern, with LOC (local) and BKG (background) levels being generally lower than their N–SRC (near source) and R–SRC (remote source), thus corroborating previous hypotheses on SO₂ variability at LMT by which the Aeolian Arc of volcanoes and maritime traffic could be responsible for these concentration levels. The anomalous behavior of SO₂ was assessed using the Proximity Progression Factor (PPF) introduced in this study, which provides a value representative of changes from local to background concentrations. This finding, combined with an evaluation of known sources on a regional scale, has been used to provide an estimate on the spatial resolution of proximity categories, which is one of the known limitations of this methodology. Furthermore, the results confirm the potential of using the Proximity methodology for aerosols, as eBC shows a pattern consistent with local sources of emissions, such as wildfires and other forms of biomass burning, being responsible for the observed peaks. Full article

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35 pages, 1831 KiB

Open AccessReview

Pesticide Degradation: Impacts on Soil Fertility and Nutrient Cycling

by Muhammad Yasir, Abul Hossain and Anubhav Pratap-Singh

Environments 2025, 12(8), 272; https://doi.org/10.3390/environments12080272 - 7 Aug 2025

Abstract

The widespread use of pesticides in modern agriculture has significantly enhanced food production by managing pests and diseases; however, their degradation in soil can lead to unintended consequences for soil fertility and nutrient cycling. This review explores the mechanisms of pesticide degradation, both [...] Read more.

The widespread use of pesticides in modern agriculture has significantly enhanced food production by managing pests and diseases; however, their degradation in soil can lead to unintended consequences for soil fertility and nutrient cycling. This review explores the mechanisms of pesticide degradation, both abiotic and biotic, and the soil factors influencing these processes. It critically examines how degradation products impact soil microbial communities, organic matter decomposition, and key nutrient cycles, including nitrogen, phosphorus, potassium, and micronutrients. This review highlights emerging evidence linking pesticide residues with altered enzymatic activity, disrupted microbial populations, and reduced nutrient bioavailability, potentially compromising soil structure, water retention, and long-term productivity. Additionally, it discusses the broader environmental and agricultural implications, including decreased crop yields, biodiversity loss, and groundwater contamination. Sustainable management strategies such as bioremediation, the use of biochar, eco-friendly pesticides, and integrated pest management (IPM) are evaluated for mitigating these adverse effects. Finally, this review outlines future research directions emphasizing long-term studies, biotechnology innovations, and predictive modeling to support resilient agroecosystems. Understanding the intricate relationship between pesticide degradation and soil health is crucial to ensuring sustainable agriculture and food security. Full article

(This article belongs to the Special Issue Coping with Climate Change: Fate of Nutrients and Pollutants in Soil)

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27 pages, 7041 KiB

Open AccessArticle

Multi-Criteria Assessment of the Environmental Sustainability of Agroecosystems in the North Benin Agricultural Basin Using Satellite Data

by Mikhaïl Jean De Dieu Dotou Padonou, Antoine Denis, Yvon-Carmen H. Hountondji, Bernard Tychon and Gérard Nounagnon Gouwakinnou

Environments 2025, 12(8), 271; https://doi.org/10.3390/environments12080271 - 6 Aug 2025

Abstract

The intensification of anthropogenic pressures, particularly those related to agriculture driven by increasing demands for food and cash crops, generates negative environmental externalities. Assessing these externalities is essential to better identify and implement measures that promote the environmental sustainability of rural landscapes. This [...] Read more.

The intensification of anthropogenic pressures, particularly those related to agriculture driven by increasing demands for food and cash crops, generates negative environmental externalities. Assessing these externalities is essential to better identify and implement measures that promote the environmental sustainability of rural landscapes. This study aims to develop a multi-criteria assessment method of the negative environmental externalities of rural landscapes in the northern Benin agricultural basin, based on satellite-derived data. Starting from a 12-class land cover map produced through satellite image classification, the evaluation was conducted in three steps. First, the 12 land cover classes were reclassified into Human Disturbance Coefficients (HDCs) via a weighted sum model multi-criteria analysis based on nine criteria related to the negative environmental externalities of anthropogenic activities. Second, the HDC classes were spatially aggregated using a regular grid of 1 km² landscape cells to produce the Landscape Environmental Sustainability Index (LESI). Finally, various discretization methods were applied to the LESI for cartographic representation, enhancing spatial interpretation. Results indicate that most areas exhibit moderate environmental externalities (HDC and LESI values between 2.5 and 3.5), covering 63–75% (HDC) and 83–94% (LESI) of the respective sites. Areas of low environmental externalities (values between 1.5 and 2.5) account for 20–24% (HDC) and 5–13% (LESI). The LESI, derived from accessible and cost-effective satellite data, offers a scalable, reproducible, and spatially explicit tool for monitoring landscape sustainability. It holds potential for guiding territorial governance and supporting transitions towards more sustainable land management practices. Future improvements may include, among others, refining the evaluation criteria and introducing variable criteria weighting schemes depending on land cover or region. Full article

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19 pages, 1495 KiB

Open AccessReview

Computer Vision for Low-Level Nuclear Waste Sorting: A Review

by Tianshuo Li, Danielle E. Winckler and Zhong Li

Environments 2025, 12(8), 270; https://doi.org/10.3390/environments12080270 - 5 Aug 2025

Abstract

Nuclear power is a low-emission and economically competitive energy source, yet the effective disposal and management of its associated radioactive waste can be challenging. Radioactive waste can be categorised as high-level waste (HLW), intermediate-level waste (ILW), and low-level waste (LLW). LLW primarily comprises [...] Read more.

Nuclear power is a low-emission and economically competitive energy source, yet the effective disposal and management of its associated radioactive waste can be challenging. Radioactive waste can be categorised as high-level waste (HLW), intermediate-level waste (ILW), and low-level waste (LLW). LLW primarily comprises materials contaminated during routine clean-up, such as mop heads, paper towels, and floor sweepings. While LLW is less radioactive compared to HLW and ILW, the management of LLW poses significant challenges due to the large volume that requires processing and disposal. The volume of LLW can be significantly reduced through sorting, which is typically performed manually in a labour-intensive way. Smart management techniques, such as computer vision (CV) and machine learning (ML), have great potential to help reduce the workload and human errors during LLW sorting. This paper provides a comprehensive review of previous research related to LLW sorting and a summative review of existing applications of CV in solid waste management. It also discusses state-of-the-art CV and ML algorithms and their potential for automating LLW sorting. This review lays a foundation for and helps facilitate the applications of CV and ML techniques in LLW sorting, paving the way for automated LLW sorting and sustainable LLW management. Full article

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11 pages, 1083 KiB

Open AccessArticle

Assessment of ¹³⁷Cs and ⁴⁰K Transfer Factors in Croatian Agricultural Systems and Implications for Food Safety

by Tomislav Bituh, Branko Petrinec, Dragutin Hasenay and Sanja Stipičević

Environments 2025, 12(8), 269; https://doi.org/10.3390/environments12080269 - 2 Aug 2025

Abstract

Croatian agricultural legislation acknowledges the significance of radionuclides as pollutants in agricultural lands; however, it lacks specific thresholds or reference values for contamination levels, in contrast to other contaminants. This absence highlights the necessity for a comprehensive assessment of radionuclides across various agricultural [...] Read more.

Croatian agricultural legislation acknowledges the significance of radionuclides as pollutants in agricultural lands; however, it lacks specific thresholds or reference values for contamination levels, in contrast to other contaminants. This absence highlights the necessity for a comprehensive assessment of radionuclides across various agricultural systems in Croatia. This study investigates the transfer of radionuclides ¹³⁷Cs and ⁴⁰K from soil to agricultural crops throughout Croatia and estimates the consequent annual ingestion dose for the population. The samples collected comprised food crops and animal feed, with corresponding soil samples analyzed to calculate transfer factors. Activity concentrations of ¹³⁷Cs exhibited regional and crop-type variability, reflecting the uneven distribution of fallout and differing soil properties. Transfer factors were found to range from 0.003 to 0.06 for ¹³⁷Cs and from 0.15 to 3.1 for ⁴⁰K, with the highest uptake occurring in kidney beans. The total estimated annual effective ingestion dose was calculated to be a maximum of 0.748 mSv/year for children aged 2–7, predominantly attributable to ⁴⁰K. Given the homeostatic regulation of potassium in the human body, the dose associated with ¹³⁷Cs poses a more significant radiological concern. These findings underscore the need for radionuclide-specific agricultural legislation in Croatia and offer a baseline for recommending reference values and informing future regulations regarding agricultural soil contamination. Full article

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5 pages, 164 KiB

Open AccessEditorial

Sustainable Water Resource Management: Challenges and Opportunities

by Pengxiao Zhou, Qianqian Zhang, Fei Zhang and Zoe Li

Environments 2025, 12(8), 268; https://doi.org/10.3390/environments12080268 - 1 Aug 2025

Abstract

Water is a basic human necessity, and the amount of water on Earth remains fairly constant [...] Full article

(This article belongs to the Special Issue Hydrological Modeling and Sustainable Water Resources Management)

22 pages, 1556 KiB

Open AccessArticle

Long-Term Performance of Passive Volatile Organic Compounds (VOCs) Samplers for Indoor Air

by John H. Zimmerman, Brian Schumacher, Christopher C. Lutes, Brian Cosky and Heidi Hayes

Environments 2025, 12(8), 267; https://doi.org/10.3390/environments12080267 - 31 Jul 2025

Abstract

The reliability of passive samplers in measuring volatile organic compounds (VOCs) in indoor air depends on whether the uptake rate is constant given the environmental conditions and sampler exposure duration. The first phase of this study evaluated the performance of charcoal-based, solvent-extracted passive [...] Read more.

The reliability of passive samplers in measuring volatile organic compounds (VOCs) in indoor air depends on whether the uptake rate is constant given the environmental conditions and sampler exposure duration. The first phase of this study evaluated the performance of charcoal-based, solvent-extracted passive samplers (e.g., Radiello^® 130 passive samplers with white diffusive bodies) over exposure periods ranging from 1 week to 1 year in a test house with known vapor intrusion (VI). Chloroform %Bias values exceeded the ±30% acceptance criterion after 4 weeks exposure. Benzene, hexane, and trichloroethylene (TCE) concentrations were within the acceptance criterion for up to three months. Toluene and tetrachloroethylene (PCE), the two least volatile compounds, demonstrated uniform uptake rates over one year. In the second phase of this study, testing of the longer exposure times of 6 months and 1 year were evaluated with three additional passive samplers: Waterloo Membrane Sampler^TM (WMS^TM), SKC 575 with secondary diffusive cover, and Radiello^® 130 passive samplers with yellow diffusive bodies. The SKC 575 and Radiello^® 130 passive samplers produced acceptable results (%Bias ≤ 30%) over the 6-month exposure period, while the WMS^TM sampler results favored petroleum hydrocarbon more than chlorinated solvent uptake. After the 1-year exposure period, the passive sampler performances were acceptable under specific conditions of this study. The results suggest that all three samplers can produce acceptable results over exposure time periods beyond 30 days and up to a year for some compounds. Full article

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14 pages, 3668 KiB

Open AccessArticle

Infrasound-Altered Pollination in a Common Western North American Plant: Evidence from Wind Turbines and Railways

by Lusha M. Tronstad, Madison Mazur, Lauren Thelen-Wade, Delina Dority, Alexis Lester, Michelle Weschler and Michael E. Dillon

Environments 2025, 12(8), 266; https://doi.org/10.3390/environments12080266 - 31 Jul 2025

Abstract

Anthropogenic noise can have diverse effects on natural ecosystems, but less is known about the degree to which noise can alter organisms in comparison to other disturbances. A variety of frequencies are produced by man-made objects, ranging from high to low frequencies, and [...] Read more.

Anthropogenic noise can have diverse effects on natural ecosystems, but less is known about the degree to which noise can alter organisms in comparison to other disturbances. A variety of frequencies are produced by man-made objects, ranging from high to low frequencies, and we studied infrasound (<20 Hz) produced by wind turbines and trains. We estimated the number, mass and viability of seeds produced by flowers of Plains pricklypear (Opuntia polyacantha Haw.) that were left open to pollinators, hand-pollinated or bagged to exclude pollinators. Each pollination treatment was applied to plants at varying distances from wind turbines and railways (≤25 km). Self-pollinated Opuntia polyacantha and plants within the wind facility produced ≥1.6 times more seeds in the bagged treatments compared to more distant sites. Seed mass and the percent of viable seeds decreased with distance from infrasound. Viability of seeds was >70% for most treatments and sites. If wind facilities, railways and other man-made structures produce infrasound that increases self-pollination, crops and native plants near sources may produce heavier seeds with higher viability in the absence of pollinators, but genetic diversity of plants may decline due to decreased cross-pollination. Full article

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15 pages, 860 KiB

Open AccessArticle

Classification of Agricultural Soils in Manica and Sussundenga (Mozambique)

by Mário J. S. L. Pereira, João M. M. Leitão and Joaquim Esteves da Silva

Environments 2025, 12(8), 265; https://doi.org/10.3390/environments12080265 - 31 Jul 2025

Abstract

Mozambique soils are known for having an unbalanced agronomic and environmental composition that results in poor agricultural production yields. However, agriculture is the main economic activity of Mozambique, and soils must be characterised for their elemental deficiencies and/or excesses. This paper sampled nine [...] Read more.

Mozambique soils are known for having an unbalanced agronomic and environmental composition that results in poor agricultural production yields. However, agriculture is the main economic activity of Mozambique, and soils must be characterised for their elemental deficiencies and/or excesses. This paper sampled nine farms from the Manica and Sussundenga districts (Manica province) in three campaigns in 2021/2022, 2022/2023, and 2023/2024 (before and after the rainy seasons). They were subjected to a physical–chemical analysis to assess their quality from the fertility and environmental contamination point of view. Attending to the physical–chemical properties analysed, and for all the soils and sampling campaigns, a low concentration below the limit of detection for B of <0.2 mg/Kg for the majority of soils and a low concentration of Al < 0.025 mg/Kg for all the soils were obtained. Also, higher concentrations for the majority of soils for the Ca between 270 and 1634 mg/Kg, for the Mg between 41 and 601 mg/Kg, for the K between 17 and 406 mg/Kg, for the Mn between 13.6 and 522 mg/Kg, for the Fe between 66.3 and 243 mg/Kg, and for the P between <20 and 132 mg/Kg were estimated. In terms of texture and for the sand, a high percentage between 6.1 and 79% was found. In terms of metal concentrations and for all the soils of the Sussundenga district and sampling campaigns, a concentration above the reference value concentration for the Cr (76–1400 mg/Kg) and a concentration below the reference value concentration for the Pb (5–19 mg/Kg), Ba (13–120 mg/Kg) and for the Zn (10–61 mg/Kg) were evaluated. A multivariate data analysis methodology was used based on cluster and discriminant analysis. The analysis of twenty-three physical–chemical variables of the soils suggested four clusters of soils characterised by deficiencies and excess elements that must be corrected to improve the yield and quality of agricultural production. Moreover, the multivariate analysis of the metal composition of soil samples from the second and third campaigns, before and after the rainy season, suggested five clusters with a pristine composition and different metal pollutant compositions and concentrations. The information obtained in this study allows for the scientific comprehension of agricultural soil quality, which is crucial for designing agronomic and environmental corrective measures to improve food quality and quantity in the Manica and Sussundenga districts and ensure environmental, social, and economic sustainability. Full article

(This article belongs to the Special Issue Editorial Board Members’ Collection Series: Soil Contamination and Remediation)

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17 pages, 1110 KiB

Open AccessArticle

Environmental Behavior of Novel “Smart” Anti-Corrosion Nanomaterials in a Global Change Scenario

by Mariana Bruni, Joana Figueiredo, Fernando C. Perina, Denis M. S. Abessa and Roberto Martins

Environments 2025, 12(8), 264; https://doi.org/10.3390/environments12080264 - 31 Jul 2025

Abstract

Maritime corrosion is a global problem often retarded through protective coatings containing corrosion inhibitors (CIs). ZnAl layered double hydroxides (LDH) have been used to immobilize CIs, which can reduce their early leaching and, thus, foster long-term corrosion protection. However, the environmental behavior of [...] Read more.

Maritime corrosion is a global problem often retarded through protective coatings containing corrosion inhibitors (CIs). ZnAl layered double hydroxides (LDH) have been used to immobilize CIs, which can reduce their early leaching and, thus, foster long-term corrosion protection. However, the environmental behavior of these nanomaterials remains largely unknown, particularly in the context of global changes. The present study aims to assess the environmental behavior of four anti-corrosion nanomaterials in an ocean acidification scenario (IPCC SSP3-7.0). Three different concentrations of the nanostructured CIs (1.23, 11.11, and 100 mg L⁻¹) were prepared and maintained at 20 °C and 30 °C in artificial salt water (ASW) at two pH values, with and without the presence of organic matter. The nanomaterials’ particle size and the release profiles of Al³⁺, Zn²⁺, and anions were monitored over time. In all conditions, the hydrodynamic size of the dispersed nanomaterials confirmed that the high ionic strength favors their aggregation/agglomeration. In the presence of organic matter, dissolved Al³⁺ increased, while Zn²⁺ decreased, and increased in the ocean acidification scenario at both temperatures. CIs were more released in the presence of humic acid. These findings demonstrate the influence of the tested parameters in the nanomaterials’ environmental behavior, leading to the release of metals and CIs. Full article

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18 pages, 2238 KiB

Open AccessArticle

Dispersal Patterns of Euphydryas aurinia provincialis (Lepidoptera: Nymphalidae) in the Colfiorito Highlands, Central Italy

by Andrea Brusaferro, Silvia Marinsalti, Federico Maria Tardella, Emilio Insom and Antonietta La Terza

Environments 2025, 12(8), 263; https://doi.org/10.3390/environments12080263 - 30 Jul 2025

Abstract

We investigated the dispersal ability of Euphydryas aurinia provincialis in a local-scale analysis within a single habitat patch of the Colfiorito highlands metapopulation. Our findings indicate that inside a single node, the organization of nesting patches can be conceptualized as a metapopulation itself, [...] Read more.

We investigated the dispersal ability of Euphydryas aurinia provincialis in a local-scale analysis within a single habitat patch of the Colfiorito highlands metapopulation. Our findings indicate that inside a single node, the organization of nesting patches can be conceptualized as a metapopulation itself, where reproductive sites, despite their spatial proximity, can act as either source or sink habitats depending on environmental conditions. We conducted fieldwork in six nesting patches inside a single node, capturing, marking, and recapturing individuals to assess their spatial distribution and movement tendencies at a large landscape scale. We found a high degree of site fidelity among individuals, with many recaptures occurring within the original marking site, but also a sex-based difference in movement patterns; females dispersed farther than males, likely driven by reproductive strategies, while males remained more localized, prioritizing mate-searching. Our findings suggest a complex dynamic in habitat connectivity: pastures and abandoned fields, despite being open, seem to act like sink areas, while breeding sites with shrub and tree cover act as source habitats, offering optimal conditions for reproduction. Individuals, especially females, from these source areas were later compelled to disperse into open habitats, highlighting a nuanced interaction between landscape structure and population dynamics. These results highlight the importance of maintaining habitat corridors to support metapopulation dynamics and prevent genetic isolation; the abandonment of traditional grazing practices is leading to the rapid closure of these source habitats, posing a severe risk of local extinction. Conservation efforts should prioritize the preservation of these source habitats to ensure the long-term viability of E. a. provincialis populations in fragmented landscapes. Full article

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