Your search keyword '"heavy metals"' showing total 125,875 results

1. Vibrational heavy atom effect on relaxation and solvent shell dynamics in group VIII trimetallic carbonyls.

Author

Rey, Melissa J., Reilly, Connor J., and Massari, Aaron M.

Subjects

*ATOMIC mass, *GROUP dynamics, *HEAVY metals, *METAL compounds, *TETRAHYDROFURAN

Abstract

Infrared pump-probe and two-dimensional infrared (2D-IR) spectroscopies were used to study the vibrational dynamics of a homologous set of trimetallic dodecacarbonyls with increasingly heavy atomic masses in tetrahydrofuran solution. The vibrational lifetimes showed some evidence of the vibrational heavy atom effect (VHAE) but were not consistent across the sample set. Spectral diffusion was measured by 2D-IR spectroscopy to investigate whether the changes produced by the VHAE had influenced other aspects of vibrational dynamics. The triiron species was found to be more dynamic on very fast timescales and may exhibit evidence of a transient bridging CO structure. Centerline slope analysis of the high-frequency CO peak for each complex revealed that the vibrational dynamics were subtly but consistently slowed for the compounds with heavier metal atoms. [ABSTRACT FROM AUTHOR]

Published

2024

2. Tunable intermediate states for neuromorphic computing with spintronic devices.

Author

Cheung, Shun Kong, Xiao, Zhihua, Liu, Jiacheng, Ren, Zheyu, and Shao, Qiming

Subjects

*MAGNETIC fields, *SYSTEMS design, *HEAVY metals, *SPINTRONICS, *FERROMAGNETIC materials

Abstract

In the pursuit of advancing neuromorphic computing, our research presents a novel method for generating and precisely controlling intermediate states within heavy metal/ferromagnet systems. These states are engineered through the interplay of a strong in-plane magnetic field and an applied charge current. We provide a method for fine-tuning these states by introducing a small out-of-plane magnetic field, allowing for the modulation of the system's probabilistic response to varying current levels. We also demonstrate the implementation of a spiking neural network (SNN) with a tri-state spike timing-dependent plasticity (STDP) learning rule using our devices. Our research furthers the development of spintronics and informs neural system design. These intermediate states can serve as synaptic weights or neuronal activations, paving the way for multi-level neuromorphic computing architectures. [ABSTRACT FROM AUTHOR]

Published

2024

3. Realization of logic operations via spin–orbit torque driven perpendicular magnetization switching in a heavy metal/ferrimagnet bilayer.

Author

Jacob Mathew, Arun, Gao, Yufei, Wang, Junwen, Mohammadi, Mojtaba, Awano, Hiroyuki, Takezawa, Masaaki, Asada, Hironori, and Fukuma, Yasuhiro

Subjects

*HEAVY metals, *PERPENDICULAR magnetic anisotropy, *MAGNETIZATION, *LOGIC circuits, *FUTURE (Logic)

Abstract

Programmable and non-volatile spin-based logic devices have attracted significant interest for use in logic circuits. Realization of logic operations via spin–orbit torque (SOT) driven magnetization switching could be a crucial step in the direction of building logic-in-memory architectures. In this work, we demonstrate experimentally, the realization of four logic operations in a heavy metal/ferrimagnet bilayer structure via SOT switching. We also propose a general scheme for choosing input parameters to achieve programmable logic operations. The bulk and tunable perpendicular magnetic anisotropy and relatively lower saturation magnetization in ferrimagnets are found to make them more energy efficient in performing logic operations, as compared to conventional ferromagnets. Thus, ferrimagnets are promising candidates for use in logic-in-memory architectures, leading to the realization of user-friendly spin logic devices in the future. [ABSTRACT FROM AUTHOR]

Published

2024

4. Enhancement of spin–orbit torque and magnetization switching by Pt100–xWx alloy in Co-based films.

Author

Liang, Hongming, Li, Kuo, Xu, Mingyang, Zhang, Yao, Liu, Peiqiao, Wang, Sizhe, Sun, Zhiwen, Yang, Ruizhi, Yu, Guanghua, and Li, Minghua

Subjects

*PERPENDICULAR magnetic anisotropy, *TUNGSTEN alloys, *MAGNETIZATION, *HEAVY metals, *ALLOYS, *TORQUE, *HEUSLER alloys, *TANTALUM

Abstract

Alloying heavy metals (HMs) has been an effective method for enhancing the efficiency of spin–orbit torque. In this study, we demonstrate that Pt100−xWx/Pt/Co/Ta multilayers still maintain perpendicular magnetic anisotropy after high-temperature annealing. Doping tungsten (W) into HM platinum (Pt) at the bottom of a Pt/Co/Ta multilayer significantly increases the spin Hall angle (θ S H ) and reduces the critical switching current density (Jc). The harmonic Hall test results show that the θ S H of the Pt88W12 alloy film is approximately 0.29, which is higher than that of the pure Pt film (0.15). The magnetization switching test reveals that the Jc of Pt94W6 alloy film is approximately 4.892 × 106 A/cm2, which is 51.9% lower than that of the pure Pt film. This study offers a valuable method for reducing power consumption and enhancing the efficiency of related application devices. [ABSTRACT FROM AUTHOR]

Published

2024

5. Selenium-Polysaccharide: Structural and Physical Characterization, Bioactivities and Application.

Author

Chang, Mengwei and Liu, Kunlun

Subjects

*STRUCTURE-activity relationships, *ORGANIC compounds, *HEAVY metals, *SELENIUM, *THERAPEUTICS

Abstract

Selenium-polysaccharide (Se-polysaccharide) is an organic Se compound that binds polysaccharides to Se via unique chemical interactions. Se-polysaccharide, as a functional supplement, has minimal harmful effects and is more easily absorbed and utilized by the body. Currently, there are three techniques to obtain Se-polysaccharide. Numerous studies have demonstrated that selenization modification can alter the structural and physical characterization of polysaccharide. Furthermore, Se-polysaccharide possesses stronger biological attributes, including immunomodulation, antitumor, antioxidant, hypoglycaemic, heavy metal resistance, neuroprotection, anti-inflammatory, liver protection, and other aspects, than Se and polysaccharide. Scientific studies suggest that Se-polysaccharide has the potential for future development and show that it is an effective treatment for several diseases. This paper systematically introduces the preparation methods of Se-polysaccharide, discusses the impact of selenization modification on the structural and physical characterization of polysaccharide, and analyses the biological activities and potential mechanism of Se-polysaccharides in recent years. Additionally, further research directions are proposed and provided theoretical basis for development of Se-polysaccharide. [ABSTRACT FROM AUTHOR]

Published

2024

6. Enlightening the sensing behaviour of click-derived 1,2,3-triazole for the selective detection of zirconium(IV) and its potential ability against Kelch-Neh2 via an in silico approach.

Author

Singh, Gurjaspreet, Mithun, Khurana, Sumesh, Kaur, Harshbir, Rani, Bhavana, Diskit, Tsering, Jyoti, Parul, and Vikas

Subjects

*BINDING constant, *ULTRAVIOLET-visible spectroscopy, *BINDING energy, *COMPLEX compounds, *HEAVY metals

Abstract

Heavy metals pose significant health risks to both humans and animals, potentially leading to severe exposure issues even when present in minimal amounts. There is a pressing need to develop new rapid sensing materials using advanced, effective and convenient techniques. This research introduced a new compound 7 based on the click chemistry approach. 1,2,3-Triazole-adjoined 4-aminobenzonitrile based organosilane 7 was synthesized and characterized via NMR (1H and 13C), FT-IR and mass spectrometry. The compound 7 was screened for its photophysical properties using UV-Visible spectroscopy, which displayed exceptional selectivity and ultra-sensitivity towards detecting Zr(IV), without any significant interference from different metal cations. The limits of detection (LOD) and association constant (Ka) values for detecting Zr(IV) using absorption spectroscopy were determined to be 5.4 × 10−8 M and 1.5 × 105 M−1, respectively. Computational DFT analyses unveiled the formation of a stable complex between compound 7 and Zr(IV). Molecular docking was carried out with Kelch-Neh2 antioxidant protein yielding significant results with a binding energy of −8.30 kcal mol−1. The findings from compound 7's antioxidant activity evaluation in docking analyses indicate its promising role as a potential antioxidant agent in future applications. [ABSTRACT FROM AUTHOR]

Published

2024

7. An efficient material (Mn–Cu-AC/cellulose beads) for immobilizing laccase: excellent activity, high stability and effective pollutant removal rate.

Author

Zhang, Yuying, Li, Na, Chen, Lianmei, Yu, Fangrui, Sheng, Xueru, Zhang, Jian, Ping, Qingwei, and Li, Hongbin

Subjects

*METAL wastes, *ACTIVATED carbon, *ACID solutions, *HYDROCHLORIC acid, *HEAVY metals, *LACCASE

Abstract

Laccase immobilization is an effective way to realize the industrial application of laccase, but the loss of immobilized laccase activity is serious, which is an urgent problem to be solved. In this study, a novel laccase immobilization material was prepared by mixing waste Mn–Cu-loaded activated carbon with cellulose solution and regenerated in hydrochloric acid solution, which significantly improved the immobilized laccase activity. The optimum immobilization conditions (T, pH and initial laccase concentration) of Mn–Cu-AC/cellulose beads (Mn–Cu-ACC) for laccase were studied by the response surface method. Under the optimum conditions (T = 43 °C, pH = 4.0 and c = 6.8 g L−1), immobilized laccase (Laccase@Mn–Cu-ACC) showed excellent performance in terms of pH stability, thermostability and storage stability. And the enzyme activity of the laccase immobilized on the Mn–Cu-ACC carrier remarkably increased by 29.6% compared to that of the ACC. At last, the Laccase@Mn–Cu-ACC was used for the degradation of bisphenol A (BPA). Under the optimum conditions (t = 5.5 h, T = 45 °C, pH = 4.0 and initial cBPA = 70 mg L−1), the removal rate of BPA reached 72.3% in the first cycle, and after 5 cycles of reusing the immobilized laccase, the relative removal rate of BPA was retained at 53.2% of the initial removal rate. This study developed a new type of immobilized laccase carrier and provided a new path for the application of waste heavy metal loaded activated carbon. [ABSTRACT FROM AUTHOR]

Published

2024

8. Development and analysis of novel Sm doped LaSiO for photocatalytic degradation and electrochemical sensing of heavy metals.

Author

Alam, Mir Waqas, Nivetha, A., BaQais, Amal, Ansari, Sajid Ali, Yewale, M.A., and Sadaf, Shima

Subjects

*MATERIALS science, *MALACHITE green, *X-ray powder diffraction, *PHOTODEGRADATION, *HEAVY metals, *SAMARIUM

Abstract

This study explores the synthesis of La 10 Si 6 O 27 :Sm3+ nanoparticles (LSNP) with varying samarium (Sm3+) concentrations (0–8 mol%) using eco-friendly solution combustion method with urea as a fuel. Using powder X-ray diffraction (PXRD), we determined that the nanoparticles typically measure between 15 and 17 nm and display a spherical morphology. These rare earth (RE)-doped nanoparticles were employed as a novel photocatalyst for the degradation of malachite green (MG) dye, exhibit unprecedented photocatalytic efficiency. The release of OH radicals during the degradation process was found to vary with the chemical structure and concentration of the photocatalyst, with the 6 mol% LSNP formulation showing a significant advancement under both UV and sunlight. Electrochemical assessments revealed that these nanoparticles exhibit excellent cyclic stability and robust performance. Notably, the specific capacitance of the nanoparticles increased with the samarium concentration, reaching a peak of 261.3 F/g in 0.1 M HCl. Furthermore, graphite-modified electrodes incorporating these nanoparticles showed significant potential as sensitive materials for detecting mercury and lead in concentrations as low as 1–6 mM, underscoring the versatility and functional adaptability of the synthesized nanoparticles in environmental and electrochemical applications. The prepared La 10 Si 6 O 27 :Sm3+ nanoparticles The nanoparticles demonstrated an optimal photocatalytic efficiency of 95.5 % under UV light and 88.15 % under sunlight at 6 mol% Sm3+ doping. Additionally, a peak specific capacitance of 261.3 F/g was achieved in 0.1 M HCl. [ABSTRACT FROM AUTHOR]

Published

2024

9. Rational design of S‒scheme Cd0.5Zn0.5S/CeO2 heterojunction for enhanced photooxidation of antibiotics and photoreduction of Cr(VI).

Author

Yusuf, Tunde L., Olatunde, Olalekan C., Masekela, Daniel, Mabuba, Nonhlangabezo, Onwudiwe, Damian C., and Makgato, Seshibe

Subjects

*CERIUM oxides, *WASTEWATER treatment, *HEAVY metals, *HETEROJUNCTIONS, *PHOTOCATALYSTS

Abstract

Current photocatalysts endowed with oxidation and reduction capabilities for pharmaceuticals and heavy metals removal face numerous challenges, such as a lack of sufficient reactive sites, poor electron-hole separation, and limited oxidation and reduction capabilities. In this study, we aimed to overcome these limitations by employing a simple solvothermal method to fabricate a novel S-scheme heterojunction, Cd 0.5 Zn 0.5 S/CeO 2. The optimal Cd₀.₅Zn₀.₅S/CeO 2 heterojunction achieved a maximum ciprofloxacin degradation efficiency of 86 % within 30 min, showing a remarkable improvement of 2.4 and 4.6 times compared to pristine Cd₀.₅Zn₀.₅S and CeO 2 , respectively. The heterojunction also demonstrated a remarkable 100 % photoreduction efficiency of Cr(VI) within 30 min, which is double the photodegradation performance of the individual materials. The combination of Cd₀.₅Zn₀.₅S with CeO 2 to form the Cd₀.₅Zn₀.₅S/CeO 2 S-scheme heterojunction effectively enhanced spatial photo-carrier separation and optimized the photo-redox capability, resulting in a substantial improvement in photocatalytic performance and stability. Through radical trapping experiments, the primary reactive species responsible for CIP degradation were identified as h⁺, OH•, and •O₂⁻. Additionally, e⁻ was determined to be the key species responsible for the photoreduction of Cr(VI). Based on these findings, we proposed a plausible photocatalytic reaction pathway for the simultaneous elimination of both CIP and Cr(VI). This study underscores the significant potential of the Cd 0.5 Zn 0.5 S/CeO 2 S-scheme heterojunction for advanced wastewater treatment applications, highlighting its innovative approach and superior performance. [ABSTRACT FROM AUTHOR]

Published

2024

10. Lead in Leafy Vegetables from Organic and Conventional Production Systems: Systematic Review and Meta-Analysis.

Author

de Sousa, Bruno Jonatan, Seabra, Larissa Mont'alverne Jucá, Silva de Lemos, Ana Beatriz, Chaves, Gabriela, and Florentino da Silva Chaves Damasceno, Karla Suzanne

Subjects

*TRACE metals, *PUBLIC health, *ACADEMIC dissertations, *HEAVY metals, *LEAD

Abstract

Lead (Pb) is one the 10 chemicals of major public health concern listed by the World Health Organization. One reason for Pb occurrence in food is agricultural practices. In this context, organic production systems are highlighted for not using pesticides, which may result in less chemical contamination in food. Considering that, this systematic review (SR) and meta-analysis was conducted aiming to investigate if there are differences in Pb levels in organic (OLV) and conventional leafy vegetables (CLV). This SR and its protocol (PROSPERO CRD42022306048) were based on PRISMA. Only analytical, cross-sectional studies which reported data on the analysis of Pb in OLV and CLV were included. Searches were conducted in 12 electronic databases besides manual searches in articles, directory, and archives of thesis and dissertations. No restrictions regarding language or publication period were applied. After the selection stages, 24 studies were included, of which 22 (91.67%) presented low risk of bias, while two (8.33%) presented medium risk. Significant difference (p = 0.008) was observed in the meta-analysis considering results in fresh weight (mean difference = 0.01 mg/kg), indicating an inferior concentration of Pb in OLV, being classified as evidence of 'moderate certainty', which answers our research question. [ABSTRACT FROM AUTHOR]

Published

2024

11. Quantitative prediction of soil chromium content using laboratory-based visible and near-infrared spectroscopy with different ensemble learning models.

Author

Fu, Chengbiao, Jiang, Yuheng, and Tian, Anhong

Subjects

*HEAVY metal toxicology, *ENVIRONMENTAL risk assessment, *OPTICAL spectroscopy, *NEAR infrared spectroscopy, *FARMS, *HEAVY metals

Abstract

• Six ensemble learning models and two base learner models were established to predict soil heavy metal chromium content. • Ensemble learning models were found to be superior to the single base learner model. • Kennard-Stone algorithm for dividing datasets demonstrates higher predictive accuracy compared to random dividing. • The stacking-2 model obtained the best prediction performance of soil heavy metal chromium content. Soil heavy metal chromium pollution poses significant threats to human health and ecosystems, necessitating accurate quantitative prediction methods for effective monitoring and management. This study aims to develop robust predictive models for soil chromium content in farmland soils of Mojiang Hani Autonomous County, Pu'er City, Yunnan Province, China. These models utilize ensemble learning techniques based on visible and near-infrared spectroscopy. Operations before model building involved partitioning datasets with the Kennard-Stone algorithm to ensure representative training and testing sets. Visible and near-infrared spectroscopy-data preprocessing was performed using Savitzky-Golay smoothing and first-order derivative transformations to enhance signal quality. Bands selection was achieved through the Successive Projections Algorithm (SPA), effectively reducing data dimensionality and collinearity. Six ensemble learning models were constructed and assessed for their predictive performance: Bagging-DTR, Random Forest (RF), Adaboost-DTR, XGBoost-DTR, Stacking-1, and Stacking-2. These models utilized Decision Trees (DTR) and Linear Regression (LR) as base learners. Results demonstrated that ensemble models significantly outperformed individual base learners. Notably, the Stacking-2 model achieved the highest accuracy with an R^2 of 0.954, RMSE of 125.967 mg/kg, and RPD of 4.667. To validate the model's practical applicability, spatial interpolation of soil Cr content was conducted using the Kriging method based on Stacking-2 model predictions. The spatial distribution maps of measured and predicted values exhibited high congruence, underscoring the model's effectiveness in accurately mapping Cr distribution across the study area. This study underscores the efficacy of integrating ensemble learning with visible and near-infrared spectroscopy-data preprocessing and SPA for precise soil heavy metal prediction. The findings offer valuable insights and a scientific basis for enhanced soil quality monitoring, environmental risk assessment, and informed agricultural land management and pollution control. [ABSTRACT FROM AUTHOR]

Published

2024

12. Advanced rubbery polymeric hydrogel for waste water remediation.

Author

Abou El Fadl, Faten Ismail

Subjects

*POLYMER colloids, *HEAVY metals, *METALS testing, *SEWAGE, *AQUEOUS solutions

Abstract

This study displays the preparation and characterization of cross-linked rubbery hydrogel by applying gamma radiation as a fast and clean tool for industrial application. Rubbery Gel polymer was synthesized through radiation copolymerization between hydrophilic acrylamide (AAM) copolymerized with natural rubber latex at different monomer concentrations (80, 70, and 50% v/v) by using gamma radiation in order to prepare a cross-linked network between PAM and NRL (PAAM/NRL) with controllable hydrophilicity and good mechanical properties. The effect of AAM/NRL compositions and irradiation dose on the gel fraction, swelling isotherm and diffusional characteristics fully studied. The formed rubbery hydrogel with suitable swelling properties examined for the ability of adsorption of heavy metals from their aqueous solutions. Different parameters such as initial metal concentration, pH, temperature and adsorbent dosage are applied for the evaluation of the adsorption ability of the rubbery hydrogel for various toxic metals (Cu2+, Co2+, and Ni2+). The results of metal uptake showed that increasing temperature has an effective impact on the metal uptake for various types of metals tested as increasing temperature increases the rubber chains flexibility within the PAAM/NRL rubbery hydrogel. The desorption of adsorbed metal ions from the PAAM/NRL hydrogel was completed in a desorption mediums of HCL (2 and 0.5 M) and at temperature of 70 °C after 90 min. [ABSTRACT FROM AUTHOR]

Published

2024

13. Isolation and characterization of amorphous nanocellulose producing Comamonas terrae YSZ sp. from pineapple wastes.

Author

Mathivanan, Yamunathevi, Shahir, Shafinaz, Ibrahim, Zaharah, and Malek, Nik Ahmad Nizam Nik

Subjects

*X-ray diffraction, *HEAVY metals, *BIOPOLYMERS, *RIBOSOMAL RNA, *BIOREMEDIATION, *PINEAPPLE

Abstract

Bacterial nanocellulose (BNC) currently has emerged as a potential biopolymer that can be used for various industrial applications. However, the major concern is the limitation of the bacteria used for BNC production on a larger scale. This study aimed to isolate and identify potential nanocellulose-producing bacteria from pineapple wastes. In this study, 11 isolates were screened and the F1 isolate, which produced the highest BNC yield was chosen for 16S rRNA sequencing. Based on the 16S rRNA analysis, Comamonas terrae YSZ sp. (OQ592726.1) was the best BNC producer with 1.68 ± 0.19 g/L yield. The physicochemical characteristics from FESEM analysis revealed that C. terrae YSZ sp. produced amorphous BNC, with fewer nanofibrils. The XRD analysis showed that the BNC produced had a 19.3% of crystallinity index. To the best of our knowledge, this is the first work reporting the isolation of C. terrae YSZ sp. from pineapple wastes with more amorphous regions providing an interesting alternative for heavy metal removal potentials. [ABSTRACT FROM AUTHOR]

Published

2024

14. Self-sustained smouldering treatment technology for high-moisture sludge: Pilot-scaled tests with continuous operation.

Author

Ma, Lun, Qiao, Yu, Huang, Jingchun, Zhang, Maolong, Zhang, Jirui, Qin, Pengfei, and Sun, Zhonghao

Subjects

*CONTINUOUS processing, *HEAVY metals, *VELOCITY, *DIOXINS, *MOISTURE

Abstract

[Display omitted] • A pilot-scale smouldering reactor with a height of 2.0 m is constructed. • Smouldering performance under long-term continuous operation is evaluated. • Effect of discharging residue interval and Darcy velocity is investigated. • 30 s for discharging residue interval and 3.5 cm/s for Darcy velocity are suggested. Smouldering is a novel, low-energy, low-cost technology for disposing of sludge with high moisture. Currently, related researches focus on the lab-scale with batch disposal, but more reports about the pilot-scale with continuous process need to be done. Based on our previous research, this study further enlarged the pilot-scale smouldering reactor height from 1.2 m to 2.0 m and provides insight into the smouldering performance under long-term continuous operation and the influence of the discharging residue interval and Darcy velocity. The temperate evolution shows that the discharging residue interval significantly affects the reaction location stability due to the difference between the smouldering upward velocity and the feed-stock descent velocity. Furthermore, the unburnout content, heavy metal in the smouldering-derived residue, the non-condensable flue gas concentrations (O 2 , CO, NO x , VOCs, dioxin), and the components of the condensable liquid are deeply investigated. The pilot-scale measurements show that 30 s and 40 s for the discharging residue interval under the studied operating condition may be reasonable for the high (3.5 cm/s and 5.0 cm/s) and low (2.5 cm/s) Darcy velocity, respectively. Comprehensively, the condition with 30 s for the discharging residue interval and 3.5 cm/s for the Darcy velocity is suggested in the future actual application. [ABSTRACT FROM AUTHOR]

Published

2024

15. Vitamin D deficiency may exacerbate the role of metal exposure in depression: A cross-sectional analysis of NHANES data from 2007 to 2018.

Author

Gu, Huiwen, Chen, Zhongwen, Zhou, Ruiqi, Yang, Xiaohong, Zhang, Qiuhao, Yang, Tingting, Chen, Xieyi, Zhao, Lingxiao, and Cheng, Shuqun

Subjects

*VITAMIN D deficiency, *VITAMIN D, *HEAVY metals, *CUBIC curves, *ARSENIC compounds

Abstract

People are paying more and more attention to the effects of environmental factors such as heavy metals on depression, and heavy metals may destroy the homeostasis of vitamin D in the body by affecting human metabolism, and the lack of vitamin D will increase the risk of depression. There are few studies on vitamin D deficiency in depression caused by heavy metals, and it is not deep enough. Therefore, this study used logistic regression, restricted cubic spline curve, weighted quantile and Quantile g-computation model to analyze the effects of heavy metal exposure alone and in combination on vitamin D and depression, as well as the potential role of vitamin D deficiency in the process of heavy metal-induced depression. The results showed that cadmium exposure alone or in combination increased the risk of depression (P < 0.05). When Cd increased by 1 unit, the risk of depressive symptoms increased by 1.178 units. Arsenic and its compounds and lead affected vitamin D levels in the body and contributed the second highest or highest weight in the mixture (P < 0.05). It is worth noting that after grouping according to vitamin D deficiency, compared with the normal group, the mixed exposure of heavy metals in the vitamin D deficiency group had more types of metals related to depression and contributed more weight (P < 0.05). This study found that single metal or multi-metal mixed exposure is associated with depression. Vitamin D deficiency may increase the risk of depression. Vitamin D may be a potential factor in the treatment of depression caused by metal, and the specific mechanism of action needs further study. • The study evaluated the correlation between single metal and its mixture exposure and depression and vitamin D deficiency. • Multiple models were used to analyze the correlation between metal exposure and depression and vitamin D deficiency. • Vitamin D deficiency may aggravate depression caused by metal exposure. [ABSTRACT FROM AUTHOR]

Published

2024

16. Selenium mitigates vanadium toxicity through enhanced nutrition, photosynthesis, and antioxidant defense in rice (Oryza sativa L.) seedlings.

Author

AL-Huqail, Arwa Abdulkreem, Alghanem, Suliman Mohammed Suliman, Alhaithloul, Haifa Abdulaziz Sakit, Abbas, Zahid Khorshid, AL-Balawi, Siham M., Darwish, Doaa Bahaa Eldin, Ali, Baber, Malik, Tabarak, and Javed, Sadia

Abstract

In the current industrial scenario, vanadium (V) as a metal is of great importance but poses a major threat to the ecosystem. In the present study, the effect of a toxic concentration of V, i.e., 10 µM in the soil on growth, photosynthetic pigments, gas exchange characteristics, oxidative stress biomarkers, antioxidants machinery (enzymatic and non-enzymatic antioxidants), ions uptake, proline metabolism, and V uptake in different parts of the plant was investigated with and without the exogenous application of selenium (Se) i.e., 5 µM in V-stressed rice (Oryza sativa L.). Our results depicted that V addition to the soil significantly (P < 0.05) decreased plant growth and biomass, gas exchange attributes, and minerals uptake by O. sativa as compared to the plants grown without the addition of V. However, V toxicity boosted the production of reactive oxygen species (ROS) by increasing the contents of malondialdehyde (MDA), which is the indication of oxidative stress in O. sativa and was also manifested by hydrogen peroxide (H2O2) contents to the membrane-bounded organelles. Although activities of various antioxidative enzymes like superoxidase dismutase (SOD), peroxidase (POD), catalase (CAT), and ascorbate peroxidase (APX) and their gene expression Fe-SOD, POD, CAT, and APX and also non-enzymatic antioxidants like phenolic, flavonoid, and ascorbic acid, anthocyanin contents and also the proline metabolism i.e., proline, pyrroline5-carboxylate, pyrroline-5-carboxylate reductase, and pyrroline-5-carboxylate dehydrogenase were increased due to V stress. Although results also illustrated that the application of Se also decreased V toxicity in O. sativa seedlings by increasing antioxidant capacity and, thus, improved the plant growth and biomass, photosynthetic pigments, gas exchange characteristics, and decreased oxidative stress in the O. sativa seedlings, compared to those plants which were not artificially supplied by Se. Research findings, therefore, suggested that the Se application can ameliorate V toxicity in O. sativa seedlings and result in improved plant growth and composition under metal stress as depicted by balanced exudation of nutrient effluxes. This study provides novel insights into the role of selenium in mitigating vanadium-induced oxidative stress in rice, thereby offering a promising approach to enhancing crop resilience in metal-contaminated soils and advancing sustainable agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2024

17. Polymeric resins containing modified starch as environmentally friendly adsorbents for dyes and metal ions removal from wastewater.

Author

Wołowicz, Anna, Wawrzkiewicz, Monika, Podkościelna, Beata, Tarasiuk, Bogdan, Blazhevska Gilev, Jadranka, and Sevastyanova, Olena

Abstract

Effective removal of organic and inorganic impurities by adsorption technique requires the preparation of new materials characterized by low production costs, significant sorption capacity, and reduced toxicity, derived from natural and renewable sources. To address these challenges, new adsorbents have been developed in the form of polymer microspheres based on ethylene glycol dimethacrylate (EGDMA) and vinyl acetate (VA) (EGDMA/VA) containing starch (St) modified with boric acid (B) and dodecyl-S-thiuronium dodecylthioacetate (DiTDTA) for the removal of dyes: C.I. Basic Blue 3 (BB3) and C.I. Acid Green 16 (AG16) and heavy metal ions (M(II)): Cu(II), Ni(II), and Zn(II) from water and wastewater. The adsorbents were characterized by ATR/FT-IR, DSC, SEM, BET, EDS, and pHPZC methods. These analyses demonstrated the successful modification of microspheres and the increased thermal resistance resulting from the addition of the modified starch. The point of zero charge for EGDMA/VA was 7.75, and this value decreased with the addition of modified starch (pHPZC = 6.62 for EGDMA/VA-St/B and pHPZC = 5.42 for EGDMA/VA-St/DiTDTA). The largest specific surface areas (SBET) were observed for the EGDMA/VA microspheres (207 m2/g), and SBET value slightly decreases with the modified starch addition (184 and 169 m2/g) as a consquence of the pores stopping by the big starch molecules. The total pore volumes (Vtot) were found to be in the range from 0.227 to 0.233 cm3/g. These materials can be classified as mesoporous, with an average pore diameter (W) of approximately 55 Å (5.35–6.10 nm). The SEM and EDS analyses indicated that the EGDMA/VA microspheres are globular in shape with well-defined edges and contain 73.06% of carbon and 26.94% of oxygen. The microspheres containing modified starch exhibited a loss of smoothness with more irregular shape. The adsorption efficiency of dyes and heavy metal ions depends on the phases contact time, initial adsorbate concentration and the presence of competing electrolytes and surfactants. The equilibrium data were better fitted by the Freundlich isotherm model than by the Langmuir, Temkin, and Dubinin-Radushkevich models. The highest experimental adsorption capacities were observed for the BB3 dye which were equal to 193 mg/g, 190 mg/g, and 194 mg/g for EGDMA/VA, EGDMA/VA-St/B, EGDMA/VA-St/DiTDTA, respectively. The dyes and heavy metal ions were removed very rapidly and the time required to reach system equilibrium was below 20 min for M(II), 40 min for BB3, and 120 min for AG16. 50% v/v methanol and its mixture with 1 M HCl and NaCl for dyes and 1 M HCl for M(II) desorbed these impurities efficiently. [ABSTRACT FROM AUTHOR]

Published

2024

18. Evaluation of environmental risks by heavy metals pollution and algae accumulations in two alpine lakes.

Author

Muro, Claudia, Sandoval, Judith, García, Fátima Goretti, Andrade, Martín, Diaz-Nava, María del Carmen, and Alvarado, Yolanda

Subjects

*LAKE sediment analysis, *HEAVY metal toxicology, *ENVIRONMENTAL research, *COMPOSITION of sediments, *SEDIMENT analysis, *LAKE sediments

Abstract

This research assessed the environmental changes occurring in two alpine lakes in Mexico, namely Lake El Sol and Lake La Luna. The investigation was based on the analysis of lakes sediment composition, organic matter content, algae predominance, levels of heavy metals and assessment of environmental risks. Sediment composition analysis revealed angular form as a primary particle, increase in the concentration of gravel particles, and decrease of the concentration of silt and sand particles. The dry season and central areas of the lakes showed the highest concentration of organic carbon (<12%). In addition, Lake El Sol showed the largest alterations in algae predominance, resulting from eutrophication changes. The concentration of Pb, Cd and Ni in sediments and algae was variable. The largest contribution was observed in algae from Lake La Luna; however, sediments from Lake El Sol showed the highest concentration of Pb with the maximum affectation in dry and wet seasons. The ecological risks posed by heavy metals indicated intermittent effects of Pb and Cd on organisms, and minor impacts of Ni. The data will be important in assessing the changes observed in Lakes El Sol and La Luna, in establishing future monitoring practices, and in implementing conservation strategies for ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

19. Removal of Copper, Cadmium, and Lead Ions by Adsorption Method using Chitosan from Fish Scales and its Application in Laboratory Wastewater Treatment.

Author

Bahrin, David, Agustina, Tuty Emilia, Arita, Susila, Melwita, Elda, Apriani, Lisa, Nurhasanah, Fitri Indriani, and Wijayanti, Maria Siswi

Subjects

WASTEWATER treatment, ADSORPTION (Chemistry), CHITOSAN, METAL ions, FISHES

Abstract

Higher education requires learning in the form of practice and research which is often carried out in the laboratories. The research completed in the laboratory usually produces wastewater which not only has a high organic content, but also contains heavy metal ions, such as copper (Cu), cadmium (Cd), and lead (Pb). These heavy metal ions will harm the environment when directly disposed of without being treated first. One of methods to reduce the level of heavy metal ions in laboratory wastewater is adsorption using chitosan. Therefore, this research was focused on removal heavy metal ions in laboratory wastewater by adsorption method using a chitosan derived from fish scales. The objective of this research was to investigate the effect of pH on the removal of Cu, Cd, and Pb ions in the treatment of synthetic wastewater using chitosan. The effect of chitosan dose on the treatment of laboratory wastewater was also examined. Initially, the chitosan was applied in reducing the metal ions in synthetic wastewater. The synthetic wastewater was prepared using single-component and multi-component samples of heavy metal ions. In this study, the pH was varied from 3–7 for application of chitosan on single and multicomponent synthetic wastewater experiments. Optimum pH was produced and then used to remove the metal ions included in the laboratory wastewater sample. The chitosan dose was varied 0.5–2 g/L. As a result, the highest removal percentage for the reduction of Cu, Cd, and Pb metal ions in single-component synthetic wastewater was at pH 7. However, the highest removal percentage for the reduction of Cu, Cd, and Pb metal ions in multicomponent synthetic wastewater were found in different pH, such as Cu ions at pH 5, Cd ions at pH 7, and Pb ions at pH 3. When applied to laboratory wastewater assessments with pH of 7 and chitosan doses of 0.5–2 g/L, the highest percentage removal of Pb ions (93.75%) was reached when using chitosan dosage of 1.5 g/L; the highest percentage removal of Cu ions (28.99%) was obtained when using chitosan dosage of 2 g/L. Alas, the chitosan dose of 0.5–2 g/L did not have a significant effect on reducing the Cd ions. [ABSTRACT FROM AUTHOR]

Published

2024

20. Strategy on rapid selection of woody species for phytoremediation in soils contaminated with copper, lead and zinc in Shanghai.

Author

Zhang, Qian, Wang, Yanchun, Shang, Kankan, Fang, Hailan, Zhang, Guowei, and Guidi Nissim, Werther

Subjects

*HEAVY metal toxicology, *SOIL remediation, *URBAN soils, *SOIL pollution, *COPPER in soils, *HEAVY metals

Abstract

Abstract\nNOVELTY STATEMENTThe use of woody species for the remediation of heavy metal-contaminated soils is an environmentally friendly and economically viable strategy. This study investigates the phytoextraction abilities of 15 woody species for copper, lead and zinc in contaminated soil. The results indicated that all species showed phytoextraction ability, with metal concentrations varying from 5.59 to 27.45 mg·kg−1 for Cu, 2.79 to 16.75 mg·kg−1 for Pb and 22.13 to 185.72 mg·kg−1 for Zn in the stem tissues depending on the species. Pterocarya stenoptera, Paulownia fortunei and Salix matsudana were identified as the top performers in terms of overall phytoextraction capacity. Notably, their capacity to transport zinc exceeded that of copper and lead. The enrichment of copper, lead and zinc in the soil showed a synergistic effect in the presence of heavy metal. The distribution of heavy metals within plant tissues was affected by water content and the inherent toxicity of metals. The study highlights that the accumulation of tree biomass and water content in the stem play a significant role in determining the amount of heavy metals phytoextracted. This insight offers a quick method for the rapid selection of woody species for phytoremediation in urban soils contaminated with heavy metals.Dendroremediation is an important ecological remediation measure, and efficient selection strategies for woody species have become the key to the application of phytoremediation engineering. The extraction ability of 15 woody species for heavy metal and their correlation with wood characteristics were tested and analyzed by field trials. The study highlighted that the accumulation of tree biomass and water content in the stem play a significant role in determining the amount of heavy metals phytoextracted. This insight offers a quick method for selecting woody species for remediation in urban soils contaminated with heavy metals. [ABSTRACT FROM AUTHOR]

Published

2024

21. Role of Genetically Modified Microorganisms for Effective Elimination of Heavy Metals.

Author

Misra, Shashi Kiran, Kumar, Ajay, Pathak, Kamla, Kumar, Girish, Virmani, Tarun, and Mohammadi, Saeed

Subjects

*HEAVY metals, *ANTHROPOLOGY, *GENOMICS, *GENETIC engineering, *ECOSYSTEMS, *BACTERIA, *BIODEGRADABLE materials, *BIOACCUMULATION

Abstract

Heavy metals are lethal and hazardous pollutants for the ecosystem owing to their virtues including acute toxicity, prolonged persistence, and bioaccumulation. These contaminants are not only a threat to aquatic/terrestrial biota but also pose serious health issues to humans. Natural and anthropologic processes consistently upsurge heavy metal concentration beyond acceptable limits and mobilization and hence disturb biogeochemical cycles and the food chain, although several conventional strategies including adsorption, chemical precipitation, ion exchange, and membrane separation methods are being employed for the removal of these lethal heavy metals from the ecosystem but failed due to lower efficiency rates and high application charges. The current scenario highly demands advanced biosorption or bioaccumulation processes that slow down heavy metal mobilization within the acceptable limit in the ecosystem. Genetically modified microorganisms (GMMs) with desired features are developed through interdisciplinary participation of genomics, molecular microbiology, and bioinformatics that have more potential to bioremediate heavy metals than the native microbes from polluted ecosystems. The study focuses on different sources of heavy metals, their impact on the ecosystem, and the bioremediation of toxic heavy metals via GMMs. [ABSTRACT FROM AUTHOR]

Published

2024

22. Determination of priority control factors for risk management of heavy metal(loid)s in park dust in Mianyang City.

Author

Du, Huaming, Lu, Xinwei, and Han, Xiufeng

Subjects

*HEAVY elements, *MONTE Carlo method, *URBAN parks, *HEAVY metals, *RISK assessment, *HEALTH risk assessment

Abstract

In order to determine the priority control elements and sources of heavy metal(loid)s (HMs) pollution in park dust, this study collected dust samples from 25 parks in the urban area of Mianyang City and measured the contents of 10 HMs. Based on Monte Carlo simulation, the probabilistic pollution levels and ecological-health risks of HMs were assessed. We found that the average contents of Zn, Co, Pb, and Cr were much higher than their background values in local soil and were influenced by artificial activities. The pollution assessment found that 5 parks were moderately polluted. The comprehensive pollution of HMs in the dust was mainly caused by Zn and Cr, and industrial source was the main contributor to Zn and Cr pollution. The contribution of As, Co, and Pb to the comprehensive ecological risk was high, accounting for 54.6%. Co, Pb, and As were the priority control HMs of ecological risk, while mixed source and industrial source were the priority control sources. HMs presented potential carcinogenic health risks to both children and adults. The non-carcinogenic risk to adults was within safety level, while some parks showed non-carcinogenic risk to children, which should be paid attention to. The source-specific health risk assessment showed that Cr and As were the priority control HMs for human health, while mixed source and industrial source were the priority control sources. [ABSTRACT FROM AUTHOR]

Published

2024

23. Ecological Risk of Heavy Metals in an Eco-Industrial Park in China.

Author

Chu, Tingting, Zhou, Rui-Di, Wu, Xiaoguo, Yuan, Zijiao, Wang, Shanshan, and Liu, Houqi

Subjects

*COPPER, *PRINCIPAL components analysis, *INDUSTRIAL districts, *HEAVY metals, *STATISTICAL correlation, *RISK assessment

Abstract

To ascertain whether rapid industrialization has affected the accumulation of heavy metals (HMs) in Suzhou Industrial Park (SIP), China, the occurrence and ecological risk of HMs, including Cu, Zn, Pb, Cr, Cd, Ni, As and Hg in sediments were analyzed. The results indicated that total concentrations of HMs (mg kg−1) were in the descending sequence of Zn (235.28) > Cr (95.71) > Cu (78.91) > Ni (55.51) > Pb (23.96) > As (22.12) > Cd (0.38) > Hg (0.14). The concentrations of HMs, except for Ni and Cd, were found to be below the probable effect level (PEL). Correlation analysis (CA) and principal component analysis (PCA) showed that HMs in SIP mainly originated from anthropogenic activities. HMs were mainly in residual fractions (55.5 ~ 95.1%), and the exchangeable fractions of Zn and Cd were relatively high. The risk assessment results indicated that Hg and Cd significantly contributed to ecological risks, whereas Cr and Pb made relatively minor contributions. Our findings indicated that intense anthropogenic activities promote HMs accumulations in streams in SIP during rapid industrialization. [ABSTRACT FROM AUTHOR]

Published

2024

24. Towards Sustainable Battery Recycling: Selective Desorption of Nickel(II) and Cobalt(II) from Amino‐Polycarboxylate Derivate Ligands in Model Systems.

Author

Robeck, Björn, Hoff, Katharina, and Horn, Helena

Subjects

*HEAVY metals, *WASTE recycling, *SUPPLY & demand, *DESORPTION, *NICKEL

Abstract

Inter alia due to the high demand for lithium‐ion batteries, the required critical heavy metals have become a scarce resource. Consequently, effective recycling processes that enable the recovery of such materials are of high interest. A silica adsorbent functionalized with amino‐polycarboxylate derivate ligands (HSU331) was applied in order to selectively adsorb nickel(II) and cobalt(II). Subsequently, suitable parameters for a pH‐swing desorption were investigated. Maximum desorption efficiencies for Co(II) were achieved at pH = 2.7 (72 %) and for Ni(II) at pH = −0.5 (94 %). These results were used for the design of a pH‐shift desorption process in order to selectively recover Co(II) and regenerate the adsorbent after simultaneous adsorption of Co(II) and Ni(II). [ABSTRACT FROM AUTHOR]

Published

2024

25. Investigation of heavy metals accumulation in Shikaripara stone mines.

Author

Gorai, Gopinath and Mandal, Niranjan Kumar

Subjects

*COPPER mining, *PLASTIC scrap, *QUARRIES & quarrying, *MINING districts, *SOIL sampling, *HEAVY metals, *ENVIRONMENTAL geology

Abstract

The study aimed to evaluate harmful compound levels in Shikaripara stone mines’ cultivated land, which is renowned for stone quarrying in Jharkhand, India. Sixteen samples were collected from the mines in Dumka district, each at varying distances from the others. The soil samples contain Pb, As, Zn, Mn, Cd, Cu, Hg, and Fe. An Inductively Coupled Plasma-Mass Spectrometer was used to determine the total concentrations of the metals (ICPMS). Calculations of the Enrichment Factor (EF), Geo-accumulation Index (I geo), Contamination Factors (CF), Pollution Load Index (PLI), Nemerow Index, and ecological Risk Index (RI) PLI, RI, and Nemerow Index values, considering various toxic substances’ effects on soils overall, revealed significant metal contamination in 50 % of the sampled areas. Agricultural soils exhibited significant contamination with Cu, As, and Zn as a result of nearby copper mining activities. Results advocate regular soil examination and efficient management to reduce metal pollution. Compared to other areas, contamination levels in the study region are relatively lower, emphasizing the need for continued monitoring and management. The report delves into ecological services, assessing the impacts of plastic particles and heavy metals. It sets the stage for further research on the combined effects of these substances and plastic debris on biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

26. Engineering the cell wall reactive groups of Plant Growth Promoting Rhizobacteria by culture strategy for heavy metal removal.

Author

Soto-Ramírez, Robinson, Vlatten, Nicolás, Ruz, Felipe, Tavernini, Luigi, and Lobos, María-Gabriela

Subjects

*BACILLUS (Bacteria), *BIOSORPTION, *ADSORPTION capacity, *AMINO group, *HEAVY metals

Abstract

This research delved into the effects of nutrient limitation on the level of sporulation and the cadmium adsorption capacity of the bacterium Bacillus sp. isolated from the rhizosphere of endemic soils in the Region of Valparaiso, Chile. The bacteria were subjected to nitrogen limitation in fed-batch mode and were compared to bacteria grown in batch culture without nutrient limitation. The cultures were carried out in a 3 L bioreactor with an external nitrogen supply of ammonium at a flow of 0.123 L h−1. The specific maximum growth rate was 0.42 h−1 in batch and 0.45 h−1 in the exponential phase of the fed-batch. The analysis of sporulation did not show any significant difference between the biomass coming from the fed-batch and batch cultures. It was found that maximum cadmium adsorption capacity varied with culture strategy. The dry biomass grown without nutrient limitation exhibited a maximum adsorption capacity for cadmium of 65.0 mg Cd g−1 biomass. Conversely, the limited biomass achieved a lower cadmium adsorption capacity of approximately 36.0 mg Cd g−1 biomass. FTIR analysis showed that nitrogen limitation induced changes in the composition of the outer cell wall, specifically an increase of deacetlylated polysaccharides, reducing the relative amount of secondary amines and proteins from the peptidoglycan matrix. Amino groups from acetylated polysaccharides and proteins have been associated elsewhere with greater cadmium affinity, which could explain the poor results obtained with the nitrogen-restricted biomass. This study shows that new physiological states displaying different adsorption capabilities were effectively obtained by engineering the cell coverage of the bacteria using varying culture strategies. The fed-batch culture proved to be a valuable tool for studying PGPR strains for biosorption and other applications. Exploring diverse nutrient limitations and other pollutants in this bacterium and other members of the PGPR family offer great opportunities to tailor biosorption strategies based on specific conditions, ultimately contributing to sustainable environmental solutions. [Display omitted] • Fed batch culture. • Promoting Growth Plant Rhizobacteria (PGPR). • Nutrient availability. • Adsorption characteristics. • FTIR analysis. [ABSTRACT FROM AUTHOR]

Published

2024

27. Exploring biosorption potential of cow dung derived novel strain <italic>Cellulosimicrobium cellulans</italic> KHP3 in the remediation of Chromium (Cr), Copper (Cu) and Zinc (Zn)

Author

Panwar, Himalaya, Malik, Deepa, Rani, Swati, and Gupta, Kartikey Kumar

Abstract

AbstractThe present work reports the bioremediation ability of cow dung isolated bacterial strain Cellulosomicrobium cellulans KHP3 identified by applying PCR amplification and rRNA gene sequencing. The potential of C. cellulans KHP3 to tolerate different concentrations of heavy metals was investigated by growing the novel strain on nutrient agar medium supplemented with increasing concentrations (in ppm) of heavy metals i.e., Chromium (50–1500) Copper (50–200), and Zinc (50–200). The strain KHP3 displayed maximum tolerable concentration (MTC) of 1500 ppm against Chromium while 200 ppm was observed for Copper and Zinc. The strain KHP3 was found to be very effective in the removal of Chromium as indicated by 59.8% removal percentage followed by Zinc (36.6%) and Copper (20.4%) after 72 h of incubation at 37 °C. The higher biosorption capacity of our strain was achieved against Chromium (349.6 mg/g) followed by Zinc (198.8 mg/g) and Copper (58.6 mg/g) which reflects the potential of bacterial strain to absorb a greater amount of heavy metal ions. Following bioremediation assay, the strain C. cellulans KHP3 was subjected to FE-SEM coupled with EDS and FTIR to confirm surface morphological and physiochemical changes resulting from heavy metal adsorption. FE-SEM observation provided substantial information on the immobilization ofChromium, Copperand Zincions on the bacterial cell surface while EDS peaks revealed surface bio-sorption of these heavy metals. The binding of heavy metals on the surface of C. cellulans KHP3 was proved through FTIR study which revealed the involvement of various functional groups acting as surface ligand such as hydroxyl, carbonyl, and amine present on bacterial surface. Moreover, studies based on Freundlich, Langmuir, and Temkin isotherm models were also done to further validate the adsorption mechanism of our strain. The significant R2 values of 0.9983 and 0.9852 observed in case of Chromium and Zinc respectively depicted monolayer adsorption. On the other hand, R2 value 0.7959 in case of Copper significantly revealed multilayer adsorption mechanism. The findings highlight the biosorption ability of Cellulosomicrobium cellulans KHP3 for heavy metals that may be explored in the remediation of environmental pollutants. [ABSTRACT FROM AUTHOR]

Published

2024

28. Effect of background ions and physicochemical factors on the cotransport of microplastics with Cu2+ in saturated porous media.

Author

Meng, Qingling, Wang, Zijian, Shi, Fuqiang, Sun, Kaicheng, and Wen, Zhao

Subjects

*ELECTRIC double layer, *HEAVY metal toxicology, *METAL ions, *ADSORPTION capacity, *HEAVY metals

Abstract

Microplastics (MPs) in subsurface environments are migratory and can carry heavy metals, increasing the extent of MP and heavy metal pollution. This study used quartz sand-filled column experiments to investigate the adsorption and cotransport behaviours of PS-MPs, O3, UV-aged PS-MPs, and Cu2+ at different MP concentrations, ionic strengths, and ionic valences in a saturated porous medium. The results showed that when MPs migrate alone in the absence of an ionic background, higher concentrations have increased mobility. In contrast, an increase in the background ion concentration or ion valence inhibits the individual transport capacity of PS-MPs. An increase in the concentration of background ions or elevation in the valence state promotes Cu2+ transport because of the action of the double electric layer on the surface of the colloid and the electrostatic repulsive forces combined with the background ions. The adsorption capacity of aged PS-MPs was stronger than that of PS-MPs because of the binding of the aged PS-MPs to Cu2+ through complexation and electrostatic attraction. In the binary system of PS-MPs/Cu2+, PS-MPs promoted Cu2+ transport and the mobility of Cu2+ loaded by PS-MPs decreased with increasing background ion concentration. The cotransport results showed that MPs promote Cu2+ transport in the following order: O3-aged Ps > UV-aged Ps > Ps, as the increasing cation concentration in the MPs and Cu2+ occupies the PS surface adsorption sites. Overall, PS is an effective carrier for Cu2+. These findings offer fresh exploration concepts for the joint migration of MPs and heavy metals in underground settings. [ABSTRACT FROM AUTHOR]

Published

2024

29. Interactive association of metals and Life's Essential 8 with mortality in U.S. adults: a prospective cohort study from the NHANES dataset.

Author

Zhang, Weipeng, Chen, Weiqiang, Lu, Dengqiu, Nie, Junfeng, Hu, Zhumin, and Xian, Cuiyao

Subjects

*HEALTH & Nutrition Examination Survey, *HEAVY metals, *THALLIUM, *MORTALITY, *COHORT analysis

Abstract

Background: Life's Essential 8 (LE8) is a novel assessment of cardiovascular health (CVH) by evaluating lifestyle, and reports of the associations between LE8 and urinary metals on mortality have been very limited. This study aimed to conduct a prospective cohort study and investigate the combined effects of metals and LE8 on mortality in U.S. adults. Methods: This study enrolled participants with complete information on urinary metals, LE8, mortality status, and confounders from the National Health and Nutrition Examination Survey (2005–2018). The Cox regression model, adaptive lasso penalized regression, and restricted cubic spline were used to analyze the individual effects of metals and LE8 on all-cause mortality. The additive and multiplicative interaction scales and quantile g-computation were used to evaluate the interaction and combined effects. Stratified analyses were performed to clarify whether metals and LE8 interacted with other variables to influence all-cause mortality. Results: A total of 8017 participants were included in this study. The concentrations of cadmium, cobalt, lead, antimony, and thorium were greater in the low CVH group than in the high CVH group [median (µg/L): 0.29 vs. 0.19, 0.36 vs. 0.35, 0.48 vs. 0.39, 0.05 vs. 0.04, and 0.07 vs. 0.06]. The interaction between cadmium and LE8 was statistically significant, with a synergy index of 1.169 (95% CI: 1.004, 1.361). The stratified analyses showed that the interaction between age and LE8 had an impact on all-cause mortality (P for interaction = 0.004). Conclusions: In this representative sample of the U.S. population, we found that the combined effect of cadmium, lead, thallium, and LE8 was positively associated with all-cause mortality. Furthermore, the interaction between cadmium and LE8 influenced all-cause mortality. So people should adopt healthy behaviors and reduce heavy metal exposure to minimize the risk of adverse health outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

30. Analysis of heavy metal characteristics and health risks of edible mushrooms in the mid-western region of China.

Author

Qin, Guofu, Liu, Jia, Zou, Keting, He, Fengrui, Li, Yongbo, Liu, Ruixiao, Zhang, Pan, Zhao, Guipeng, Wang, Ting, and Chen, Baozhong

Subjects

*EDIBLE mushrooms, *HEAVY metal toxicology, *ANALYSIS of heavy metals, *FOOD safety, *METAL detectors

Abstract

This study determined the content of metal elements (As, Cd, Cr, Hg, Pb) in 9 edible mushrooms using ICP-MS, and evaluated the harm of long-term consumption of edible mushrooms to human health. The results showed that the concentrations of metal elements decreased in the order of Cd > As > Cr > Pb > Hg in edible mushrooms. The concentrations of Cd, As, Pb, and Hg were 22.95%, 8.20%, 1.64%, and 3.28% higher, respectively, than the maximum standards in China, whereas Cr did not exceed the limit. The detection rate of metal elements in Morchella esculenta (L.) Pers (M. esculenta), and Agaricus blazei Murill (A. blazei) were relatively high. The results of single factor evaluation and target hazard coefficient (THQ, HI) indicated that Dictyophora indusiata (Vent.ex Pers) Fisch (D. indusiata), A. blazei and M. esculenta were the main sources of risk. In addition, the HI values in ascending order were: Pb (0.43) < Cr (0.68) < Hg (0.92) < Cd (7.21) < As (14.02), indicating that Cd and As were the primary sources of health risks in edible mushrooms. To ensure food safety, it is recommended to strengthen the supervision of edible mushrooms, make reasonable choices, and reduce exposure levels of heavy metal pollution. [ABSTRACT FROM AUTHOR]

Published

2024

31. Heavy metal contamination and potential health risks in upland rice-producing soils of rotational shifting cultivation in northern Thailand.

Author

Arunrat, Noppol, Kongsurakan, Praeploy, and Sereenonchai, Sukanya

Abstract

Rotational shifting cultivation (RSC) is commonly practiced in northern Thailand for upland rice cultivation, primarily for household consumption. However, the potential health risks from heavy metal contamination in these soils have not been thoroughly explored. This study aimed to evaluate the contamination of six heavy metals (Arsenic (As), Mercury (Hg), Cadmium (Cd), Lead (Pb), Copper (Cu), and Chromium (Cr)) in upland rice across RSC fields with varying fallow periods and assess the associated health risks from rice consumption. Four RSC fields with 5, 6, 10, and 12-year fallow periods were examined. The RSC-6Y and RSC-12Y fields were used for upland rice cultivation in 2022, while the RSC-5Y and RSC-10Y fields were cultivated in 2023. The geo-accumulation index (Igeo) was calculated, and translocation factors (TF) were assessed for the transfer of heavy metals from soil to straw (TFStraw/Soil), straw to grain (TFGrain/Straw), and soil to grain (TFGrain/Soil). The results indicated that after burning vegetation in the RSC fields, the highest concentrations of Pb, Cr, and Hg were found in the ash. In RSC soils, Cu, Cr, As, Pb, and Hg levels were below reference standards, with Cd undetected. In rice grains, the order of concentration was Pb > Cu > Cr > As, with Hg and Cd undetected. Pb levels in rice grains exceeded the safety threshold. Igeo values indicated no contamination to moderate contamination across sites, with negative Igeo values for Cr and Cu, and zero values for Cd. The TF results showed limited transfer of As, Hg, and Cd from soil to rice plants (TFStraw/Soil < 0.1), but notable transfer for Pb, Cr, and Cu. Pb was readily transferred from soil to grain (TFGrain/Soil), posing a potential health risk. The study highlights potential non-carcinogenic and carcinogenic risks from heavy metal exposure, particularly Pb, and underscores the need for further research to determine contamination sources and mitigation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

32. Biochar influences phytoremediation of heavy metals in contaminated soils: an overview and perspectives.

Author

Ren, Wei-Lin, Ullah, Abid, and Yu, Xiao-Zhang

Subjects

REACTIVE oxygen species, SOIL pollution, HEAVY metals, ION exchange (Chemistry), ELECTROSTATIC interaction, BIOCHAR

Abstract

Heavy metals (HMs) contamination has gained much attention due to its high degree of toxicity for living organisms. Therefore, different techniques are underway to eradicate HMs from the environment. Among the biological techniques, phytoremediation is a suitable method, but owing to the slow rate and chance of HMs penetration into the food chain, alternative techniques are needed to reduce their phytotoxicity, and biochar is one of them. Due to the diverse characteristics, biochar immobilizes HMs in the soil by improving soil pH, ion exchange, electrostatic interactions, complexation, precipitation, surface adsorption, and microbial activation. Thereby, amendment of biochar in the HMs-contaminated soils reduces HMs toxicity to plants and limits their penetration into the food chain. In contrast, some biochars have also been studied to induce metal availability in soils and subsequently its uptake by plants. This dual role of biochar depends on the feedstock of biochar, incineration temperature, and the rate of application. Moreover, biochar treatments enhance plant growth under HMs stress by improving nutrient availability, water retention capacity, scavenging of reactive oxygen species, and photosynthetic efficiency. Owing to the beneficial characteristics of biochar in HMs-contaminated sites, the number of publications has tremendously increased. Additionally, the plant species and the types of HMs that have been tested frequently under biochar treatments in these articles have been studied. Overall, the current study would help in understanding the mechanisms of how biochar influences phytoremediation of HMs and improves plant growth in HMs-polluted soils and the current scenario of the available literature. [ABSTRACT FROM AUTHOR]

Published

2024

33. Comment on: "Preparation and characterization of P‑type zeolite for adsorption of Cr3+, Ni2+, and Co2+".

Author

Baidoo, Maame Esi and Kang, Jonghoon

Subjects

PERIODIC table of the elements, GIBBS' free energy, ATOMIC mass, ENVIRONMENTAL sciences, ELECTRON affinity, HEAVY metals

Abstract

The letter comments on a study that prepared P-type zeolite from coal fly ash for adsorption of heavy metals like Cr3+, Ni2+, and Co2+. The research focused on understanding the thermodynamics of the adsorption process, revealing an enthalpy-entropy compensation phenomenon. By analyzing the data, a predictive model was developed to estimate the adsorption of other heavy metals onto the zeolite. The study suggests that the zeolite may effectively remove heavy metals like In, Mo, Zn, As, and Fe, contributing to environmental safety. [Extracted from the article]

Published

2024

34. Multifaceted roles of zinc nanoparticles in alleviating heavy metal toxicity in plants: a comprehensive review and future perspectives.

Author

Hassan, Muhammad Umair, Guoqin, Huang, Ahmad, Naeem, Khan, Tahir Abbas, Nawaz, Muhammad, Shah, Adnan Noor, Rasheed, Adnan, Asseri, Tahani A. Y., and Ercisli, Sezai

Subjects

POISONS, HEAVY metal toxicology, SUSTAINABILITY, PLANT performance, NOXIOUS weeds

Abstract

Heavy metal (HM) toxicity is a serious concern across the globe owing to their harmful impacts on plants, animals, and humans. Zinc oxide nanoparticles (ZnO-NPs) have gained appreciable attention in mitigating the adverse effects of abiotic stresses. The exogenous application of ZnO-NPs induces tolerance against HMs by improving plant physiological, metabolic, and molecular responses. They also interact with potential osmolytes and phyto-hormones to regulate the plant performance under HM stress. Moreover, ZnO-NPs also work synergistically with microbes and gene expression which helps to withstand HM toxicity. Additionally, ZnO-NPs also restrict the uptake and accumulation of HMs in plants which improves the plant performance. This review highlights the promising role of ZnO-NPs in mitigating the adverse impacts of HMs in plants. In this review, we explained the different mechanisms mediated by ZnO-NPs to counter the toxic effects of HMs. We also discussed the interactions of ZnO-NPs with osmolytes, phytohormones, and microbes in mitigating the toxic effects of HMs in plants. This review will help to learn more about the role of ZnO-NPs to mitigate HM toxicity in plants. Therefore, it will provide new insights to ensure sustainable and safer production with ZnO-NPs in HM-polluted soils. [ABSTRACT FROM AUTHOR]

Published

2024

35. A low-coordinate platinum(0)-germylene for E–H bond activation and catalytic hydrodehalogenation.

Author

Bajo, Sonia, Soto, Enrique, Fernández-Buenestado, Marta, López-Serrano, Joaquín, and Campos, Jesús

Subjects

TRANSITION metals, ALKYL chlorides, HEAVY metals, ALKENES, TIN, PLATINUM

Abstract

Pairing transition metals and heavier tetrylenes (Si, Ge, Sn, Pb) holds great potential for cooperative bond activation and catalysis. In this work, we investigate the reactivity of a low-coordinate Pt(0)/Ge(II) system that emerges from the reaction between the monoligated platinum(0) precursor [(PMe2ArDipp2)Pt(olefin)] with germylene dimer [ArDipp2GeCl]2 (where ArDipp2 = C6H3−2,6-(C6H3−2,6-iPr2)2). The resulting complex reveals ability for cooperative bond activation. Stoichiometric reactions with dihydrogen, water, methanol, ammonia and alkynes unveil the formation of Pt(II)-germyl compounds, characterized by distinct isomeric forms, whose flexibility derives from the particularly low-coordination. We explore its catalytic potential in the hydrodehalogenation of aliphatic, aromatic and main-group halides under dihydrogen atmosphere using both thermal and photochemical conditions, demonstrating promising conversions even for more challenging alkyl chlorides. Pairing transition metals and heavier tetrylenes holds potential for cooperative bond activation. Here, the authors investigate the reactivity of a low-coordinate Pt(0)/Ge(II) system that emerges from the reaction between a monoligated platinum(0) precursor with a germylene dimer and explore its application as a hydrodehalogenation catalyst. [ABSTRACT FROM AUTHOR]

Published

2024

36. Stenotrophomonas pavanii MY01 induces phosphate precipitation of Cu(II) and Zn(II) by degrading glyphosate: performance, pathway and possible genes involved.

Author

Zhao, Shengchen, Xu, Zitong, and Wang, Jihong

Subjects

MICROBIAL remediation, COPPER, HEAVY metals, AGRICULTURE, AMINO acid sequence

Abstract

Microbial bioremediation is an advanced technique for removing herbicides and heavy metals from agricultural soil. In this study, the strain Stenotrophomonas pavanii MY01 was used for its ability to degrade glyphosate, a phosphorus-containing organic compound, producing PO43− as a byproduct. PO43− is known to form stable precipitates with heavy metals, indicating that strain MY01 could potentially remove heavy metals by degrading glyphosate. Therefore, the present experiment induced phosphate precipitation from Cu(II) (Hereinafter referred to as Cu2+) and Zn(II) (Hereinafter referred to as Zn2+) by degrading glyphosate with strain MY01. Meanwhile, the whole genome of strain MY01 was mined for its glyphosate degradation mechanism and its heavy metal removal mechanism. The results of the study showed that the strain degraded glyphosate best at 34°C, pH = 7.7, and an inoculum of 0.7%, reaching 72.98% within 3d. The highest removal of Cu2+ and Zn2+ in the test was 75.95 and 68.54%, respectively. A comparison of strain MY01's genome with glyphosate degradation genes showed that protein sequences GE000474 and GE002603 had strong similarity to glyphosate oxidoreductase and C-P lyase. This suggests that these sequences may be key to the strain's ability to degrade glyphosate. The GE001435 sequence appears to be related to the phosphate pathway, which could enable phosphate excretion into the environment, where it forms stable coordination complexes with heavy metals. [ABSTRACT FROM AUTHOR]

Published

2024

37. Association between blood heavy metals and diabetic kidney disease among type 2 diabetic patients: a cross-sectional study.

Author

Zhao, Hongling, Yin, Ruili, Wang, Yan, Wang, Zihang, Zhang, Lijie, Xu, Yongsong, Wang, Di, Wu, Jianbo, Wei, Lingling, Yang, Longyan, and Zhao, Dong

Subjects

*DIABETIC nephropathies, *TYPE 2 diabetes, *HEAVY metals, *DISEASE progression, *LOGISTIC regression analysis

Abstract

Studies on the correlation of exposure to metals with diabetic kidney disease (DKD) is scarce, especially concerning the impact of mixed metals on DKD. This study aimed to explore the association of blood heavy metals with DKD risk among type 2 diabetes mellitus (T2DM) patients. This cross-sectional study enrolled patients with T2DM in NHANES 2011–2020. ICP‒MS was applied to detect five metals, namely, Pb, Cd, Hg, Se and Mn, in blood. At the same time, the impacts of exposure to single and mixed metals on DKD were assessed using multivariable logistic regression, WQS, and BKMR models. The relationship was examined based on age, sex, BMI, hypertension, smoking status and PIR. Totally 2362 participants were enrolled for final analysis. Among them, 634 (26.84%) patients undergoing T2DM had DKD. Logistic regression indicated that, Pb (Q4: OR [95% CI]: 1.557 [1.175, 2.064]) was related to DKD when all covariates were adjusted. The WQS analysis, which was set in a positive directional mode, suggested that Pb was correlated positively with a higher incidence of DKD. In BKMR analysis, linear dose‒response curves were generated for Pb when fixing the other metals in the 50th percentile. In addition, exposure to mixed metals was significantly positively related to DKD. Subgroup analysis during logistic regression demonstrated that Pb was significantly and positively related to DKD in females, over 50 years, those with over 25 kg/m2, no hypertension, no smoking status and under PIR. Serum albumin (ALB) did not regulate the indirect impact of blood Pb on DKD risk. The results showed that the increased mixed metal concentration may lead to an increased DKD risk among patients with T2DM. Blood Pb is positively related to the DKD risk in diabetic patients, especially, in females, over 50 years, those with over 25 kg/m2, no hypertension, no smoking status and under PIR in T2DM patients. According to our observations, Pb absorption at least slightly influences DKD occurrence and progression. More studies are needed to validate the results in this work and illustrate the relevant biological mechanism. [ABSTRACT FROM AUTHOR]

Published

2024

38. Cross-sectional study on urinary metal concentrations in young adult residents of Emirate of Sharjah, United Arab Emirates.

Author

Masarani, Asmaa, Khaled, Raghad, Hussein, Bdour, Alhammadi, Huda, Al-Ali, Salma, Kinbaz, Yahya, Mohammad Zadeh, Shima A., Shousha, Tamer, Mousa, Mouath, Hassanein, Mai M., Semreen, Mohammad, Semerjian, Lucy, and Abass, Khaled

Subjects

*DIETARY patterns, *YOUNG adults, *ENVIRONMENTAL exposure, *HEAVY metals, *HEALTH policy, *ARSENIC

Abstract

Background: Human biomonitoring is crucial for regulatory toxicology, yet data on biomarker concentrations in the UAE are lacking. This study addresses this gap by analyzing urinary concentrations of 16 metals in UAE young adults, assessing correlations with personal characteristics, dietary patterns, and lifestyle habits. Methods: A cross-sectional pilot study was conducted among 144 randomly selected young adults (71 males and 73 females) from Sharjah, UAE, between January and March 2023. Participants provided urine samples, which were analyzed for 16 heavy metals using ICP-OES, and completed detailed questionnaires covering sociodemographic factors, lifestyle, and dietary habits. Descriptive statistics were used to summarize participant characteristics, and linear regression analysis was applied to explore associations between metal concentrations and factors such as gender, dietary habits, and exposure to environmental risks. Non-parametric tests, including the Mann-Whitney test, were used to assess differences by gender. Statistical significance was set at p < 0.05. Ethical approval was obtained, and informed consent was secured before participation Results: Significant findings include dietary influences on metal exposure, with rice consumption linked to higher metal concentrations. Sex differences were significant, with females showing elevated levels of arsenic, lead, and cadmium. Lifestyle factors, such as smoking and incense use, were correlated with increased barium and boron levels. Conclusion: This study highlights the significant role of dietary habits, especially the consumption of rice, in metal exposure among young adults in Sharjah. The findings highlight the urgent need for comprehensive human biomonitoring to understand environmental exposures and reform public health policies. The gender-specific differences in metal distribution suggest the necessity for targeted public health strategies. The study, however, is limited by its cross-sectional nature and the focus on a specific geographic area, warranting further research for broader generalizability. Future investigations, particularly on the impact of incense exposure on metal levels, are essential for developing comprehensive health interventions and preventive strategies in the UAE. [ABSTRACT FROM AUTHOR]

Published

2024

39. Effects of SNP, MgSO4, and MgO-NPs foliar application on Spinacia oleracea L. growth and physio-biochemical responses under cadmium stress.

Author

Taj, Hafsa, Noreen, Zahra, Aslam, Muhammad, Usman, Sheeraz, Shah, Anis Ali, Rafique, Maham, Raja, Vaseem, and El-Sheikh, Mohamed A.

Subjects

*CADMIUM chloride, *MAGNESIUM sulfate, *CROPS, *MEMBRANE permeability (Biology), *HEAVY metals, *SPINACH

Abstract

The effects of foliar application of sodium nitroprusside (SNP), magnesium sulfate (MgSO4) and magnesium oxide nanoparticles (MgO-NPs) on the growth, physiology, and gas exchange parameters of two varieties of spinach (Spinacia oleracea L.) under cadmium (Cd) stress were examined. The experiment was arranged in a completely randomized design with 72 pots. Two varieties of S. oleracea (Desi Palak & Lahori Palak) were used. Two concentrations of Cd (0 µM and 150 µM) in the form of cadmium chloride (CdCl2) were used. Two levels of SNP (0 ppm and 100 ppm) and two levels for each form of Mg i.e. MgSO4 and MgO-NPs (0 and 200 ppm) were foliar sprayed on plants in control and Cd stress. Both varieties behaved similarly under Cd stress and caused reductions in growth, physiology, gas exchange, water content parameters and inorganic ion uptake. However, the biochemical parameters like relative membrane permeability (RMP), malondialdehyde (MDA), and hydrogen peroxide (H2O2) contents were increased. However, all foliar spray treatments increased growth, physiological and gas exchange parameters, water content and inorganic ion uptake. However, this reduced the MDA, RMP, and H2O2 contents. Desi Palak showed the more positive results under foliar application of MgO-NPs. However, Lahori palak showed more positive results under the SNP + MgO-NP treatment. It is concluded that foliar application of SNP, MgSO4 and MgO-NPs could be an innovative approach to alleviated the heavy metals (Cd) toxicity in crop plants. [ABSTRACT FROM AUTHOR]

Published

2024

40. Adsorption of Pb(II) and Cd(II) on Modified Coal Gasification Slag: Competitive Adsorption, Leaching Toxicity, and Adsorption Mechanism.

Author

Yang, Jian, Liu, Ting, Ma, Rui, Ma, Hongzhi, Dong, Biqin, Xia, Changlei, and Li, Hongxia

Subjects

*COAL gasification, *ENVIRONMENTAL security, *WASTEWATER treatment, *HEAVY metals, *SLAG

Abstract

To remove heavy metals from wastewater, coal gasification slag (CGS) was prepared as an adsorbent. Five modified materials were created, including HF‐CGSC, KOH‐HCl‐CGS, and three KOH‐CGS variants with different mass ratios. The adsorption tests showed KOH‐CGS (0.25) had the best efficiency for Pb(II) and Cd(II) via spontaneous chemisorption. Kinetic, thermodynamic, and 13C NMR analyses indicated that adsorption involved pore adsorption, functional group coordination, and π‐π interactions. Competitive adsorption results showed minimal interaction between Pb and Cd. Leaching tests confirmed the process's environmental safety. This study suggests new approaches for using coal gasification slag in wastewater treatment. [ABSTRACT FROM AUTHOR]

Published

2024

41. Research on Adsorption of Heavy Metal Ions by Polysaccharide Hydrogels.

Author

Liu, Sen, Cai, Yuting, Du, Mingjing, Liu, Jiahui, Zhang, Xinbin, Yuan, Huizheng, Xu, Zhiwei, Chen, Xiangyan, Kan, Xinyuan, Zhang, Shaohua, Zhong, Linlin, and Ma, Songmei

Subjects

*BIOPOLYMERS, *HEAVY metal toxicology, *METAL ions, *HEAVY metals, *ADSORPTION capacity

Abstract

In recent years, various industrial and agricultural problems have been highlighted, and the pollution of heavy metal ions to water bodies has become a considerable serious phenomenon. Adsorption method is an efficient, low‐cost, and easy to implement method for removing heavy metal ions, which does not produce secondary pollution, and has been widely used in water treatment. Polysaccharides are natural polymers, and their hydroxyl, carboxyl, and amine groups provide feasibility for the synthesis of hydrogels with various structures. The synthesized polysaccharide hydrogel has the characteristics of high adsorption capacity, specific adsorption, nontoxic, and so on. In this review, the kinds of polysaccharide hydrogels and different synthesis methods were discussed first. Then, the adsorption mechanism and different adsorption modes of polysaccharide hydrogels were reviewed. Finally, the effects of different environmental factors on the adsorption capacity of polysaccharide hydrogel were studied. The future research on the adsorption of heavy metal ions by polysaccharide hydrogels was proposed. [ABSTRACT FROM AUTHOR]

Published

2024

42. Detection of mussels contaminated with cadmium by near‐infrared reflectance spectroscopy based on RELS‐TSVM.

Author

Liu, Yao, Qiao, Fu, and Xu, Zhen

Subjects

*REFLECTANCE spectroscopy, *SUPPORT vector machines, *RANDOM noise theory, *HEAVY metals, *LEAST squares, *SHELLFISH

Abstract

Practical Application Eating mussels contaminated with cadmium (Cd) can seriously harm health. In this study, a non‐destructive and rapid detection method for Cd‐contaminated mussels based on near‐infrared reflectance spectroscopy was studied. The spectral data of Cd‐contaminated and non‐contaminated mussels were collected in the range of 950–1700 nm. The model based on a robust energy‐based least squares twin support vector machine (RELS‐TSVM) was established to detect Cd‐contaminated mussels. The influence of parameters on the RELS‐TSVM model was analyzed, and the most suitable parameters were determined. The average accuracy of the proposed RELS‐TSVM model in detecting Cd‐contaminated mussels reached 99.92%, which was better than other twin support vector machine‐derived models. For test datasets with different kinds of spectral noises (Gaussian noise, baseline shift, stray light, and wavelength shift), the RELS‐TSVM model had a high robustness for noise disturbance. The results show that near‐infrared spectroscopy combined with the RELS‐TSVM model can realize the detection of Cd‐contaminated mussels, which can provide technical support for the monitoring of heavy metals in shellfish.The method of detecting Cd‐contaminated mussels by the NIRS has important practical significance for ensuring the safety of consumers. It provides a new way for the quality assessment and safety detection of shellfish and provides a technical basis for the marine environment assessment and management. [ABSTRACT FROM AUTHOR]

Published

2024

43. Geoelectrical resistivity and geochemistry monitoring of landfill leachates due to the seasonal variations and the implications on groundwater systems and public health.

Author

Alao, Joseph Omeiza, Otorkpa, Oche Joseph, Abubakar, Fahad, Eshimiakhe, Daniel, Aliyu, Abubakar, Abdulsalami, Momohjimoh, and Abdulmalik, Danga Onimisi

Subjects

*WASTE disposal sites, *WASTE management, *GEOCHEMISTRY, *WELLHEAD protection, *GROUNDWATER quality

Abstract

Understanding the seasonal variations in the landfill leachate plumes (LLPs) properties and complex connections between concentrations of leachate variability, and its environment is essential for environmental and public health management. This study explores the combined electrical resistivity (ER) data and physiochemical water analysis (PWA) coupled with the excavations to monitor the landfill physiochemical properties (LPPs) due to seasonal variations and their implications on environmental vital organs and public health. The variations in ER and LLP distributions across the overburdened top layer due to seasonal changes were examined. The low ER contrasts were encountered within the ranges of 1.5 Ωm – 19.0 Ωm which was mapped as LLP accumulated zones within the landfill, while high ER values varied between 15 Ωm – 260 Ωm off-the landfill extending beyond 15 m. The results of the PWA indicate high concentrations of heavy metals (HMs) such as iron (Fe), lead (Pb), zinc (Zn), and cadmium (Cd) decreasing with wet seasons and increasing with dry seasons. The overall high concentration of HMs in the LLPs was indeed varied between 9.81 ± 2.15–19.07 ± 3.68, while the electrical conductivity (EC) significantly increased from 17.99 ± 1.92 mg/L to 24.87 ± 3.31 mg/L towards the wet season. The increment and decrement encountered in the LPPs are due to seasonal variation and dilution. The order of decrement in the HMs in the LLPs treads as follows EC > Fe > Zn > Pb > Cd in values, respectively. The near-surface EC aligned well with the ER results and boundaries of the waste disposal site, which was verified by the soil excavations. In addition, the ER method was extended beyond the landfill for adequate monitoring, identifying the subsurface layers, conductive shallow zones mapped as the zones of LLP accumulation, resistive deep and shallow zones mapped as the consolidated lateritic topsoil and crystalline basement rocks in some cases, and a dipping conductive lineament zones identified as fracture zones just before the crystalline basement. In conclusion, the ER technique reveals the vertical and horizontal extents of the LLP escapade, the PWA expressed the concentrations of HMs in the LLPs, heightening the implications on the environmental and human health. Finally, the combined techniques deployed for monitoring the physiochemical properties of LLPs due to seasonal variation and the impacts on the integrity of groundwater quality systems and public health inform sustainable waste management practices, which contributes significantly to the protection of groundwater resources and the development of effective strategies to safeguard groundwater systems and public health for present and future generations. [ABSTRACT FROM AUTHOR]

Published

2024

44. Advances in mechanism for the microbial transformation of heavy metals: implications for bioremediation strategies.

Author

Ding, Chunlian, Ding, Zihan, Liu, Qingcai, Liu, Weizao, and Chai, Liyuan

Subjects

*MICROBIAL remediation, *HEAVY metals, *ENVIRONMENTAL risk, *CHEMICAL speciation, *BIOREMEDIATION

Abstract

Heavy metals are extensively discharged through various anthropogenic activities, resulting in an environmental risk on a global scale. In this case, microorganisms can survive in an extreme heavy metal-contaminated environment via detoxification or resistance, playing a pivotal role in the speciation, bioavailability, and mobility of heavy metals. Therefore, studies on the mechanism for the microbial transformation of heavy metals are of great importance and can provide guidance for heavy metal bioremediation. Current research studies on the microbial transformation of heavy metals mainly focus on the single oxidation, reduction and methylation pathways. However, complex microbial transformation processes and corresponding bioremediation strategies have never been clarified, which may involve the inherent physicochemical properties of heavy metals. To uncover the underlying mechanism, we reclassified heavy metals into three categories based on their biological transformation pathways, namely, metals that can be chelated, reduced or oxidized, and methylated. Firstly, we comprehensively characterized the difference in transmembrane pathways between heavy metal cations and anions. Further, biotransformation based on chelation by low-molecular-weight organic complexes is thoroughly discussed. Moreover, the progress and knowledge gaps in the microbial redox and (de)methylation mechanisms are discussed to establish a connection linking theoretical advancements with solutions to the heavy metal contamination problem. Finally, several efficient bioremediation strategies for heavy metals and the limitations of bioremediation are proposed. This review presents a solid contribution to the design of efficient microbial remediation strategies applied in the real environment. [ABSTRACT FROM AUTHOR]

Published

2024

45. The Arabidopsis receptor-like kinase WAKL4 limits cadmium uptake via phosphorylation and degradation of NRAMP1 transporter.

Author

Yuan, Jun Jie, Zhao, Ya Nan, Yu, Su Hang, Sun, Ying, Li, Gui Xin, Yan, Jing Ying, Xu, Ji Ming, Ding, Wo Na, Benhamed, Moussa, Qiu, Rong Liang, Jin, Chong Wei, Zheng, Shao Jian, and Ding, Zhong Jie

Subjects

HEAVY metals, FOOD chains, CADMIUM, UBIQUITINATION, PROTEOLYSIS

Abstract

Cadmium (Cd) is a detrimental heavy metal propagated from soil to the food chain via plants, posing a great risk to human health upon consumption. Despite the understanding of Cd tolerance mechanisms in plants, whether and how plants actively respond to Cd and in turn restrict its uptake and accumulation remain elusive. Here, we identify a cell wall-associated receptor-like kinase 4 (WAKL4) involved in specific tolerance to Cd stress. We show that Cd rapidly and exclusively induces WAKL4 accumulation by promoting WAKL4 transcription and blocking its vacuole-dependent proteolysis in roots. The accumulated WAKL4 next interacts with and phosphorylates the Cd transporter NRAMP1 at Tyr488, leading to the enhanced ubiquitination and vacuole-dependent degradation of NRAMP1, and consequently reducing Cd uptake. Our findings therefore uncover a mechanism conferred by the WAKL4-NRAMP1 module that enables plants to actively respond to Cd and limit its uptake, informing the future molecular breeding of low Cd accumulated crops or vegetables. This study demonstrates a WAKL4 receptor-like kinase that is rapidly and specifically induced by Cadmium. It reveals a unique mechanism conferred by the WAKL4-NRAMP1 module that enables plants to actively respond to Cadmium and limit its uptake. [ABSTRACT FROM AUTHOR]

Published

2024

46. The Impact of Landfill Operations on Borehole Water Quality.

Author

Sackey, Lyndon N. A., Kwablah, Rita, Agyemang, Lawrencia S. Y., and Etikala, Balaji

Subjects

ESCHERICHIA coli, WATER pollution, WATER quality, WASTE management, HEAVY metals

Abstract

Water is crucial for life, and although groundwater is considered safe, it can degrade due to inadequate source protection and inefficient resource management. The aim of the study was to assess the impact of landfill operations on water quality from selected landfill sites. Spectrometry analytical techniques were used to assess the physicochemical parameters of the samples. The study found that while Salmonella was absent in most samples, E. coli and total coliforms were present, making the water unsafe for domestic use. Although turbidity, pH, temperature and other parameters were within acceptable GSA/WHO levels, total coliform and E. coli raise concerns about faecal contamination and potential health risks. Cadmium was absent in all samples, but chromium, lead, arsenic and mercury were detected. These heavy metals could pose health hazards to consumers. The samples showed no risk of noncarcinogenic and carcinogenic risk to consumers, but then there is a potential health risk to consumers over time due to bioaccumulation. Regular monitoring and periodic assessments are recommended to ensure water safety. Proper waste management practices in landfill areas can minimize potential impacts on water quality, highlighting the need for continuous monitoring and assessment. The municipal authorities can inform residents of the situation and put in policies to protect human health. The results could help residents know the level of contamination of water from their boreholes and the necessary precautions to take to reduce their health impact. A treatment system can be developed in detail to their peculiar need. [ABSTRACT FROM AUTHOR]

Published

2024

47. Unraveling the role of heavy metals xenobiotics in cancer: a critical review.

Author

Pal, Sourav and Firdous, Sayed Mohammed

Subjects

NUCLEAR factor E2 related factor, PEROXISOME proliferator-activated receptors, HEAVY metals, XENOBIOTICS, TARGETED drug delivery

Abstract

Cancer is a multifaceted disease characterized by the gradual accumulation of genetic and epigenetic alterations within cells, leading to uncontrolled cell growth and invasive behavior. The intricate interplay between environmental factors, such as exposure to carcinogens, and the molecular cascades governing cell growth, differentiation, and survival contributes to cancer's development and progression. This review offers a comprehensive overview of key molecular targets and their roles in cancer development. Peroxisome proliferator-activated receptors are implicated in various cancers due to their role in regulating lipid metabolism, inflammation, and cell proliferation. Nuclear factor erythroid 2-related factor 2 protects cells from oxidative damage but can also promote tumor cell survival. Cytochrome P450 1B1 metabolizes exogenous and endogenous substances, and its increased expression is observed in several cancers. The constitutive androstane receptor regulates gene expression, and its dysregulation can lead to liver cancer. Transforming growth factor-beta 2 is involved in the development and progression of various cancers by dysregulating cell proliferation, differentiation, and migration. Chelation treatment has been investigated for removing heavy metals, while genetically altered immune cells show promise in treating specific cancers. Metal–organic frameworks and fibronectin targeting represent new directions in cancer treatment. While some heavy metals, such as arsenic, chromium, nickel, and cadmium, are known to have carcinogenic properties, others, like zinc, Copper, gold, bismuth, and silver, have many uses that highlight their potential as effective cancer control tactics. There are a variety of heavy metal-based technologies that show potential for improving cancer treatment methods, including targeted drug delivery, improved radiation, and diagnostic tools. [ABSTRACT FROM AUTHOR]

Published

2024

48. Bioremediation petroleum wastewater and oil-polluted soils by the non-toxigenic indigenous fungi.

Author

Ameen, Fuad, Alsarraf, Mohammad J., and Stephenson, Steven L.

Abstract

Soil and wastewater samples contaminated by petroleum-related industries were collected from various locations in Saudi Arabia, a country known for its vast oil reserves. The samples were analyzed for their physicochemical properties, including the presence of metals, petroleum hydrocarbons, and aromatic compounds. A total of 264 fungal isolates were analyzed and categorized into eight groups of Aspergillus (194 isolates) and four groups of Penicillium (70 isolates). The potential of these fungal groups to grow in oil or its derivatives was investigated. Two isolates, Aspergillus tubingensis FA-KSU5 and A. niger FU-KSU69, were utilized in two remediation experiments—one targeting wastewater and the other focusing on polluted soil. The FA-KSU5 strain demonstrated complete removal of Fe3+, As3+, Cr6+, Zn2+, Mn2+, Cu2+ and Cd2+, with bioremediation efficiency for petroleum hydrocarbons in the wastewater from these sites ranging between 90.80 and 98.58%. Additionally, the FU-KSU69 strain achieved up to 100% reduction of Co2+, Ba2+, B3+, V+, Ni2+, Pb2+ and Hg2+, with removal efficiency ranging from 93.17 to 96.02% for aromatic hydrocarbons after 180 min of wastewater treatment. After 21 days of soil incubation with Aspergillus tubingensis FA-KSU5, there was a 93.15% to 98.48% reduction in total petroleum hydrocarbons (TPHs) and an 88.11% to 97.31% decrease in polycyclic aromatic hydrocarbons (PAHs). This strain exhibited the highest removal rates for Cd2+ and As3+ followed by Fe3+, Zn2+, Cr6+, Se4+ and Cu2+. Aspergillus niger FU-KSU69 achieved a 90.37% to 94.90% reduction in TPHs and a 95.13% to 98.15% decrease in PAHs, with significant removal of Ni2+, Pb2+ and Hg2+, followed by Co2+, V+, Ba2+ and B3+. The enzymatic activity in the treated soils increased by 1.54- to 3.57-fold compared to the polluted soil. Although the mixture of wastewater and polluted soil exhibited high cytotoxicity against normal human cell lines, following mycoremediation, all treated soils and effluents with the dead fungal biomass showed no toxicity against normal human cell lines at concentrations up to 500 µL/mL, with IC50 values ≥ 1000 µL/mL. SEM and IR analysis revealed morphological and biochemical alterations in the biomass of A. tubingensis FA-KSU5 and A. niger FA-KSU69 when exposed to petroleum effluents. This study successfully introduces non-toxigenic and environmentally friendly fungal strains play a crucial role in the bioremediation of contaminated environments. Both strains serve as low-cost and effective adsorbents for bio-remediating petroleum wastewater and oil-contaminated soil. Heavy metals and hydrocarbons, the primary pollutants, were either completely removed or reduced to permissible levels according to international guidelines using the dead biomass of FA-KSU5 and FA-KSU69 fungi. Consequently, the environments associated with this globally significant industry are rendered biologically safe, particularly for humans, as evidenced by the absence of cytotoxicity in samples treated with A. tubingensis FA-KSU5 and A. niger FA-KSU69 on various human cell types. [ABSTRACT FROM AUTHOR]

Published

2024

49. Enhancing Aseptic Inflammation Resolution with 1-(2-Ethoxyethyl)-4-(pent-1-yn-1-yl)piperidin-4-yl Propionate: A Novel β-Cyclodextrin Complex as a Therapeutic Agent.

Author

Zhumakova, Symbat, Tokusheva, Aliya, Zharkynbek, Tolganay, Balabekova, Marina, Koks, Sulev, Seilkhanov, Tulegen, Dembitsky, Valery, Zazybin, Alexey, Aydemir, Murat, Kemelbekov, Ulan, Kairanbayeva, Gulgul, and Yu, Valentina

Subjects

*REGULATORY T cells, *POTASSIUM dichromate, *CHROMIUM ions, *CHEMICAL synthesis, *HEAVY metals

Abstract

The synthesized compound, 1-(2-ethoxyethyl)-4-(pent-1-yn-1-yl)piperidin-4-yl propionate (EPPP), and its 1:1 complex with β-cyclodextrin (EPPPβCD) have been characterized for the first time through a comprehensive suite of analytical methods. This study explores the therapeutic potential of EPPPβCD in modulating immune responses and accelerating the resolution of septic inflammation induced by chromium and vanadium ions in outbred male rats. The research highlights the significant impact of EPPPβCD on the dynamics of regulatory T lymphocytes (Tregs), notably causing a reduction in the CD4+CD25+ fractions at the onset of inflammation. This effect is attributed to the inhibition of Treg proliferation, which is crucial in hastening the resolution of inflammation. These findings underscore the potential of EPPPβCD as a promising therapeutic agent in controlling and mitigating inflammation mediated by heavy metal exposure, thereby offering a new avenue for the development of anti-inflammatory treatments. [ABSTRACT FROM AUTHOR]

Published

2024

50. From Structure to Sensing: Molecular Mechanistic Insights into Plant-Derived Carbon Dots for Heavy Metal Ion Detection.

Author

Soni, Himanshi, Jain, Vicky, Ballal, Suhas, Ariffin, Indang Ariati, Chahar, Mamata, Saini, Suman, Bhattu, Monika, Singh, Harbinder, Bechelany, Mikhael, and Singh, Jagpreet

Subjects

*POLLUTANTS, *ANALYSIS of heavy metals, *MOLECULAR structure, *HEAVY metals, *METAL detectors

Abstract

Plant-derived carbon dots (P-CDs) are gaining attention in environmental remediation due to their cost-effectiveness, availability, and lower toxicity compared with chemically synthesized carbon dots. This review comprehensively examines the recent advancements in the synthesis and application of P-CDs, with a particular emphasis on their efficacy in the sensing of heavy metals, which are among the most pervasive environmental contaminants. A detailed comparative analysis is presented by evaluating the performance of P-CDs against their chemically synthesized counterparts based on key parameters, such as optimal operating conditions and detection limits. Furthermore, sensing the potential of P-CDs towards every heavy metal ion has been discussed with in-depth mechanistic insights. Additionally, this review explores the industrial applications and future directions of P-CDs. This review provides a comprehensive analysis of -P-CDs for heavy metal sensing, aiming to enhance their sensitivity and selectivity toward heavy metal ions. [ABSTRACT FROM AUTHOR]

Published

2024