Your search keyword '"Corsi I"' showing total 1,595 results

151. Nanoplastic-Induced Biological Effects In Vivo and In Vitro: An Overview.

Author

Xie, Hongxin, Tian, Xue, Lin, Xiaoying, Chen, Rui, Hameed, Saima, Wang, Liming, Yu, Yong-Liang, Li, Bai, and Li, Yu-Feng

Abstract

Nanoplastics (NPs) are emerging pollutants with great concern due to their small size and potential adverse effects on living organisms. This review summarizes the biological effects of NPs in vivo (plants and animals) and in vitro (cells). NPs can be ingested and accumulated in organisms and transferred along the food chain, affecting the growth, development, and reproduction at each trophic level. Several factors including surface charges, size, exposure dose, and exposure time affect the biological effects of NPs. Surface-charged NPs have a more significant impact on the normal physiological activities of cells, while smaller particles facilitate the penetration across the cell membranes. Higher doses and longer exposure time contribute to the higher accumulation. In addition, additives and environmental pollutants attached to NPs pose a greater threat to organisms than NPs themselves. There are still several analytical challenges in the study of the biological effects of NPs, especially their accumulation, degradation, migration and interactions with the biological systems. Further works on the risk assessment of NPs derived from commonly used plastics in our daily life like polyethylene terephthalate (PET) rather than laboratory-made polystyrene (PS) beads are still highly desired. [ABSTRACT FROM AUTHOR]

Published

2023

152. Toxicity of Titanium Dioxide–Cerium Oxide Nanocomposites to Zebrafish Embryos: A Preliminary Evaluation.

Author

Pecoraro, Roberta, Scalisi, Elena Maria, Indelicato, Stefania, Contino, Martina, Coco, Giuliana, Stancanelli, Ilenia, Capparucci, Fabiano, Fiorenza, Roberto, and Brundo, Maria Violetta

Subjects

CERIUM oxides, TITANIUM oxides, POISONS, ACUTE toxicity testing, METAL nanoparticles, BRACHYDANIO

Abstract

The widespread use of metal nanoparticles in different fields has raised many doubts regarding their possible toxicity to living organisms and the accumulation and discharge of metals in fish species. Among these nanoparticles, titanium dioxide (TiO2) and cerium oxide (CeO2) nanoparticles have mainly been employed in photocatalysis and water depuration. The aim of this research was to evaluate the potential toxic effects, after a co-exposure of TiO2-3%CeO2 nanoparticles, on zebrafish development, using an acute toxicity test. Increasing concentrations of TiO2-3%CeO2 nanoparticles were used (0.1-1-10-20 mg/L). The heartbeat rate was assessed using DanioscopeTM software (version 1.2) (Noldus, Leesburg, VA, USA), and the responses to two biomarkers of exposure (Heat shock proteins-70 and Metallothioneins) were evaluated through immunofluorescence. Our results showed that the co-exposure to TiO2-3%CeO2 nanoparticles did not affect the embryos' development compared to the control group; a significant difference (p < 0.05) at 48 hpf heartbeat for the 1, 10, and 20 mg/L groups was found compared to the unexposed group. A statistically significant response (p < 0.05) to Heat shock proteins-70 (Hsp70) was shown for the 0.1 and 1 mg/L groups, while no positivity was observed in all the exposed groups for Metallothioneins (MTs). These results suggest that TiO2-3%CeO2 nanocomposites do not induce developmental toxicity; instead, when considered separately, TiO2 and CeO2 NPs are harmful to zebrafish embryos, as previously shown. [ABSTRACT FROM AUTHOR]

Published

2023

153. Nanomaterials Applied in the Construction Sector: Environmental, Human Health, and Economic Indicators.

Author

Ferreira, Maria Teresa, Soldado, Eliana, Borsoi, Giovanni, Mendes, Maria Paula, and Flores-Colen, Inês

Subjects

ECONOMIC indicators, NANOSTRUCTURED materials, SUSTAINABLE development, HUMAN ecology

Abstract

Over the past two decades, the application of nanostructured materials in construction, such as concrete, paint, coatings, glass, renders, plasters, thermal insulation, steel, and even sensors, has become increasingly prevalent. However, previous studies and reports have raised concerns about the ecotoxicity and long-term impact of nanomaterials on human health and the environment. National and international legislation and regulations are struggling to keep up with the rapid development of nanomaterials, taking into account their unique characteristics and essential requirements for application and commercialization. This paper, based on existing standards for conventional materials and bibliometric networks of papers focused on nanomaterials, conducts a critical review and proposes relevant indicators for the application of nanomaterials in the construction sector. These indicators should be mandatory and are divided into environmental, human health, and economic perspectives, providing a risk assessment framework for applying nanomaterial-based constructive solutions oriented to environmental, social, and economic sustainability. [ABSTRACT FROM AUTHOR]

Published

2023

154. Facile Synthesis of PVP-Coated Silver Nanoparticles and Evaluation of Their Physicochemical, Antimicrobial and Toxic Activity.

Author

Neto, Francisco N. Souza, Morais, Leonardo A., Gorup, Luiz F., Ribeiro, Lucas S., Martins, Tassia J., Hosida, Thayse Y., Francatto, Patricia, Barbosa, Debora B., Camargo, Emerson R., and Delbem, Alberto C. B.

Subjects

SILVER nanoparticles, FACE centered cubic structure, ANTI-infective agents, SURFACE plasmon resonance, STREPTOCOCCUS mutans, RADIOACTIVE tracers, RAMAN scattering

Abstract

This study focuses on the synthesis of silver nanoparticles (AgNPs) at different high concentrations and investigates their physicochemical properties, antimicrobial activity, and cytotoxicity. AgNPs were synthesized using the alcohol reduction process, involving the reduction of AgNO3 and its subsequent stabilization via PVP at 80 °C for 4 h. The AgNO3/PVP molar ratio and the average molecular weight were modified in this study. Characterization analyses revealed that the synthesized AgNPs exhibited characteristic surface plasmon resonance absorption peaks at approximately 415 nm, as observed in the UV–Vis spectrum. The results presented in X-ray diffractograms confirmed the face-centered cubic structure of metallic Ag in the nanoparticles. The nanoparticles demonstrated uniform size and shape, with controllable dimensions ranging from 3 to 800 nm. Regarding antimicrobial activity, the MIC solutions exhibited higher potency against the planktonic cells of Candida albicans. The determination of inhibition halos indicated that the silver nanoparticles had an impact on the microorganisms Streptococcus mutans, Candida albicans, and Actinomyces israelii. Furthermore, lower-concentration compositions showed reduced cytotoxic effects compared to higher-concentration particles. Based on the findings, it was concluded that the AgNO3/PVP molar ratio plays a crucial role in the production of AgNPs. These synthesized nanoparticles exhibit desirable physicochemical properties and demonstrate potential antimicrobial activity and controlled cytotoxicity. [ABSTRACT FROM AUTHOR]

Published

2023

155. Small Microplastics: A yet Unknown Threat in the Svalbard (Norway) Region.

Author

Caruso, Gabriella, Iannilli, Valentina, Vitale, Giulia, Vardè, Massimiliano, Oliverio, Marco, Bogialli, Sara, Litti, Lucio, Setini, Andrea, Rosso, Beatrice, and Corami, Fabiana

Subjects

MICROPLASTICS, MARINE pollution, RESOURCE exploitation, MARINE resources, CLIMATE change, SEA ice, BIOINDICATORS

Abstract

The Arctic Ocean is undergoing several transformations because of global climate change. Small microplastics (SMPs) or nanoplastics (NPs) carried by marine aerosols may settle in the land ice and be released to the waters, produced following its melting. As sea ice extent reduces and shipping and fishing activities increase, microplastics (MPs) may enter the region following ocean and maritime transports, with implications on Arctic biota, human health, and socioeconomic issues related to the exploitation of marine resources. First analyses on amphipods collected in Ny-Ålesund confirmed the presence of SMPs. Nevertheless, the threat posed by SMPs/NPs to polar biota and regional human health is not fully understood. This article addresses this issue and the need for organisms as potential bioindicators of plastic pollution, which is currently being carried out in the Svalbard region under the framework of the MICROTRACER project funded by the Italian Arctic Research Program (PRA, Call 2021). The outputs of this research are expected to contribute to deepening the current knowledge of SMPs in Svalbard, providing new insights on their occurrence, distribution, and transfer through the marine trophic web, to realize effective control and regulatory framework measures to implement an integrated multidisciplinary approach for monitoring and to reduce MPs pollution in this fragile polar environment. [ABSTRACT FROM AUTHOR]

Published

2023

156. Impacts of sunlight exposure on physicochemical parameters, potential toxic metals, and microbial characteristics of sachet drinking water sold in Calabar metropolis, Nigeria.

Author

Umoafia, Nikita Elkanah, Edet, Uwem Okon, Joseph, Akaninyene Paul, Henshaw, Okoroiwu Uchechi, Mbim, Elizabeth Nkagafel, Obeten, Honour, Edet, Bassey Okon, Edet, Asanga, Ibor, Oju Richard, Nkang, Nkoyo, Louis, Hitler, Nwaokorie, Francisca O., and Nkang, Ani

Abstract

Poor handling of potable water is a well-known route of contamination. Despite this, Nigeria’s most consumed packaged potable water called “sachet” or “pure water” is still poorly handled with long hours of exposure to sunlight which may affect its quality. This study examined the potential deterioration of the sachet water quality (potential toxic metals and bacteriological), and the health implication posed by long-time exposure to sunlight. Collected water samples were subjected to physiochemical analysis, metal analysis, risk assessment, and microbiological examination. Three sachet water brands (n = 4 bags per brand) exposed to sunlight daily for 14, 28, and 42 days were analysed for potentially toxic metals, and health risk assessments (Average daily dose-ADD, hazard quotient-HQ, hazard index-HI, and carcinogenic risk-CR). The physicochemical, and microbiological (total heterotrophic bacteria count-THBC, and total coliform count-TCC) parameters were equally analysed using the Kirby Bauer and pour plate technique. In all brands, the levels of physicochemical parameters (except pH), and potential toxic metals were comparatively higher than the control in an exposure time-dependent fashion. Furthermore, all the exposed samples failed to meet the safety limits of the WHO, and national standards (NAFDAC and NDSWQ) for drinking water. Among the metals, zinc was the most ingested metal in all the brands. The ADD, HQ, and HI evaluations revealed that consuming the exposed water could lead to higher accumulation of Cr, Cd, Pb, As, and Ni in the body following exposure. The CR of Cr, As, and Ni after exposure to sunlight were > than the safe value (10–4), implying the likelihood of cancer after over 60 years. Microbial counts increased with the length of exposure, and all the isolates showed pathogenicity and multidrug resistance. The potential health risk inherent in sachet water after exposure to sunlight has significant health implications for consumers.Article highlights: •Concentration of potential toxic metal increased linearly with exposure time. • Carcinogenic risk assessment showed potential cancer risk after 60 years. • All the brands failed all bacteriological regulatory guidelines. [ABSTRACT FROM AUTHOR]

Published

2023

157. Adverse Effects of Non-Metallic Nanoparticles in the Central Nervous System.

Author

Sikorska, Katarzyna, Sawicki, Krzysztof, Czajka, Magdalena, Kapka-Skrzypczak, Lucyna, Kruszewski, Marcin, and Brzóska, Kamil

Subjects

NERVE tissue, NANOPARTICLES, NEURODEGENERATION, DISEASE prevalence

Abstract

The interest in nanoparticles (NPs) and their effects on living organisms has been continuously growing in the last decades. A special interest is focused on the effects of NPs on the central nervous system (CNS), which seems to be the most vulnerable to their adverse effects. Non-metallic NPs seem to be less toxic than metallic ones; thus, the application of non-metallic NPs in medicine and industry is growing very fast. Hence, a closer look at the impact of non-metallic NPs on neural tissue is necessary, especially in the context of the increasing prevalence of neurodegenerative diseases. In this review, we summarize the current knowledge of the in vitro and in vivo neurotoxicity of non-metallic NPs, as well as the mechanisms associated with negative or positive effects of non-metallic NPs on the CNS. [ABSTRACT FROM AUTHOR]

Published

2023

158. Exploring the Potentials of Magnetic Nanoscale Material for Different Biomedical Applications: a Review.

Author

Shankar, Mithrinthaa, Kesavan, Sudha Sri, and Biswas, Kunal

Abstract

The usage of manufactured nanoparticles has grown over the past few decades in a variety of fields, including biomedicine, diagnostics, and environmental remediation, raising serious public concerns. Due to their numerous features, magnetic nanoparticles (MNPs) have attracted the most attention among these nanoparticles in the fields of medicine, pharmacology, drug delivery systems, molecular imaging, and biosensing. It is essential to note that whilst the systems' sizes are getting smaller due to the manufacturing of magnetic nanoparticles, the methods used to interpret their properties—bottom-up for the latter and top-down for the former—remain distinct. Here, we emphasise the necessity for a shared perspective whilst outlining the current state of the two domains and offering some predictions for potential future advancements. The review study discusses the use of MNPs in biomedicine, explains how they interact with living things, and assesses their toxicity. Also, clarify biocompatibility and add more information about the drug delivery system, such as targeted drug delivery. A thorough explanation of how MRI and the MNP work together is provided. Particular MNP applications were demonstrated using MRI, CT, and bioimaging. This would allow us to examine drug transport, tumour interaction, and toxicity. Additionally, difficulties with nanoparticles have been discussed, including stability, environmental toxicity, and safety measures. This review attempts to present a comprehensive summary of the state of current knowledge in magnetic nanoparticle research. [ABSTRACT FROM AUTHOR]

Published

2023

159. Insights into the Potential Effects of Micro(nano)plastic-Containing Nanoparticles in the Environment.

Author

Fito López, Carlos, Díaz Soler, Beatriz, Guillem-Amat, Ana, and Andreu Sánchez, Oscar

Abstract

Micro(nano)plastics (MNPs) can be generated from a variety of sources, including the breakdown of larger plastic items, the abrasion of synthetic textiles, and the fragmentation of plastic waste. These particles can become airborne and be transported by wind, potentially leading to their presence in the atmosphere. Due to their widespread applications, ZnO particles at the nanometer range have attractive proprieties that make them appropriate for being combined with polymers, especially PET (polyethylene terephthalate), the most commonly used polymer in the packaging sector. Nevertheless, ZnO NPs have a potential ecotoxicity that could be reflected in PET-ZnO composites reaching the environment in the form of micro(nano)plastics. To assess the potential release of PET-ZnO, as well as the ecotoxicity of ZnO NPs, PET-ZnO and weathered composites were analyzed. The ecotoxicity of PET-ZnO was tested in organisms representing different food-chain levels and compared to ZnO NPs' ecotoxicity. The composite form contained a stable dispersion of around 3.7% of NPs uniformly scattered in the polymeric matrix. ZnO NPs were toxic to Vibrio fischeri and Brachionus calyciflorus. PET-ZnO did not exhibited any toxicity to the organisms studied, while a moderate level of toxicity was observed for the weathered forms. [ABSTRACT FROM AUTHOR]

Published

2023

160. Chlorpyrifos induced oxidative stress responses and alteration of acetylcholinesterase activity in the olfactory organ of freshwater minor carp, Labeo bata.

Author

SAMAJDAR, Ishita, SAHA, Shubhajit, and MANDAL, Dipak Kumar

Published

2023

161. Nanomaterials for Potential Detection and Remediation: A Review of Their Analytical and Environmental Applications.

Author

Salazar Sandoval, Sebastián, Bruna, Tamara, Maldonado-Bravo, Francisca, Jara, Paul, Caro, Nelson, Rojas-Romo, Carlos, González-Casanova, Jorge, Gómez, Diana Rojas, Yutronic, Nicolás, Urzúa, Marcela, and Rodríguez-San Pedro, Annia

Subjects

POLLUTANTS, NANOSTRUCTURED materials, PRECIOUS metals, ENVIRONMENTAL remediation, AIR quality

Abstract

The rapid increase in industrialization and human population is leading to critical levels of environmental pollutants, such as agrochemicals or heavy metals, which affect the preservation and integrity of ecosystems, the accessibility to drinking water sources, and the quality of the air. As such, remediation of these issues demands strategies for implementing and designing novel technologies. In that regard, nanomaterials have unique physicochemical properties that make them desirable candidates for the detection and remediation of environmental pollutants. The scope of this review is to provide an analysis of the available nanomaterials that are being used as an approach to detect and remediate hazardous residues, comprising systems such as noble metals, biosensors, cyclodextrin-based polymers, and graphene oxide nanocomposites, to name a few. Furthermore, this work discusses said nanomaterials in terms of their effectiveness, sustainability, and selectivity as a guideline for researchers wishing to indulge in this relevant study area. [ABSTRACT FROM AUTHOR]

Published

2023

162. Valutare per decidere: un monitoraggio qualitativo degli investimenti pubblici.

Author

Scardigno, Fausta, Balenzano, Caterina, and Moro, Giuseppe

Subjects

DECISION making, STAKEHOLDER theory, SOCIAL responsibility of business, STAKEHOLDERS, ACTUATORS, CONTENT analysis, COMPUTER software

Abstract

Copyright of Rassegna Italiana di Valutazione is the property of FrancoAngeli srl and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2008

163. Exposure to Oxidized Multi-Walled CNTs Can Lead to Oxidative Stress in the Asian Freshwater Clam Corbicula fluminea (Müller, 1774).

Author

Cid-Samamed, Antonio, Correa-Duarte, Miguel Ángel, Mariño-López, Andrea, and Diniz, Mário S.

Subjects

CORBICULA fluminea, CARBON nanotubes, FRESHWATER mussels, MULTIWALLED carbon nanotubes, OXIDATIVE stress, RAMAN microscopy

Abstract

The increasing attention that carbon-based nanomaterials have attracted due to their distinctive properties makes them one of the most widely used nanomaterials for industrial purposes. However, their toxicity and environmental effects must be carefully studied, particularly regarding aquatic biota. The implications of these carbon-based nanomaterials on aquatic ecosystems, due to their potential entry or accidental release during manufacturing and treatment processes, need to be studied because their impacts upon living organisms are not fully understood. In this research work, the toxicity of oxidized multi-walled carbon nanotubes (Ox-MWCNTs) was measured using the freshwater bivalve (Corbicula fluminea) after exposure to different concentrations (0, 0.1, 0.2, and 0.5 mg·L−1 Ox-MWCNTs) for 14 days. The oxidized multi-walled carbon nanotubes were analyzed (pH, Raman microscopy, high-resolution electron microscopy, and dynamic light scattering), showing their properties and behavior (size, aggregation state, and structure) in water media. The antioxidant defenses in the organism's digestive gland and gills were evaluated through measuring oxidative stress enzymes (glutathione-S-transferase, catalase, and superoxide dismutase), lipid peroxidation, and total ubiquitin. The results showed a concentration-dependent response of antioxidant enzymes (CAT and GST) in both tissues (gills and digestive glands) for all exposure periods in bivalves exposed to the different concentrations of oxidized multi-walled carbon nanotubes. Lipid peroxidation (MDA content) showed a variable response with the increase in oxidized multi-walled carbon nanotubes in the gills after 7 and 14 exposure days. Overall, after 14 days, there was an increase in total Ub compared to controls. Overall, the oxidative stress observed after the exposure of Corbicula fluminea to oxidized multi-walled carbon nanotubes indicates that the discharge of these nanomaterials into aquatic ecosystems can affect the biota as well as potentially accumulate in the trophic chain, and may even put human health at risk if they ingest contaminated animals. [ABSTRACT FROM AUTHOR]

Published

2023

164. Study on the Isotherms, Kinetics, and Thermodynamics of Adsorption of Crystal Violet Dye Using Ag-NPs-Loaded Cellulose Derived from Peanut-Husk Agro-Waste.

Author

Aljeddani, Ghalia Saleem, Alghanmi, Reem Mohammad, and Hamouda, Ragaa A.

Subjects

GENTIAN violet, THERMODYNAMICS, CELLULOSE, LANGMUIR isotherms, ADSORPTION (Chemistry), ATMOSPHERIC temperature

Abstract

A huge amount of textile dyes are released as industrial waste into the environment each year, which alters the water's natural appearance and causes toxicity and carcinogenicity in the human body. Peanut husk is considered an agro-waste and contains many valuable compounds, such as cellulose. Different concentrations of cellulose were extracted from peanut husk and then loaded with bio-silver nanoparticles, which were fabricated using neem leaves (Azadirachta indica) as a reducing agent to form Ag-cellulose nanocomposites (Ag-Cell-NCMs). Different devices were used to characterize Ag-Cell-NCMs. The TEM images displayed that the size of Ag-Cell-NCMs ranged between 13.4 and 17.4 nm after dye adsorption. The Ag-Cell-NCMs were used to adsorb toxic dyes such as crystal violet (CV). Different parameters were applied, such as the ratio of cellulose to Ag-NPs, pH, contact time, adsorbent dose, dye concentration, and the temperature required to reach the optimization conditions to remove CV dye from the aqueous solution. Different kinetics and isotherm models were applied to the experimental data to explain the mechanism of the adsorption process. The adsorption of CV on Ag-Cell-NCMs follows the pseudo-second order, and the best-fit isotherm was the Langmuir isotherm. The new composite was tested for the possibility of dye desorption and ability to be reused several times, and we found that the new nanocomposite can be reused for multiple adsorptions and there is a possibility of dye desorption. [ABSTRACT FROM AUTHOR]

Published

2023

165. Phytotoxic impact of bifunctionalized silver nanoparticles (AgNPs-Cit-L-Cys) and silver nitrate (AgNO3) on chronically exposed callus cultures of Populus nigra L.

Author

Iori, Valentina, Muzzini, Valerio Giorgio, Venditti, Iole, Casentini, Barbara, and Iannelli, Maria Adelaide

Subjects

BLACK poplar, SILVER nanoparticles, SILVER nitrate, CALLUS (Botany), PHYTOTOXICITY

Abstract

Owing to the unique physicochemical properties and the low manufacturing costs, silver nanoparticles (AgNPs) have gained growing interest and their application has expanded considerably in industrial and agricultural sectors. The large-scale production of these nanoparticles inevitably entails their direct or indirect release into the environment, raising some concerns about their hazardous aspects. Callus culture represents an important tool in toxicological studies to evaluate the impact of nanomaterials on plants and their potential environmental risk. In this study, we investigated the chronic phytotoxic effects of different concentrations of novel bifunctionalized silver nanoparticles (AgNPs-Cit-L-Cys) and silver nitrate (AgNO3) on callus culture of Populus nigra L., a pioneer tree species in the riparian ecosystem. Our results showed that AgNPs-Cit-L-Cys were more toxic on poplar calli compared to AgNO3, especially at low concentration (2.5 mg/L), leading to a significant reduction in biomass production, accompanied by a decrease in protein content, a significant increase in both lipid peroxidation level, ascorbate peroxidase (APX), and catalase (CAT) enzymatic activities. In addition, these findings suggested that the harmful activity of AgNPs-Cit-L-Cys might be correlated with their physicochemical properties and not solely attributed to the released Ag+ ions and confirmed that AgNPs-Cit-L-Cys phytoxicity is associated to oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2023

166. Visual mapping of global nanoplastics research progresses and hotspots: a scientometric assessment analysis.

Author

Wang, Ruiping, Yue, Shizhong, Huang, Caide, Jia, Li, Tibihenda, Cevin, Li, Zhenghua, and Yu, Jiafeng

Subjects

PLASTIC scrap, HUMIC acid, DATABASES, RESEARCH personnel, FRESH water, IDENTIFICATION

Abstract

Environmental plastic wastes are continuously degraded into microplastics (MPs) and nanoplastics (NPs); the latter are more potentially harmful to organisms and human health as their smaller size and higher surface-to-volume ratio. Previous reviews on NPs mainly concentrate on specific aspects, such as sources, environmental behavior, and toxicological effects, but few focused on NPs-related scientific publications from a global point of view. Therefore, this bibliometric study aims to summarize the research themes and trends on NPs and also propose potential directions for future inquiry. Related papers were downloaded from the Web of Science Core Collection database on NPs published from 2008 to 2021, and then retrieved information was analyzed using CiteSpace 6.1 R2 and VOSviewer (version 1.6.). Research on NPs mainly involved environmental behaviors, toxicological effects, identification and extraction of NPs, whereas aquatic environments, especially marine systems, attracted more attentions from these scientists compare to terrestrial environments. Furthermore, the adsorption behavior of pollutants by NPs and the toxicological effects of organisms exposed to NPs are the present hotspots, while the regulation of humic acid (HA) on NPs behaviors and the environmental behavior of NPs in freshwater, like rivers and lakes, are the frontier areas of research. This study also explored the possible opportunities and challenges that may be faced in NPs research, which provide a valuable summary and outlook for ongoing NPs-related research, which may be of intrigue and noteworthiness for relevant researchers. [ABSTRACT FROM AUTHOR]

Published

2023

167. Microplastics in environment: a comprehension on sources, analytical detection, health concerns, and remediation.

Author

Goyal, Tanish, Singh, Sukhwinder, Das Gupta, Ghanshyam, and Verma, Sant Kumar

Subjects

SEAFOOD, MICROPLASTICS, SEWAGE disposal plants, FOOD containers, CONVENIENCE foods, SALT, AIR injection of groundwater

Abstract

Contamination of ecosystems by microplastics (MPs) has been reported intensively worldwide in the recent decade. A trend of reports indicated their presence in the atmosphere; food items and soil ecosystems are rising continuously. Literature evidenced that MPs are abundant in seawater, beach sand, drinking water, agricultural soils, wastewater treatment plant (WWTP) effluent, and the atmosphere. The greater abundance of MPs in the environment has led to their invasion of seafood, human-consumed food items such as table salts, beverages, takeout food containers, and disposable cups, marine biological lives, and creating serious health hazards in humans. Moreover, the absence of guidelines and specifications for controlling MPs in the environment makes the situation alarming, and the human toxicity data of MPs is scarce. Thereby, the toxicity assessment of MPs in humans is of greater concern. This review compiles the updated information on the potential sources of MPs in different components of the environment (viz. soil, water, and air), their analysis methods, effects on human health, and remediation methods. [ABSTRACT FROM AUTHOR]

Published

2023

168. Application of Nanomaterials in the Production of Biomolecules in Microalgae: A Review.

Author

Yuan, Xiaolong, Gao, Xiang, Liu, Chang, Liang, Wensheng, Xue, Huidan, Li, Zhengke, and Jin, Haojie

Abstract

Nanomaterials (NMs) are becoming more commonly used in microalgal biotechnology to empower the production of algal biomass and valuable metabolites, such as lipids, proteins, and exopolysaccharides. It provides an effective and promising supplement to the existing algal biotechnology. In this review, the potential for NMs to enhance microalgal growth by improving photosynthetic utilization efficiency and removing reactive oxygen species is first summarized. Then, their positive roles in accumulation, bioactivity modification, and extraction of valuable microalgal metabolites are presented. After the application of NMs in microalgae cultivation, the extracted metabolites, particularly exopolysaccharides, contain trace amounts of NM residues, and thus, the impact of these residues on the functional properties of the metabolites is also evaluated. Finally, the methods for removing NM residues from the extracted metabolites are summarized. This review provides insights into the application of nanotechnology for sustainable production of valuable metabolites in microalgae and will contribute useful information for ongoing and future practice. [ABSTRACT FROM AUTHOR]

Published

2023

169. A road map on synthetic strategies and applications of biodegradable polymers.

Author

Meghana, M. C., Nandhini, C., Benny, Libina, George, Louis, and Varghese, Anitha

Subjects

ROAD maps, BIODEGRADABLE plastics, POISONS, POLYMERS, BIODEGRADABLE nanoparticles, POLYLACTIC acid, POLYETHYLENE glycol

Abstract

Biodegradable polymers have emerged as fascinating materials due to their non-toxicity, environmentally benign nature and good mechanical strength. The toxic effects of non-biodegradable plastics paved way for the development of sustainable and biodegradable polymers. The engineering of biodegradable polymers employing various strategies like radical ring opening polymerization, enzymatic ring opening polymerization, anionic ring opening polymerization, photo-initiated radical polymerization, chemoenzymatic method, enzymatic polymerization, ring opening polymerization and coordinative ring opening polymerization have been discussed in this review. The application of biodegradable polymeric nanoparticles in the biomedical field and cosmetic industry is considered to be an emerging field of interest. However, this review mainly highlights the applications of selected biodegradable polymers like polylactic acid, poly(ε-caprolactone), polyethylene glycol, polyhydroxyalkanoates, poly(lactide-co-glycolide) and polytrimethyl carbonate in various fields like agriculture, biomedical, biosensing, food packaging, automobiles, wastewater treatment, textile and hygiene, cosmetics and electronic devices. [ABSTRACT FROM AUTHOR]

Published

2023

170. Bacterial Interactions with Nanoplastics and the Environmental Effects They Cause.

Author

Wang, Rongyu, Li, Xiaodong, Li, Jing, Dai, Wei, and Luan, Yaning

Subjects

ECOLOGICAL risk assessment, BACTERIAL cell membranes, LITERATURE reviews, BIOFILMS, BACTERIAL mutation, BACTERIAL enzymes, BACTERIAL communities

Abstract

Recently, there has been an increase in interest in the relationship between microorganisms and micro/nanoplastics. Particularly in natural environments, bacteria play an important role. For the ecological risk assessment of plastic particles, a proper understanding of how bacteria and plastic particles interact is crucial. According to a review of the research, the interaction between bacteria and nanoplastics is primarily caused by the interaction of nanoplastics with bacterial cell membranes and the induction of oxidative stress, which can have an impact on bacterial growth, lead to alterations in biofilm production, and induce bacterial gene mutations. On a more general scale, the high concentration of nanoplastics in the environment can increase the likelihood of organic pollution reaching microbial communities, altering the gene abundance of bacteria involved in material cycling, and decreasing the activity of bacterial functional enzymes, all of which can obstruct the cycling of environmental elements. The majority of current research relies on laboratory tests, and the modeled NPs employed may be considerably dissimilar from those found in the environment. In order to provide a guide for environmental management in the future, it will be necessary to analyze the effects of nanoplastics and bacteria on the environment under actual environmental conditions to help us comprehend the relationship between nanoplastics and bacteria and their ecological impacts. [ABSTRACT FROM AUTHOR]

Published

2023

171. Polystyrene Nanoplastics in Aquatic Microenvironments Affect Sperm Metabolism and Fertilization of Mytilus galloprovincialis (Lamark, 1819).

Author

Contino, Martina, Ferruggia, Greta, Indelicato, Stefania, Pecoraro, Roberta, Scalisi, Elena Maria, Salvaggio, Antonio, and Brundo, Maria Violetta

Subjects

MYTILUS galloprovincialis, POLYSTYRENE, SPERMATOZOA, METABOLISM, GAMETES, CELL membranes, LARVAL dispersal

Abstract

The continuous and unregulated discharge of wastes and pollutants into the aquatic environment has required constant monitoring of the risks incurred by aquatic ecosystems. Alarmism arises from plastic pollution as larger artifacts release nanoscale fragments that can contact free-living stages such as gametes, embryos, and larvae. Specifically, the interaction between spermatozoa, released in water in externally fertilizing species, and the surrounding microenvironment is essential for successful fertilization. Activation and kinematics of movement, proper maintenance of ionic balance, and chemotactism are processes highly sensitive to even minimal perturbations caused by pollutants such as polystyrene nanoplastics. Spermatozoa of Mytilus galloprovincialis (M. galloprovincialis), an excellent ecotoxicological model, undergo structural (plasma membrane ruptures, DNA damage) and metabolic (reduced motility, fertilizing capacity) damage upon exposure to 50 nm amino-modified polystyrene nanoplastics (nPS-NH2). Nanoplastics of larger diameter (100 nm) did not affect sperm parameters. The findings highlighted the negative impact that plastic pollution, related to nanoparticle diameter and concentration, could have on sperm quality and reproductive potential of organisms, altering the equilibrium of aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

172. Indication of West Nile Virus (WNV) Lineage 2 Overwintering among Wild Birds in the Regions of Peloponnese and Western Greece.

Author

Athanasakopoulou, Zoi, Sofia, Marina, Skampardonis, Vassilis, Giannakopoulos, Alexios, Birtsas, Periklis, Tsolakos, Konstantinos, Spyrou, Vassiliki, Chatzopoulos, Dimitris C., Satra, Maria, Diamantopoulos, Vassilis, Mpellou, Spyridoula, Galamatis, Dimitrios, G. Papatsiros, Vasileios, and Billinis, Charalambos

Subjects

WEST Nile virus, MOSQUITO control, BIRD populations, MOSQUITO vectors, POPULATION density

Abstract

Simple Summary: West Nile virus (WNV) is one of the most widespread zoonotic arboviruses worldwide and wild avian species act as its amplifying hosts in nature. In the present study, WNV circulation among wild birds was evaluated in two regions of Greece during 2022. A total of 511 birds were sampled and screened for WNV RNA. The virus was detected in 71 samples from both regions, during February to November. Population density and distance from water sources were identified as important factors associated with WNV occurrence. In conclusion, these findings show that WNV circulated in both investigated regions of Greece during 2022, highlighting the need for avian species surveillance to be conducted annually and throughout the year. Magpies are proposed as sentinels for WNV monitoring. West Nile virus (WNV), a zoonotic mosquito-borne virus, has recently caused human outbreaks in Europe, including Greece. Its transmission cycle in nature includes wild birds as amplifying hosts and ornithophilic mosquito vectors. The aim of this study was to assess WNV circulation among wild birds from two regions of Greece, Peloponnese and Western Greece, during 2022. To this end, a total of 511 birds belonging to 37 different species were sampled and molecularly screened. WNV RNA was detected from February to November in a total of 71 wild birds of nine species originating from both investigated regions. The first eight positive samples were sequenced on a part of NS3 and, according to the phylogenetic analysis, they belonged to evolutionary lineage 2 and presented similarity to previous outbreak-causing Greek strains (Argolis 2017, Macedonia 2010 and 2012). It was more likely to identify a PCR positive bird as the population density and the distance from water sources decreased. The present report provides evidence of WNV occurrence in both Peloponnese and Western Greece during 2022 and underlines its possible overwintering, highlighting the need for avian species surveillance to be conducted annually and throughout the year. Magpies are proposed as sentinels for WNV monitoring. [ABSTRACT FROM AUTHOR]

Published

2023

173. Recovery and restoration potential of cold‐water corals: experience from a deep‐sea marine protected area.

Author

Strong, James A., Piechaud, Nils, De Clippele, Laurence H., Bett, Brian J., Horton, Tammy, Corbera, Guillem, and Huvenne, Veerle A. I.

Subjects

DEEP-sea corals, DREDGING (Fisheries), MARINE parks & reserves, GLASS-reinforced plastics, WATER depth, CORAL reef restoration, OCEAN bottom

Abstract

Cold‐water corals (CWCs) are important species that provide habitat for other taxa but are sensitive to mechanical damage from bottom trawling. CWC conservation has been implemented in the form of marine protected areas (MPAs), but recovery from impact may be particularly slow in the deep‐sea environment; consequently, the use of restoration techniques has been considered. To gain some insight into CWC recruitment and growth, in 2011 we deployed small seabed moorings in the Darwin Mounds MPA (~1,000 m water depth). This site hosts hundreds of CWC mounds, that had previously (until 2003) been impacted by deep‐water trawling. In 2019, we carried out in situ visual surveys of these moorings and the surrounding seabed environment, then recovered two of the moorings. The mooring buoys, glass floats with plastic covers, were extensively colonized by a diverse epifauna that included the CWCs Desmophyllum pertusum and D. dianthus. The presence of coral recruits indicated that environmental conditions, and larval supply, remained favorable for the settlement and growth of CWCs within the MPA. Based on our observations, we consider four possible restoration methods, together with a "do‐nothing" option, for the Darwin Mounds CWCs that have shown little, if any, natural recovery despite 16 years of protection. We conclude that seabed emplacement of high‐relief artificial substrata is likely to be the most efficient and cost‐efficient means of promoting enhanced recovery of the CWCs. [ABSTRACT FROM AUTHOR]

Published

2023

174. Recent Study of Separation and Identification of Micro- and Nanoplastics for Aquatic Products.

Author

Xu, Jin, Wu, Gan, Wang, Hao, Ding, Zhaoyang, and Xie, Jing

Subjects

CHEMICAL properties, FOOD safety, BIVALVES, EVERYDAY life, CRUSTACEA

Abstract

Micro- and nanoplastics (MNPs) are polymeric compounds widely used in industry and daily life. Although contamination of aquatic products with MNPs exists, most current research on MNPs focuses on environmental, ecological, and toxicological studies, with less on food safety. Currently, the extent to which aquatic products are affected depends primarily on the physical and chemical properties of the consumed MNPs and the content of MNPs. This review presents new findings on the occurrence of MNPs in aquatic products in light of their properties, carrier effects, chemical effects, seasonality, spatiality, and differences in their location within organisms. The latest studies have been summarized for separation and identification of MNPs for aquatic products as well as their physical and chemical properties in aquatic products using fish, bivalves, and crustaceans as models from a food safety perspective. Also, the shortcomings of safety studies are reviewed, and guidance is provided for future research directions. Finally, gaps in current knowledge on MNPs are also emphasized. [ABSTRACT FROM AUTHOR]

Published

2023

175. Study on the Effect of Hydrothermal Carbonization Parameters on Fuel Properties of Sewage Sludge Hydrochar.

Author

Hejna, Małgorzata, Świechowski, Kacper, and Białowiec, Andrzej

Subjects

HYDROTHERMAL carbonization, SEWAGE sludge, SLUDGE management, HYDROTHERMAL deposits, ALTERNATIVE fuels, ENERGY consumption, CARBONIZATION

Abstract

In the wake of economic and population growth, increased wastewater production poses a challenge related to sewage sludge treatment, which is problematic given its high moisture content, amount, and hazardous characteristics. This study focuses on the hydrothermal carbonization of sewage sludge to produce carbonous material–hydrochar, which may be an alternative to fossil fuels. The effect of process parameters, namely, temperature (180, 240, 300 °C) and duration time (30, 90, 180 min), on hydrochar properties (proximate and ultimate analysis, heating values) and process performance were studied. Obtained results indicate and confirm that hydrothermal carbonization, especially temperature increase, improves the fuel properties of carbonized sewage sludge. The highest low heating value was obtained for hydrochar derived at 300 °C in 180 min (~23 MJ × kg−1). The highest energy gain was noted for hydrochar derived at 240 °C in 180 min (~23%). As well as relatively high mass and energy yield in comparison to other hydrochars, these parameters are considered the most favorable for sewage sludge hydrothermal carbonization. However, high energy consumption (over 1300 kJ × g−1) suggests that more research on the process's economical efficacy is required. [ABSTRACT FROM AUTHOR]

Published

2023

176. Occurrence, fate, and impact of engineered metal/carbonaceous nanomaterials in the environment, detection, and quantitation methods.

Author

Hendricks, N., Olatunji, O., Ofori, I., and Gumbi, B. P.

Subjects

NANOSTRUCTURED materials, SEWAGE disposal plants, CARBON-based materials, TRANSITION metals

Abstract

Nanomaterials (NMs) are nanoscale materials of different shapes that are made of a variety of materials such as carbon, silicon, and transition metals. Wastewater treatment plants and nano-enabled consumer products have been identified as major sources of nanomaterials in the environment. Findings from many research studies revealed nanomaterials to be toxic to non-targeted species. Despite presenting an ecological risk to the environment and human health, little is known about the occurrence, formation, transport, and environmental impacts, owing to limited regulated quantitative and sensitive techniques for their assessment. More also, the realisation of nanomaterials' impact on the environment depends on emerging analytical methods. Therefore, it is paramount to continuously develop and optimise analytical methods that are promising to sensitively detect and quantify the nanomaterials in trace and ultra-trace levels in the environment. In this review, we discuss engineered metal/carbonaceous nanomaterials; production, pathways, fate, impact, toxicity, and their analytical methods of detection and quantification from the current literature. [ABSTRACT FROM AUTHOR]

Published

2023

177. Microbiome-mediated nano-bioremediation of heavy metals: a prospective approach of soil metal detoxification.

Author

Saleem, S., Rizvi, A., and Khan, M. S.

Subjects

IRON oxides, HEAVY metal toxicology, METALS, THERMAL desorption, SOIL stabilization, HEAVY metals, SOIL washing, HEXAVALENT chromium

Abstract

Heavy metal pollution has increased alarmingly due largely to industrialization, intensive agricultural practices and other anthropogenic activities. Soil heavy metal contamination is the serious threat to the food security worldwide. Due to non-degradative nature, metals persist for a longer period of time in the environment, can be toxic to human health and environments. Acknowledging the toxicity threat, various physical, chemical and biological detoxification strategies such as soil stabilization, soil excavation, soil washing, thermal desorption, chemical extraction and phytoremediation, have been employed in laboratory and under field conditions to treat metal contamination. Such techniques have not completely been successful due to cost, technical complexity, generation of secondary pollutants and conflicting results. Nanotechnology, a rapidly evolving field, has recently been used to remediate hazardous metals. Nanoparticles due to their unique chemical and physical properties are considered important in toxicity alleviation from contaminated environment. The integrated nanoparticles-bioremediation strategies called nano-bioremediation is other promising option that stimulate microbiome functions to remove harmful contaminants from the polluted area. The reported metal removal efficiency of nanobioremediation varies between 12% with biogenic palladium nanoparticle prepared from Spirulina platensis to 100% with iron oxide nanoparticle of Geobacter sulforeducens for palladium and chromium, respectively. This review provides the recent information available in literature about the role of nanotechnology in the metal amelioration from contaminated soils. Understanding the mechanistic interactions between soil microbiome, nanoparticles and contaminants is of paramount importance to explore the microbes-based nanoremediation strategies in the inexpensive abatement of metal enriched environment vis-à-vis crop optimization in contaminated fields. [ABSTRACT FROM AUTHOR]

Published

2023

178. Nanotechnologies for environmental remediation and their ecotoxicological impacts.

Author

Ejaz, Mahnoor, Gul, Alvina, Ozturk, Munir, Hafeez, Ahmed, Turkyilmaz Unal, Bengu, Jan, Sami Ullah, and Siddique, Muhammad Taimur

Abstract

Environmental nanoremediation is an emerging technology that aims to rapidly and efficiently remove contaminants from the polluted sites using engineered nanomaterials (ENMs). Inorganic nanoparticles which are generally metallic, silica-based, carbon-based, or polymeric in nature serve to remediate through chemical reactions, filtration, or adsorption. Their greater surface area per unit mass and high reactivity enable them to treat groundwater, wastewater, oilfields, and toxic industrial contaminants. Despite the growing interest in nanotechnological solutions for bioremediation, the environmental and human hazard associated with their use is raising concerns globally. Nanoremediation techniques when compared to conventional remediation solutions show increased effectivity in terms of cost and time; however, the main challenge is the ability of ENMs to remove contaminants from different environmental mediums by safeguarding the ecosystem. ENMs improving the accretion of the pollutant and increasing their bioavailability should be rectified along with the vigilant management of their transfer to the upper levels of the food chain which subsequently causes biomagnification. The ecosystem-centered approach will help monitor the ecotoxicological impacts of nanoremediation considering the safety, sustainability, and proper disposal of ENMs. The environment and human health risk assessment of each novel engineered nanomaterial along with the regulation of life cycle assessment (LCA) tools of ENMs for nanoremediation can help investigate the possible environmental hazard. This review focuses on the currently available nanotechnological methods used for environmental remediation and their potential toxicological impacts on the ecosystem. [ABSTRACT FROM AUTHOR]

Published

2023

179. Growth Performance, Feed Utilisation, Digestive and Metabolic Enzyme Activity, and Liver Morphohistology in Hybrid Tilapia (Oreochromis mossambicus × Oreochromis niloticus) Juveniles Fed with the Inclusion of Chitosan in Their Diet.

Author

Méndez-Martínez, Yuniel, Vera-Veliz, Alan Rodrigo, Cortés-Jacinto, Edilmar, Cruz-Quintana, Yanis, Botello-Leon, Aroldo, Mendoza-Carranza, Pedro Daniel, and Calvo, Natalia S.

Subjects

FISH feeds, MOZAMBIQUE tilapia, NILE tilapia, DIGESTIVE enzymes, CHITOSAN, TILAPIA, PRINCIPAL components analysis

Abstract

This study aimed to evaluate the growth performance, feed utilisation, digestive and metabolic enzyme activity, and liver histology in juveniles of hybrid red tilapia (Oreochromis mossambicus × Oreochromis niloticus) fed with the inclusion of chitosan in their diet. Six dietary chitosan levels (0 "control", 10, 20, 30, 40, and 50 g kg−1) were used to feed juvenile fish (initial weight 7.50 ± 0.20 g) that were cultured for eight weeks in 18 tanks at a density of 15 fish/tank. The growth performance presented significant differences (p ˂ 0.05) for weight gain, specific growth rate, feed conversion ratio, hepatosomatic index, and survival rate. The digestive and metabolic enzyme activities were significantly (p < 0.05) influenced by the levels of chitosan in the administered diet. Histologically, no damage was found in the liver; however, morphometrically, a significant difference (p < 0.05) was found in the hepatocyte area and sinusoid area. Vacuolisation of hepatocytes was found in treatments with 40 and 50 g kg−1 of chitosan in the diet. Treatments with doses of chitosan showed a better response (p < 0.05) compared to the control treatment in most of the different groups of variables analysed. The result of the principal component analysis suggests that a diet containing 40 g kg−1 of chitosan is optimal for tilapia growth performance. [ABSTRACT FROM AUTHOR]

Published

2023

180. Contaminants from dredged sediments alter the transcriptome of Manila clam and induce shifts in microbiota composition.

Author

Bernardini, Ilaria, Quagliariello, Andrea, Peruzza, Luca, Martino, Maria Elena, Dalla Rovere, Giulia, Iori, Silvia, Asnicar, Davide, Ciscato, Maria, Fabrello, Jacopo, Corami, Fabiana, Cecchetto, Martina, Giubilato, Elisa, Carrer, Claudio, Bettiol, Cinzia, Semenzin, Elena, Marcomini, Antonio, Matozzo, Valerio, Bargelloni, Luca, Milan, Massimo, and Patarnello, Tomaso

Subjects

MANILA clam, LAGOONS, CANALS, SEDIMENTS, POLLUTANTS, CONTAMINATED sediments, ATP-binding cassette transporters

Abstract

Background: The reuse of dredged sediments in ports and lagoons is a big issue as it should not affect the quality and the equilibrium of ecosystems. In the lagoon of Venice, sediment management is of crucial importance as sediments are often utilized to built-up structures necessary to limit erosion. However, the impact of sediment reuse on organisms inhabiting this delicate area is poorly known. The Manila clam is a filter-feeding species of high economic and ecological value for the Venice lagoon experiencing a drastic decline in the last decades. In order to define the molecular mechanisms behind sediment toxicity, we exposed clams to sediments sampled from different sites within one of the Venice lagoon navigable canals close to the industrial area. Moreover, we investigated the impacts of dredged sediments on clam's microbial communities. Results: Concentrations of the trace elements and organic chemicals showed increasing concentrations from the city of Venice to sites close to the industrial area of Porto Marghera, where PCDD/Fs and PCBs concentrations were up to 120 times higher than the southern lagoon. While bioaccumulation of organic contaminants of industrial origin reflected sediments' chemical concentrations, metal bioaccumulation was not consistent with metal concentrations measured in sediments probably due to the activation of ABC transporters. At the transcriptional level, we found a persistent activation of the mTORC1 signalling pathway, which is central in the coordination of cellular responses to chemical stress. Microbiota characterization showed the over-representation of potential opportunistic pathogens following exposure to the most contaminated sediments, leading to host immune response activation. Despite the limited acquisition of new microbial species from sediments, the latter play an important role in shaping Manila clam microbial communities. Conclusions: Sediment management in the Venice lagoon will increase in the next years to maintain and create new canals as well as to allow the operation of the new mobile gates at the three Venice lagoon inlets. Our data reveal important transcriptional and microbial changes of Manila clams after exposure to sediments, therefore reuse of dredged sediments represents a potential risk for the conservation of this species and possibly for other organisms inhabiting the Venice lagoon. [ABSTRACT FROM AUTHOR]

Published

2023

181. Culturing the Plastisphere: comparing methods to isolate culturable bacteria colonising microplastics.

Author

Stevenson, Emily M., Buckling, Angus, Cole, Matthew, Lindeque, Penelope K., and Murray, Aimee K.

Subjects

PLASTIC marine debris, MICROPLASTICS, GLASS beads, MICROBIAL communities, BACTERIA, OPACITY (Optics), BIODEGRADABLE plastics, POLYETHYLENE

Abstract

Microplastics quickly become colonised by diverse microbial communities, known as the Plastisphere. There is growing concern that microplastics may support the enrichment and spread of pathogenic or antimicrobial resistant microorganisms, although research to support the unique role of microplastics in comparison to control particles remains inconclusive. Limitations to this research include the microbiological methods available for isolating adhered microbes. Culture-based methods provide some of the most established, accessible and cost-effective microbiological protocols, which could be extremely useful in helping to address some of the remaining key questions in Plastisphere research. Previous works have successfully cultured bacteria from plastics, but these have not yet been reviewed, nor compared in efficiency. In this study, we compared four common biofilm extraction methods (swabbing, sonication, vortexing, sonication followed by vortexing) to extract and culture a mixed community of bacteria from both microplastic (polyethylene, polypropylene and polystyrene) and control (wood and glass) particles. Biofilm extraction efficiency and viability of bacterial suspension was determined by comparing CFU/mL of four different groups of bacteria. This was verified against optical density and 16S rRNA qPCR. Overall, we found that all tested methods were able to remove biofilms, but to varying efficiencies. Sonicating particles with glass beads for 15 min, followed by vortexing for a further minute, generated the highest yield and therefore greatest removal efficiency of culturable, biofilm-forming bacteria. [ABSTRACT FROM AUTHOR]

Published

2023

182. New Fluorophore and Its Applications in Visualizing Polystyrene Nanoplastics in Bean Sprouts and HeLa Cells.

Author

Xing, Guo-Wen, Gao, Jerry, Wang, Heng, and Liu, Yi-Chen

Subjects

HELA cells, SPROUTS, POLYSTYRENE, ENVIRONMENTAL sciences, STAINS & staining (Microscopy), MUNG bean

Abstract

In the domain of environmental science, pollutants of nanoscale plastic dimensions are acknowledged as subjects of intricate significance. Such entities, though minuscule, present formidable challenges to ecological systems and human health. The diminutive dimensions of these contaminants render their detection arduous, thus demanding the inception of avant-garde methodologies. The present manuscript postulates the employment of the tetraphenylethylene functional group with a fused xanthene (TPEF), a distinguished fluorophore, as an exemplary system for the discernment of nanoplastic particulates. The synthesis and characterization of TPEF have been exhaustively elucidated, revealing its paramount fluorescence attributes and inherent affinity for interaction with nanoplastics. When subjected to comparison with TPEF, nanoplastics are observed to manifest a more pronounced fluorescent luminescence than when associated with the conventional Nile Red (NR). Particularly, the TPEF has shown exceptional affinity for polystyrene (PS) nanoplastics. Further, the resilience of nanoplastics within the hypocotyl epidermis of soybeans, as well as their persistence in mung bean sprouts subsequent to rigorous rinsing protocols, has been meticulously examined. Additionally, this investigation furnishes empirical data signifying the existence of nano-dimensional plastic contaminants within HeLa cellular structures. The urgency of addressing the environmental ramifications engendered by these diminutive yet potent plastic constituents is emphatically highlighted in this manuscript. TPEF paves the way for prospective explorations, with the aspiration of devising efficacious mitigation strategies. Such strategies might encompass delineating the trajectories undertaken by nanoplastics within trophic networks or their ingress into human cellular architectures. [ABSTRACT FROM AUTHOR]

Published

2023

183. Impacts of Micro(nano)plastics on Terrestrial Plants: Germination, Growth, and Litter.

Author

Li, Xiaodong, Wang, Rongyu, Dai, Wei, Luan, Yaning, and Li, Jing

Subjects

PLASTICS plants, PLANT litter, PLANT life cycles, PLANT development, GERMINATION, PLANT growth, PLANT surfaces

Abstract

Micro(nano)plastics (MNP) are pervasive in various environmental media and pose a global environmental pollution issue, particularly in terrestrial ecosystems, where they exert a significant impact on plant growth and development. This paper builds upon prior research to analyze and consolidate the effects of MNP on soil properties, seed germination, plant growth, and litter decomposition. The objective is to elucidate the environmental behavior of MNP and their mechanisms of influence on the plant life cycle. The unique physicochemical and electrical properties of MNP enable them to modify soil structure, water retention capacity, and pH. They can potentially act as "electron shuttles" or disrupt natural "electron shuttles" in litter decomposition, thereby interfering with nutrient transport and availability in the soil. Furthermore, MNP can physically obstruct nutrient and water channels within plants, impacting nutrient and water absorption. Once infiltrating plant tissues, MNP can form eco-coronas with plant proteins. Together with MNP adsorbed on the plant's surface and within its tissues, they disrupt normal physiological processes, leading to changes in photosynthesis, biomass, cellular toxicity, genetics, nutrient uptake, and gene expression. These changes, in turn, influence seed germination and plant growth and development. As a burgeoning research field, future studies should delve deeper into various aspects of these changes, such as elucidating the pathways and mechanisms through which MNP enter plant tissues, assessing their intensity and mechanisms of toxicity on different plant species, and exploring the relationship between micro(nano)plastics and "electron shuttles". These endeavors will contribute to establishing a more comprehensive theoretical framework for understanding the environmental behavior of MNP and their impact on plants. [ABSTRACT FROM AUTHOR]

Published

2023

184. Silver Nanoparticle Sensor Array-Based Meat Freshness Inspection System.

Author

Yu, Jiahang, Huang, Mingyuan, Tian, Huixin, and Xu, Xinglian

Subjects

MEAT inspection, NANOPARTICLES, SENSOR arrays, SURFACE plasmon resonance, MEAT storage, FOOD packaging, SILVER nanoparticles

Abstract

The series of biochemical reactions, metabolic pathways, and regulatory interactions that occur during the storage of meat are the main causes of meat loss and waste. The volatile compounds produced by these reactions, such as hydrogen sulfide, acids, and amines, can directly indicate changes in the freshness of meat during storage and sales. In this study, a one-pot hydrothermal method based on a surface control strategy was used to develop nanoparticles of silver with different reactivities, which were further immobilized in agar powder to develop a colorimetric sensor array. Due to the different chemical interactions with various volatile compounds, the colorimetric sensor array exhibited distinct color changes. The study demonstrates significant differences between 12 different volatile compounds and provides a quantitative and visual method to reveal rich detection indicators. The colorimetric sensor array is an economical and practical multi-analyte identification method. It has many potential applications such as food packaging, anti-counterfeiting, health monitoring, environmental monitoring, and optical filters. [ABSTRACT FROM AUTHOR]

Published

2023

185. Ultralight sponge made from sodium alginate with processability and stability for efficient removal of microplastics.

Author

Ma, Ruojun, Feng, Yongkang, Yu, Junlong, Zhao, Xiaodong, Du, Yi, and Zhang, Xiuxia

Subjects

PLASTIC marine debris, SODIUM alginate, MICROPLASTICS, BIODEGRADABLE plastics, EMERGING contaminants, SPONGE (Material), ALGINATES, HYDROGEN bonding interactions

Abstract

Due to natural agents and human activities, large quantities of microplastics enter the marine environment. As an emerging pollutant, MPs have attracted worldwide attention and become a great challenge in recent years. Sodium alginate is a kind of natural polysaccharide with non-toxic, stability, and low cost. In this study, sodium alginate sponge was prepared by secondary freeze-drying technology. Alginate sponge contains a large number of hydrophilic groups; thus, alginate sponge has super water-absorbed (the water absorption rate range from 1193–5232%). Meanwhile, the alginate sponge has high porosity of 81.93% and excellent mechanical properties. The removal efficiency of 100 mg·L−1 microplastics by alginate sponge reached up to 92.3%. The 1 mg·L−1 and 10 mg·L−1 microplastics can be completely absorbed in 27 h and 60 h, respectively. The adsorption mechanism of microplastics adsorbed onto alginate sponge included intra-particle diffusion, hydrogen bonds interactions, and π-π interactions. In addition, the adsorption of MPs loaded Cu2+/Na+ by sponge in complex aqueous environments is still significant. This study expands the development prospect of sodium alginate sponge materials in the field of water treatment and provides a new green approach for the removal of microplastics. [ABSTRACT FROM AUTHOR]

Published

2023

186. Ecotoxicological Effects of Titanium Aluminum Carbide Composites on Biochemical and Metabolic Parameters of Galleria mellonella.

Author

Sugeçti, Serkan, Akbayrak, Serdar, Büyükgüzel, Ender, and Büyükgüzel, Kemal

Abstract

Metal composites have been extensively used in various fields such as automotive industry, medicine and pharmacy. However, the high exposure of these chemicals may have an adverse effect on the living organisms. In this study, the effect of titanium aluminum carbide (Ti3AlC2) on the model organism Galleria mellonella was investigated. The change in the metabolic enzymes such as alanine transferase, aspartate transferase, gamma-glutamyl transferase, lactate dehydrogenase, amylase, creatine kinase, alkaline phosphatase in the hemolymph of G. mellonella which was exposed to Ti3AlC2 was determined. The contents of the bilirubin, albumin, uric acid and the total protein were also measured after the Ti3AlC2 exposure on the model organism. The results of our study clearly indicate that Ti3AlC2 has adverse effects on the model organism G. mellonella. [ABSTRACT FROM AUTHOR]

Published

2023

187. The gonadal health status of Cyprinidae fish species collected from the river impacted by anthropogenic activities.

Author

Dane, Hatice and Şişman, Turgay

Subjects

ANTHROPOGENIC effects on nature, CYPRINIDAE, GENITALIA, HEAVY metals, SPECIES, RIVER pollution, WATER pollution

Abstract

Copyright of Ege Journal of Fisheries & Aquatic Sciences (EgeJFAS) / Su Ürünleri Dergisi is the property of Ege Journal of Fisheries & Aquatic Sciences (EgeJFAS) / Su Urunleri Dergisi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

188. New Insights into Nanoplastics Ecotoxicology: Effects of Long-Term Polystyrene Nanoparticles Exposure on Folsomia candida.

Author

Barreto, Angela, Santos, Joana, Andrade, Gonçalo, Santos, Matilde, and Maria, Vera L.

Subjects

CANDIDA, POLYSTYRENE, ENVIRONMENTAL toxicology, GLUTATHIONE reductase, NANOPARTICLES, GLUTATHIONE transferase

Abstract

Despite the growing concern over nanoplastics' (NPls) environmental impacts, their long-term effects on terrestrial organisms remain poorly understood. The main aim of this study was to assess how NPls exposure impacts both the parental (F1) and subsequent generations (F2 and F3) of the soil-dwelling species Folsomia candida. After a standard exposure (28 days), we conducted a multigenerational study along three generations (84 days), applying polystyrene nanoparticles (PS NPs; diameter of 44 nm) as representatives of NPls. Endpoints from biochemical to individual levels were assessed. The standard test: PS NPs (0.015 to 900 mg/kg) had no effect in F. candida survival or reproduction. The multigenerational test: PS NPs (1.5 and 300 mg/kg) induced no effects on F. candida survival and reproduction along the three generations (F1 to F3). PS NPs induced no effects in catalase, glutathione reductase, glutathione S-transferases, and acetylcholinesterase activities for the juveniles of the F1 to F3. Oxidative damage through lipid peroxidation was detected in the offspring of F1 but not in the juveniles of F2 and F3. Our findings underscore the importance of evaluating multigenerational effects to gain comprehensive insights into the contaminants long-term impact, particularly when organisms are continuously exposed, as is the case with NPls. [ABSTRACT FROM AUTHOR]

Published

2023

189. Response of Foraminifera to Anthropogenic Nicotine Pollution of Cigarette Butts: An Experimental Approach.

Author

Sabbatini, Anna, Caridi, Francesca, Birarda, Giovanni, Costanzi, Elisa, Amici, Adolfo, Mobbili, Giovanna, Buosi, Carla, De Giudici, Giovanni, Medas, Daniela, and Negri, Alessandra

Subjects

NICOTINE, POLLUTANTS, HIGH performance liquid chromatography, CIGARETTES, ANALYTICAL chemistry, HAZARDOUS substances

Abstract

The most often dispersed environmental pollutants that are released both directly and indirectly into the environment that may eventually reach aquatic ecosystems and contaminate aquatic biomes are cigarette butts (CBs). Toxicants such as nicotine, dangerous metals, total particulate matter, and recognized carcinogens can be introduced and transported via CBs into aquatic ecosystems. The examination of the effects of synthetic nicotine on three different species of cultured benthic foraminifera was the focus of this study. Three foraminiferal species from three distinct biomineralization pathways were specifically examined for viability and cellular ultrastructure, including the calcareous perforate Rosalina globularis, the calcareous imperforate Quinqueloculina spp., and the agglutinated Textularia agglutinans. The survival rate, cellular stress, and decalcification were used to assess the toxicological effects of synthetic nicotine. We were able to analyze the reaction of major macromolecules and calcium carbonate to this pollutant using FTIR (Fourier Transform Infrared) spectroscopy. High Performance Liquid Chromatography (HPLC) study was performed to increase our understanding of nicotine bioavailability in the medium culture. Different acute experiments were performed at different dates, and all indicated that synthetic nicotine is acutely hazardous to all three cultured foraminiferal taxa at lethal and sublethal concentrations. Each species responded differently depending on the type of shell biomineralization. Synthetic nicotine enhances shell decalcification and affects the composition of cytoplasmic macromolecules such as lipids and proteins, according to the FTIR spectroscopy investigations. The lipid content rose at lethal concentrations, possibly due to the creation of vesicles. The proteins signal evidences general cellular dyshomeostasis. The integration among the acute toxicity assay, synchrotron, and chemical HPLC analyses provided a valuable approach for the assessment of nicotine as a biomarker of exposure to the toxicants associated with smoking and the impact of this emerging and hazardous material on calcifying marine species. [ABSTRACT FROM AUTHOR]

Published

2023

190. Nanomaterials in sunscreens: Potential human and ecological health implications.

Author

Keller, Arturo A.

Subjects

ENVIRONMENTAL health, ECOSYSTEM health, NANOSTRUCTURED materials, SUNSCREENS (Cosmetics), WATER currents

Abstract

Copyright of International Journal of Cosmetic Science is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

191. Impacts of nutrient and marine plastic debris influx on the microalgal community (phytoplankton and periphyton) in Korean temperate coastal waters: Mesocosm study.

Author

Lee, Chung Hyeon, Lim, Young Kyun, Yoon, Ji Nam, and Baek, Seung Ho

Abstract

Anthropogenic pollutants, such as excessive nutrients and marine plastic debris (MPDs), can significantly affect marine micro-ecosystems, including phytoplankton and periphyton. However, there have been few studies about the impacts of these pollutants on microalgal community. We aimed to assess these impacts by 1000-L mesocosm experiments that simulated the influx of nutrients and MPDs in autumn (natural seawater: control, low nutrient: LN group, high nutrient: HN group). The phytoplankton biomass in water increased rapidly in the LN group (maximum 21.7 μg L−1) and HN group (maximum 14.6 μg L−1), resulting in a succession from Cryptomonas spp. to Pseudo-nitzschia spp.. Interestingly, although the threefold difference in nutrient addition between the LN and HN groups, the phytoplankton biomass was similar (cumulative biomass during the entire experiment: 68.9 μg L−1 in LN group and 70.7 μg L−1 in HN group). On the other hand, on day 15 the periphyton biomass on the PP plates was 12.7-times higher in HN group than in LN group. Also, the estimated periphyton biomass of mesocosm wall was significantly different between LN group (4,696 µg cm−2) and HN group (59,835 µg cm−2), in relation to the lack of phytoplankton biomass relative to nutrient addition. In particular, the species-specific characteristics of Cylindrotheca closterium, which grow well even in low nutrients, and the relatively weak solar irradiance in autumn helped to increase the periphyton biomass. Therefore, these findings suggest that the influx of MPDs and nutrients can change the community structure of microalgae, leading to an increase in the periphyton ratio, and this change can have negative consequences on the marine ecosystem by potentially reducing primary productivity. Our mesocosm experiments provide important ecological insights regarding the time-series changes of phytoplankton in the water column and of microalgae attached to MPD when nutrients and plastic debris are introduced into coastal waters through river discharge after rainfall during autumn in temperate regions. [ABSTRACT FROM AUTHOR]

Published

2023

192. A critical review on nanoplastics and its future perspectives in the marine environment.

Author

Jebashalomi, Vethanayaham, Charles, Partheeban Emmanuel, Rajaram, Rajendran, and Sadayan, Paramasivam

Subjects

PLASTIC scrap, MARINE debris, PLASTIC marine debris, SURFACE area

Abstract

Nanoplastics (plastic particles smaller than 1 μm) are the least-known type of marine litter. Nanoplastics (NPs) have attracted much interest in recent years because of their prevalence in the environment and the potential harm they can cause to living organisms. This article focuses on understanding NPs and their fate in the marine environment. Sources of NPs have been identified, including accidental release from products or through nano-fragmentation of larger plastic debris. As NPs have a high surface area, they may retain harmful compounds. The presence of harmful additives in NPs poses unique practical challenges for studies on their toxicity. In this review, several methods specifically adapted for the physical and chemical characterization of NPs have been discussed. Furthermore, the review provides an overview of the translocation and absorption of NPs into organisms, along with an evaluation of the release of potential toxins from NPs. Further, we have provided an overview about the existing methods suggested for the possible degradation of these NPs. We conclude that the hazards of NPs are plausible but unknown, necessitating a thorough examination of NPs' sources, fate, and effects to better mitigate and spread awareness about this emerging contaminant. [ABSTRACT FROM AUTHOR]

Published

2023

193. Activated Carbon and P-Rich Fertilizer Production from Industrial Sludge by Application of an Integrated Thermo-Chemical Treatment.

Author

Salimbeni, Andrea, Di Bianca, Marta, Rizzo, Andrea Maria, and Chiaramonti, David

Abstract

The cost and environmental impact of sludge disposal methods highlight the necessity of new solutions for resource recovery. This study aims at concurrently producing activated carbon while recovering phosphorous by applying an integrated thermo-chemical treatment to a sludge of industrial origin. The sludge was first subjected to slow pyrolysis on a laboratory scale at different temperatures, and the produced chars were processed by leaching to obtain biocoal. Leaching tests enabled us to define the optimal slow pyrolysis temperatures to maximize leaching performances. Then, sludge was processed in a slow pyrolysis pilot-scale plant, and the produced char was subjected to acid leaching and finally to physical activation. Chemical precipitation was then applied to the liquid leachate to recover phosphorous as a salt. Laboratory-scale slow pyrolysis and leaching tests showed that a higher pyrolysis temperature leads to a lower degree of demineralization by leaching. Leaching enabled us to reduce the char ash content by almost 88%, extracting 100% P, Mg, Ca, and Fe and almost 90% Al. Physical activation of biocoal with CO2 at 700 and 800 °C produced materials with a surface area of 353 and 417 m2 g−1, respectively, that make them potentially applicable as adsorbents in wastewater treatment or in industrial emissions processes. Moreover, the activated carbons showed the atomic H/C and O/C ratios of anthracite, which opens a wide range of alternative market applications to fossil coal, such as metallurgy and the advanced material sector. In addition, the high P and K concentrations in the salt obtained by precipitation make it a promising fertilizing product in line with the current regulations. [ABSTRACT FROM AUTHOR]

Published

2023

194. The Effects of Microplastics on Growth and Photosynthetic Activity of Chlorella pyrenoidosa: The Role of Types and Sizes.

Author

Zhao, Shasha, Qian, Jin, Wang, Peifang, Tang, Sijing, Lu, Bianhe, He, Yuxuan, and Xu, Kailin

Subjects

CHLORELLA pyrenoidosa, MICROPLASTICS, PLASTIC marine debris, POLYVINYL chloride, IMAGE analysis, SCANNING electron microscopy

Abstract

The effects of different types and sizes of microplastics on microalgae have not been systematically studied. Here, the microalga Chlorella pyrenoidosa was exposed to three particle sizes (1 ~ 10, 10 ~ 100, and 100 ~ 500 μm) of polystyrene (PS) and polyvinyl chloride (PVC) for 14 days. Cell density indicated a general inhibitory effect of microplastics (MPs) on the growth of Chlorella pyrenoidosa. The maximum inhibition was found to be 42.7% in 1 ~ 10 μm (PS), and the growth inhibition was negatively correlated with particle size. The inhibitory effects of PS are stronger than those of PVC. Moreover, PS and PVC depressed chlorophyll a content but stimulated light energy utilization efficiency (Fv/Fm, Ik, ETRmax, α) in all particle size ranges. FTIR analysis and SEM image displayed that Chlorella pyrenoidosa resisted the effects of MPs by aggregation, which may be related to the secretion of EPS. These results revealed the long-term effects of different types and sizes of MPs on freshwater microalgae and provided a reference for exploring the ecotoxicity of MPs. [ABSTRACT FROM AUTHOR]

Published

2023

195. Time-Domain NMR Techniques in Cellulose Structure Analysis.

Author

Grunin, Leonid, Ivanova, Maria, Schiraya, Veronika, and Grunina, Tatiana

Abstract

The role of cellulose in various applications is remarkably going up in recent decades as it is a renewable material for wide areas of applications that can be delivered in huge quantities. This drives permanently growing interest to development of sensors for processing industry, that can give fast and reliable information about physicochemical structure of cellulosic materials. In this framework, Time-Domain NMR with its capability to be miniaturized may become very attractive to measure such structural parameters as crystallinity, domain sizes, and sorption properties. This contribution is aimed to summarize existing NMR relaxometric methods and update them with the techniques of signal processing and pulse sequences like Magic Sandwich Echo or multiple quantum transitions, that are well established for synthetic polymers, but still have not been extensively used for polysaccharides. Here, we also demonstrate our own results of cellulose study trying to contribute to the promotion of Time-Domain NMR applicability to biopolymers. [ABSTRACT FROM AUTHOR]

Published

2023

196. Sublethal Effects of Polystyrene Nanoplastics on the Embryonic Development of Artemia salina (Linnaeus, 1758).

Author

Contino, Martina, Ferruggia, Greta, Indelicato, Stefania, Pecoraro, Roberta, Scalisi, Elena Maria, Salvaggio, Antonio, and Brundo, Maria Violetta

Subjects

EMBRYOLOGY, ARTEMIA, POLLUTANTS, POLYSTYRENE, NANOPARTICLE size, ECOSYSTEMS, OCCUPATIONAL exposure

Abstract

Simple Summary: Due to ubiquitous pollution and the consequent climatic changes facing the scientific community, it is imperative to evaluate the possible consequences related to the exposure of organisms to environmental pollutants, nowadays predominated by micro and nanoplastics. Aquatic environments are, among environmental matrices, those most susceptible to the dispersion of such harmful substances. The purpose of the present study was to assess the exposure to polystyrene nanoplastics of species at the base of the food chain in aquatic ecosystems with a focus on embryonic development. The occurrence of embryo morphological and metabolic changes such as the stimulation of apoptosis emphasizes the potential ecotoxicological effects of nanoplastics. Currents, wave motion, solar radiation, and abrasion are mechanisms responsible for the degradation of large plastic artifacts and contribute to the dispersion of micro and nanoplastics into aquatic ecosystems, which are, currently, the most dangerous threats due to their invisibility and persistence. The present work evaluated the possible lethal and sublethal effects of amino-modified polystyrene nanoplastics (nPS-NH2) with diameters of 50 nm and 100 nm on Artemia salina (A. salina), an organism at the base of the trophic chain of the aquatic system, using a widely used model for the analysis of embryotoxicity from environmental pollutants. For this purpose, after evaluating the biodistribution of nanoplastics in the body of the tested animals, several endpoints such as anomalies, apoptosis, and ROS production were assessed. In addition, particular attention was dedicated to evaluating the correlation between toxicity and the particle size tested. The results reported that, despite the absence of a lethal impact, several sublethal effects involving gut and body size malformations, as well as the enhancement of apoptosis and oxidative stress in relation to an increase in tested concentration and a decrease in nanoparticle size. [ABSTRACT FROM AUTHOR]

Published

2023

197. Phytogenic Synthesis and Characterization of Silver Metallic/Bimetallic Nanoparticles Using Beta vulgaris L. Extract and Assessments of Their Potential Biological Activities.

Author

Elattar, Khaled M., Ghoniem, Abeer A., Al-Otibi, Fatimah O., El-Hersh, Mohammed S., Helmy, Yosra A., and Saber, WesamEldin I. A.

Subjects

BEETS, TRANSMISSION electron microscopes, PHYTOCHEMICALS, SALMONELLA enterica, SURFACE charges, ULTRAVIOLET-visible spectroscopy

Abstract

Featured Application: The specific application of this work lies in the new avenue synthesis of nanomedicines—particularly Ag-mNPs, AgSeO2-bmNPs, and Ag-TiO2-bmNPs—using eco-friendly methods. These nanoparticles have shown significant potential as they can be used for potent antioxidant and antibacterial activities. The use of Beta vulgaris extract for the bio-reduction process adds to the environmentally sustainable aspect of the research. Furthermore, the antioxidant activity of the nanoparticles supports their potential medical applications beyond antibacterial therapy. Additionally, the study paves the way for future research into utilizing nature-inspired approaches for green and effective medical advancements. The synthesis of novel nanomedicines through eco-friendly protocols has been applied on a large scale with the prediction of discovering alternate therapies. The current work attained phytogenic synthesis of Ag-mNPs, AgSeO2-bmNPs, and Ag-TiO2-bmNPs through bio-reduction using an aqueous extract of Beta vulgaris (red beetroot). The phytochemical profile of the eco-friendly synthesized metallic/bimetallic nanoparticles was studied. The optical properties of nano-solutions were studied via UV-visible spectroscopy. The Fourier-transform infrared spectroscopy (FT-IR) spectral analyses revealed that stretching vibrations at wavenumbers 3303.81–3327.81 cm−1 attributed to phenolic hydroxyl groups documented shifts in the values in this range owing to proton dissociation through the bio-reduction of the metal ions. The surface morphology and the charge of the nanoparticles were investigated using a Transmission Electron Microscope (TEM) and zeta potential analyses. The prepared nano-solutions showed lower antioxidant activity (1,1-Diphenyl-2-picrylhydrazyl (DPPH•) and phosphomolybdate assays) than the plant extract. These results together with phytochemical analyses support the participation of the reactive species (phenolic contents) in the bio-reduction of the metal ions in the solutions through the formation of metallic/bimetallic nanoparticles. Ag-mNPs, AgSeO2-bmNPs, and Ag-TiO2-bmNPs showed antibacterial potentiality. AgSeO2-bmNPs were superior with inhibitory zone diameters of 34.7, 37.7, 11.7, and 32.7 mm against Enterococcus faecalis, Staphylococcus aureus, Escherichia coli, and Salmonella enterica, respectively. Applying the Methylthiazole Tetrazolium (MTT) assay, the Ag-TiO2 bmNPs revealed potent cytotoxicity against the HePG2 tumor cell line (IC50 = 18.18 ± 1.5 µg/mL), while Ag-SeO2 bmNPs revealed the most potent cytotoxicity against the MCF-7 cell line (IC50 = 17.92 ± 1.4 µg/mL). [ABSTRACT FROM AUTHOR]

Published

2023

198. Toxicity of microplastics and nanoplastics: invisible killers of female fertility and offspring health.

Author

Yuli Geng, Zhuo Liu, Runan Hu, Yanjing Huang, Fan Li, Wenwen Ma, Xiao Wu, Haoxu Dong, Kunkun Song, Xiaohu Xu, Zhuo Zhang, and Yufan Song

Subjects

MICROPLASTICS, FERTILITY, GASTROINTESTINAL system, ENVIRONMENTAL health

Abstract

Microplastics (MPs) and nanoplastics (NPs) are emergent pollutants, which have sparked widespread concern. They can infiltrate the body via ingestion, inhalation, and cutaneous contact. As such, there is a general worry that MPs/NPs may have an impact on human health in addition to the environmental issues they engender. The threat of MPs/NPs to the liver, gastrointestinal system, and inflammatory levels have been thoroughly documented in the previous research. With the detection of MPs/NPs in fetal compartment and the prevalence of infertility, an increasing number of studies have put an emphasis on their reproductive toxicity in female. Moreover, MPs/NPs have the potential to interact with other contaminants, thus enhancing or diminishing the combined toxicity. This review summarizes the deleterious effects of MPs/NPs and co-exposure with other pollutants on female throughout the reproduction period of various species, spanning from reproductive failure to cross-generational developmental disorders in progenies. Although these impacts may not be directly extrapolated to humans, they do provide a framework for evaluating the potential mechanisms underlying the reproductive toxicity of MPs/NPs. [ABSTRACT FROM AUTHOR]

Published

2023

199. Interactions of Metal‐Based Engineered Nanoparticles with Plants: An Overview of the State of Current Knowledge, Research Progress, and Prospects.

Author

Wahab, Abdul, Munir, Asma, Saleem, Muhammad Hamzah, AbdulRaheem, Mukhtar Iderawumi, Aziz, Humera, Mfarrej, Manar Fawzi Bani, and Abdi, Gholamreza

Subjects

MANUFACTURING processes, PLANT engineering, METAL nanoparticles, CROPS, METALLIC oxides, HERBICIDES

Abstract

Nanotechnology is a potential technique for increasing agricultural output by producing nano-fertilizers, improving herbicide and pesticide efficacy, regulating soil fertility, managing wastewater, and detecting illnesses. It is also virtuous for industrial food processing since it boosts market value, improves nutritional and sensory properties, enhances safety, and boosts antibacterial protection. Moreover, nanotechnology may also assist farmers in reducing post-harvest losses by prolonging shelf life via the use of nanoparticles. Furthermore, nanoscience develops new ideas that lead to a better understanding of nanoparticles and their mechanisms of action in plants. Plants can grow and develop more effectively when the physiological-biochemical and molecular pathways involving nanoparticles in plants are understood. Scientists have developed a broad range of nanoparticles (NPs) such as Au, Ag, Pt, Fe, Cu, Cd, ZnO, and TiO2. At the same time, nanoscience gives us new ideas and diverts our intentions to attain some suitable mechanism mode for the functions of NPs in plants. The proper functionality of the physical, biological, and cellular mechanisms of NPs requires selected plant species to influence the variation in the different phases of plant growth and development. Although several reviews on engineered nanoparticles have been published in recent years, few have focused on their current applications, transport, interaction, and physio-chemical aspects of metal-based nanoparticles (MBNPs) and carbon-based nanoparticles (CBNPs) with crops. As a result, we evaluated the behaviors of (MBNPs) and (CBNPs) in agricultural systems, including absorption and translocation of MBNPs and CBNPs in crop plants, physiological and biochemical effects of MBNPs on plants, and factors influencing MBNPs and CBNPs' interactions on plants. This review will help glow nanotechnology by promoting scientific study on MBNPs and metal oxides nanoparticles MONPs and understanding the risks and advantages of their association with plants. [ABSTRACT FROM AUTHOR]

Published

2023

200. Petroleum-Based Plastics Versus Bio-Based Plastics: A Review.

Author

Kumari, Shikha, Rao, Alka, Kaur, Manjeet, and Dhania, Geeta

Abstract

Plastic needs have expanded along with population growth, industrialization, and urbanization. Plastic is unrivaled due to its useful properties and is used to prepare numerous important goods daily. This paper encloses the different kinds and applications of petroleum-based plastic and the drawbacks related to their use, i.e., its nonbiodegradability which leads to their stay in the environment for a very long time. Additionally, there are not enough effective disposal techniques for the large volume of plastic waste produced; thus, plastic garbage builds up in the environment and endangers it. Limiting the usage of plastic is necessary to protect the environment. This can be done with the help of bioplastic, which is an excellent substitute for plastic. The different kinds of bioplastic and their biodegradability in different mediums, viz., soil compost and aquatic systems, are addressed in this paper. Along this, the different areas of application of bioplastic have been explored. The present study also addresses the underlying mechanism of plastic polymerization and biodegradation and the current status of bioplastics in the global market. [ABSTRACT FROM AUTHOR]

Published

2023