Your search keyword '"metalloids"' showing total 1,890 results

201. Metal profiles and health risk assessment of the most consumed rice varieties in Spain

Author

Universidad de Sevilla. Departamento de Nutrición y Bromatología, Toxicología y Medicina Legal, Universidad de Sevilla. Departamento de Bioquímica y Biología Molecular, Universidad de Sevilla. Departamento de Química Analítica, Universidad de Sevilla. AGR258: Alimentos Funcionales e Investigación Toxicológica, Universidad de Sevilla. FQM344: Análisis Químico Industrial y Medioambiental, Aguilera Velázquez, José Raúl, Calleja López, Ana, Moreno Navarro, Isabel María, Bautista Palomas, Juan Dionisio, Alonso Álvarez, Esteban, Universidad de Sevilla. Departamento de Nutrición y Bromatología, Toxicología y Medicina Legal, Universidad de Sevilla. Departamento de Bioquímica y Biología Molecular, Universidad de Sevilla. Departamento de Química Analítica, Universidad de Sevilla. AGR258: Alimentos Funcionales e Investigación Toxicológica, Universidad de Sevilla. FQM344: Análisis Químico Industrial y Medioambiental, Aguilera Velázquez, José Raúl, Calleja López, Ana, Moreno Navarro, Isabel María, Bautista Palomas, Juan Dionisio, and Alonso Álvarez, Esteban

Abstract

There are numerous publications describing the mineral content of row rice and its impact on human health. However, there are scarce studies about the bioaccessibility and health risk assessment of metallic and metalloid elements from cooked and digested rice. Thus, the aims of the present study were i) to determine the concentration of toxic metals (Al, As, Cd, Pb) and trace and essential elements (Ni, Se, Cr, Cu, Mn and Zn) in cooked and digested rice; ii) to evaluate the adult daily intake and iii) to estimate the non-carcinogenic and carcinogenic human risk related to cooked and digested rice consumption. The bioavailability of the elements studied and their contribution to human health risk was obtained by an in vitro digestion method simulating the human digestion. The results obtained evidenced that Pb had the lowest bioavailability, in contrast with As, which had the highest. Concerning the non-carcinogenic risk test, all values obtained in cooked and digested rice were below the toxic threshold. Furthermore, Pb was the smallest contributor to carcinogenic risk, while Cr-values are the closest to the limit (10⁻⁴). Thus, it could be stated that human metallic exposure through rice consumption is overestimated when metals are measured in row rice.

Published

2023

202. A Culturomics-Based Bacterial Synthetic Community for Improving Resilience towards Arsenic and Heavy Metals in the Nutraceutical Plant Mesembryanthemum crystallinum

Author

Universidad de Sevilla. Departamento de Microbiología y Parasitología, Universidad de Sevilla. Departamento de Biología Vegetal y Ecología, Junta de Andalucía, Universidad de Sevilla, Flores Duarte, Noris J., Pajuelo Domínguez, Eloísa, Mateos Naranjo, Enrique, Navarro Torre, Salvadora, Rodríguez Llorente, Ignacio David, Redondo Gómez, Susana, Carrasco López, José Antonio, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Universidad de Sevilla. Departamento de Biología Vegetal y Ecología, Junta de Andalucía, Universidad de Sevilla, Flores Duarte, Noris J., Pajuelo Domínguez, Eloísa, Mateos Naranjo, Enrique, Navarro Torre, Salvadora, Rodríguez Llorente, Ignacio David, Redondo Gómez, Susana, and Carrasco López, José Antonio

Abstract

Plant-growth-promoting bacteria (PGPB) help plants thrive in polluted environments and increase crops yield using fewer inputs. Therefore, the design of tailored biofertilizers is of the utmost importance. The purpose of this work was to test two different bacterial synthetic communities (SynComs) from the microbiome of Mesembryanthemum crystallinum, a moderate halophyte with cosmetic, pharmaceutical, and nutraceutical applications. The SynComs were composed of specific metal-resistant plant-growth-promoting rhizobacteria and endophytes. In addition, the possibility of modulating the accumulation of nutraceutical substances by the synergetic effect of metal stress and inoculation with selected bacteria was tested. One of the SynComs was isolated on standard tryptone soy agar (TSA), whereas the other was isolated following a culturomics approach. For that, a culture medium based on M. crystallinum biomass, called Mesem Agar (MA), was elaborated. Bacteria of three compartments (rhizosphere soil, root endophytes, and shoot endophytes) were isolated on standard TSA and MA media, stablishing two independent collections. All bacteria were tested for PGP properties, secreted enzymatic activities, and resistance towards As, Cd, Cu, and Zn. The three best bacteria from each collection were selected in order to produce two different consortiums (denominated TSA- and MA-SynComs, respectively), whose effect on plant growth and physiology, metal accumulation, and metabolomics was evaluated. Both SynComs, particularly MA, improved plant growth and physiological parameters under stress by a mixture of As, Cd, Cu, and Zn. Regarding metal accumulation, the concentrations of all metals/metalloids in plant tissues were below the threshold for plant metal toxicity, indicating that this plant is able to thrive in polluted soils when assisted by metal/metalloid-resistant SynComs and could be safely used for pharmaceutical purposes. Initial metabolomics analyses depict changes in plant me

Published

2023

203. Geochemical provenance of metalloids and their release : Implications on medical geology

Author

Keerthanan, S., Bhattacharya, Prosun, Vithanage, Meththika, Keerthanan, S., Bhattacharya, Prosun, and Vithanage, Meththika

Abstract

Metalloids (especially Ge, As, Sb, and Te) are toxic elements that can geographically be abundant on the earth's crust. Generally, metalloids leach from the geologic materials such as rock, atmospheric dust, minerals, and geologic process such as earthquake and volcano eruptions which input the metalloids to soil and water over the permeable level and, thus, increases the bioaccumulation of them into the plants and aquatic organisms. Consumption of fish and vegetables with contaminants has a negative impact on both human and animal health. Medical geology can perform a significant role in helping to maintain the environment's safety by detecting the amounts, forms, and sources of metalloids. Therefore, the current chapter comprehensively explores the existing knowledge on the (i) role of natural geologic materials and processes on releasing metalloids to the environment, (ii) their potential paths of them to the environment and their bioaccumulation, (iii) human and veterinary health effects of metalloids on medical geology, and (iv) the risk management strategies to reduce the bioavailable fraction of metalloids in the environment., Part of ISBN 9781119867371 9781119867340QC 20230725

Published

2023

204. A heavy burden: Metal exposure across the land-ocean continuum in an adaptable carnivore

Author

World Wildlife Fund, Claude Leon Foundation, University of Cape Town, Parker, Kim H., Bishop, Jacqueline M., Serieys, Laurel E.K., Mateo, Rafael, Camarero, Pablo R., Leighton, Gabriella R.M., World Wildlife Fund, Claude Leon Foundation, University of Cape Town, Parker, Kim H., Bishop, Jacqueline M., Serieys, Laurel E.K., Mateo, Rafael, Camarero, Pablo R., and Leighton, Gabriella R.M.

Abstract

Urbanisation and associated anthropogenic activities release large quantities of toxic metals and metalloids into the environment, where they may bioaccumulate and threaten both wildlife and human health. In highly transformed landscapes, terrestrial carnivores may be at increased risk of exposure through biomagnification. We quantified metallic element and metalloid exposure in blood of caracals (Caracal caracal), an adaptable felid inhabiting the rapidly urbanising, coastal metropole of Cape Town, South Africa. Using redundancy analysis and mixed-effect models, we explored the influence of demography, landscape use, and diet on the concentration of 11 metals and metalloids. Although species-specific toxic thresholds are lacking, arsenic (As) and chromium (Cr) were present at potentially sublethal levels in several individuals. Increased use of human-transformed landscapes, particularly urban areas, roads, and vineyards, was significantly associated with increased exposure to aluminium (Al), cobalt (Co) and lead (Pb). Foraging closer to the coast and within aquatic food webs was associated with increased levels of mercury (Hg), selenium (Se) and arsenic, where regular predation on seabirds and waterbirds likely facilitates transfer of metals from aquatic to terrestrial food webs. Further, several elements were linked to lower haemoglobin levels (chromium, mercury, manganese, and zinc) and elevated levels of infection-fighting cells (mercury and selenium). Our results highlight the importance of anthropogenic activities as major environmental sources of metal contamination in terrestrial wildlife, including exposure across the land-ocean continuum. These findings contribute towards the growing evidence suggesting cities are particularly toxic areas for wildlife. Co-exposure to a suite of metal pollutants may threaten the long-term health and persistence of Cape Town's caracal population in unexpected ways, particularly when interacting with additional known pollutan

Published

2023

205. Uptake and distribution of metal(loid)s in two rare species of saltmarsh, blackseed samphire, Tecticornia pergranulata, and narrow-leafed wilsonia, Wilsonia backhousei, in New South Wales, Australia.

Author

Voigt, Rebecca A.L., Alam, Md Rushna, Stein, Taylor J., Rahman, Mohammad Mahmudur, Megharaj, Mallavarapu, and MacFarlane, Geoff R.

Subjects

SALT marshes, ENDANGERED species, COPPER, SALT marsh plants, METALS, RARE plants

Abstract

The uptake and distribution of copper, zinc, arsenic, and lead was examined in two rare Australian saltmarsh species, Tecticornia pergranulata and Wilsonia backhousei. The bioconcentration factors and translocation factors were generally much lower than one, except for the Zn translocation factors for T. pergranulata. When compared to other Australian saltmarsh taxa, these species generally accumulated the lowest levels observed among taxa, especially in terms of their BCFs. Essential metals tended to be regulated, while non-essential metals increased in concentration with dose during transport among compartments, a pattern not previously observed in Australian saltmarsh taxa. The uptake of metals into roots was mainly explained by total sediment metal loads as well as more acidic pH, increased soil organic matter, and decreased salinity. The low uptake and limited translocation observed in these rare taxa may offer a competitive advantage for their establishment and survival in the last urbanised populations, where legacy metal contamination acts as a selective pressure. • Cu, Zn, As, Pb were examined in two rare saltmarsh plants in a contaminated estuary. • Metal(loid) partitioning patterns contrasted with other Australian saltmarsh species. • Uptake of both essential and non-essential metal(loid)s to roots was limited (BCF < 1). • Sediment pH, EC, and salinity influenced root metal(loid) concentrations. • Low BCF and high TF may confer competitive advantages in contaminated locations. [ABSTRACT FROM AUTHOR]

Published

2024

206. Breast cancer risk for the joint exposure to metals and metalloids in women: Results from the EPIC-Spain cohort.

Author

Fernández-Martínez, Nicolás Francisco, Rodríguez-Barranco, Miguel, Huerta, José María, Gil, Fernando, Olmedo, Pablo, Molina-Montes, Esther, Guevara, Marcela, Zamora-Ros, Raúl, Jiménez-Zabala, Ana, Colorado-Yohar, Sandra Milena, Ardanaz, Eva, Bonet, Catalina, Amiano, Pilar, Chirlaque, María Dolores, Pérez-Gómez, Beatriz, Jiménez-Moleón, José Juan, Martín-Jiménez, Miguel, de Santiago, Esperanza, and Sánchez, María-José

Published

2024

207. Insights on volatile metals in landfill gas as determined from advanced treatment media.

Author

Smallwood, Thomas J., Magnuson, Jordan K., Thompson, Jake T., Lin, Ashley M., and Townsend, Timothy G.

Subjects

*LANDFILL gases, *METALS, *HAZARDOUS wastes, *ANTIMONY, *RENEWABLE natural gas, *ACTIVATED carbon

Abstract

This study analyzed spent activated carbon (AC) from a landfill gas (LFG) treatment system for an expanded suite of lesser studied volatile metals, revealing elevated levels of As and Sb in the LFG, exceeding those previously reported, with minimum average concentrations of 640 µg m−3 and 590 µg m−3, respectively. The annual release of As and Sb through landfill gas was found to be significant, surpassing leachate emissions by an order of magnitude. Extrapolating these findings to all US landfills suggests that the release of As and Sb through landfill gas could be a major, previously overlooked source of these metals in global emission estimates, underscoring the need to include them when developing future inventories. The spent AC was further found to exceed US toxicity limits established for As, classifying it as hazardous waste under US regulations. However, findings suggest that the AC scrubber employed at the landfill effectively prevented substantial releases of As and Sb. This research emphasizes that landfill gas is a primary contributor to environmental release of As and Sb from landfills, even more so than leachate, highlighting the significance of implementing effective LFG treatment measures to mitigate the release of volatile metal emissions. [Display omitted] • Activated carbon used to scrub landfill gas was measured for volatile metal concentrations. • TCLP found the activated carbon to exceed the TC limit for arsenic by 18 times. • Analyzed concentrations correspond to an annual emission of 23.7 kg As and 22.1 kg Sb. • Findings suggest significant contribution from landfill gas to global As and Sb cycles. • Study underlines the importance of landfill gas treatment to mitigate metal emissions. [ABSTRACT FROM AUTHOR]

Published

2024

208. Trace Metal Accumulation and Phytoremediation Potential of Four Crop Plants Cultivated on Pure Sewage Sludge

Author

Mirko Salinitro, Sofia Montanari, Andrea Simoni, Claudio Ciavatta, and Annalisa Tassoni

Subjects

metals, metalloids, phytotechnology, crop plants, wastewater treatment, Agriculture

Abstract

Phytoremediation is a viable strategy to remove trace metal contaminants from sewage sludge but still is poorly investigated. The aim of this study was to quantify the trace metal removal of B. napus, B. juncea, H. annuus, Z. mays grown on pure sewage sludge. Each species was grown on six different sewage sludge for 8 weeks and sludge were analysed for trace metal content and physico-chemical characteristics. Our results confirmed that all the tested sludge supported plant growth. The tested sludge showed a plant vigorousness lower (46% of sludge) or similar/increased (54% of sludge) compared to control treatment. B. juncea and B. napus were the most efficient species in the bioaccumulation, of trace metals. The average percentage of metals removed by the selected species was 0.2% for As, 0.85% for Cd, 0.09% for Cr, 0.36% for Cu, 0.36% for Ni, 4.2% for Se, 1.2% for Zn. In conclusion, our results showed that phytoremediation can be applied to sewage sludge, despite the chosen species have low efficiency in trace element removal. Further studies using hyperaccumulator species are needed which may lead to a higher efficiency of the process opening up new possibilities for the management strategies of this waste.

Published

2021

209. Human Biomonitoring of Selected Hazardous Compounds in Portugal: Part I—Lessons Learned on Polycyclic Aromatic Hydrocarbons, Metals, Metalloids, and Pesticides

Author

Angelina Pena, Sofia Duarte, André M. P. T. Pereira, Liliana J. G. Silva, Célia S. M. Laranjeiro, Marta Oliveira, Celeste Lino, and Simone Morais

Subjects

biomarkers of exposure, metals, metalloids, pesticides, polycyclic aromatic hydrocarbons (PAHs), health risks, Organic chemistry, QD241-441

Abstract

Human biomonitoring (HBM) data provide information on total exposure regardless of the route and sources of exposure. HBM studies have been applied to quantify human exposure to contaminants and environmental/occupational pollutants by determining the parent compounds, their metabolites or even their reaction products in biological matrices. HBM studies performed among the Portuguese population are disperse and limited. To overcome this knowledge gap, this review gathers, for the first time, the published Portuguese HBM information concerning polycyclic aromatic hydrocarbons (PAHs), metals, metalloids, and pesticides concentrations detected in the urine, serum, milk, hair, and nails of different groups of the Portuguese population. This integrative insight of available HBM data allows the analysis of the main determinants and patterns of exposure of the Portuguese population to these selected hazardous compounds, as well as assessment of the potential health risks. Identification of the main difficulties and challenges of HBM through analysis of the enrolled studies was also an aim. Ultimately, this study aimed to support national and European policies promoting human health and summarizes the most important outcomes and lessons learned through the HBM studies carried out in Portugal.

Published

2021

210. Chemical characterization of PM2.5 from region highly impacted by hailstorms in South America

Author

Beal, Alexandra, Martins, Jorge A., Rudke, Anderson P., de Almeida, Daniela S., da Silva, Iara, Sobrinho, Otavio Medeiros, de Fátima Andrade, Maria, Tarley, César R.T., and Martins, Leila D.

Published

2022

211. Engineered Plants for Heavy Metals and Metalloids Tolerance

Author

Tomar, Parul Rana, Dixit, Anirudha R., Jaiwal, Pawan Kumar, Dhankher, Om Parkash, Jaiwal, Pawan Kumar, editor, Singh, Rana Pratap, editor, and Dhankher, Om Parkash, editor

Published

2015

212. Phytoremediation to Remove Metals/Metalloids from Soils

Author

Chen, Jian, Chen, Yi, Shi, Zhi-Qi, Su, Yi, Han, Fengxiang X., Ansari, Abid Ali, editor, Gill, Sarvajeet Singh, editor, Gill, Ritu, editor, Lanza, Guy R., editor, and Newman, Lee, editor

Published

2015

213. Phytoremediation in Constructed Wetlands

Author

Herath, Indika, Vithanage, Meththika, Ansari, Abid Ali, editor, Gill, Sarvajeet Singh, editor, Gill, Ritu, editor, Lanza, Guy R., editor, and Newman, Lee, editor

Published

2015

214. Phytoremediation of Soils Contaminated with Heavy Metals: Techniques and Strategies

Author

Pinto, A. P., de Varennes, A., Fonseca, R., Teixeira, D. Martins, Ansari, Abid A., editor, Gill, Sarvajeet Singh, editor, Gill, Ritu, editor, Lanza, Guy R., editor, and Newman, Lee, editor

Published

2015

215. Using multivariate statistical analysis to study the ecological and geochemical properties of soils in Blagoveshchensk (Russia)

Author

V.I. Radomskaya, D.V. Yusupov, L.M. Pavlova, A.G. Sergeeva, and E.N. Voropaeva

Subjects

blagoveshchensk, quantitative chemical analysis, factor analysis, mineralogical analysis, heavy metals, metalloids, Science

Abstract

The study is extremely relevant, because most people in Russia (over 73%) live in urban environments, which are significantly influenced by various pollutants. According to N.S. Kasimov et al. (2014), small towns account for 83% of urban areas where the pollution rate is much higher as established by their industry specialization. Thus, the problem of the contribution of different sources into environmental pollution in small industrial towns is acute. For this reason, the geochemical characteristics of urban soils (in the Far Eastern city of Blagoveshchensk (Russia)) have been studied with the help of factor analysis and the sources of polluting elements have been identified. In order to determine stable geochemical associations of pollutants in the soil cover, various geochemical methods and multivariate statistical analysis have been used. Having processed the geochemical data on the soil by the methods of multivariate statistical analysis, we have revealed with a high degree of reliability the cause-and-effect relations between the geochemical characteristics of urban soils and the potential sources of their contamination. Four factors have been found. The main factor has the contribution of 45.9% to the total variance of association elements Co–Ni–Zn–Sb–Be– SO42– and indicates industrial pyrogenesis as the main cause of their arrival. The other two factors characterize general technogenic pollution from the emission of coal- and oil-fired boilers, households with stove heating, and auto pollution. The last factor with the total variance of 7.4% relates to the cadmium content increase in soils of the city.

Published

2017

216. Intake of Boron, Cadmium, and Molybdenum enhances rat thyroid cell transformation

Author

Emilia Luca, Laura Fici, Anna Ronchi, Ferdinando Marandino, Esther Diana Rossi, Maria Emiliana Caristo, Pasqualino Malandrino, Marco Russo, Alfredo Pontecorvi, Riccardo Vigneri, and Fabiola Moretti

Subjects

Thyroid, Thyroid nodules, Thyroid cancer, Heavy metals, Metalloids, Boron, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Epidemiologic data in volcanic areas suggest that environmental factors might be involved in the increase of thyroid cancer (TC) incidence. Recent reports indicate that several heavy metals and metalloids are increased in volcanic areas. This study aims to evaluate the combined effect of three of these elements Boron (B), Cadmium (Cd), and Molybdenum (Mo) - all increased in the volcanic area of Mt. Etna, in Italy - on thyroid tumorigenesis in the rat. Methods Female Wistar rats prone to develop thyroid tumors by low-iodine diet and methimazole treatment received ad libitum drinking water supplemented with B, Cd, and Mo at concentrations in the range found in the urine samples of residents of the volcanic area. At 5 and 10 months animals were euthanized, and their thyroid analysed. Statistical analysis was performed with a 2-way unpaired t-test. Results No toxic effect of the three elements on the growth of the animals was observed. A significant increase of histological features of transformation was observed in thyroid follicular cells of rats treated with B, Cd, and Mo compared with those of control group. These abnormalities were associated with decreased iodine content in the thyroid. Conclusions This study provides the evidence that slightly increased environmental concentrations of B, Cd, and Mo can accelerate the appearance of transformation marks in the thyroid gland of hypothyroid rats.

Published

2017

217. Advances in physiological mechanisms of selenium to improve heavy metal stress tolerance in plants

Author

X. Lai, X. Yang, S. Rao, Z. Zhu, X. Cong, J. Ye, W. Zhang, Y. Liao, S. Cheng, and F. Xu

Subjects

Selenium, Stress, Physiological, Metals, Heavy, Phytochelatins, Humans, Mercury, Plant Science, General Medicine, Plants, Reactive Oxygen Species, Ecology, Evolution, Behavior and Systematics, Cadmium, Metalloids

Abstract

Selenium (Se) is a metalloid mineral nutrient for human and animal health. Plants are the main foodstuff source of the Se intake of humans. For plants, the addition of an appropriate amount of Se could promotes growth and development, and improves the tolerance to environmental stress, especially stress from some of heavy metals (HM) stress, such as cadmium (Cd) and mercury (Hg). This paper mainly reviews and summarizes the physiological mechanism of Se in enhancing HM stress tolerance in plants. The antagonistic effect of Se on HM is a comprehensive effect that includes many physiological mechanisms. Se can promote the removal of excessive reactive oxygen species and reduce the oxidative damage of plant cells under HM elements stress. Se participates in the regulation of the transportation and distribution of HM ions in plants, and alleviates the damage caused by of HM stress. Moreover, Se combine with HM elements to form Se-HM complexes and promote the production of phytochelatins (PCs), thereby reducing the accumulation of HM ions in plants. Overall, Se plays an important role in plant response to HM stress, but current studies mainly focus on physiological mechanism, and further in-depth study on the molecular mechanism is essential to confirm the participation of Se in plant response to environmental stress. This review helps to comprehensively understand the physiological mechanism of Se in plant tolerance against to HM stress of plants, and provides important theoretical support for the practical application of Se in environmental remediation and agricultural development.

Published

2022

218. Geospatial quality assessment of locally available ice for heavy metals and metalloids and their potential risks for human health in Karachi, Pakistan.

Author

Alamgir A, Ali Q, Fatima N, Khan MA, Nawaz MF, Tariq S, Rizwan M, and Yong JWH

Abstract

Extreme hot conditions during summers, high poverty rate and continuous electricity load shedding affect commercial manufacturing and sale of ice in many countries. The vendors prepared ice using untreated piped water, tanker water and ground water. These waters may contain hazardous pollutants and ice made from them will pose a potential human health risk. Thus, it is important to regularly monitor the chemical composition of water sources and the quality of the manufactured ice. A contemporary examination was carried out to evaluate the physico-chemical properties and heavy metals and metalloids in the ice sold in all the districts of Karachi, Pakistan. This pioneering study was an innovative effort to assess the ice quality in relation to potential pollutant hazards to human health; with concomitant geospatial information. The geospatial distribution of ice quality and major constituents were among the measured parameters; carefully associated with further geospatial information, determined using GIS (Geographic Information Systems) and PCA (Principal Component Analysis) techniques. Interestingly, the physico-chemical analyses revealed that the ice quality was marginally adequate and the total mean metal-metalloid contents were in the sequence of Pb > Ni > Zn > Fe > Cr > As. The concentrations of these metals were above the upper allowable limits with reference to the recommended WHO guidelines. We observed that 57.1% and 35.7% ice samples had good physico-chemical properties assessed using the Ice Quality Index (IQI). Conversely, the IQI for metals showed that the ice was unsafe for human consumption. In terms of health risk assessment, the overall mean CDI (Chronic Daily Intake) and HQ (Hazard Quotient) values were in the order of Pb () > Ni (3.2) > Zn (2.3) > Fe (2.1) > Cr (1.6) > As (0.5) and Pb (7.4) > As (1.7) > Cr (0.5) > Ni (0.4 > Zn (0.008) > Fe (0.003), respectively. This study highlighted that routine monitoring of the water supplies available for making ice is required to protect public health., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

219. Human health risk assessment associated with the reuse of treated wastewater in arid areas.

Author

Shomar B and Rovira J

Subjects

Adult, Child, Humans, Agricultural Irrigation, Thallium, Risk Assessment, Anti-Bacterial Agents, Wastewater, Metalloids

Abstract

Qatar produces more than 850,000 m 3 /day of highly treated wastewater. The present study aims at characterizing the effluents coming out of three central wastewater treatment plants (WWTPs) of chemical pollutants including metals, metalloids and antibiotics commonly used in the country. Additionally, the study is assessing human health risks associated with the exposure to the treated wastewater (TWW) via dermal and ingestion routes. Although the origin of domestic wastewater is desalinated water (the only source of fresh water), the results show that the targeted parameters in TWW were within the international standards. Concentrations of Cl, F, Br, NO 3 , NO 2 , SO 4 and PO 4 , were 389, <0.1, 1.2, 25, <0.1, 346, and 2.8 mg/L, respectively. On the other hand, among all cations, metals and metalloids, only boron (B) was 2.1 mg/L which is higher than the Qatari guidelines for TWW reuse in irrigation of 1.5 mg/L. Additionally, strontium (Sr) and thallium (Tl) were detected with relatively high concentrations of 30 mg/L and 12.5 μg/L, respectively, due to their natural and anthropogenic sources. The study found that the low concentrations of all tested metals and metalloids do not pose any risk to human health. However, Tl presents exposure levels above the 10 % of oral reference dose (HQ = 0.4) for accidental oral ingestion of TWW. The results for antibiotics show that exposure for adults and children to TWW are far below the admissible daily intakes set using minimum therapeutic dose and considering uncertainty factors. Treated wastewater of Qatar can be used safely for irrigation. However, further investigations are still needed to assess microbiological quality., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

220. [Association of metal/metalloids exposure with abnormal liver function among occupational population in a mining area of Hunan Province:a prospective study].

Author

Du Y, Duan L, Chen S, Zhang M, Chen M, Cao Y, and Duan Y

Subjects

Humans, Male, Female, Prospective Studies, Thallium, Barium, Tungsten, Metals, Metalloids, Liver Diseases

Abstract

Objective: To investigate the association of metals/metalloids exposure with risk of liver disfunction among occupational population in Hunan Province, and to explore the potential dose-response relationship., Methods: In 2017, a mining area in Hunan Province was chosen as the research site, and eligible workers were recruited as study subjects. General demographic characteristics, levels of 23 metals/metalloids in plasma and urine, and liver function index(total bilirubin(TBIL), alanine amino transferase(ALT), globulin(GLB) and γ-glutamyl transferase(GGT)) were obtained by questionnaire, physical examination and laboratory tests. Participants were followed up in 2018, 2019 and 2020 respectively. Cox proportional risk model was used to evaluate the relationship between metal/metalloids exposure and risk of liver disfunction, and dose-response relationship curves were plotted by using the restricted cubic spline function., Results: A total of 891 employees were recruited in the study, 576(65.0%)were aged ≤45 years, 832(93.4%) were male and 530(59.5%) worked as smelters. After adjusting various factors such as age, gender, BMI, type of work, education, smoking, alcohol consumption, diet, stress, medical history, exercise and tea consumption, positive correlations were found between plasma tungsten(HR=4.90, 95%CI 1.17-20.48) and urinary barium(HR=1.07, 95%CI 1.02-1.12) levels with abnormally elevated TBIL levels. Additionally, a significant association was observed between plasma thallium and the risk of elevated ALT levels(HR=11.15, 95%CI 1.97-63.29)., Conclusion: Plasma tungsten and thallium, along with barium found in urine, are risk factors for the development of abnormally elevated liver function indices in occupational groups.

Published

2024

221. Heavy metals/-metalloids (As) phytoremediation with Landoltia punctata and Lemna sp. (duckweeds): coupling with biorefinery prospects for sustainable phytotechnologies.

Author

Rai PK and Nongtri ES

Subjects

Humans, Biodegradation, Environmental, Arsenic metabolism, Metalloids, Metals, Heavy metabolism, Araceae metabolism

Abstract

Heavy metals/-metalloids can result in serious human health hazards. Phytoremediation is green bioresource technology for the remediation of heavy metals and arsenic (As). However, there exists a knowledge gap and systematic information on duckweed-based metal phytoremediation in an eco-sustainable way. Therefore, the present review offers a critical discussion on the effective use of duckweeds (genera Landoltia and Lemna)-based phytoremediation to decontaminate metallic contaminants from wastewater. Phytoextraction and rhizofiltration were the major mechanism in 'duckweed bioreactors' that can be dependent on physico-chemical factors and plant-microbe interactions. The biotechnological advances such as gene manipulations can accelerate the duckweed-based phytoremediation process. High starch and protein contents of the metal-loaded duckweed biomass facilitate their use as feedstock in biorefinery. Biorefinery prospects such as bioenergy production, value-added products, and biofertilizers can augment the circular economy approach. Coupling duckweed-based phytoremediation with biorefinery can help achieve Sustainable Development Goals (SDGs) and human well-being., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

222. A hybrid thermal-biological recycling route for efficient extraction of metals and metalloids from end-of-life liquid crystal displays (LCDs).

Author

Parsa A, Bahaloo Horeh N, and Mousavi SM

Subjects

Indium chemistry, Recycling methods, Metalloids, Liquid Crystals chemistry, Electronic Waste analysis

Abstract

Waste liquid crystal displays (LCDs) are one of the most substantial and rapidly growing e-waste streams that contain a notable amount of critical, precious, and toxic elements. This study presented a novel thermal-biological hybrid method for resource recovery from waste LCDs. Through the design of a multistage thermal treatment process with the addition of optimized 20 wt% B 2 O 3 to waste, the LCD's glass structure was separated into two interconnected phases, resulting in the transfer of metals from the LCD's glass phase to the B 2 O 3 phase that can solubilize in the acid solution. Following the thermal treatment step, the biometabolites of Aspergillus niger were used for bioleaching of In, Sr, Al, and As from the obtained thermally treated product. The optimal bioleaching parameters were a pulp density of 10 g/L, temperature of 70  ° C, and leaching time of 2 days, which led to the highest extraction of 82.6% Al, 70.8% As, 64.5% In, and 36.2% Sr from thermally treated LCD waste, representing a multifold increase in Al, As, and Sr extraction levels compared to untreated waste. This study demonstrated that the proposed hybrid method could successfully overcome waste complexities and ensure effective element extraction from discarded LCDs., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

223. Laboratory Evolution of Metalloid Reductase Substrate Recognition and Nanoparticle Product Size.

Author

Hendricks AR, Cohen RS, McEwen GA, Tien T, Guilliams BF, Alspach A, Snow CD, and Ackerson CJ

Subjects

Oxidoreductases genetics, Cystine, Metalloids, Nanoparticles, Selenium chemistry

Abstract

Glutathione reductase-like metalloid reductase (GRLMR) is an enzyme that reduces selenodiglutathione (GS-Se-SG), forming zerovalent Se nanoparticles (SeNPs). Error-prone polymerase chain reaction was used to create a library of ∼10,000 GRLMR variants. The library was expressed in BL21 Escherichia coli in liquid culture with 50 mM of SeO 3 2- present, under the hypothesis that the enzyme variants with improved GS-Se-SG reduction kinetics would emerge. The selection resulted in a GRLMR variant with two mutations. One of the mutations (D-E) lacks an obvious functional role, whereas the other mutation is L-H within 5 Å of the enzyme active site. This mutation places a second H residue within 5 Å of an active site dicysteine. This GRLMR variant was characterized for NADPH-dependent reduction of GS-Se-SG, GSSG, SeO 3 2- , SeO 4 2- , GS-Te-SG, and TeO 3 2- . The evolved enzyme demonstrated enhanced reduction of SeO 3 2- and gained the ability to reduce SeO 4 2- . This variant is named selenium reductase (SeR) because of its emergent broad activity for a wide variety of Se substrates, whereas the parent enzyme was specific for GS-Se-SG. This study overall suggests that new biosynthetic routes are possible for inorganic nanomaterials using laboratory-directed evolution methods.

Published

2024

224. Trace element levels: How Substance Use Disorder (SUD) contributes to the alteration of urinary essential and toxic element levels.

Author

Mansouri B, Azadi N, Drebadami AH, and Nakhaee S

Subjects

Humans, Cadmium urine, Cross-Sectional Studies, Lead, Opium, Chromium, Nickel, Trace Elements urine, Tramadol, Metals, Heavy, Arsenic urine, Mercury, Metalloids, Substance-Related Disorders, Illicit Drugs

Abstract

Increasing illicit drug use is one of the main problems in most countries or societies. Monitoring heavy metals and trace elements in this vulnerable group seems to be necessary. Therefore, we assessed the urinary trace element and toxic metals/metalloids concentrations (Zinc (Zn), Iron (Fe), Copper (Cu), Chromium (Cr), Lead (Pb), Cadmium (Cd), Arsenic (As), Nickel (Ni), and Mercury (Hg)) in opium, tramadol, and cannabis users compared to healthy subjects. In this cross-sectional study, patients with substance use disorder (SUD) (n = 74) were divided into four groups: cannabis, tramadol, opium, and mixed (simultaneous use of more than one of the three studied substances), along with a healthy group (n = 60). Urine samples were prepared by dispersive liquid-liquid microextraction method so that heavy metals/metalloids could be measured by ICP-MS. The mean urinary concentration of Cu (48.15 vs. 25.45; 89.2%, p<0.001), Hg (1.3 vs. 0.10; 1200%, p < 0.001), and Zn (301.95 vs. 210; 43.8%, p < 0.001) was markedly lower among patients with SUD. The mean urinary concentration of other elements including As (1.9 vs. 4.1; 115.8%), Cd (0.1 vs. 1.10; 1000%), Cr (6.80 vs. 11.65; 71.3%), Ni (2.95 vs. 4.95; 67.8%), and Pb (1.5 vs. 7.9; 426.6%) were significantly higher among patients with SUD compared to healthy subjects. When sub-groups were compared, no significant differences were observed between their trace element levels (Kruskal-Wallis test, p > 0.05). This can be an indication that regardless of the type of drug, the levels of trace elements are changed with respect to healthy individuals. Our results showed that illicit drug use causes changes in urinary trace element/heavy metal/metalloid levels and highlights the need for monitoring heavy metals and trace elements in individuals with substance use disorder. Assessment of different elements in biological samples of drug dependents may be useful for implementing new prevention and treatment protocols. In case of changes in their levels, complementary recommendations, attention to diet, and periodic assessment of toxic metal levels within treatment programs will be needed., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Mansouri et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

225. Multifaceted roles of silicon nano particles in heavy metals-stressed plants.

Author

Asgher M, Rehaman A, Nazar Ul Islam S, and Khan NA

Subjects

Silicon pharmacology, Plant Growth Regulators, Plants chemistry, Metals, Heavy toxicity, Metalloids, Soil Pollutants chemistry

Abstract

Heavy metal (HM) contamination has emerged as one of the most damaging abiotic stress factors due to their prominent release into the environment through industrialization and urbanization worldwide. The increase in HMs concentration in soil and the environment has invited attention of researchers/environmentalists to minimize its' impact by practicing different techniques such as application of phytohormones, gaseous molecules, metalloids, and essential nutrients etc. Silicon (Si) although not considered as the essential nutrient, has received more attention in the last few decades due to its involvement in the amelioration of wide range of abiotic stress factors. Silicon is the second most abundant element after oxygen on earth, but is relatively lesser available for plants as it is taken up in the form of mono-silicic acid, Si(OH) 4 . The scattered information on the influence of Si on plant development and abiotic stress adaptation has been published. Moreover, the use of nanoparticles for maintenance of plant functions under limited environmental conditions has gained momentum. The current review, therefore, summarizes the updated information on Si nanoparticles (SiNPs) synthesis, characterization, uptake and transport mechanism, and their effect on plant growth and development, physiological and biochemical processes and molecular mechanisms. The regulatory connect between SiNPs and phytohormones signaling in counteracting the negative impacts of HMs stress has also been discussed., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2024

226. Associations between plasma metal/metalloid mixtures and the risk of central obesity: A prospective cohort study of Chinese adults.

Author

Zhang Z, Xiao Y, Long P, Yu Y, Liu Y, Liu K, Yang H, Li X, He M, Wu T, and Yuan Y

Subjects

Adult, Humans, Prospective Studies, Bayes Theorem, Metals, Manganese, Obesity epidemiology, Thallium, China epidemiology, Obesity, Abdominal epidemiology, Metalloids

Abstract

Central obesity has increased rapidly over the past decade and posed a substantial disease burden worldwide. Exposure to metals/metalloids has been acknowledged to be involved in the development of central obesity through regulation of cortisol, insulin resistance, and glucocorticoid receptor reduction. Despite the importance, it is lack of prospective study which comprehensively evaluate the relations between multiple metals exposure and central obesity. We explored the prospective associations of plasma metal concentrations with central obesity in a prospective study of the Dongfeng-Tongji cohort. The present study included 2127 participants with a 6.87-year mean follow-up duration. We measured 23 plasma metal/metalloid concentrations at baseline. The associations between metals and incident central obesity were examined utilizing the Cox proportional hazard regression in single and multiple metals models. Additionally, we applied elastic net (ENET), Bayesian kernel machine regression (BKMR), plasma metal score (PMS), and quantile-based g-computation (Qgcomp) models to explore the joint associations of metal mixtures with central obesity. After adjusting potential confounders, we found significant associations of plasma manganese (Mn) and thallium (Tl) concentrations with a higher risk of central obesity, whereas plasma rubidium (Rb) concentration was associated with a lower risk of central obesity both in single and multiple metals models (all FDR <0.05). The ENET and Qqcomp models verified similar metals (Mn, Rb, and Tl) as important predictors for central obesity. The results of both BKMR model and PMS suggested cumulative exposure to metal mixtures was associated with a higher risk of central obesity. Our findings suggested that co-exposure to metals was associated with a higher risk of central obesity. This study expands our knowledge that the management of metals/metalloids exposure may be beneficial for the prevention of new-onset central obesity, which may subsequently alleviate the disease burden of late-life health outcomes., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Inc.)

Published

2024

227. Beach sand mycobiome: The silent threat of pathogenic fungi and toxic metal contamination for beachgoers.

Author

Selvarajan R, Sibanda T, Ullah H, and Abia ALK

Subjects

Sand, Ecosystem, Water Microbiology, Fungi, Mycobiome, Ascomycota, Metalloids

Abstract

Emphasis is always placed on bacterial but not fungal pathogens in marine environments. We analysed the fungal diversity, functional predictions, and toxic metals and metalloids contamination in beach sand from different South African locations. Results revealed a diverse fungal community, with Ascomycota, Rozellomycota, and Basidiomycota being the dominant phyla. Functional predictions highlighted fungal metabolic pathways related to of carbohydrates, amino acids, and lipids, in different beach samples. Elevated concentrations of toxic metals and metalloids were detected in Central and Harbour beach sands, likely due to anthropogenic activities. Correlations among different elements were observed, suggesting complex interactions in the coastal environment. Fungal pathogens like Cladosporium, Fusarium, Aspergillus, and Candida in beach sands raise potential public health risk concerns. Therefore, monitoring fungal diversity (including pathogens) alongside bacterial contamination in beach environments is imperative. The results contribute to understanding fungal community dynamics, functional potential, toxic metal and metalloid contamination, and potential risks associated with beach sand ecosystems., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

228. Modulation of plant photosynthetic processes during metal and metalloid stress, and strategies for manipulating photosynthesis-related traits.

Author

Shomali A, Das S, Sarraf M, Johnson R, Janeeshma E, Kumar V, Aliniaeifard S, Puthur JT, and Hasanuzzaman M

Subjects

Plant Growth Regulators metabolism, Metals metabolism, Photosynthesis, Plants genetics, Metalloids

Abstract

Metals constitute vital elements for plant metabolism and survival, acting as essential co-factors in cellular processes which are indispensable for plant growth and survival. Excess or deficient provision of metal/metalloids puts plant's life and survival at risk, thus considered a potent stress for plants. Chloroplasts as an organelle with a high metal demand form a pivotal site within the metal homeostasis network. Therefore, the metal-mediated electron transport chain (ETC) in chloroplasts is a primary target site of metal/metalloid-induced stresses. Both excess and deficient availability of metal/metalloids threatens plant's photosynthesis in several ways. Energy demands from the photosynthetic carbon reactions should be in balance with energy output of ETC. Malfunctioning of ETC components as a result of metal/metalloid stress initiates photoinhiition. A feedback inhibition from carbon fixation process also impedes the ETC. Metal stress impairs antioxidant enzyme activity, pigment biosynthesis, and stomatal function. However, genetic manipulations, nutrient management, keeping photostasis, and application of phytohormones are among strategies for coping with metal stress. Consequently, a comprehensive understanding of the underlying mechanisms of metal/metalloid stress, as well as the exploration of potential strategies to mitigate its impact on plants are imperative. This review offers a mechanistic insight into the disruption of photosynthesis regulation by metal/metalloids and highlights adaptive approaches to ameliorate their effects on plants. Focus was made on photostasis, nutrient interactions, phytohormones, and genetic interventions for mitigating metal/metalloid stresses., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Masson SAS. All rights reserved.)

Published

2024

229. Stabilization of metal and metalloids from contaminated soils using magnesia-based tundish deskulling waste from continuous steel casting.

Author

Quintero-Payan AC, Huete-Hernández S, Aguilar-Pozo VB, Astals S, and Chimenos JM

Subjects

Magnesium Oxide, Excipients, Industrial Waste, Soil chemistry, Metals, Heavy analysis, Metalloids

Abstract

This study presents a groundbreaking exploration into the potential use of refractory tundish deskulling waste (TUN), a magnesium oxide-based by-product from continuous steel casting, as a stabilizing agent for remediating metal and metalloids contaminated soils. Up-flow column horizontal percolation tests were conducted to measure the concentrations of metals and metalloids, pH, and electrical conductivity (EC) in the leachates of two different combinations of contaminated soil and stabilizer (95-5 wt% and 90-10 wt%). The effectiveness of TUN as a soil-stabilizing agent for contaminated soils with metals and metalloids was evaluated by comparing its leachates with those obtained from a sample of a well-established low-grade magnesium oxide (LG-MgO) by-product, which underwent the same testing procedure. The findings revealed a significant correlation between the mobility of the examined metals and metalloids, and the water-soluble or acid phase of the contaminated soil, primarily governed by precipitation-solution reactions. While the stabilizing impact on non-pH-dependent metals, particularly redox-sensitive oxyanions, was less pronounced, both MgO-based stabilizers exhibited a favourable influence on soil pH-dependent metals and metalloids. They achieved this by establishing an optimal pH range of approximately 9.0-10.5, wherein the solubility of metal (hydr)oxides is minimized. Notably, metals like Zn and Cu, which have high leaching potential, experienced a remarkable reduction in leaching - Zn by over 99% and Cu by around 97% - regardless of the stabilizer content. In a broader context, this research champions the principles of the circular economy by offering a technical remedy for treating soils contaminated with pH-dependent metals and metalloids. The proposed solution harnesses industrial waste - currently relegated to landfills - as a resource, aligning with sustainable practices and environmental responsibility., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

230. Concomitant presence of nanosized plastics and metal(loid)s: is there cause for alarm? State-of-the-art and recommendations for future studies

Author

Ana Santos, Miguel Oliveira, and Cátia Venâncio

Subjects

Aquatic biota, Metals, Co-exposure toxicity, Nanoplastics, Combined effects, Spectroscopy, Analytical Chemistry, Metalloids

Abstract

Nanoplastics (NPLs) accumulated in freshwater systems may serve as sinks for metal(loid)s. To date, few studies have assessed the joint effects of NPLs-metal(loid)s on freshwater biota and the risk that these mixtures may pose has not been discussed. This critical review shows that research in this context focused solely on a single polymer – polystyrene, and single shape – spherical particles, in combination with seven different metal(loid)s (copper, cadmium, chromium, zinc, lead, arsenic, and gold). The characterization of nanosized particles in such mixtures was performed mostly recurring to one single technique (DLS), often disregarding the type of test media. The effects of NPLs-metal(loid)s co-exposure are reported mainly for producers rather than consumers. Overall, co-exposure can trigger more toxic effects than exposure to either substance alone (synergism). The effects of synergism are polymer size-dependent, increasing with NPLs size decrease. These results support further research, assessing other combinations (including polymer type and shape) and organisms, to check if the pattern of synergism remains, for proper policy-making on plastic disposal evidence-based. published

Published

2023

231. Indirect Methods to Determine the Risk of Damage to the Health of Firefighters and Children Due to Exposure to Smoke Emission from Burning Wood/Coal in a Controlled Environment

Author

Marcelo Sampaio Ocampos, Luana Carolina Santos Leite, Elaine Silva de Pádua Melo, Rita de Cássia Avellaneda Guimarães, Rodrigo Juliano Oliveira, Karine de Cássia Freitas, Priscila Aiko Hiane, Arunachalam Karuppusamy, and Valter Aragão do Nascimento

Subjects

Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, heavy metals, metalloids, health risks, fire smoke exposure, firefighters

Abstract

People are constantly exposed to particulate matter and chemicals released during fires. However, there are still few studies on gas and particulate emissions related to exposure to burning firewood and charcoal during forest fires, making it difficult to understand the effects on the health of the population. The objective of this study was to quantify the metal(loid)s present in the smoke from wood and charcoal fires through the deposition of metals in beef topside and pork loin, considering the routes of skin exposure, inhalation, and ingestion, contributing to the understanding of metals in the increase of the risks of cancer and mortality associated with firefighting and children. The concentrations of metals [aluminum (Al), chromium (Cr), copper (Cu), iron (Fe), magnesium (Mg), manganese (Mn), molybdenum (Mo), vanadium (V), zinc (Zn)] and metalloids arsenic (As) were determined by inductively coupled plasma–mass spectrometry (ICP OES) after microwave digestion. Moreover, we assessed the associated risk regarding the elemental intake of these elements through the smoke, using the hazard quotient (HQ), hazard index (HI), Total Hazard Index (HIt), and carcinogenic risk (CR). All samples had results for HQ and HIt < 1, indicating a non-potential health risk. However, the carcinogenic risks posed by As and Cr via the three exposure pathways (except for inhalation exposure to children and adults, and by Cr via ingestion and inhalation for children and adults) exceeded the standard threshold. In conclusion, continuous exposure of firefighters or children to smoke from fires containing high concentrations of heavy metals such as As and Cr can be harmful to health. The study used animal tissues; thus, new methods must be developed to quantify the concentration of heavy metals deposited in human tissue when humans are exposed to smoke from fires.

Published

2023

232. A Culturomics-Based Bacterial Synthetic Community for Improving Resilience towards Arsenic and Heavy Metals in the Nutraceutical Plant Mesembryanthemum crystallinum

Author

Noris J. Flores-Duarte, Eloísa Pajuelo, Enrique Mateos-Naranjo, Salvadora Navarro-Torre, Ignacio D. Rodríguez-Llorente, Susana Redondo-Gómez, and José A. Carrasco López

Subjects

Inorganic Chemistry, halophytes, ice plant, synthetic communities, biofertilizers, culturomics, heavy metals, metalloids, metabolomics, Organic Chemistry, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

Plant-growth-promoting bacteria (PGPB) help plants thrive in polluted environments and increase crops yield using fewer inputs. Therefore, the design of tailored biofertilizers is of the utmost importance. The purpose of this work was to test two different bacterial synthetic communities (SynComs) from the microbiome of Mesembryanthemum crystallinum, a moderate halophyte with cosmetic, pharmaceutical, and nutraceutical applications. The SynComs were composed of specific metal-resistant plant-growth-promoting rhizobacteria and endophytes. In addition, the possibility of modulating the accumulation of nutraceutical substances by the synergetic effect of metal stress and inoculation with selected bacteria was tested. One of the SynComs was isolated on standard tryptone soy agar (TSA), whereas the other was isolated following a culturomics approach. For that, a culture medium based on M. crystallinum biomass, called Mesem Agar (MA), was elaborated. Bacteria of three compartments (rhizosphere soil, root endophytes, and shoot endophytes) were isolated on standard TSA and MA media, stablishing two independent collections. All bacteria were tested for PGP properties, secreted enzymatic activities, and resistance towards As, Cd, Cu, and Zn. The three best bacteria from each collection were selected in order to produce two different consortiums (denominated TSA- and MA-SynComs, respectively), whose effect on plant growth and physiology, metal accumulation, and metabolomics was evaluated. Both SynComs, particularly MA, improved plant growth and physiological parameters under stress by a mixture of As, Cd, Cu, and Zn. Regarding metal accumulation, the concentrations of all metals/metalloids in plant tissues were below the threshold for plant metal toxicity, indicating that this plant is able to thrive in polluted soils when assisted by metal/metalloid-resistant SynComs and could be safely used for pharmaceutical purposes. Initial metabolomics analyses depict changes in plant metabolome upon exposure to metal stress and inoculation, suggesting the possibility of modulating the concentration of high-value metabolites. In addition, the usefulness of both SynComs was tested in a crop plant, namely Medicago sativa (alfalfa). The results demonstrate the effectiveness of these biofertilizers in alfalfa, improving plant growth, physiology, and metal accumulation.

Published

2023

233. Strike a Balance: Between Metals and Non-Metals, Metalloids as a Source of Anti-Infective Agents

Author

Tiziano Marzo and Diego La Mendola

Subjects

metalloids, boron, arsenic, silicon, antimony, tellurium, Inorganic chemistry, QD146-197

Abstract

Most of the commercially available anti-infective agents are organic molecules. In fact, though, during the pioneering times of modern medicine, at the beginning of the 20th century, several inorganic compounds of transition metals were used for medicinal application, to date, only a small number of inorganic drugs are used in clinical practice. Beyond the transition metals, metalloids—or semimetals—offer a rich chemistry in between that of metallic and non-metallic elements, and accordingly, peculiar features for their exploitation in medicinal chemistry. A few important examples of metalloid-based drugs currently used for the treatment of various diseases do exist. However, the use of this group of elements could be further expanded on the basis of their current applications and the clinical trials they entered. Considering that metalloids offer the opportunity to expand the “chemical-space” for developing novel anti-infective drugs and protocols, in this paper, we briefly recapitulate and discuss the current applications of B-, Si-, As-, Sb- and Te-based anti-infective drugs.

Published

2021

234. The Role of Non‐Metallic and Metalloid Elements on the Electrocatalytic Activity of Cobalt and Nickel Catalysts for the Oxygen Evolution Reaction.

Author

Masa, Justus and Schuhmann, Wolfgang

Subjects

*OXYGEN evolution reactions, *COBALT catalysts, *NICKEL catalysts, *NONMETALS, *SEMIMETALS, *COBALT nickel alloys

Abstract

Compounds and alloys of cobalt and nickel with some nonmetals (N, P, S, Se) and metalloids (C, B, C, As and Te) have emerged as very promising noble metal‐free pre‐catalysts for the oxygen evolution reaction (OER) in alkaline electrolytes. However, the exact role played by the non‐metals and metalloids in promoting the OER is not well understood. A holistic understanding of the origin of the OER activity enhancement in these compounds is vital for their exploitation as models to inspire knowledge‐guided design of improved OER catalysts. In this review, we elucidate the factors that govern the activity and stability of OER catalysts derived from MX compounds (M=Co or Ni, and X=nonmetal or metalloid), including the impact of surface electronic structure, M : X stoichiometry, material composition, structure and crystallinity, as well as the role of oxoanions on the properties of the electrochemical double layer and interaction energies of the reaction intermediates. Finally, we outline a few perspectives and research directions towards a deeper understanding of the role of the nonmetal and metalloid elements and design of improved OER catalysts. [ABSTRACT FROM AUTHOR]

Published

2019

235. Colloidal Organic Matter and Metal(loid)s in Coastal Waters (Gulf of Trieste, Northern Adriatic Sea).

Author

Klun, Katja, Falnoga, Ingrid, Mazej, Darja, Šket, Primož, and Faganeli, Jadran

Abstract

Large volumes of seawater were sampled in the Gulf of Trieste (northern Adriatic Sea) in order to study the interactions between colloidal organic matter (COM) and metal(loid)s (Me) in coastal waters. COM (> 5 kDa) was isolated by ultrafiltration and characterized using 1H NMR spectroscopy and elemental Corg. and Ntot. analyses. COM in the gulf represents about one quarter of the dissolved organic carbon (DOC), and according to 1H NMR analysis, it is composed of polysaccharides (30–45%), lipids (30–55%), proteins and carboxyl-rich alicyclic molecules (CRAM) (15–20%), and humics (< 1%). An accumulation of COM was observed in the late spring–early summer. The polysaccharide and lipid fractions increased up to twofold and the protein fraction decreased, reflected in a higher Corg./Ntot. (28, molar) ratio. Higher concentrations of humics were observed due to local freshwater discharges in spring. COM from the Isonzo/Soča River differed from the marine COM exhibiting higher protein/CRAM and higher humic contents. COM from the Isonzo/Soča mouth at salinities 16–33 was compositionally similar to marine COM. Analysis of Me, performed by ICP-MS and CVAFS (Hg), showed that Hg (nearly 100%), Cu (20%), Cr (10%), and Se (10%) have the highest Me affinity to colloids. Similar to COM, Hg and Cu rapidly increased till summer due to their sequestration in accumulated COM (transfer to particulate phase). The observed Me/Corg. ratios (Co, Cd, Hg < U, Cr, Ni, Mn < As, Zn, Cu, V < Se, Al, Fe) differ somewhat from those of the Irving–Williams series and can be explained by the composition of COM and variable background concentrations of studied Me in the northern Adriatic. Data from the salinity gradient in the metal-contaminated (especially Hg, Pb, Zn) Isonzo/Soča mouth showed flocculation of Al and Ba and desorption of V, Co, As, Se, Cs, U, and Hg, from the riverine particles with increasing ionic strength, while Fe, Mn, Cu, Cr, Ni, Zn, Cd, and Pb did not correlate with salinity. [ABSTRACT FROM AUTHOR]

Published

2019

236. Remediation of arsenic from contaminated seawater using manganese spinel ferrite nanoparticles: Ecotoxicological evaluation in Mytilus galloprovincialis.

Author

Coppola, Francesca, Tavares, Daniela S., Henriques, Bruno, Monteiro, Rui, Trindade, Tito, Soares, Amadeu M.V.M., Figueira, Etelvina, Polese, Gianluca, Pereira, Eduarda, and Freitas, Rosa

Subjects

*MYTILUS galloprovincialis, *WATER pollution, *ARSENIC, *FERRITES, *MANGANESE, *SEAWATER

Abstract

In the last decade different approaches have been applied for water remediation purposes, including the use of nanoparticles (NPs) to remove metals and metalloids from water. Although studies have been done on the toxic impacts of such NPs, very scarce information is available on the impacts of water after decontamination when discharged into aquatic environments. As such, in the present study we aimed to evaluate the ecotoxicological safety of seawater previously contaminated with arsenic (As) and remediated by using manganese-ferrite (MnFe 2 O 4 -NPs) NPs. For this, mussels Mytilus galloprovincialis were exposed for 28 days to different conditions, including clean seawater (control), As (1000 μg L−1) contaminated and remediated (As 70 μg L−1) seawater, water containing MnFe 2 O 4 - NPs (50 mg L−1) with and without the presence of As. At the end of exposure, concentrations of As in mussels tissues were quantified and biomarkers related to mussels' metabolism and oxidative stress status were evaluated. Results revealed that mussels exposed to water contaminated with As and to As + NPs accumulated significantly more As (between 62% and 76% more) than those exposed to remediated seawater. Regarding biomarkers, our findings demonstrated that in comparison to remediated seawater (conditions a, b, c) mussels exposed to contaminated seawater (conditions A, B, C) presented significantly lower metabolic activity, lower expenditure of energy reserves, activation of antioxidant and biotransformation defences, higher lipids and protein damages and greater AChE inhibition. Furthermore, organisms exposed to As, NPs or As + NPs revealed similar biochemical effects, both before and after water decontamination. In conclusion, the present study suggests that seawater previously contaminated with As and remediated by MnFe 2 O 4 -NPs presented significantly lower toxicity than As contaminated water, evidencing the potential use of these NPs to remediate seawater contaminated with As and its safety towards marine systems after discharges to these environments. • Decontaminated seawater did not affect mussels metabolic capacity. • Contaminated mussels enhanced their antioxidant and biotransformation enzymes activities. • No cellular damages were observed in mussels exposed to decontaminated seawater. • Neurotoxicity was induced in contaminated mussels. [ABSTRACT FROM AUTHOR]

Published

2019

237. Long term monitoring of metal pollution in sediments as a tool to investigate the effects of engineering works in estuaries. A case study, the Nerbioi-Ibaizabal estuary (Bilbao, Basque Country).

Author

Garmendia, Marina, Fdez-Ortiz de Vallejuelo, Silvia, Liñero, Olaia, Gredilla, Ainara, Arana, Gorka, Soto, Manuel, and de Diego, Alberto

Subjects

POLLUTION monitoring, ESTUARIES, SEMIMETALS, HOT spots (Pollution), HEAVY metals, SEDIMENTS, TUNNEL design & construction

Abstract

The Nerbioi-Ibaizabal estuary (Bilbao, Basque Country) suffered an important input of contaminants, including metals and metalloids, between 1875 and 1975. We collected sediments in the tidal part of the river in January 2018 and measured the concentrations of 27 elements in them. At that time, two important construction works were taking place in the area: the extension of the commercial port and the opening of long semi-closed channel. Comparing the current metallic hotspots with the geographical distribution of elements in previous years (2009, 2010 and 2014) showed us that these works seem to have significantly influenced the distribution of toxic elements in the estuary, even if the critical point of the second one is still to arrive with the inundation of the connection to the mainland. Long term pollution monitoring reveals as a powerful tool to check the effects of ongoing engineering works in estuarine environments. • Hotspots of toxic elements (As, Cd, Hg, Mn, Pb and Zn) were identified in the estuary. • A few sediments were catalogued as moderately toxic, due to high content of Pb and Zn. • Sources of toxic metals and metalloids to the estuary were identified. • Engineering works currently in progress influence metal distribution in the estuary. [ABSTRACT FROM AUTHOR]

Published

2019

238. Atmospheric bulk deposition of heavy metal(loid)s in central south China: Fluxes, influencing factors and implication for paddy soils.

Author

Feng, Wenli, Guo, Zhaohui, Peng, Chi, Xiao, Xiyuan, Shi, Lei, Zeng, Peng, Ran, Hongzhen, and Xue, Qinghua

Subjects

*ATMOSPHERIC deposition, *HEAVY metals, *ANALYSIS of river sediments, *MULTIPLE correspondence analysis (Statistics), *FLUX (Energy), *SOILS

Abstract

• Atmospheric As and Cd deposition fluxes in the CZT were higher than other regions. • The influencing factors and sources of deposition of HMs were analyzed. • The atmospheric deposition was major contributor to soil HMs in the CZT. • Atmospheric deposition would greatly increase the concentrations of HMs in soils. The depositions of heavy metal(loid)s (HMs) were measured in an urban agglomeration of China to investigate the fluxes, influencing factors, sources, and potential effects of these HMs. Our results showed that the deposition fluxes of As and Cd were higher in this area than in other regions. In the area, 59.63% of the total deposition fluxes of the Cr, Cu, Ni, Pb and Zn were observed in the wet season (March to July). Lower total fluxes of HMs were observed at the rural site. Principal component analysis (PCA) results showed that the As, Cd, Pb, and Zn might originate from the same anthropogenic sources, including traffic and industrial sources, and that the Cr, Cu, and Ni might come from natural sources. Correlation analysis and redundancy analysis (RDA) showed that rainfall, wind speed, and PMs were critical factors influencing the atmospheric bulk deposition of HMs. For the paddy soil, the input fluxes of HMs by deposition, accounted for 38.66–84.57% (except for Cr) of the total input fluxes. The prediction indicated that the accumulation of HMs in surface soil will notably increase over the next decades due to the influence of atmospheric deposition. [ABSTRACT FROM AUTHOR]

Published

2019

239. Effects of waterlogging on the solubility of antimony and arsenic in variously treated shooting range soils.

Author

Lewińska, Karolina, Karczewska, Anna, Siepak, Marcin, Szopka, Katarzyna, Gałka, Bernard, and Iqbal, Muhammad

Subjects

*WATERLOGGING (Soils), *RIFLE-ranges, *PORE water, *SOILS, *ANTIMONY, *SLUDGE composting

Abstract

This study examined a release of two metalloids: Sb and As into pore water from five shooting range soils under oxidized and waterlogged conditions, in a 140-day incubation experiment. The total concentrations of Sb and As in soils were in the ranges: 4.15–89.6 and 2.23–9.22 mg kg−1, respectively. Soils were treated with green waste compost and deferrisation sludge prior to incubation. Additionally, the effects of treatment with acid and lime were examined. Pore water was collected 5 times with MacroRhizon suction samplers and examined on Sb and As concentrations. Antimony speciation in pore water involved Sb(III) and Sb(V) which were assayed by ICP-MS-HCLP. Additionally, five operationally defined fractions of Sb and As in soil solid phase were determined by sequential extraction before and after incubation. Data showed that waterlogging considerably reduced final Sb concentrations in pore water, irrespectively of the kind of pre-treatment, except for a temporal increase in Sb solubility in two soils. On the contrary, As was usually more intensively released under anoxic conditions, particularly from compost-treated soils. The concentrations of Sb(III) were negligible in pore water of oxidized soils, while their share in pore water of waterlogged soils was considerable and tended to increase with prolonged incubation. The highest concentrations of Sb(III) in pore water were found in waterlogged acid-treated soils, and also in limed soils. The mechanisms involved in the changes of Sb and As solubility were discussed. Sequential extraction did not provide satisfactory results consistent with hypothesized processes running in waterlogged soils. • Sb and As release was examined in soils treated with compost and Fe rich wastes. • Waterlogging reduced Sb concentrations in pore water irrespectively of pretreatment. • As release, particularly from compost-treated soils, was intensified by waterlogging. • Sb(V) was a stable Sb species in soil pore water under oxic conditions. • The share of Sb(III) in pore water of waterlogged soils tended to increase with time. [ABSTRACT FROM AUTHOR]

Published

2019

240. Inorganic arsenic content in Ecuadorian rice-based products.

Author

Gavilanes-Terán, I., Cano-Lamadrid, M., Idrovo-Novillo, J., García-García, E., Veloz-Mayorga, N., Erazo-Arrieta, R., Burló, F., Cruz-Paca, F., and Carbonell-Barrachina, Ángel A.

Subjects

*FOOD industry, *RICE, *CELIAC disease, *RICE hulls, *CACODYLIC acid

Abstract

Arsenic intake in the world is linked with drinking water and food; the main sources of inorganic As (i-As) exposure in food are rice and rice-based products. The consumption of rice in Ecuador is 53.2 kg year−1 and it is the most commonly used cereal for the preparation of many popular dishes especially for subjects with celiac disease. Objectives of this research were: (i) to determine the content of i-As in foods widely consumed by Ecuadorians with celiac disease, (ii) to calculate the i-As dietary intake, and (iii) to model and predict the health risks of the population under study as a result of their exposure to i-As from rice-based food. The estimated daily intakes of Ecuadorian children (below 3 years of age) and adults were established at 0.52 and 0.55 μg kg−1 body weight d−1, respectively. These values were above the lower BMDL01 value established for i-As established by the EFSA; consequently, it can be concluded that health risk cannot be excluded for the Ecuadorian population with celiac disease. [ABSTRACT FROM AUTHOR]

Published

2019

241. Distribution trend of trace elements in digestate exposed to air: Laboratory-scale investigations using DGT-based fractionation.

Author

Laera, Andreina, Buzier, Rémy, Guibaud, Gilles, Esposito, Giovanni, and van Hullebusch, Eric D.

Subjects

*TRACE elements, *SEWAGE sludge, *SOIL amendments, *STORAGE tanks, *THIN films, *ORGANIC compounds

Abstract

Abstract The use of digestate as amendment for agricultural soils has already been proposed as an alternative to mineral fertilizers or undigested organic matter. However, little information is available concerning the effect of digestate atmospheric exposure on trace elements speciation and, consequently, on their mobility and bio-accessibility when digestate is stored in open tanks or handled before land spreading. In this study, we investigated at laboratory-scale the effect of digestate aeration on the distribution of Al, As, Cd, Co, Cr, Cu, Fe, Mn, Mo, Ni, Pb, Sb, Se and W using the diffusive gradients in thin films technique (DGT)-based fractionation. For this purpose, experiments were performed to assess the variation in distribution between the labile, soluble and particulate fractions over time in digested sewage sludge during passive and forced aeration. Results showed that aeration promoted a dissolution of Al, As, Co, Cr, Cu, Fe, Mn, Mo and Pb, suggesting a possible increase in their mobility that may likely occur during storage in open tanks or handling before land spreading. Labile elements' fraction increased only during forced aeration (except for Fe and Mn), suggesting that their short-term bio-accessibility can increase only after significant aeration as the one assumed to occur when land spreading takes place. Graphical abstract Image 1 Highlights • Distribution trend of 14 trace elements was studied in digestate under air exposure. • DGT was used as trace elements fractionation tool to assess the labile fraction. • Aeration promoted dissolution of Al, As, Co, Cr, Cu, Fe, Mn, Mo and Pb. • Forced aeration promoted an increase of labile Al, As, Co, Mo, Ni, Sb, Se and W. • Al, As, Co, Cr, Cu, Fe, Mn and Pb were mainly present as particulate despite aeration. [ABSTRACT FROM AUTHOR]

Published

2019

242. Arsenic, antimony, and nickel leaching from northern peatlands treating mining influenced water in cold climate.

Author

Khan, Uzair Akbar, Kujala, Katharina, Nieminen, Soile P., Räisänen, Marja Liisa, and Ronkanen, Anna-Kaisa

Abstract

Abstract Increased metal mining in the Arctic region has caused elevated loads of arsenic (As), antimony (Sb), nickel (Ni), and sulfate (SO 4 2−) to recipient surface or groundwater systems. The need for cost-effective active and passive mine water treatment methods has also increased. Natural peatlands are commonly used as a final step for treatment of mining influenced water. However, their permanent retention of harmful substances is affected by influent concentrations and environmental conditions. The effects of dilution, pH, temperature, oxygen availability, and contaminant accumulation on retention and leaching of As, Sb, Ni, and sulfate from mine process water and drainage water obtained from treatment peatlands in Finnish Lapland were studied in batch sorption experiments, and discussed in context of field data and environmental impacts. The results, while demonstrating effectiveness of peat to remove the target contaminants from mine water, revealed the risk of leaching of As, Sb, and SO 4 2− from treatment peatlands when diluted mine water was introduced. Sb was more readily leached compared to As while leaching of both was supported by higher pH of 9. No straightforward effect of temperature and oxygen availability in controlling removal and leaching was evident from the results. The results also showed that contaminant accumulation in treatment peatlands after long-term use can lead to decreased removal and escalated leaching of contaminants, with the effect being more pronounced for As and Ni. Graphical abstract Unlabelled Image Highlights • Retention of As, Sb, and Ni in peat from natural treatment wetlands was studied. • Contaminant accumulation in natural wetlands make them vulnerable to leaching. • Dilution of mining influenced water leads to leaching of As, Sb, and Ni. • Long-term use of wetlands decreases As and Ni removal/retention capacity. • Use of wetlands for treatment of wastewater should be carefully considered. [ABSTRACT FROM AUTHOR]

Published

2019

243. Recent advances on elemental biosorption.

Author

Escudero, Leticia B., Quintas, Pamela Y., Wuilloud, Rodolfo G., and Dotto, Guilherme L.

Subjects

*WATER pollution, *HEAVY metals, *POLLUTION, *AGRICULTURAL wastes, *SEMIMETALS

Abstract

Industrial activities play a relevant role in environmental pollution since their wastes contain high concentrations of toxic elements that can add significant contamination to natural water and other water sources if no decontamination is previously applied. As toxic metals and metalloids are not biodegradable and tend to accumulate in living organisms, it is necessary to treat the contaminated industrial wastewaters prior to their discharge into the water bodies. There are different remediation techniques that have been developed to solve elemental pollution, but biosorption has arisen as a promising cleanup and low-cost biotechnology. Biosorption is governed by a variety of mechanisms including chemical binding, ion exchange, physisorption, precipitation, and oxide reduction. This review presents applications of biosorbents for metals and metalloids removal. Biomaterials including bacteria, fungi, algae, plant derivatives, agricultural wastes, and chitin-chitosan-based materials are considered. Also, bio-nano-hybrid materials, which have superlative sorption properties due to their high surface area coming from the nanomaterials structures and multifunctional capacity incorporated from the several types of chemical groups of biomaterials, are discussed. High metal removal percentages as high as 70-100% can be found in most works reported in the literature, which demonstrates the excellent performance obtained with biosorbents. These, as well as other important aspects linked to biosorption, are fully covered in the present review. [ABSTRACT FROM AUTHOR]

Published

2019

244. Trace element fractionation between PM10 and PM2.5 in coal mine dust: Implications for occupational respiratory health.

Author

Moreno, Teresa, Trechera, Pedro, Querol, Xavier, Lah, Robert, Johnson, Diane, Wrana, Aleksander, and Williamson, Ben

Subjects

*COAL mining, *PARTICULATE matter, *MINE dusts, *LIGNITE, *CHEMICAL affinity, *SEMIMETALS

Abstract

Abstract Investigations into the respiratory health impacts of coal mine particulate matter (PM) face the challenge of understanding its chemical complexity. This includes highly variable concentrations of trace metals and metalloids such as Fe, Ti, Mn, Zn, Ni, V, Cr, Cu, Pb, Cd, Sb, As and Sn, which may be capable of inducing cell damage. Analysis of PM 10 and PM 2.5 samples size-separated from deposited coal mine dusts collected on PVC flat surfaces at a height of 1.5-2 m inside the second level in the Velenje lignite mine, Slovenia, demonstrates that some of these metallic elements (in this case Cu, Sb, Sn, Pb, Zn, As, Ni) can be concentrated in PM 2.5 , the most deeply inhalable and therefore potentially most bioreactive size fraction. These elements are likely to be mainly present in silicates, oxides, and perhaps antimonides and arsenides, rather than in the calcareous, carbonaceous or sulphide components which show no obvious affinity for PM 2.5. Whereas in the Velenje lignites concentrations of these metallic elements are low and so do not present any obvious extra health risk to the miners, this is unlikely to be the case in mines where unusually metal-enriched coals are being excavated. We therefore recommend that levels of potentially toxic elements in PM 2.5 should be assessed where metal- and metalloid-rich coals are being mined worldwide, especially given uncertainties relating to the efficiency of current dust suppression and respiratory protective equipment for such fine particle sizes. Highlights • The reasons for recent resurgence of coal mining lung disease are unclear. • We review metallic elements of potential health concern in coal dust. • Coal dust chemistry changes as particle size decreases. • Cu, Sb, Sn, Pb, Zn, As and Ni concentrate into the PM2.5 of airborne coal dust. [ABSTRACT FROM AUTHOR]

Published

2019

245. Long-term effectiveness of sediment dredging on controlling the contamination of arsenic, selenium, and antimony.

Author

Sun, Qin, Ding, Shiming, Chen, Musong, Gao, Shuaishuai, Lu, Guanghua, Wu, Yuexia, Gong, Mengdan, Wang, Dan, and Wang, Yan

Subjects

SEDIMENTS, ARSENIC, DIALYSIS (Chemistry), SEMIMETALS, ANTIMONY

Abstract

Abstract This study assessed the effectiveness of dredging in controlling arsenic (As), selenium (Se), and antimony (Sb) contamination in sediments, by examining contaminant concentrations in sediments six years after dredging was completed. High-resolution diffusive gradients in thin films (DGT) and dialysis (HR-Peeper) techniques were used to monitor the concentrations of DGT-labile metalloids and soluble metalloids in sediments, respectively. Results revealed that dredging effectively remediated metalloid contamination in sediments only in April, July and/or January. Compared to non-dredged sediments, the concentrations of soluble and DGT-labile As, Se, and Sb in dredged sediments decreased on average by 42%, 52%, and 43% (soluble), and 54%, 50%, and 53% (DGT), respectively. The effectiveness of the dredging was primarily due to the transformation of metalloids from labile to inert fractions, which increased the ability of the sediments to retain the metalloids, and the slowed rate of resupplied metalloids from available solid pools. In contrast, negligible/negative effects of dredging were seen in October, and the concentrations of soluble and DGT-labile metalloids even increased in some profiles of dredged sediments. This was mainly caused by a release of the metalloids from algal degradation, which may offset the dredging effectiveness. Graphical abstract Image 1 Highlights • Dredging effects varied by season, reflected by metalloid concentrations. • Dredging was most effective in April, July and/or January. • Efficacy due to higher fraction of inert metalloids with slower kinetic response. • Dredging had negligible and negative effects in October. • Algal decomposition and metalloid release suppressed dredging efficacy. [ABSTRACT FROM AUTHOR]

Published

2019

246. Assessment of the DGT technique in digestate to fraction twelve trace elements.

Author

Laera, Andreina, Buzier, Rémy, Guibaud, Gilles, Esposito, Giovanni, and van Hullebusch, Eric D.

Subjects

*THIN films, *MECHANICAL engineering, *POLYPROPYLENE, *OXIDATION, *POLYACRYLAMIDE

Abstract

Abstract This study proposes an evaluation of the diffusive gradients in thin films technique (DGT) for studying trace elements in digested sewage sludge samples. Twelve elements were monitored by Chelex (Al, Cd, Co, Cr (III), Cu, Fe, Mn, Ni, Pb) and zirconia-DGT (As, Mo, Se) samplers exposed from 4 h to 9 days. Twenty-four hours' deployment time was suitable for most of the studied elements. However, short deployment led to insufficient element accumulation or non-establishment of steady state while long deployment (from 18 to 144 h depending on the element) led to saturation of the binding gels and/or competing effects with other major elements. In addition, this study showed that the matrix of the digested sewage sludge lowers the accumulation of some trace elements in the DGT samplers, leading to labile concentrations underestimation of roughly 10–30% (depending on the element). Moreover, compared to the conventional total dissolved elements measurement, DGT technique allowed to quantify 7 out of 12 labile elements whereas only 3 out of 12 dissolved elements were quantified. These results highlight the potential of DGT technique to assess labile trace elements in digestate samples, provided a careful adaptation of the deployment time as well as an evaluation of the matrix effect is performed. Graphical abstract fx1 Highlights • DGT principle is validated in a digestate matrix. • Deployment time must be carefully adapted depending on the targeted elements. • Digestate matrix can induce underestimation of labile elements concentration. • Sensitivity of DGT is better than conventional dissolved elements measurement. [ABSTRACT FROM AUTHOR]

Published

2019

247. Sources Identification and Health Risk Evaluation of 10 Heavy Metals (Metalloids) in Soils of the Aibi Lake Basin, Northwest China

Author

Zhang Zhaoyong, Guo Jieyi, and Wang Pengwei

Subjects

Adult, China, Article Subject, Mercury, General Medicine, Risk Assessment, General Biochemistry, Genetics and Molecular Biology, Lakes, Soil, Lead, Metals, Heavy, Humans, Soil Pollutants, Child, Cadmium, Environmental Monitoring, Metalloids, General Environmental Science

Abstract

Recently, soils heavy metals pollution and health risks researches in oasis are few, and in this study, the Aibi lake basin—a typical oasis—was chosen as the research area, and then, we evaluated the pollution status and sources identification and analyzed the health risks of ten heavy metals in the soils. Results showed that (1) the average (range) values for As, Cd, Co, Cr, Cu, Hg, Mn, Ni, Pb, and Zn were (6.500–48.040) 20.011, (0.0002–0.088) 0.035, (0.060–18.150) 5.994, (24.160–106.400) 53.557, (3.460–58.760) 16.981, (0.0002–0.099) 0.042, (195.310–842.850) 483.311, (0.960–70.100) 14.235, (0.180–25.390) 8.086, and (22.340–156.250) 61.334 mg/kg, respectively, and we can get except for As, the maximum values of other nine elements all within the limited values provided by the soil environmental quality risk control standard of China. (2) Health risk evaluation showed that the total exposure amount for ADIing for children and adults was 0.001067998 and 0.000344707, ADIinh for children and adults was 9.69977E-08 and 7.95869E-08, ADIderm for children and adults was 8.52275E-06 and 2.09927E-06, and the order of exploring ways is ADIing > ADIinh > ADIderm. (3) The multivariate statistical analysis and PMF results showed that Cr, Cu, Co, Mn, Ni, Pb, and Zn primarily come from the natural background and man-made sources; Cd primarily comes from man-made sources; As and Hg come from natural background sources and industry sources. The results can provide reference values for heavy metals pollution prevention and the protection of the environment in the Aibi lake basin and as well as central Asia.

Published

2022

248. Responses of Medicinal and Aromatic Plants to Engineered Nanoparticles

Author

Katarina Kralova and Josef Jampilek

Subjects

bioactive agents, carbons, elicitors, metals, secondary metabolites, metalloids, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Medicinal and aromatic plants have been used by mankind since ancient times. This is primarily due to their healing effects associated with their specific secondary metabolites (some of which are also used as drugs in modern medicine), or their structures, served as a basis for the development of new effective synthetic drugs. One way to increase the production of these secondary metabolites is to use nanoparticles that act as elicitors. However, depending on the specific particle size, composition, concentration, and route of application, nanoparticles may have several other benefits on medicinal and aromatic plants (e.g., increased plant growth, improved photosynthesis, and overall performance). On the other hand, particularly at applications of high concentrations, they are able to damage plants mechanically, adversely affect morphological and biochemical characteristics of plants, and show cytotoxic and genotoxic effects. This paper provides a comprehensive overview of the beneficial and adverse effects of metal-, metalloid-, and carbon-based nanoparticles on the germination, growth, and biochemical characteristics of a wide range of medicinal and aromatic plants, including the corresponding mechanisms of action. The positive impact of nanopriming and application of nanosized fertilizers on medicinal and aromatic plants is emphasized. Special attention is paid to the effects of various nanoparticles on the production of valuable secondary metabolites in these plants cultivated in hydroponic systems, soil, hairy root, or in vitro cultures. The beneficial impact of nanoparticles on the alleviation of abiotic stresses in medicinal and aromatic plants is also discussed.

Published

2021

249. Biomonitoring of exposure to multiple metal components in urine, hair and nails of apprentice welders performing shielded metal arc welding (SMAW).

Author

Cortes, Jairo Buitrago, Sarazin, Philippe, Dieme, Denis, Côté, Jonathan, Ouellet, Capucine, El Majidi, Naïma, and Bouchard, Michèle

Subjects

*SHIELDED metal arc welding, *WELDING fumes, *IRON, *BIOLOGICAL monitoring, *METALS, *URINE

Abstract

Welding fumes are associated with various diseases. Increased air levels of metals were reported during welding. However, few multielement biomonitoring studies were conducted to assess the actual dose of metal components absorbed in apprentice welders in a learning environment. This research aimed to establish the nature and level of exposure to welding fumes and their metallic components in apprentice welders performing 'Shielded Metal Arc Welding' (SMAW), based on multi-element and multi-matrix analyses. A total of 86 apprentice welders were recruited in three different schools in Montreal, Québec, Canada. Twenty-one elements were measured in urine, hair, fingernail, and toenail samples collected at the beginning of the program and at the end of SMAW practical training. Concentrations of welding fumes and 12 metals were also determined in personal respirable air samples collected over a typical workday in a subgroup of 19 apprentices. Levels of manganese (Mn), iron (Fe) and nickel (Ni) in urine and Mn in hair were higher in samples taken at the end of the SMAW module compared to the beginning of training, while there was no significant difference for the other elements or for nail concentrations. Geometric mean concentrations [5th-95th percentiles] reached 0.31 [0.032–2.84], 9.4 [3.1–51] and 0.87 [0.35–3.1] μg/g creat. in post-shift urine, respectively, for Mn, Fe and Ni, and 0.37 [0.46–6.4] μg Mn/g hair at the end of SWAW. Median concentrations [5th-95th percentiles] were 29 [4.6–1200], 120 [27–3100] and 0.31 [

Published

2023

250. Nitric oxide modified growth, nutrient uptake and the antioxidant defense system in tomato seedlings stressed with arsenic

Author

González-Moscoso, Magín, González-García, Yolanda, Martínez-Villegas, Nadia Valentina, Cadenas-Pliego, Gregorio, and Juárez-Maldonado, Antonio

Published

2021