Environments

19 pages, 1792 KiB

Open AccessArticle

Atmospheric Radon in the Central Mediterranean: Seasonal and Diurnal Variations Measured in Gozo, Malta

by Beatriz Defez, Raymond Ellul, Martin Saliba, Rebecca Muscat, Marvic Grima, Alfred Micallef, Charles Galdies, María Moncho-Santonja, Silvia Aparisi-Navarro and Guillermo Peris-Fajarnés

Environments 2025, 12(2), 44; https://doi.org/10.3390/environments12020044 (registering DOI) - 2 Feb 2025

Abstract

This paper presents the findings of a 12-year study on radon conducted from January 2011 to December 2022 at the Giordan Lighthouse station on the island of Gozo, Malta. Located in the Central Mediterranean, Gozo’s strategic position enables effective monitoring of air mass [...] Read more.

This paper presents the findings of a 12-year study on radon conducted from January 2011 to December 2022 at the Giordan Lighthouse station on the island of Gozo, Malta. Located in the Central Mediterranean, Gozo’s strategic position enables effective monitoring of air mass movements between Africa and Europe (from south to north) and between Europe and Central Asia (from west to east). Our research involves an analysis of seasonal and diurnal variations in radon levels, alongside analysis of relevant meteorological variables, clustering of air mass back trajectories, and assessment of local and remote radon production. The findings provide critical insights into the dynamics of atmospheric radon, which are significant not only for the Maltese islands, but also for enhancing our understanding of transcontinental radon transport in the Central Mediterranean, a region that has remained largely unexplored. Full article

27 pages, 2018 KiB

Open AccessReview

Advances in Graphene-Based Materials for Metal Ion Sensing and Wastewater Treatment: A Review

by Akram Khalajiolyaie and Cuiying Jian

Environments 2025, 12(2), 43; https://doi.org/10.3390/environments12020043 (registering DOI) - 2 Feb 2025

Abstract

Graphene-based materials, including graphene oxide (GO) and functionalized derivatives, have demonstrated exceptional potential in addressing environmental challenges related to heavy metal detection and wastewater treatment. This review presents the latest advancements in graphene-based electrochemical and fluorescence sensors, emphasizing their superior sensitivity and selectivity [...] Read more.

Graphene-based materials, including graphene oxide (GO) and functionalized derivatives, have demonstrated exceptional potential in addressing environmental challenges related to heavy metal detection and wastewater treatment. This review presents the latest advancements in graphene-based electrochemical and fluorescence sensors, emphasizing their superior sensitivity and selectivity in detecting metal ions, such as Pb²⁺, Cd²⁺, and Hg²⁺, even in complex matrices. The key focus of this review is on the use of molecular dynamics (MD) simulations to understand and predict ion transport through graphene membranes, offering insights into their mechanisms and efficiency in removing contaminants. Particularly, this article reviews the effects of external conditions, pore radius, functionalization, and multilayers on water purification to provide comprehensive insights into filtration membrane design. Functionalized graphene membranes exhibit enhanced ion rejection through tailored electrostatic interactions and size exclusion effects, achieving up to 100% rejection rates for selected heavy metals. Multilayered and hybrid graphene composites further improve filtration performance and structural stability, enabling sustainable, large-scale water purification. However, challenges related to fabrication scalability, environmental impact, and cost remain. This review also highlights the importance of computational approaches and innovative material designs in overcoming these barriers, paving the way for future breakthroughs in graphene-based filtration technologies. Full article

(This article belongs to the Special Issue Monitoring of Contaminated Water and Soil)

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10 pages, 320 KiB

Open AccessArticle

Carbon Footprint of By-Product Concentrate Feed: A Case Study

by Emilio Sabia, Ada Braghieri, Luca Vignozzi, Rosanna Paolino, Carlo Cosentino, Adriana Di Trana and Corrado Pacelli

Environments 2025, 12(2), 42; https://doi.org/10.3390/environments12020042 (registering DOI) - 2 Feb 2025

Abstract

Using by-products in livestock feed can be an additional strategy for safeguarding land use in agriculture and reducing the environmental impact of animal production. Studies conducted on farms to assess the environmental impact of milk and meat production using life-cycle assessment (LCA) tools [...] Read more.

Using by-products in livestock feed can be an additional strategy for safeguarding land use in agriculture and reducing the environmental impact of animal production. Studies conducted on farms to assess the environmental impact of milk and meat production using life-cycle assessment (LCA) tools reveal that feeding accounts for approximately one-third. This study aimed to calculate the carbon footprint (CF) of three different concentrated feeds for livestock, both with and without the inclusion of by-products in the formulation. Three different formulations of concentrated feeds for dairy cows were developed homogeneously regarding energy content and crude protein. The LCA approach assessed CF in kg CO₂ eq.; the functional unit was 1 kg of concentrate feed. A sensitive analysis of soybean meal’s association with deforestation was formulated. The concentrated feed with by-products demonstrated a lower impact on CF of 23.7% and 37.0% compared to concentrated feed with a mix of raw material and by-products, and solely with raw material, respectively. Using agricultural by-products to produce concentrated feed for livestock sectors can be an environmentally sound alternative in terms of carbon footprint. Full article

(This article belongs to the Special Issue Soil Remediation and Improvement through the Application of By-Product Amendments)

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19 pages, 2516 KiB

Open AccessArticle

Application of Electronic Tongue for Detection and Classification of Lead Concentrations in Coal Mining Wastewater

by Jeniffer Katerine Carrillo Gómez, Laura Daniela Patiño Barrera and Cristhian Manuel Durán Acevedo

Environments 2025, 12(2), 41; https://doi.org/10.3390/environments12020041 (registering DOI) - 1 Feb 2025

Abstract

This study evaluates the potential of an electronic tongue (E-tongue) as an innovative and alternative method for detecting and classifying lead concentrations in wastewater generated by coal mining activities in North Santander, Colombia. The E-tongue aims to complement traditional environmental monitoring techniques with [...] Read more.

This study evaluates the potential of an electronic tongue (E-tongue) as an innovative and alternative method for detecting and classifying lead concentrations in wastewater generated by coal mining activities in North Santander, Colombia. The E-tongue aims to complement traditional environmental monitoring techniques with a more efficient and accurate solution. A total of 110 wastewater samples were collected from two locations at a coal mine in the municipality of Toledo: one inside the mine (Point 2) and another outside the mine (Point 1). This research involved the physicochemical analysis of parameters such as pH, biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), hardness, and alkalinity, conducted at the University of Pamplona’s laboratories. The integration of PCA with machine learning algorithms highlighted the E-tongue’s capability for the real-time, on-site detection and discrimination of lead concentrations in coal mining wastewater. Achieving a precision and accuracy above 90%, the SVM classifier outperformed alternative models such as the k-NN, Random Forest, Naïve Bayes, and Quadratic Discriminant Analysis. This demonstrates the system’s robustness and reliability in environmental monitoring, enabling the accurate classification of lead concentrations within the critical range of 0.05 to 1 ppm, essential for assessing contamination levels and ensuring water safety. These findings highlight the E-tongue system’s capability as a rapid, cost-effective tool for monitoring lead contamination in mining wastewater, presenting a viable alternative to conventional methods such as atomic absorption spectroscopy. Full article

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55 pages, 1125 KiB

Open AccessReview

Chemicals in European Residences—Part II: A Review of Emissions, Concentrations, and Health Effects of Semi-Volatile Organic Compounds (SVOCs)

by Charlotte Landeg-Cox, Alice Middleton, Christos Halios, Tim Marczylo and Sani Dimitroulopoulou

Environments 2025, 12(2), 40; https://doi.org/10.3390/environments12020040 - 30 Jan 2025

Abstract

This comprehensive review reports on concentrations, sources, emissions, and potential health effects from Semi-Volatile Organic Compounds (SVOCs) identified in the internal home environment in European residences. A total of 84 studies were identified, and concentrations were collated for inhalation exposure from dust, air [...] Read more.

This comprehensive review reports on concentrations, sources, emissions, and potential health effects from Semi-Volatile Organic Compounds (SVOCs) identified in the internal home environment in European residences. A total of 84 studies were identified, and concentrations were collated for inhalation exposure from dust, air and aerosol. A total of 298 individual SVOCs were identified and 67 compounds belonging to eight chemical classes: phthalates, flame retardants, polycyclic aromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs), per- and polyfluorinated alkyl substances (PFAS), biocides, bisphenols and musks were prioritised. Phthalates are the most abundant SVOCs with DEHP being the most abundant in both the dust and aerosol phases (WAGMs 426.4 μg g⁻¹ and 52.2 ng m⁻³, respectively) followed by DBP for dust (WAGMs are 95.9 μg g⁻¹). In the air, the most abundant SVOCs are DiBP (284.1 ng m⁻³), DBP (179.5 ng m⁻³), DEHP (106.2 ng m⁻³) and DMP (27.79 ng m⁻³). Chemicals from all SVOC categories are emitted from building and construction materials, furnishings and consumer products, especially phthalates. Both legacy chemicals and their alternatives were detected. Complexities of reporting on SVOCs included differing sampling methodologies, multiple standards in their definition, lack of industry data, and toxicological data focused primarily on ingestion not inhalation exposures. Further research is recommended to develop the evidence base for potential health effects including via inhalation, reporting of emission rates and undertaking future monitoring studies. Full article

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

11 pages, 6273 KiB

Open AccessArticle

Evaluation of Particulate Emissions During Braking Tests in Technical–Mechanical Overhaul Workshops in Armenia-Quindío (Colombia)

by Milena E. Gómez Yepes, Rafael H. Villamizar Vargas, Olga L. Rendón García and Lázaro V. Cremades

Environments 2025, 12(2), 39; https://doi.org/10.3390/environments12020039 - 27 Jan 2025

Abstract

Brake testing of vehicles is one of the most important tests performed in technical–mechanical overhaul workshops (TMOWs). During this test, fine and ultrafine particles are emitted, exposing workers to health risks. A mixed descriptive observational study was conducted in 10 TMOWs in Armenia [...] Read more.

Brake testing of vehicles is one of the most important tests performed in technical–mechanical overhaul workshops (TMOWs). During this test, fine and ultrafine particles are emitted, exposing workers to health risks. A mixed descriptive observational study was conducted in 10 TMOWs in Armenia (Colombia), where particle sampling was performed using the NIOSH 0600 method. One third of the samples were sent for SEM analysis to determine their chemical composition and particle size. The average occupational exposure was 24.31 mg/m³, almost 10 times higher than the threshold limit value for ultrafine particles. The range of particle sizes was from 1.12 to 54.33 µm, with an arithmetic mean of 14.89 µm. The ultrafine size ranged from 198 nm to 798 nm. Traces of components of refractory materials, fiberglass, wollastonite, and thermoplastics, among others, typical of brake pads, were found. This research allows us to confirm the presence of fine and ultrafine particles in TMOW brake tests. Therefore, we recommend improvement actions based on epidemiological surveillance programs of the respiratory health of workers. Full article

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14 pages, 290 KiB

Open AccessArticle

Evidence About the Possible Role of Phthalates and Bisphenol A in Recurrent Pregnancy Loss and Endocrine Dysfunctions: A Case–Control Study

by Lidia Caporossi, Paola Viganò, Enrico Paci, Silvia Capanna, Alessandra Alteri, Mariangela De Rosa, Daniela Pigini, Elisa Partenzi and Bruno Papaleo

Environments 2025, 12(2), 38; https://doi.org/10.3390/environments12020038 - 24 Jan 2025

Abstract

Objectives. A case–control study was conducted to investigate the exposure levels to some specific chemicals, in women with infertility issues, compared with fertile women. Methods. A total of 186 cases and 196 controls were recruited. Each participant provided a urine sample for the [...] Read more.

Objectives. A case–control study was conducted to investigate the exposure levels to some specific chemicals, in women with infertility issues, compared with fertile women. Methods. A total of 186 cases and 196 controls were recruited. Each participant provided a urine sample for the determination of six phthalate metabolites (mono-ethyl phthalate, MEP; mono-n-butyl phthalate, MnBP; mono-n-ottyl phthalate, MnOP; monobenzyl phthalate, MBzP; and two metabolites of the diethyl-hexyl phthalate (DEHP): mono(2-ethyl-5-hydroxyhexyl) phthalate, MEHHP and mono(2-ethylhexyl) phthalate, MEHP) in addition to bisphenol A, BPA. Each woman also completed a questionnaire. The urine samples were analyzed using HPLC/MS/MS methods. Results. The analysis revealed significantly higher metabolite concentrations in cases than in controls for all metabolites, except MnOP. Stratification based on infertility factors, showed a significant association of MnBP, MBzP, BPA and DEHP with ovulatory and endocrine dysfunctions. Furthermore, higher mean concentrations of MEP and DEHP were observed in women with recurrent pregnancy loss (RPL) and idiopathic infertility, respectively. Conclusion. These findings suggest that some of the analyzed chemicals may play a role in female infertility. Exposure to DEP (diethyl phthalate) and DEHP appears to be associated with RPL and idiopathic infertility. Further investigation is required to explore potential sources of these risks. Full article

(This article belongs to the Special Issue Healthy and Safe Environments across Occupational and Environmental Contexts)

28 pages, 22057 KiB

Open AccessArticle

Quantifying Socio-Regional Variability via Factor Analysis over China: Optimizing Residential Sector Emission Reduction Pathways

by Yu Zhao and Prasanna Divigalpitiya

Environments 2025, 12(2), 37; https://doi.org/10.3390/environments12020037 - 22 Jan 2025

Abstract

Policy synergy, the evidence-based coordination of public policies, can aid in more rapidly achieving air pollutant and carbon dioxide (CO₂) emission reduction targets. Using logarithmic mean Divisia index (LMDI) decomposition, coupling coordination degree (CCD), and geographically and temporally weighted regression (GTWR) [...] Read more.

Policy synergy, the evidence-based coordination of public policies, can aid in more rapidly achieving air pollutant and carbon dioxide (CO₂) emission reduction targets. Using logarithmic mean Divisia index (LMDI) decomposition, coupling coordination degree (CCD), and geographically and temporally weighted regression (GTWR) models, we analyzed the emission characteristics, drivers, and reduction pathways of residential air pollution across 30 Chinese provinces from 2001 to 2020. The southern provinces produced more air pollution than the northern provinces, with the gap widening after 2015. In the residential sector, energy emission factors (LMDI decomposition result, 686,681.9) and population size (14,331) had greater impacts on air pollutant emissions than the energy structure, energy intensity, synergies, or GDP per capita. The GTWR analysis of the CCD mechanism indicated that hydroelectricity and urbanization enhanced coupling coordination in the southeast. Meanwhile, in the west, coupling coordination was improved by R&D investment, government spending on industrial pollution control, electricity consumption, per capita cropland, temperature, and urbanization. This analysis provides a valuable reference for optimizing emission reduction strategies. Full article

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17 pages, 2395 KiB

Open AccessArticle

Environmental Impact of Human Activities in Marine-Coastal Area: Underwater Wine Cellar as Case Study (Tuscany, Cetacean Sanctuary)

by Serena Anselmi, Francesca Provenza, Giacomo Carusi, Stefano Menichetti and Monia Renzi

Environments 2025, 12(2), 36; https://doi.org/10.3390/environments12020036 - 22 Jan 2025

Abstract

A new production activity developing in coastal areas and located in the MPAs are sub-cellars for wine ageing, which combine the results of wine refinement with beautiful bottles decorated with organic concretions. Assessing the associated environmental risks is crucial as wine is a [...] Read more.

A new production activity developing in coastal areas and located in the MPAs are sub-cellars for wine ageing, which combine the results of wine refinement with beautiful bottles decorated with organic concretions. Assessing the associated environmental risks is crucial as wine is a complex mixture of chemical substances that are toxic to marine species if released into the environment. We have assessed the risks associated with the granting of a license to store 2000 bottles in a sunken wine cellar in the Whale Sanctuary (Tuscany). Local risks that could influence the occurrence of offences were assessed to calculate the potential dose of wine released from the cellar. Furthermore, based on the ecotoxicological approach, the effect thresholds (ECx, NOEC, LOEC) were quantified for species from different trophic levels to define the tolerance of the marine ecosystem using the PNEC approach. The results showed that wines with different physicochemical properties developed differently during maturation (0–8 months) and exhibited different ecotoxicity. This led to different PNEC values and, consequently, to different risks of bottle breakage. The main suggestion of our results is that the release of licenses should be based on a case-by-case risk assessment that focuses on both the environmental characteristics of the ecosystem that maintains the cellar and the chemical properties of the wines stored in glass bottles. Full article

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30 pages, 4647 KiB

Open AccessArticle

Ecosystem-Model-Based Valuation of Ecosystem Services in a Baltic Lagoon: Long-Term Human Technical Interventions and Short-Term Variability

by Gerald Schernewski, Thomas Neumann, Sarah Piehl and Nicole M. Swer

Environments 2025, 12(2), 35; https://doi.org/10.3390/environments12020035 - 21 Jan 2025

Abstract

We conducted 3D ecosystem model simulations over a 10-year period, supplemented by socio-economic data, to evaluate the ecosystem services provided by the large, shallow Oder/Szczecin Lagoon. Our analysis focused on three scenarios reflecting the progressive deepening of the navigational waterway across the lagoon: [...] Read more.

We conducted 3D ecosystem model simulations over a 10-year period, supplemented by socio-economic data, to evaluate the ecosystem services provided by the large, shallow Oder/Szczecin Lagoon. Our analysis focused on three scenarios reflecting the progressive deepening of the navigational waterway across the lagoon: from 6 m (1880) to 10.5 m (1984) and finally to 12.5 m (2023). For the 10.5 m scenario, the total value of all six ecosystem services was estimated at EUR 272 million/year, or approximately EUR 0.4 million/year/km². The individual contributions of each ecosystem service were as follows: nitrogen retention, EUR 166 million/a; phosphorus retention, EUR 5 million/a; carbon storage, EUR 0.4 million/a; active recreation, EUR 61 million/a; landscape aesthetics, EUR 36 million/a; wild fish catches, EUR 3.2 million/a; and transportation, EUR 32 million/a. Among these, denitrification emerged as the most economically important process, valued at EUR 178 million/year, or EUR 0.26 million/year/km². Regulating ecosystem services displayed substantial interannual variability and pronounced seasonality. Additionally, the two parts of the lagoon, Kleines Haff (Germany) and Wielki Zalew (Poland), exhibited distinct patterns. Our model indicates that channel deepening enhances sediment burial and significantly increases phosphorus and carbon retention. However, the associated increase in connectivity to the Baltic Sea appears to have a minor effect. Full article

(This article belongs to the Special Issue Monitoring and Assessment of Environmental Quality in Coastal Ecosystems, 4th Edition)

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15 pages, 1841 KiB

Open AccessArticle

Traditional Biomass Energy Use Among Women Street Coffee Vendors: Access and Health Implications in Bahir Dar City, Ethiopia

by Yilikal Muche Engida, Binyam Afewerk Demena and Salomey Gyamfi Afrifa

Environments 2025, 12(2), 34; https://doi.org/10.3390/environments12020034 - 21 Jan 2025

Abstract

Biomass energy is a significant yet often overlooked energy source in many developing nations, particularly in households where it is utilized in highly inefficient ways. This inefficiency stems from the direct combustion of wood, charcoal, leaves, agricultural residues, and animal dung for cooking [...] Read more.

Biomass energy is a significant yet often overlooked energy source in many developing nations, particularly in households where it is utilized in highly inefficient ways. This inefficiency stems from the direct combustion of wood, charcoal, leaves, agricultural residues, and animal dung for cooking purposes. A substantial portion of the Ethiopian population relies on traditional biomass energy, a dependence influenced by socioeconomic factors and residential location. In this study, we focus on traditional coffee vendors operating on the streets of Bahir Dar who utilize traditional biomass for coffee preparation. We aim to investigate the accessibility and health implications of traditional biomass utilization among these women coffee vendors. We employed a mixed-methods research approach with a concurrent research design to achieve our objectives. Data were analyzed quantitatively through descriptive statistics and qualitatively through thematic analysis. Both the descriptive and textual data indicate that women traditional coffee vendors (WTCVs) rely on traditional biomass energy because customers expect the ceremonies to be performed using it, as it holds significant traditional and cultural value. While traditional biomass energy is relatively accessible, the vendors’ limited income often restricts their ability to secure it consistently. Consequently, their dependence on traditional biomass, combined with poor working conditions, negatively impacts their respiratory health and heightens the risk of burns and injuries. Full article

(This article belongs to the Special Issue Greenhouse Gas Emission Reduction and Green Energy Utilization)

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20 pages, 8720 KiB

Open AccessArticle

Impacts of an Intermittent Bus Lane on Local Air Quality: Lessons from an Effectiveness Study

by Neelakshi Hudda, Isabelle S. Woollacott, Nisitaa Karen Clement Pradeep and John L. Durant

Environments 2025, 12(1), 33; https://doi.org/10.3390/environments12010033 - 20 Jan 2025

Abstract

Bus lanes with intermittent prioritization (BLIPs) have been proposed as a way to reduce traffic burden and improve air quality along busy urban streets; however, to date, the impacts of BLIPs on local-scale air quality have not been thoroughly evaluated, due in part [...] Read more.

Bus lanes with intermittent prioritization (BLIPs) have been proposed as a way to reduce traffic burden and improve air quality along busy urban streets; however, to date, the impacts of BLIPs on local-scale air quality have not been thoroughly evaluated, due in part to challenges in study design. We measured traffic-emission proxies—black carbon aerosol and ultrafine particles—before and after the installation of a BLIP in the Boston area (Massachusetts, USA) in 2021, and compared our data with traffic measurements to determine whether changes in air quality were attributable to changes in traffic patterns. We used both stationary and mobile monitoring to characterize temporal and spatial variations in air quality both before and after the BLIP went into operation. Although the BLIP led to a reduction in traffic volume (~20%), we did not find evidence that this reduction caused a significant change in local air quality. Nonetheless, substantial spatial and temporal differences in pollutant concentrations were observed; the highest concentrations occurred closest to a nearby highway along a section of the bus lane that was in an urban canyon, likely causing pollutant trapping. Wind direction was a dominant influence: pollutant concentrations were generally higher during winds that oriented the bus lane downwind of or parallel to the highway. Based on our findings, we recommend in future studies to evaluate the effectiveness of BLIPs that: (i) traffic and air quality measurements be collected simultaneously for several non-weekend days immediately before and immediately after bus lanes are first put into operation; (ii) the evaluation should be performed when other significant changes in motorists’ driving behavior and bus ridership are not anticipated; and (iii) coordinated efforts be made to increase bus ridership and incentivize motorists to avoid using the bus lane during the hours of intermittent prioritization. Full article

(This article belongs to the Special Issue Advances in Urban Air Pollution)

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15 pages, 1727 KiB

Open AccessArticle

Oxygen Consumption and Carbon Budget in Groundwater-Obligate and Surface-Dwelling Diacyclops Species (Crustacea Copepoda Cyclopoida) Under Temperature Variability

by Tiziana Di Lorenzo, Agostina Tabilio Di Camillo, Sanda Iepure, Diana M. P. Galassi, Nataša Mori and Tatjana Simčič

Environments 2025, 12(1), 32; https://doi.org/10.3390/environments12010032 - 20 Jan 2025

Abstract

This study explores the metabolic response and carbon budget of two cyclopoid copepod species, Diacyclops belgicus Kiefer, 1936 (a stygobitic, groundwater-adapted species) and Diacyclops crassicaudis crassicaudis (Sars G.O., 1863) (a stygophilic, predominantly surface-associated species). We measured oxygen consumption rates (OCRs), carbon requirements (CRs), [...] Read more.

This study explores the metabolic response and carbon budget of two cyclopoid copepod species, Diacyclops belgicus Kiefer, 1936 (a stygobitic, groundwater-adapted species) and Diacyclops crassicaudis crassicaudis (Sars G.O., 1863) (a stygophilic, predominantly surface-associated species). We measured oxygen consumption rates (OCRs), carbon requirements (CRs), ingestion (I) rates, and egestion (E) rates at 14 °C and 17 °C, representing current and predicted future conditions in the collection habitats of the two species. Diacyclops belgicus displayed OCRs (28.15 and 18.32 µL O₂/mg DW × h at 14 and 17 °C, respectively) and carbon budget (CR: 0.14 and 0.10 µg C/mg × d at 14 and 17 °C) lower than those of D. crassicaudis crassicaudis (OCR: 55.67 and 47.93 µL O₂/mg DW × h at 14 and 17 °C; CR: 0.3 and 0.27 µg C/mg × d at 14 and 17 °C). However, D. belgicus exhibited metabolic rates and carbon requirements comparable to those of other epigean species, challenging the assumption that low metabolic rates are universal among stygobitic species. Temperature variations did not significantly affect the metabolic responses and carbon requirements of the two species, suggesting that they may cope with moderate temperature increases. Full article

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21 pages, 3112 KiB

Open AccessArticle

Environmental and Economic Life Cycle Impacts of Using Spent Mushroom Substrate as a Soil Improver

by Hasler Iglesias, Ana Paredes Ortiz, José M. Soriano Disla and Andrés J. Lara-Guillén

Environments 2025, 12(1), 31; https://doi.org/10.3390/environments12010031 - 20 Jan 2025

Abstract

The cultivation of white button mushrooms (Agaricus bisporus) generates significant quantities of spent mushroom substrate (SMS), a byproduct traditionally treated as waste despite its nutrient- and organic-carbon-rich composition. The EU-funded project FER-PLAY identified SMS as one of the most promising circular [...] Read more.

The cultivation of white button mushrooms (Agaricus bisporus) generates significant quantities of spent mushroom substrate (SMS), a byproduct traditionally treated as waste despite its nutrient- and organic-carbon-rich composition. The EU-funded project FER-PLAY identified SMS as one of the most promising circular fertilizers (i.e., those produced from waste streams, transforming them into value-added products). Within the project, a life cycle assessment (LCA) and life cycle costing (LCC) analysis of SMS were conducted with a cradle-to-gate-to-grave scope across three European regions, comparing it to a non-renewable mix with equivalent N, P, K, and C inputs. The LCA results reveal substantial environmental benefits of SMS over the non-renewable baseline, particularly in land use, fossil resource depletion, freshwater ecotoxicity and climate change, which together account for 98% of total impacts. Although SMS exhibits higher water consumption, it represents only 2% of total impacts. LCC highlights the critical effects of fresh mushroom substrate composition on yield, economies of scale, and revenue generation. Overall, this study highlights the significant environmental and economic potential of repurposing SMS as a soil improver, offering a compelling case for its integration into agricultural systems as part of a sustainable, circular economy. Full article

(This article belongs to the Special Issue Waste Management and Life Cycle Assessment)

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17 pages, 2610 KiB

Open AccessArticle

Ecotoxicological Effects of the Herbicide Metribuzin on Tenebrio molitor Hemocytes

by Maria Luigia Vommaro, Michela Guadagnolo, Martina Lento and Anita Giglio

Environments 2025, 12(1), 30; https://doi.org/10.3390/environments12010030 - 19 Jan 2025

Abstract

Herbicides are synthetic chemicals that are extensively employed in agricultural practices with the objective of enhancing crop yield and quality. Despite their selectivity for plant systems and being generally regarded as non-toxic to animals, there is a paucity of understanding surrounding the sublethal [...] Read more.

Herbicides are synthetic chemicals that are extensively employed in agricultural practices with the objective of enhancing crop yield and quality. Despite their selectivity for plant systems and being generally regarded as non-toxic to animals, there is a paucity of understanding surrounding the sublethal effects on non-target organisms, including animals. This gap underscores the necessity for ecotoxicological research that prioritizes the identification of suitable models and develops reliable biomarkers for the early assessment of environmental impact. In this context, hemocytes—circulating immune cells found in invertebrates—have been identified as a crucial system for assessing sublethal toxicological effects, given their role in immune defense and overall organism health. Tenebrio molitor, a beetle pest of stored grain, was used as a model for the assessment of the effects of a metribuzin-based herbicide (MTB, Feinzin DF 70, 70% metribuzin, 0.25 kg ha⁻¹). Following a 96 h exposure to MTB, the males (7–10 days post-eclosion) were examined for multiple biomarkers in their hemocytes, including cell density, phagocytic activity, lysosomal membrane stability, and cytological changes. Although no mortality was observed, exposure to MTB resulted in a reduction in the phagocytic index and an increase in blast-like cells, indicating the potential for immunotoxicity. Lysosomal membrane stability was reduced, though no significant changes in hemocyte density or nuclear morphology were observed. These responses indicate potential immune system impairment, which could affect the beetle’s fitness and reproductive potential. This study highlights the potential of hemocytes for assessing sublethal herbicide effects, raising concerns about the ecological impact of herbicides in agroecosystems and their potential risks to both wildlife and human health. Full article

(This article belongs to the Special Issue Pesticide Contamination to Non-target Organisms, the Environment, and Agroecosystems)

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15 pages, 3699 KiB

Open AccessArticle

Contrasting Perfluorooctanoic Acid Removal by Calcite Before and After Heat Treatment

by Zhaohui Li, Yating Yang, Yaqi Wen, Yuhan Li, Jeremy Moczulewski, Po-Hsiang Chang, Stacie E. Albert and Lori Allen

Environments 2025, 12(1), 29; https://doi.org/10.3390/environments12010029 - 17 Jan 2025

Abstract

Calcites before and after calcination at 1000 °C were evaluated for their potential removal of perfluorooctanoic acid (PFOA) from water. After heat treatment, the PFOA sorption capacity increased by 25%, from 3.2 to 3.9 mg g⁻¹, and the affinity increased by [...] Read more.

Calcites before and after calcination at 1000 °C were evaluated for their potential removal of perfluorooctanoic acid (PFOA) from water. After heat treatment, the PFOA sorption capacity increased by 25%, from 3.2 to 3.9 mg g⁻¹, and the affinity increased by 2.7 times, from 0.03 to 0.08 L mg⁻¹. Kinetically, the initial rate, rate constant, and equilibrium sorption were 8.7 mg g⁻¹ h⁻¹, 2.6 g mg⁻¹ h⁻¹, and 1.8 mg g⁻¹ for heat treated calcite, in comparison to 6.4 mg g⁻¹ h⁻¹, 3.1 g mg⁻¹ h⁻¹, and 1.4 mg g⁻¹ for calcite without heat treatment. X-ray diffraction analyses showed phase changing from calcite to calcium oxide after calcination. However, after contact with PFOA solutions for 24 h, the major phase changed back to calcite with a minute amount of Ca(OH)₂. These results suggest that using raw cement materials derived from heat treatment of limestone may be a good option for the removal of PFOA from water. Thus, further studies are needed to confirm this claim. Full article

(This article belongs to the Special Issue The Occurrence, Behavior, Fate, Risk Assessment, and Treatment of per- and Polyfluoroalkyl Substances)

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16 pages, 6877 KiB

Open AccessArticle

Accumulation of Nanoplastics in Biomphalaria glabrata Embryos and Transgenerational Developmental Effects

by Leisha Martin, Carly Armendarez, Mackenzie Merrill, Chi Huang and Wei Xu

Environments 2025, 12(1), 28; https://doi.org/10.3390/environments12010028 - 17 Jan 2025

Abstract

(1) Background: Nanoplastics are emerging environmental pollutants with potential toxic effects on aquatic organisms. This study investigates the toxicity of NPs in Biomphalaria glabrata, a freshwater snail species widely used as a bioindicator species in ecotoxicology studies.; (2) Methods: We exposed three [...] Read more.

(1) Background: Nanoplastics are emerging environmental pollutants with potential toxic effects on aquatic organisms. This study investigates the toxicity of NPs in Biomphalaria glabrata, a freshwater snail species widely used as a bioindicator species in ecotoxicology studies.; (2) Methods: We exposed three generations (F0–F2) of B. glabrata snail embryos to different sizes of polystyrene nanoparticles and assessed responses.; (3) Results: We observed severe effects on F0 to F2 B. glabrata embryos, including size-dependent (30 to 500 nm) increases in mortality rates, size and dosage-dependent (1 to 100 ppm) effects on hatching rates with concentration-dependent toxicity in the 30 nm exposure group. The F2 generation embryos appear to be most responsive to detoxification (CYP450) and pollutant metabolism (HSP70) at 48-h-post-treatment (HPT), while our developmental marker (MATN1) was highly upregulated at 96-HPT. We also report a particle-size-dependent correlation in HSP70 and CYP450 mRNA expression, as well as enhanced upregulation in the offspring of exposed snails. We also observed significant reductions in hatching rates for F2.; (4) Conclusions: These findings indicate that F2 generation embryos appear to exhibit increased stress from toxic substances inherited from their parents and grandparents (F1 and F0). This study provides valuable insights into the impact of plastic particulate pollution on multiple generations and highlights the importance of monitoring and mitigating plastic waste. Full article

(This article belongs to the Special Issue Microplastics Pollution in Aquatic Ecosystems: Challenges and Perspectives)

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31 pages, 11303 KiB

Open AccessArticle

Integrated Surface and Tropospheric Column Analysis of Sulfur Dioxide Variability at the Lamezia Terme WMO/GAW Regional Station in Calabria, Southern Italy

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

Environments 2025, 12(1), 27; https://doi.org/10.3390/environments12010027 - 16 Jan 2025

Abstract

Sulfur dioxide (SO₂) can be of natural and anthropogenic origin and is one of the sulfur compounds present in the atmosphere. Among natural sources, volcanoes contribute with relevant annual outputs, and major eruptions lead to spikes in these outputs. In the [...] Read more.

Sulfur dioxide (SO₂) can be of natural and anthropogenic origin and is one of the sulfur compounds present in the atmosphere. Among natural sources, volcanoes contribute with relevant annual outputs, and major eruptions lead to spikes in these outputs. In the case of anthropogenic pollution, SO₂ emissions are mostly correlated with the sulfur content of fuels, which has been the focus of specific emission mitigation policies for decades. Following other examples of cyclic and multi-year evaluations, an analysis of SO₂ at the Lamezia Terme (code: LMT) WMO/GAW (World Meteorological Organization—Global Atmosphere Watch) station in Calabria, Southern Italy, was performed. The coastal site is characterized by wind circulation patterns that result in the detection of air masses with low or enhanced anthropic influences. The presence of the Aeolian Arc of active, quiescent, and extinct volcanoes, as well as Mount Etna in Sicily, may influence LMT observations with diffused SO₂ emissions. For the first time in the history of the LMT, a multi-year analysis of a parameter has been integrated with TROPOMI data gathered by Sentinel-5P and used to test total tropospheric column densities at the LMT itself and select coordinates in the Tyrrhenian and Ionian seas. Surface and satellite data indicate that SO₂ peaks at the LMT are generally linked to winds from the western–seaside wind corridor, a pattern that is compatible with active volcanism in the Tyrrhenian Sea and maritime shipping to and from the Gioia Tauro port located in the same region. The findings of this research provide the basis for enhanced source apportionment, which could further differentiate anthropogenic sources in the area from natural outputs. Full article

(This article belongs to the Special Issue Advances in Urban Air Pollution: 2nd Edition)

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30 pages, 2183 KiB

Open AccessReview

Biobased Strategies for E-Waste Metal Recovery: A Critical Overview of Recent Advances

by Diogo A. Ferreira-Filipe, Armando C. Duarte, Andrew S. Hursthouse, Teresa Rocha-Santos and Ana L. Patrício Silva

Environments 2025, 12(1), 26; https://doi.org/10.3390/environments12010026 - 16 Jan 2025

Abstract

The increasing e-waste volumes represent a great challenge in the current waste management landscape, primarily due to the massive production and turnover of electronic devices and the complexity of their components and constituents. Traditional strategies for e-waste treatment focus on metal recovery through [...] Read more.

The increasing e-waste volumes represent a great challenge in the current waste management landscape, primarily due to the massive production and turnover of electronic devices and the complexity of their components and constituents. Traditional strategies for e-waste treatment focus on metal recovery through costly, energetically intensive, and environmentally hazardous processes, such as pyrometallurgical and hydrometallurgical approaches, often neglecting other e-waste constituents. As efforts are directed towards creating a more sustainable and circular economic model, biobased alternative approaches to these traditional techniques have been increasingly investigated. This critical review focuses on recent advances towards sustainable e-waste treatment, exclusively considering studies using e-waste sources. It addresses, from a critical perspective, approaches using inactive biomass, live biomass, and biogenic compounds, showcasing the diversity of strategies and discussing reaction parameters, advantages and disadvantages, challenges, and potential for valorization of generated by-products. While ongoing research focuses on optimizing operational times and metal recovery efficiencies, bioprocessing approaches still offer significant potential for metal recovery from e-waste. These approaches include lower environmental impact by reducing energy consumption and effluent treatments and the ability to recover metals from complex e-waste streams, paving the way for a more circular economy in the electronics industry. Full article

(This article belongs to the Special Issue Deployment of Green Technologies for Sustainable Environment III)

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