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22 pages, 4708 KB  
Review
Engineered mRNA Nanoparticle Platforms for Respiratory Mucosal Delivery
by Rui Jin, Bao-Zhong Wang and Wandi Zhu
Vaccines 2026, 14(7), 596; https://doi.org/10.3390/vaccines14070596 - 4 Jul 2026
Abstract
Respiratory mucosal vaccination can induce robust humoral and cellular immune responses, as well as effective mucosal immunity at the primary site of pathogen entry, and has been shown to provide superior protection against respiratory viral infections compared with traditional approaches. Among current vaccine [...] Read more.
Respiratory mucosal vaccination can induce robust humoral and cellular immune responses, as well as effective mucosal immunity at the primary site of pathogen entry, and has been shown to provide superior protection against respiratory viral infections compared with traditional approaches. Among current vaccine technologies, mRNA vaccines offer unique advantages, including rapid development, flexible antigen design, and potent immunogenicity. However, efficient mucosal delivery of mRNA remains challenging due to biological barriers within the respiratory tract, including mucus clearance, limited cellular uptake, and instability during aerosolization. Furthermore, mRNA formulations intended for respiratory mucosal delivery require more stringent safety and tolerability profiles. Recent advances in nanoparticle engineering have accelerated the development of mRNA delivery systems optimized for respiratory mucosal immunization. This review aims to evaluate how nanoparticle engineering strategies can overcome respiratory mucosal barriers and improve the safety, stability, delivery efficiency, extrahepatic expression, and immunogenicity of mRNA vaccines and therapeutics. We summarize recent progress in engineered mRNA nanoparticle platforms for respiratory mucosal immunity, encompassing modified lipid nanoparticles (LNPs), polymer-based mRNA nanoparticles, and hybrid nanoparticle systems, including lipid-inorganic, polymeric hybrid, and lipid-extracellular vesicle (EV) nanoparticles. We further discuss optimization strategies for mucosal mRNA delivery, including the incorporation of appropriate adjuvants, the development of polyethylene glycol (PEG) alternatives, and advanced delivery approaches. Finally, we highlight current challenges and future directions for the rational design of next-generation mRNA nanoparticle platforms that can induce durable and broadly protective mucosal immunity against respiratory viral infections. Full article
(This article belongs to the Special Issue Mucosal Immunity and Vaccine)
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18 pages, 3091 KB  
Systematic Review
Pressurized Intraperitoneal Aerosol Chemotherapy for Platinum-Resistant Ovarian Cancer: A Systematic Review and Meta-Analysis of Clinical Outcomes
by Dan Brebu, Flaviu Ionut Faur, Mircea Selaru, Natalia Cireap, Cosmin Burta, Vlad Braicu, Ciprian Duta, Ioana Adelina Faur, Paul Pasca, Amadeus Dobrescu, Georgiana Viorica Moise and Razvan Ilina
J. Clin. Med. 2026, 15(12), 4443; https://doi.org/10.3390/jcm15124443 - 9 Jun 2026
Viewed by 294
Abstract
Background: Platinum-resistant ovarian cancer with peritoneal metastases remains a therapeutic frontier marked by limited systemic efficacy and a persistent unmet clinical need for effective locoregional strategies. Pressurized intraperitoneal aerosol chemotherapy (PIPAC) has emerged as a novel minimally invasive platform designed to enhance intraperitoneal [...] Read more.
Background: Platinum-resistant ovarian cancer with peritoneal metastases remains a therapeutic frontier marked by limited systemic efficacy and a persistent unmet clinical need for effective locoregional strategies. Pressurized intraperitoneal aerosol chemotherapy (PIPAC) has emerged as a novel minimally invasive platform designed to enhance intraperitoneal drug distribution and overcome biological barriers to chemotherapy delivery. Methods: We performed a PRISMA-compliant systematic review and meta-analysis evaluating clinical outcomes of PIPAC in platinum-resistant ovarian cancer. Primary endpoints included histologic regression (PRGS ≤ 2), severe toxicity, and 12-month overall survival, complemented by exploratory analyses of treatment feasibility, disease burden dynamics, and bidirectional therapy strategies. Results: PIPAC demonstrated a consistent signal of biologic activity, with pooled histologic response rates indicating meaningful tumor regression despite advanced disease. Severe toxicity remained low across studies, supporting the favorable tolerability of repeated intraperitoneal treatment. Survival outcomes were clinically relevant for a heavily pretreated population, while feasibility analyses suggested that PIPAC may facilitate downstream surgical opportunities in selected patients. Exploratory findings further supported the concept of intraperitoneal disease modulation, reflected by reductions in peritoneal cancer index and integration within multimodal treatment pathways. Conclusions: Beyond a purely palliative intervention, PIPAC may represent a biologically active component of personalized treatment strategies for platinum-resistant ovarian cancer. These findings redefine the therapeutic narrative from symptom control toward disease modulation and treatment escalation, underscoring the need for prospective trials to refine patient selection and optimize multimodal sequencing. Full article
(This article belongs to the Section Oncology)
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32 pages, 6003 KB  
Article
Characterization of Coarse Organic Particulate Matter in Urban and Rural Switzerland Using Advanced Offline Mass Spectrometry
by Kristty Stephanie Schneider-Beltran, Tianqu Cui, Roberto Casotto, Houssni Lamkaddam, Anna Tobler, Yufang Hao, Peeyush Khare, Manousos Manousakas, Lubna Dada, Stuart K. Grange, Christoph Hueglin, Gaëlle Uzu, Jean-Luc Jaffrezo, Juanita Rausch, David Jaramillo-Vogel, Claudia Mohr, Imad El-Haddad, Jay G. Slowik, André S. H. Prévôt and Kaspar R. Daellenbach
Atmosphere 2026, 17(2), 199; https://doi.org/10.3390/atmos17020199 - 13 Feb 2026
Viewed by 1182
Abstract
Although the organic fraction of PM2.5 has been extensively studied, there is a considerable gap in understanding the organic fraction of coarse particles with diameters between 2.5 and 10 µm. We investigate the composition of coarse organic aerosol (OA) across rural, suburban, [...] Read more.
Although the organic fraction of PM2.5 has been extensively studied, there is a considerable gap in understanding the organic fraction of coarse particles with diameters between 2.5 and 10 µm. We investigate the composition of coarse organic aerosol (OA) across rural, suburban, and urban areas of Switzerland. Using Aerosol Mass Spectrometer analyses of water-soluble OA extracted from collected filter samples (one entire year, 441 samples per size fraction), we identified two distinct classes of coarse OA. The first class, which constitutes 41–81% of coarse organic carbon (OC), is associated with primary biological organic carbon (PBOC). PBOC is characterized by specific marker ions (e.g., C2H5O2+) and exhibits pronounced seasonal variation, with peak concentrations observed in the summer. This seasonal trend correlates with that of molecular markers such as arabitol and mannitol, as well as the fraction of biological particles determined by automated scanning electron microscopy coupled to energy dispersive X-ray spectroscopy of individual particles. The second class, contributing 7.9–17.8% to OCcoarse, is denoted as sulfur-containing organic carbon (SCOC) due to the presence of sulfur-containing ions such as CH3SO2+. Elevated concentrations of SCOC in urban environments near roadways suggest a strong influence from non-exhaust traffic emissions and resuspended dust. While the overall variation in coarse OC between rural and urban areas is approximately 10%, PBOC concentrations are 1.4 times higher in rural areas, whereas SCOC concentrations are 1.5 times higher in urban settings. Overall, our study shows that although OCcoarse concentrations in Switzerland are relatively consistent across site types, major water-soluble sources, particle properties and composition vary considerably geographically and seasonally. Full article
(This article belongs to the Section Air Quality)
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36 pages, 1542 KB  
Review
Volatile Organic Compounds in Indoor Air: Sampling, Determination, Sources, Health Risk, and Regulatory Insights
by Tajana Horvat, Gordana Pehnec and Ivana Jakovljević
Toxics 2025, 13(5), 344; https://doi.org/10.3390/toxics13050344 - 26 Apr 2025
Cited by 26 | Viewed by 16791
Abstract
Indoor air pollution is a serious public health issue caused by the accumulation of numerous toxic contaminants within enclosed spaces. Particulate matter (PM2.5 and PM10), biological contaminants (mould, bacteria, and allergies), inorganic gases (carbon monoxide, carbon dioxide, ozone, and nitrogen [...] Read more.
Indoor air pollution is a serious public health issue caused by the accumulation of numerous toxic contaminants within enclosed spaces. Particulate matter (PM2.5 and PM10), biological contaminants (mould, bacteria, and allergies), inorganic gases (carbon monoxide, carbon dioxide, ozone, and nitrogen dioxide), and a variety of volatile organic compounds (VOCs) are examples of common indoor air pollutants. VOCs are one of the chief indoor contaminants, and their effects on human health have made indoor air quality a serious concern. Indoor VOC concentrations are frequently higher than outdoor levels, according to studies, which raises the danger of exposure, particularly for young people and those with respiratory disorders. VOCs originate from both biogenic and anthropogenic sources, and they can create secondary pollutants like ozone and aerosols, which can lead to cardiovascular and pulmonary problems. Prolonged exposure to VOCs has been associated with respiratory irritation, neurological effects, and an increased risk of chronic diseases. This review examines the primary sources, sampling and analysis approach, and health impact of VOCs in indoor air. Additionally, we compared worldwide regulatory guidelines for VOC exposure limits, emphasizing the need for strict exposure limits to protect human health. Full article
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28 pages, 5454 KB  
Article
Comparative Analysis of Real-Time Fluorescence-Based Spectroscopic Instruments: Bioaerosol Detection in the Urban Environment of Dublin City, Ireland
by Jerry Hourihane Clancy, Emma Markey, Moisés Martínez-Bracero, José María Maya-Manzano, Eoin J. McGillicuddy, Gavin Sewell, Roland Sarda-Estève, Dominique Baisnée, Andrés M. Vélez-Pereira, Gemma Davis and David J. O’Connor
Atmosphere 2025, 16(3), 275; https://doi.org/10.3390/atmos16030275 - 26 Feb 2025
Cited by 3 | Viewed by 3212
Abstract
Primary Biological Aerosol Particles (PBAPs) range in size from a few nanometres to hundreds of micrometres and include particles such as pollen and fungal spores, which are significant due to their prevalence and potential to induce allergic reactions and other health-related issues. This [...] Read more.
Primary Biological Aerosol Particles (PBAPs) range in size from a few nanometres to hundreds of micrometres and include particles such as pollen and fungal spores, which are significant due to their prevalence and potential to induce allergic reactions and other health-related issues. This study employs real-time fluorescence spectroscopy devices, the Wideband Integrated Bioaerosol Sensor (WIBS-NEO) and IBAC-2, to monitor PBAPs in the urban environment of Dublin, Ireland, during a six-week campaign in the summer of 2019. The WIBS-NEO demonstrated moderate correlations (R2 = 0.5–0.7) in comparison with Hirst volumetric air sampler data for pollen and fungal spore concentrations following appropriate data filtering. In contrast, the IBAC-2 showed poor correlation with ambient fungal spore concentrations and lacked the necessary particle size ranges for reliable pollen measurement. Comparative analysis between WIBS-NEO and IBAC-2 revealed moderate correlation (R2 ≈ 0.6) for small fluorescent particles (fluorescent particles between 0.7 and 1.5 μm optical diameter) but lower correlation for larger particles and specific bioaerosol types. The findings suggest that while the WIBS-NEO is effective for real-time bioaerosol monitoring, further refinement is needed for IBAC-2. This study underscores the potential of using advanced real-time monitoring tools in urban environments and highlights the need for continued development to address current limitations. Full article
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20 pages, 4049 KB  
Article
Anthropogenic Aerosol Dominates the Decadal Change in Evapotranspiration over Southeastern China in the Past Four Decades
by Zhiyong Kong, Jian Cao and Boyang Wang
Remote Sens. 2025, 17(3), 561; https://doi.org/10.3390/rs17030561 - 6 Feb 2025
Cited by 2 | Viewed by 1728
Abstract
Evapotranspiration (ET) is vital for global water balance, energy cycle, and biological processes, representing a key component of Earth systems interactions. However, how human activities affect regional ET is still unknown. This study identified a decadal decrease in ET before 2000, followed by [...] Read more.
Evapotranspiration (ET) is vital for global water balance, energy cycle, and biological processes, representing a key component of Earth systems interactions. However, how human activities affect regional ET is still unknown. This study identified a decadal decrease in ET before 2000, followed by an increase over southeastern China in observations. Simulations from the coupled model intercomparison project phase 6 (CMIP6) models well reproduced the observed decadal ET change, with a lag of 10 years, which may be due to the spatial and temporal simplification of aerosol forcing data in CMIP6. Attribution analysis reveals that the change in anthropogenic aerosol emissions was the primary driver of the ET change, while the contribution of greenhouse gas was negligible. The Penman–Monteith framework identified that the net surface radiation contributed 77% of the ET trend change in the anthropogenic aerosol-only experiment. The increase and reduction in anthropogenic aerosol emissions reduce and increase the shortwave radiation reaching the Earth’s surface, respectively, resulting in the different trends of energy sources for ET. Our findings underscore the critical role of aerosols in shaping surface energy balance and influencing regional hydrological cycles. Full article
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34 pages, 41034 KB  
Article
The Dynamics of Air Pollution in the Southwestern Part of the Caspian Sea Basin (Based on the Analysis of Sentinel-5 Satellite Data Utilizing the Google Earth Engine Cloud-Computing Platform)
by Vladimir Tabunshchik, Aleksandra Nikiforova, Nastasia Lineva, Polina Drygval, Roman Gorbunov, Tatiana Gorbunova, Ibragim Kerimov, Cam Nhung Pham, Nikolai Bratanov and Mariia Kiseleva
Atmosphere 2024, 15(11), 1371; https://doi.org/10.3390/atmos15111371 - 14 Nov 2024
Cited by 6 | Viewed by 3471
Abstract
The Caspian region represents a complex and unique system of terrestrial, coastal, and aquatic environments, marked by an exceptional landscape and biological diversity. This diversity, however, is increasingly threatened by substantial anthropogenic pressures. One notable impact of this human influence is the rising [...] Read more.
The Caspian region represents a complex and unique system of terrestrial, coastal, and aquatic environments, marked by an exceptional landscape and biological diversity. This diversity, however, is increasingly threatened by substantial anthropogenic pressures. One notable impact of this human influence is the rising concentration of pollutants atypical for the atmosphere. Advances in science and technology now make it possible to detect certain atmospheric pollutants using remote Earth observation techniques, specifically through data from the Sentinel-5 satellite, which provides continuous insights into atmospheric contamination. This article investigates the dynamics of atmospheric pollution in the southwestern part of the Caspian Sea basin using Sentinel-5P satellite data and the cloud-computing capabilities of the Google Earth Engine (GEE) platform. The study encompasses an analysis of concentrations of seven key pollutants: nitrogen dioxide (NO2), formaldehyde (HCHO), carbon monoxide (CO), ozone (O3), sulfur dioxide (SO2), methane (CH4), and the Aerosol Index (AI). Spatial and temporal variations in pollution fields were examined for the Caspian region and the basins of the seven rivers (key areas) flowing into the Caspian Sea: Sunzha, Sulak, Ulluchay, Karachay, Atachay, Haraz, and Gorgan. The research methodology is based on the use of data from the Sentinel-5 satellite, SRTM DEM data on absolute elevations, surface temperature data, and population density data. Data processing is performed using the Google Earth Engine cloud-computing platform and the ArcGIS software suite. The main aim of this study is to evaluate the spatiotemporal variability of pollutant concentration fields in these regions from 2018 to 2023 and to identify the primary factors influencing pollution distribution. The study’s findings reveal that the Heraz and Gorgan River basins have the highest concentrations of nitrogen dioxide and Aerosol Index levels, marking these basins as the most vulnerable to atmospheric pollution among those assessed. Additionally, the Gorgan basin exhibited elevated carbon monoxide levels, while the highest ozone concentrations were detected in the Sunzha basin. Our temporal analysis demonstrated a substantial influence of the COVID-19 pandemic on pollutant dispersion patterns. Our correlation analysis identified absolute elevation as a key factor affecting pollutant distribution, particularly for carbon monoxide, ozone, and aerosol indices. Population density showed the strongest correlation with nitrogen dioxide distribution. Other pollutants exhibited more complex distribution patterns, influenced by diverse mechanisms associated with local emission sources and atmospheric dynamics. Full article
(This article belongs to the Special Issue Study of Air Pollution Based on Remote Sensing (2nd Edition))
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16 pages, 5848 KB  
Article
Composition and Biogeochemical Effects of Carbohydrates in Aerosols in Coastal Environment
by Hung-Yu Chen and Ting-Wen Liu
J. Mar. Sci. Eng. 2024, 12(10), 1834; https://doi.org/10.3390/jmse12101834 - 14 Oct 2024
Cited by 1 | Viewed by 2413
Abstract
We adopted a simple and rapid measurement method to analyze the concentrations of monosaccharides (MCHO) and polysaccharides (PCHO) in carbohydrates, a subset of organic carbon found in size-fractionated atmospheric particles. Seasonal and source-related factors influenced carbohydrate concentrations, with total water-soluble carbohydrates (TCHO) accounting [...] Read more.
We adopted a simple and rapid measurement method to analyze the concentrations of monosaccharides (MCHO) and polysaccharides (PCHO) in carbohydrates, a subset of organic carbon found in size-fractionated atmospheric particles. Seasonal and source-related factors influenced carbohydrate concentrations, with total water-soluble carbohydrates (TCHO) accounting for approximately 23% of the water-soluble organic carbon (WSOC) in spring when biological activity was high. We observed that the mode of aerosol transport significantly influenced the particle size distribution of carbohydrates, with MCHO exhibiting relatively high concentrations in fine particles (<1 μm) and PCHO showing higher concentrations in coarse particles (>1 μm). Moreover, our results revealed that MCHO and PCHO contributed 51% and 49%, respectively, to the TCHO concentration. This contribution varied by approximately ±19% depending on the season, suggesting the importance of both MCHO and PCHO. Additionally, through the combined use of principal component analysis (PCA) and positive matrix factorization (PMF), we determined that biomass burning accounts for 30% of the aerosol. Notably, biomass burning accounts for approximately 52% of the WSOC flux, with MCHO accounting for approximately 78% of the carbon from this source, indicating the substantial influence of biomass burning on aerosol composition. The average concentration of TCHO/WSOC in the atmosphere was approximately 18%, similar to the marine environment, reflecting the relationship between the biogeochemical cycles of the two environments. Finally, the fluxes of MCHO and PCHO were 1.10 and 5.28 mg C m−2 yr−1, respectively. We also found that the contribution of atmospheric deposition to marine primary productivity in winter was 15 times greater than that in summer, indicating that atmospheric deposition had a significant impact on marine ecosystems during nutrient-poor seasons. Additionally, we discovered that WSOC accounts for approximately 62% of the dissolved organic carbon (DOC) in the Min River, suggesting that atmospheric deposition could be a major source of organic carbon in the region. Full article
(This article belongs to the Section Chemical Oceanography)
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16 pages, 4255 KB  
Article
Short-Term Effects of Primary and Secondary Particulate Matter on Ceramide Metabolism, Pro-Inflammatory Response, and Blood Coagulation
by Bin Zhang, Hongbing Xu, Xinghou He, Tong Wang, Mengyao Li, Xuyang Shan, Yutong Zhu, Changjie Liu, Qian Zhao, Xiaoming Song, Yele Sun, Lemin Zheng and Wei Huang
Toxics 2024, 12(3), 225; https://doi.org/10.3390/toxics12030225 - 19 Mar 2024
Cited by 4 | Viewed by 3082
Abstract
Evidence of the precise biological pathway responsible for acute cardiovascular events triggered by particulate matter (PM) exposure from anthropogenic emissions is sparse. We investigated the associations of biomarkers relevant to the pathophysiology of atherothrombosis (ceramide metabolism, pro-inflammatory response, and blood coagulation) with primary [...] Read more.
Evidence of the precise biological pathway responsible for acute cardiovascular events triggered by particulate matter (PM) exposure from anthropogenic emissions is sparse. We investigated the associations of biomarkers relevant to the pathophysiology of atherothrombosis (ceramide metabolism, pro-inflammatory response, and blood coagulation) with primary and secondary components in particulate matter with aerodynamic diameters less than 2.5 μm (PM2.5). A total of 152 healthy participants were followed with four repeated clinical visits between September 2019 and January 2020 in Beijing. Exposure to ambient inorganic aerosols (sulfate, nitrate, ammonium, and chloride), as well as organic aerosols (OA) in PM2.5, was measured by a real-time aerosol chemical speciation monitor, and sources of OA were performed by positive matrix factorization. We found significant increases of 101.9–397.9% in ceramide indicators associated with interquartile-range increases in inorganic aerosols and OA prior to 72 h of exposure. Higher levels of organic and inorganic aerosols in PM2.5 were associated with increases of 3.1–6.0% in normal T cells regulated upon activation and expressed and secreted relevant to the pro-inflammatory response; increases of 276.9–541.5% were observed in D-dimers relevant to coagulation. Detrimental effects were further observed following OA exposure from fossil fuel combustion. Mediation analyses indicated that ceramide metabolism could mediate the associations of PM2.5 components with pro-inflammatory responses. Our findings expand upon the current understanding of potential pathophysiological pathways of cardiovascular events posed by ambient particulates and highlight the importance of reducing primary and secondary PM from anthropogenic combustions. Full article
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11 pages, 1661 KB  
Article
Biological Characterisation of Hailstones from Two Storms in South Brazil
by Maurício C. Mantoani, Thaysla Beluco Quintino, Ana Paula M. Emygdio, Lara C. C. Guerra, Maria A. F. S. Dias, Pedro L. S. Dias, Fábio Rodrigues, Dulcilena M. C. Silva, Valter Batista Duo Filho, Anderson Paulo Rudke, Ronaldo Adriano Alves, Leila Droprinchinski Martins, Jorge Alberto Martins, Alexandre Siqueira, Solana M. Boschilia, Federico Carotenuto, Tina Šantl-Temkiv, Vaughan Phillips and Fábio L. T. Gonçalves
Aerobiology 2023, 1(2), 98-108; https://doi.org/10.3390/aerobiology1020008 - 13 Dec 2023
Cited by 4 | Viewed by 3394
Abstract
Although studies focusing on the physicochemical properties of aerosols/clouds have not been performed extensively, even less attention has been given to hailstones and their biological composition. Here, we present the results of the physical and microbiological characterisation of 20 hailstones collected in Southern [...] Read more.
Although studies focusing on the physicochemical properties of aerosols/clouds have not been performed extensively, even less attention has been given to hailstones and their biological composition. Here, we present the results of the physical and microbiological characterisation of 20 hailstones collected in Southern Brazil originating from two storms. Nearly half of the hailstones (9 out of 20, or 45%) did not contain any cultivable bacteria or fungi. A total of 18 bacterial species were found in hailstones from both storms, and the genus Bacillus was found in 5 out of the 11 hailstones, with Bacillus cereus being the most frequent bacterial species. Fungi, on the other hand, were only present in four hailstones derived from a single storm, with three fungal species identified and Epicoccum nigrum being the most frequent fungal species. HYSPLIT modelling indicated the different flow of air masses from the Amazon and Pacific Ocean that contributed to the loading of microorganisms found in the clouds at the time of the two storms. Our findings suggest that ca. 50% of hailstones have cultivable bacterial or fungal species, which came mainly from the local landscape with intrusions of air masses derived from the Amazon and the Pacific Ocean. Full article
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15 pages, 12990 KB  
Article
Brochosomes and Other Bioaerosols in the Surface Layer of the Atmosphere of Moscow Metropolis
by Dina P. Gubanova, Anna A. Vinogradova and Nataliya V. Sadovskaya
Atmosphere 2023, 14(3), 504; https://doi.org/10.3390/atmos14030504 - 5 Mar 2023
Cited by 7 | Viewed by 3117
Abstract
The paper presents the results of the morphological study of aerosol particles in the urban air of Moscow (Russia) in 2019–2022 by scanning electron microscopy (SEM). Our monitoring revealed mineral and anthropogenic particles, and also primary bioaerosols (PBA), such as pollen, spores, plant [...] Read more.
The paper presents the results of the morphological study of aerosol particles in the urban air of Moscow (Russia) in 2019–2022 by scanning electron microscopy (SEM). Our monitoring revealed mineral and anthropogenic particles, and also primary bioaerosols (PBA), such as pollen, spores, plant fibers, etc., typical for the urban environment. Moreover, in July 2021, brochosomes, lipid secretions of semi-hard-winged insects Cicadellidae (or leafhopper), were found in several aerosol samples. They are quasi-spherical hollow porous semi-regular polyhedra (truncated icosahedra) of 0.2–0.7 microns in size, consisting mainly of carbon and oxygen. Despite the prevalence and diversity of leafhoppers, identification of their secretions in atmospheric aerosols in situ is rather rare: single articles from South Korea, Spain, the Himalayas, and the United States. In this sense, the results obtained are interesting and novel. PBA particles cover a wide size range and have a complex and diverse shape, which determines the distance and efficiency of their atmospheric transport. Pollen and fungal spores have a high allergenic potential and can have harmful effects on human health. Any new information about PBA can be useful for studying the development and dynamics of ecosystems. Full article
(This article belongs to the Special Issue Bioaerosol Composition and Measurement)
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13 pages, 2314 KB  
Systematic Review
Thirty-Five Years of Aerosol–PBAP in situ Research in Brazil: The Need to Think outside the Amazonian Box
by Maurício C. Mantoani, Jorge A. Martins, Leila Droprinchinski Martins, Federico Carotenuto, Tina Šantl-Temkiv, Cindy E. Morris, Fábio Rodrigues and Fábio L. T. Gonçalves
Climate 2023, 11(1), 17; https://doi.org/10.3390/cli11010017 - 5 Jan 2023
Cited by 6 | Viewed by 3310
Abstract
Aerosols and primary biological aerosol particles (PBAPs) play an important role in regulating the global climate, but information summarizing the available knowledge is limited. Here, we present a systematic review of in situ studies performed in the last 35 years on aerosols–PBAPs in [...] Read more.
Aerosols and primary biological aerosol particles (PBAPs) play an important role in regulating the global climate, but information summarizing the available knowledge is limited. Here, we present a systematic review of in situ studies performed in the last 35 years on aerosols–PBAPs in Brazil, with 212 studies encompassing 474 cases. The Amazon rainforest was the most studied biome, represented by 72% of cases, followed by the Atlantic Forest with 18%. Studies focusing the Amazon mostly investigated climate-related issues and aerosol physics, with less than 5% examining the biological identity of aerosols, whereas outside the Amazon, this number reached 16%. Whilst more than half of the cases within Amazon (55%) were held at seven sampling sites only, conclusions were mainly extrapolated to the entire biome. Contrarily, research beyond the Amazon has mostly addressed the temporal and biological characterisation of PBAPs, and not only is it scattered, but also scarce. Regarding sampling efforts, most cases (72%) had fewer than 100 days of sampling, and 60% of them spanned less than half a year of study. We argue that scientists should produce more detailed/complete assessments of aerosols–PBAPs in Brazil as a whole, particularly considering their biological identity, given their importance to global climate regulation. Full article
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20 pages, 2435 KB  
Article
A Modified Spectroscopic Approach for the Real-Time Detection of Pollen and Fungal Spores at a Semi-Urban Site Using the WIBS-4+, Part I
by Emma Markey, Jerry Hourihane Clancy, Moisés Martínez-Bracero, Finnian Neeson, Roland Sarda-Estève, Dominique Baisnée, Eoin J. McGillicuddy, Gavin Sewell and David J. O’Connor
Sensors 2022, 22(22), 8747; https://doi.org/10.3390/s22228747 - 12 Nov 2022
Cited by 19 | Viewed by 4073
Abstract
The real-time monitoring of primary biological aerosol particles (PBAP) such as pollen and fungal spores has received much attention in recent years as a result of their health and climatic effects. In this study, the Wideband Integrated Bioaerosol Sensor (WIBS) 4+ model was [...] Read more.
The real-time monitoring of primary biological aerosol particles (PBAP) such as pollen and fungal spores has received much attention in recent years as a result of their health and climatic effects. In this study, the Wideband Integrated Bioaerosol Sensor (WIBS) 4+ model was evaluated for its ability to sample and detect ambient fungal spore and pollen concentrations, compared to the traditional Hirst volumetric method. Although the determination of total pollen and fungal spore ambient concentrations are of interest, the selective detection of individual pollen/fungal spore types are often of greater allergenic/agricultural concern. To aid in this endeavour, modifications were made to the WIBS-4 instrument to target chlorophyll fluorescence. Two additional fluorescence channels (FL4 and FL5 channels) were combined with the standard WIBS channels (FL1, FL2, FL3). The purpose of this modification is to help discriminate between grass and herb pollen from other pollen. The WIBS-4+ was able to successfully detect and differentiate between different bioaerosol classes. The addition of the FL4 and FL5 channels also allowed for the improved differentiation between tree (R2 = 0.8), herbaceous (R2 = 0.6) and grass (R2 = 0.4) pollen and fungal spores (R2 = 0.8). Both grass and herbaceous pollen types showed a high correlation with D type particles, showing strong fluorescence in the FL4 channel. The additional fluorescent data that were introduced also improved clustering attempts, making k-means clustering a comparable solution for this high-resolution data. Full article
(This article belongs to the Section Environmental Sensing)
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10 pages, 1537 KB  
Article
Bioaerosol Seasonal Variation and Contribution to Airborne Particulate Matter in Huangshi City of Central China
by Lili Zhang, Ting Liu, Jiaquan Zhang, Bo Zhu, Dong Xiang, Xude Zhao and Xianli Liu
Atmosphere 2022, 13(6), 909; https://doi.org/10.3390/atmos13060909 - 3 Jun 2022
Cited by 11 | Viewed by 3832
Abstract
Ambient bioaerosols affect ecosystems and public health, but their seasonal variations and their contributions to aerosol particles are limitedly understood. Ambient bioaerosols in PM2.5 and PM10 samples were measured in Huangshi City, Hubei Province of China from April 2018 to December [...] Read more.
Ambient bioaerosols affect ecosystems and public health, but their seasonal variations and their contributions to aerosol particles are limitedly understood. Ambient bioaerosols in PM2.5 and PM10 samples were measured in Huangshi City, Hubei Province of China from April 2018 to December 2018. Bioaerosols were measured using a fluorescence microscope after staining with 4′, 6-diamino-2-phenylindole dihydrochloride (DAPI) following a direct staining technique. The bioaerosol number concentrations ranged from 0.12 to 15.69 # cm−3 for PM2.5 and 0.22 to 18.20 # cm−3 for PM10, with averages of 2.79 # cm−3 and 4.66 # cm−3, respectively. The bioaerosol concentrations of PM2.5 and PM10 varied significantly by seasons and were arranged in the following descending order: spring > fall > winter > summer. Bioaerosol numbers were dominated by fine particles of 0.37–2.5 μm diameter, while the spring bioaerosol particles were detected at the peak concentration of 0.56–1 μm diameter. Bioaerosol fractions accounted for 18.3 ± 10.6% PM10 mass and 13.7 ± 12.5% PM2.5 mass. Bioaerosol concentrations were increased during the haze event, but the increased amounts were not as large as those of the dust event, and higher bioaerosol contributions to PM were observed in the dust event than in the haze event. As enhanced emission controls have reduced PM concentrations in China, bioaerosols can be important contributors to PM mass. Full article
(This article belongs to the Section Aerosols)
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26 pages, 1157 KB  
Review
Airborne Fungal Spore Review, New Advances and Automatisation
by Moises Martinez-Bracero, Emma Markey, Jerry Hourihane Clancy, Eoin J. McGillicuddy, Gavin Sewell and David J. O’Connor
Atmosphere 2022, 13(2), 308; https://doi.org/10.3390/atmos13020308 - 11 Feb 2022
Cited by 47 | Viewed by 15040
Abstract
Fungal spores make up a significant portion of Primary Biological Aerosol Particles (PBAPs) with large quantities of such particles noted in the air. Fungal particles are of interest because of their potential to affect the health of both plants and humans. They are [...] Read more.
Fungal spores make up a significant portion of Primary Biological Aerosol Particles (PBAPs) with large quantities of such particles noted in the air. Fungal particles are of interest because of their potential to affect the health of both plants and humans. They are omnipresent in the atmosphere year-round, with concentrations varying due to meteorological parameters and location. Equally, differences between indoor and outdoor fungal spore concentrations and dispersal play an important role in occupational health. This review attempts to summarise the different spore sampling methods, identify the most important spore types in terms of negative effects on crops and the public, the factors affecting their growth/dispersal, and different methods of predicting fungal spore concentrations currently in use. Full article
(This article belongs to the Special Issue Airborne Fungal and Pteridophyte Spores)
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