Your search keyword '"Heavy metal"' showing total 30,908 results

1. Phytochemical, Molecular Docking and Expressing the ALAD Gene Protected via Moringa Extract Against Nano Lead in Rat Blood

Author

Al-Obaidi, Fiham Jassim, AlRawi, Marwa Shakib, Ramizy, Asmiet, Almehemdi, Ali F., Thaker, Abid A., Bezaeva, Natalia S., Series Editor, Gomes Coe, Heloisa Helena, Series Editor, Nawaz, Muhammad Farrakh, Series Editor, Obaid, Ahmed J., editor, Al-Heety, Emad Abdulrahman, editor, Radwan, Neyara, editor, and Polkowski, Zdzislaw, editor

Published

2025

2. Determination of the Levels of Selected Heavy Metals in Finger Millet (Eleusine coracana) Flour in West Gojjam Zone, Amhara Region

Author

Fetene, Desalegn, Lelago, Alemu, Bibiso, Mesfin, and Bosha, Abraham

Published

2024

3. Soil application of FeCl3 and Fe2(SO4)3 reduced grain cadmium concentration in Polish wheat (Triticum polonicum L.).

Author

Yao, Qin, Yang, Yueying, Chen, Jia, Li, Xiaoying, He, Miao, Long, Dan, Zeng, Jian, Wu, Dandan, Sha, Lina, Fan, Xing, Kang, Houyang, Zhang, Haiqin, Zhou, Yonghong, Wang, Yi, and Cheng, Yiran

Abstract

Background: Wheat is one of major sources of human cadmium (Cd) intake. Reducing the grain Cd concentrations in wheat is urgently required to ensure food security and human health. In this study, we performed a field experiment at Wenjiang experimental field of Sichuan Agricultural University (Chengdu, China) to reveal the effects of FeCl3 and Fe2(SO4)3 on reducing grain Cd concentrations in dwarf Polish wheat (Triticum polonicum L., 2n = 4x = 28, AABB). Results: Soil application of FeCl3 and Fe2(SO4)3 (0.04 M Fe3+/m2) significantly reduced grain Cd concentration in DPW at maturity by 19.04% and 33.33%, respectively. They did not reduce Cd uptake or root-to-shoot Cd translocation, but increased Cd distribution in lower leaves, lower internodes, and glumes. Meanwhile, application of FeCl3 and Fe2(SO4)3 up-regulated the expression of TpNRAMP5, TpNRAMP2 and TpYSL15 in roots, and TpYSL15 and TpZIP3 in shoots; they also downregulated the expression of TpZIP1 and TpZIP3 in roots, and TpIRT1 and TpNRAMP5 in shoots. Conclusions: The reduction in grain Cd concentration caused by application of FeCl3 and Fe2(SO4)3 was resulted from changes in shoot Cd distribution via regulating the expression of some metal transporter genes. Overall, this study reports the physiological pathways of soil applied Fe fertilizer on grain Cd concentration in wheat, suggests a strategy for reducing grain Cd concentration by altering shoot Cd distribution. [ABSTRACT FROM AUTHOR]

Published

2024

4. Heavy metal pollution in commonly consumed fish species: seasonal variations and health risks.

Author

Naz, Saira, Rind, Khalid Hussain, Afzal, Wajeeha, Ujan, Javed Ahmed, and Mohany, Mohamed

Abstract

This study examined the concentrations of seven heavy metals (Pb, Cu, Zn, Cr, Cd, Ni, and Mn) in the muscle tissue of six commonly consumed fish species (Cyprinus carpio, Labeo rohita, Wallagu attu, Hypophthalmicthys molitrix, Channa punctuate, and Puntius sophore) from the River Indus in the Mianwali district Pakistan. Samples were collected during both pre-monsoon and post-monsoon seasons to assess the potential human health risks associated with these heavy metals. The levels of metals were measured using atomic absorption spectroscopic analysis. The results showed varying concentrations of heavy metals in the fish samples (mg/kg), ranging from 10.17-2.06 for Pb, 41.83-12.54 for Cu, 417.04-41.93 for Zn, 2.06-0.46 for Cr, 0.86-0.08 for Cd, 4.33-1.43 for Ni, and 50.16-8.74 for Mn. Notably, metal concentrations were generally higher during the pre-monsoon season, with Pb consistently exceeding standard limits in the muscle tissue of all fish species. ANOVA analysis revealed significant variations in heavy metal concentrations among different fish species. While the current consumption rate poses no significant health risks, ongoing monitoring of heavy metal concentrations in fish and their environmental sources is crucial to ensure consumer safety and sustainable aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

5. 6-Benzylaminopurine mediated augmentation of cadmium phytostabilization potential in Strobilanthes alternata.

Author

Chengatt, Akshaya Prakash, Sarath, Nair G., A.M, Shackira, Sebastian, Delse Parekkattil, and George, Satheesh

Subjects

*PHYTOREMEDIATION, *CADMIUM chloride, *HEAVY metals, *PLANT growth, *CADMIUM

Abstract

This study unveiled the cadmium phytoremediation potential and its augmentation using 6-Benzylaminopurine in Strobilanthes alternata. Cadmium stress was provided by applying 250 mg/kg cadmium chloride in soil and 25 ppm of 6-BAP (25 ml) was administered to the plants as foliar spray. The results revealed high bioconcentration factor (BCF) (18.82 ± 0.54) and low translocation factor (TF) values (0.055 ± 0.002) for the plant based on which we strongly recommend S. alternata as a promising candidate for Cd phytoremediation. The phytostabilization potential of the plant was further enhanced by applying 6-BAP, which augmented its BCF to 22.09 ± 0.64 and reduced the TF to 0.038 ± 0.001. Cd toxicity caused a reduction of plant growth parameters, root volume, adaxial-abaxial stomatal indices, relative water content, tolerance index, moisture content, membrane stability index, and xylem vessel diameter in S. alternata. However, Cd + 6-BAP treated plants exhibited an increase of the same compared to Cd-treated plants. FTIR analysis of Cd + 6-BAP treated plants revealed increased deposition of hemicellulose, causing enhanced retention of Cd in the root xylem walls, which is largely responsible for increased phytostabilization of Cd. Therefore, 6-BAP application in S. alternata can be exploited to restore Cd-contaminated areas effectively. STATEMENT OF NOVELTY: The research paper "6-Benzylaminopurine Mediated Augmentation of Cadmium Phytostabilization Potential in Strobilanthes alternata" has established the Cd phytostabilization potential of the plant Strobilanthes alternata and also identified the role of 6-BAP in augmenting the Cd phytoremediation potential of this plant for the very first time. The physiological and anatomical changes in relation to the applied stress signals were also studied for the first time in S. alternata. [ABSTRACT FROM AUTHOR]

Published

2024

6. Heavy metal ions interactions with G-quadruplex-prone DNA sequences.

Author

Mehrdad, Seyyed-Ali, Cucchiarini, Anne, Mergny, Jean-Louis, and Kazemi Noureini, Sakineh

Subjects

*C-kit protein, *THERMAL stability, *METAL ions, *GENE expression, *QUADRUPLEX nucleic acids

Abstract

The industrial world exposes living organisms to a variety of metal pollutants. Here we investigated whether such elements affect G-rich sequences susceptible to fold into G-quadruplex (GQ) structures. Thermal stability and conformation of these oligoncleotides was studied at various molar ratios of a variety of heavy metal salts using thermal FRET, transition-FRET (t-FRET) and circular dichroism. Metal ions affected the thermal stability of the GQs to different extents; some metals had no effect on T m while other metals caused small to moderate changes in T m at 1:1 or 1:10 molar ratio. While most of the metals had no major effect, Al3+, Cd2+, Pb2+, Hg2+ and Zn2+ altered the thermal stability and structural features of the GQs. Some metals such as Pb2+ and Hg2+ exhibit differential interactions with telomere, c-myc and c-kit GQs. Overall, toxic heavy metals affect G-quadruplex stability in a sequence and topology dependent manner. This study provides new insight into how heavy metal exposure may affect gene expression and cellular responses. • Heavy metal ions affect the thermal stability of the G-quadruplexes to different extents. • Al3+, Cd2+, Pb2+, Hg2+ and Zn2+ altered the thermal stability and structural features of the GQs. • Pb2+ and Hg2+ exhibit differential interactions with telomere, c-myc and c-kit G-quadruplexes. • Toxic heavy metals affect stability of G-quadruplexes in a sequence and topology dependent manner. • Heavy metal exposure may affect gene expression and cellular responses through direct DNA binding. [ABSTRACT FROM AUTHOR]

Published

2024

7. Evaluation of Andrographis paniculata Wall. Ex Nees for Cultivation Under Sodicity Stress.

Author

Bahadur, Lal, Kannaujia, Rekha, Saxena, Ankita, Srivastava, Dhirendra Kumar, and Sinam, Geet Govind

Subjects

*ANDROGRAPHIS paniculata, *SODIC soils, *COPPER, *ACANTHACEAE, *MEDICINAL plants, *TRACE elements

Abstract

Kalmegh (Andrographis paniculata) is an important medicinal plant belonging to the Acanthaceae family and used for the treatment of many diseases. This study is focused on determining the critical limit for the cultivation of A. paniculata in sodic soil. A pot experiment was conducted with different exchangeable sodium percentages (ESPs) to determine the critical limit for the cultivation of A. paniculata in sodic soil. The critical limit, 16 ESP, was found for A. paniculata grown in sodic soil. Overall, increasing trends in N, P, K, Ca, Mg, Na, Zn, Fe, Cu, Mn, Cr, and Mo and a decreasing trend in Ni and Se were observed in all part of the plant due to increasing sodicity levels. The determination of the critical limit for the cultivation of A. paniculata in sodic soil is an important aspect of this paper. The nutrients and heavy metal profiling with the extreme levels of sodicity will be useful to study the nutrient utilization pattern for the nutrient management strategy of A. paniculata. [ABSTRACT FROM AUTHOR]

Published

2024

8. Nanomaterials for surface-enhanced Raman spectroscopy-based metal detection: a review.

Author

Yang, Dongchang, Youden, Brian, Carrier, Andrew, Yu, Naizhen, Oakes, Ken, Servos, Mark, and Zhang, Xu

Subjects

*ANALYSIS of heavy metals, *METAL detectors, *SUBSTRATES (Materials science), *HEAVY metals, *BIOCHEMICAL substrates

Abstract

Toxic metals and metalloids pollution is a major ecological and human health issue, yet classical detection methods are limited. Here we review surface-enhanced Raman spectroscopy-based sensors using nanomaterial-based substrates for metal detection, with emphasis on substrate composition, functionalization, and assembly; metal sensing strategies; and analytical performance. Substrates include nobel metals, semiconductors, and composites. Substrate assembly can be done in solution or on solid supports. Sensing strategies comprise direct sensing, reporter recognition, reporter migration, substrate aggregation, and substrate modification. In general, the physicochemical properties of the substrates determine sensor sensitivity through electromagnetic and chemical enhancements of Raman scattering, whereas substrate surface functionalization, or lack thereof, determines sensor selectivity and the sensing mechanism. The main elements analyzed are mercury, lead, copper, arsenic, and chromium. [ABSTRACT FROM AUTHOR]

Published

2024

9. Bewertung von Gärresten als Input für die Kompostierung: Untersuchung von Nähr‑, Ballast- und Schadstoffen.

Author

Vay, Benedikt, Binner, Erwin, Huber-Humer, Marion, and Zafiu, Christian

Abstract

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

Published

2024

10. The effect of soil type on copper leaching from wood treated with three copper-based wood preservatives.

Author

Başkal, Kadir Şahin, Yalçın, Mesut, Akçay, Çağlar, and Sargıncı, Murat

Subjects

WOOD preservatives, CLAY loam soils, COPPER, SOIL leaching, SOIL classification

Abstract

In this study, Scots pine (Pinus sylvestris L.) wood samples were treated with 3 different major wood preservatives (alkaline copper quaternary (ACQ), copper chrome boron (CCB) and copper azole (CuA)). Treated wood samples were subjected to 1 and 3 months of leaching in 3 different soil types and the amount of leached heavy metal Cu was determined on a laboratory scale. In addition, wood samples were exposed to white rot (Trametes versicolor) and brown rot (Neolentinus lepideus) fungi after leaching and weight losses were calculated. At the end of the 1 and 3 months of leaching period, the soil samples were taken from the pots and the amount of Cu was determined. The lowest Cu content (4.3 mg/kg) was detected in the samples treated with CCB among the wood preservatives, while the highest content (196.3 mg/kg) was determined in ACQ. The lowest Cu amount was determined in loamy sand soil type and the highest Cu amount was determined in clay loam soil type. According to the findings from the current study, leaching in soil did not affect weight losses caused by T. versicolor, while significant weight losses occurred by N. lepideus. This study indicated that loamy sand soil is more suitable for the treated wood if there is a risk regarding leaching. [ABSTRACT FROM AUTHOR]

Published

2024

11. Preparation and characterization of pyrimidine‐cored covalent organic frameworks for heavy metal removal.

Author

Wang, Heping, Ma, Qian, Wang, Yunxia, Li, Rui, Fu, Jiahuan, and Bai, Qiuhong

Subjects

METAL-organic frameworks, CHEMICAL processes, ADSORPTION (Chemistry), METAL ions, COPPER ions

Abstract

In this work, two novel pyrimidine‐cored covalent organic frameworks TpTap‐COF and TpTan‐COF were synthesized for the first time and used for the adsorption of heavy metal ions in aqueous solution. Both COFs are nanofiber clusters with preferable crystallinity and thermal stability. The impact parameters such as pH value, shaking time, initial concentration, and temperature were studied by batch adsorption experiments in the multi‐metal ions system. The adsorption of six metal ions onto COFs follows the pseudo‐second‐order kinetic model and the Freundlich isotherm model, which is a chemical adsorption process that occurs on non‐uniform surfaces. The adsorption rate is determined by both film diffusion and intraparticle diffusion. Further research on the adsorption of copper ions onto COFs indicates the formation of metal complexes between O#N#N/O#O chelating sites in the COF skeleton and Cu ions through the sharing of lone pair electrons. [ABSTRACT FROM AUTHOR]

Published

2024

12. 近烟色离褶伞生物学特性及驯化.

Author

张巍镫, 陈卫民, 马渊浩, 刘 萍, and 赵永昌

Subjects

FRUITING bodies (Fungi), FOOD standards, HEAVY metals, POLLUTANTS, SAFETY standards

Abstract

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

Published

2024

13. Alkalophilic bacterial co-cultures for the remediation of toxic pollutants in textile wastewater.

Author

Johnson, Anisha Susan, Biju, Leena Merlin, Kumar, P. Senthil, Gayathri, K. Veena, Rangasamy, Gayathri, and Poorva, C. S.

Abstract

Immense industrial growth contributed to tremendous pollution of the environment from a variety of sources. Bioremediation of different toxicants, such as heavy metals and dyes, is greatly appreciated for its cost-effective and environmentally friendly approach. The bacterial strains isolated from textile dye-contaminated soil samples were used in the study for the removal of the toxic pollutants. The bacterial strains were molecularly identified as E. hormaechei subsp. steigerwaltii and Bacillus sp. B2022 using 16S rRNA sequencing. The preliminary batch study results of the bacterial co-cultures showed a maximum removal efficiency of 88.57 ± 0.005% on mixed dyes and 90.18 ± 0.005% on Cr (VI) respectively. The scale-up laboratory-sized batch reactor showed the results were the maximum removal percentage of 77.68 ± 0.005% with mixed dyes and 52.79 ± 0.005% on Cr (VI) observed for 6 days. The degraded metabolites analyzed by FT-IR revealed the presence of C-H, C = O, C-O, and C–Cl functional groups. The GC–MS study showed the presence of few metabolites such as decane, undecane, 2,4,6-trimethyl decane, butyl tetradecyl ester phthalic acid, and 2,6,10 trimethyl tetradecane. The integrated treatment approach of applying different techniques in a single platform is positively encouraged in the era of urbanization and industrialization. [ABSTRACT FROM AUTHOR]

Published

2024

14. Removal of heavy metal by using green synthesis ZnO NPs and ZnO-HNT composite.

Author

Canbaz, Gamze Topal, Açıkel, Ünsal, and Açıkel, Yeşim Sağ

Abstract

In this study, Copper (II) adsorption from an aqueous solution with nanoparticles synthesized using organic waste was investigated. For this purpose, the extract obtained from Allium cepa (A. cepa) peel was used as a reducing agent, and zinc oxide nanoparticles (ZnO NPs) were synthesized by the green synthesis method. The synthesized ZnO NPs were obtained as composite adsorbents with halloysite (HNT), a type of clay. The adsorbents were characterized by Fourier transform infrared spectroscopy (FT-IR), energy dispersive X-ray (EDX), scanning electron microscopy (SEM), X-ray diffractometer (XRD), dynamic light scattering spectrometry (DLS), N2 adsorption–desorption analysis and zero charge point (pHPZC) analysis. Parameters affecting the adsorption process such as pH, adsorbent dose, contact time, initial metal concentration, and temperature were investigated. According to the correlation coefficient, the data obtained with ZnO NPs were best summarized by the Langmuir isotherm with an adsorption capacity of 500 mg g−1. The kinetic description of the adsorption system was performed by pseudo-second-order kinetic and intraparticle diffusion kinetic models. Thermodynamic parameters were calculated and the adsorption process was found to be spontaneous and exothermic. [ABSTRACT FROM AUTHOR]

Published

2024

15. Optimizing Plant Biomonitoring for Cd Pollution.

Author

Zeren Cetin, ilknur

Subjects

TRAFFIC density, POLLUTANTS, OLEANDER, PLANT species, BIOLOGICAL systems

Abstract

Cadmium (Cd), a significant environmental pollutant, is highly toxic to humans, animals, and plants. Its harmful effects are notable even at low concentrations, and it persists in biological systems for extended periods. Given its classification as a type I carcinogen, monitoring changes in the Cd concentration in the air is highly important. This study explored the variation in Cd concentrations in specific plant species and plant organs at different vehicular traffic densities to identify the most effective species and organs for the biomonitoring of Cd concentrations in the air. The Cd concentration changes in different organs of five plant species were analyzed at various vehicular traffic densities. The findings suggest that among the species examined, Nerium oleander is most suitable for use as a biomonitor for Cd, with unwashed organs being recommended for biomonitoring purposes. [ABSTRACT FROM AUTHOR]

Published

2024

16. Impact of Open Dumping Site on Groundwater Quality in Silchar City, Assam, India.

Author

Paul, Mausam Kumar, Dey, Mithra, and Sharma, Chandra

Subjects

WASTE management, WATER pollution, ESCHERICHIA coli, SOLID waste, METAL wastes

Abstract

Solid waste management is a burning issue that requires special attention and consideration in developing countries. In most cities and towns, it has become a public health concern due to uncontrolled dumping that has caused degradation of the natural environment. Therefore, the present study assessed the impact of dump yards on the surrounding environment by conducting physicochemical and biological analysis of groundwater and leachate samples and comparing it with control sites located at Silchar town of Assam, India. The result demonstrated that a large number of organic materials and inorganic salt leached to the surrounding environment by the decomposition of waste at open dumping site which significantly pollutes the groundwater sources of nearby areas. The sample site S5 recorded the highest value of WQI (100.78). Contamination of Total Coliform and E. Coli bacteria were recorded in the range of 96–2116 CFU/100 ml and 0–2466 CFU/100 ml respectively in sample sites. However, in control sites, coliform bacteria were found in the range of 8–43 CFU/100 ml and E. coli bacteria was found to be absent in all the control sites. The mean concentrations of Pb (8.94 mg L−1), Mn (19.12 mg L−1) and Ni (6.38 mg L−1) in the dump yards were found above the maximum permissible limit of EPA US, 1986; however, the concentrations of Cu (4.05 mg L−1) and Cd (0.45 mg L−1) were within the permissible limit. Hence, there is a need for proper scientific planning and management of waste disposal for the protection of our surrounding environment. [ABSTRACT FROM AUTHOR]

Published

2024

17. Determination of Some Exotic Landscape Species As Biomonitors That Can Be Used for Monitoring and Reducing Pd Pollution in the Air.

Author

Sevik, Hakan, Koç, İsmail, and Cobanoglu, Hatice

Subjects

HEAVY metal toxicology, CLUSTER pine, POISONS, HEAVY metals, WOOD

Abstract

Heavy metal levels have steadily risen over the past century due to the presence of human activity and are hazardous to human health and the environment. Regarding the health of humans and the environment, palladium (Pd) is among the most hazardous and toxic heavy metals. It is listed as a priority contaminant by the Agency for Toxic Substances and Disease Registry (ATSDR). As a result, eliminating pollution and tracking changes in Pd contamination in the air are the top research priorities. This study will be conducted on trees grown in Düzce, the fifth dirtiest city on the European continent, to identify appropriate species that may be utilized for tracking and mitigating Pd pollution in the air. Samples from Cupressus arizonica, Pinus pinaster, Cedrus atlantica, Pseudotsuga menziesii, and Picea orientalis will all be analyzed as part of the study, and the variations in Pd content according to species, organ, and direction will be assessed. The goal is to ascertain which biomonitors are best suited for tracking and mitigating lead contamination in the atmosphere. The study consistently found Pd contents in woods with different directions that developed within the same period. However, when the species were compared, notable differences were detected between the Pd levels formed in different directions in the same period for each species and the wood formed in the same direction in other periods. This variation suggests that Pd transfer in wood is restricted in all tested species. Consequently, every species performs as a reliable biomonitor for tracking Pd contamination. [ABSTRACT FROM AUTHOR]

Published

2024

18. Research Progress on the Influencing Factors of Heavy Metal Leaching from the Stock Fly Ash in MSW Landfill Sites.

Author

SUN Yingjie, SUN Haoran, LI Meng, CAI Shuxia, LI Weihua, ZHANG Qingjian, MA Xaaoteng, ZHAN Meili, XIA Zhengqi, WANG Huawei, and BIAN Rongxing

Subjects

LANDFILL management, HAZARDOUS wastes, ENVIRONMENTAL quality, SOLID waste, INCINERATION, FLY ash

Abstract

In China, the main pathway for the consumption of municipal solid waste (MSW) incineration fly ash has long been through stabilization pretreatment followed by landfill disposal in MSW landfill sites. The potential environmental risk of heavy metals contained in stabilized fly ash, which has a long span of landfill years and a huge stock, under the influence of complex landfill environments, is a prominent challenge to be faced by landfill management in the future. Based on the background of "non-standard co? landfill of fly ash and raw MSW", this paper focused on the effects of external environmental factors such as pH, DOM, ORP, stability, CO2 atmosphere and stabilizing agents, particle size on the leaching of heavy metals in landfill fly ash. The impact patterns of different influencing factors and the interaction effects between each factor were discussed, a and there potential environmental risks were evaluated. It is pointed out that the interaction of leachate water quality and internal environmental factors on the long-term leaching behavior and environmental risk of heavy metals in landfill fly ash is worthy of further study. Therefore, the implementation of the "exemption clause" in the historical landfill disposal of MSW incineration fly ash in China has not changed the hazardous waste attributes of fly ash Itself. In the future it is necessary to strengthen the collaborative attention to the hazardous and resource attributes of a large amount of stabilized fly ash stored in landfill. [ABSTRACT FROM AUTHOR]

Published

2024

19. Remediation of cadmium contaminated soil using electrokinetic-phytoremediation system with rotary switching electrodes.

Author

Fan, Li, Yuan, Qin, Lu, Qiuyuan, Zheng, Chunli, Su, Ruijing, Liu, Nuo, and Wu, Jun

Subjects

SOIL remediation, HEAVY metals removal (Sewage purification), ELECTRIC fields, RYEGRASSES, PHYTOREMEDIATION

Abstract

Considering both electrokinetic remediation and phytoremediation have limitations, an electrokinetic phytoremediation (EP) system was constructed to obtain efficient and environmentally friendly remediation results. This study indicates that the electric field can promote the absorption of Cd by ryegrass with little impact on soil physicochemical properties under the condition of rotary switching electrodes, and the accumulation of Cd in the aboveground and underground parts of ryegrass increased by 145.2% and 93.7%, respectively. The DC electric field combined with ryegrass under rotary switching electrode mode proved to be the optimal condition for the remediation of Cd contaminated soil with a remediation efficiency of 66.7%. Moreover, the rotary switching of the electrodes alleviated the suppression of the growth of ryegrass by the DC electric field. During the EP remediation process, the electric field promoted the transformation of the residue state of Cd to the other forms, which accelerated the desorption rate of Cd from the soil and facilitated the migration of Cd into plants. In conclusion, EP is a green and efficient remediation technology for heavy metal contaminated soil with good application prospects. [ABSTRACT FROM AUTHOR]

Published

2024

20. B-nZVI optimization of strength and heavy metal stability of lead-contaminated soil solidified by Portland cement.

Author

Yu, Chuang, Yu, Zhao-kai, Liao, Rao-ping, Wang, Ya-bo, Cai, Xiaoqing, and Zeng, Zhi-lei

Subjects

LEAD, LEAD abatement, PORTLAND cement, CHEMICAL stability, SOIL pollution

Abstract

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

Published

2024

21. Assessment of the health risks associated with heavy metal contamination in the groundwaters of the Leh district, Ladakh.

Author

Ansari, A. H., Das, Arunaditya, Sonker, Archana, Ansari, Nasreen Ghazi, Ansari, Mohammad Arif, and Morthekai, P.

Subjects

HEALTH risk assessment, AGRICULTURAL water supply, HEAVY metal toxicology, GROUNDWATER sampling, GASTROINTESTINAL cancer, MERCURY poisoning

Abstract

There has been a significant rise in cancer-related mortality in the Ladakh region during the past 10 years. The most common type of case is gastrointestinal cancer, which has been linked in theory by medical research to lifestyle factors, high altitude conditions, and the prevalence of Helicobacter pylori bacteria brought on by poor hygiene. Nevertheless, the precise cause of the rise in cancer cases is still unknown. Concurrently, there has been a significant change in Ladakh's water use practices due to development, improved basic utilities, and related vocational shifts. The local population has become increasingly reliant on groundwater since it provides a year-round, continuous water supply for home and agricultural uses. In this study, we assessed heavy metal contamination in groundwaters and associated human health risks. The results indicate that 46–96% of the groundwater samples have heavy metal pollution with a health hazard index > 1, which means using these groundwaters for drinking, food preparation, and agriculture is likely to result in carcinogenic and non-carcinogenic health hazards. The main heavy metal contaminants found in the groundwater of the Leh district include Cr, As, Hg, and U. According to the health risk assessment, 46–76% of the groundwater samples contain unsafe levels of Cr and As. Prolonged exposure to these levels is likely to cause gastrointestinal cancer in the local population. Acute to chronic exposure to U and Hg concentrations present in some groundwater samples is likely to result in various non-carcinogenic health risks. [ABSTRACT FROM AUTHOR]

Published

2024

22. Assessing heavy metal contamination and health risks in playground dust near cement factory: exposure levels in children.

Author

Birgül, Aşkın

Subjects

ANALYSIS of heavy metals, COPPER, HEAVY metals, METAL detectors, PLAYGROUNDS, HEAVY metal toxicology

Abstract

Heavy metals pose significant threats to human health, particularly children. This study aimed to assess heavy metal pollution in children's playgrounds using surface dust as an indicator and to ascertain the associated exposure levels and health risks. A total of one hundred twenty dust samples were collected from the surface of playground toys in areas surrounding the cement factory in Bursa, Türkiye, on precipitation-free days. The heavy metal content of the samples was analyzed using ICP-MS. The average total concentration of heavy metals ranged from 2401 to 6832 mg/kg across the sampling sites, with the highest values observed at PG4, PG3, PG2, and PG1, respectively. The most commonly detected heavy metals in the samples included Cr, Mn, Fe, Co, Cu, Zn, Pb, Cd, As, and Ni. Statistical analysis revealed significant positive correlations (p < 0.01) among Cr, Mn, Fe, Co, Cu, Pb, As, and Ni, with Cu and Pb also showing correlation (p < 0.05). PCA analysis identified three principal components explaining 79.905% of the total variance. The Hazard Quotient (HQ) and Hazard Index values for heavy metals were found to be below the safe threshold (HQ < 1). Quantitative techniques such as the geoaccumulation index and enrichment factor are used to determine pollution levels at the sampling sites. Overall, the results indicate that cement factories significantly contribute to heavy metal pollution, with observed values varying based on proximity to the emission source. [ABSTRACT FROM AUTHOR]

Published

2024

23. Ameliorating effects of natural herbal supplements against water-borne induced toxicity of heavy metals on Nile tilapia, (Oreochromis niloticus).

Author

Fatima, Arzoo, Makhdoom Hussain, Syed, Ali, Shafaqat, Rizwan, Muhammad, Al-Ghanim, Khalid A., and Yong, Jean Wan Hong

Subjects

*NILE tilapia, *HEAVY metal toxicology, *COPPER, *FISH growth, *HEAVY metals, *GARLIC

Abstract

The efficacy of herbal supplements in mitigating heavy metals (HMs) toxicity was investigated using a widely grown fish, the Nile tilapia (Oreochromis niloticus). The experiment was conducted over two phases: during the stress phase, the experimental fishes were exposed to sub-lethal concentrations of HMs, including lead, cadmium, zinc, and copper for 15 days; following which during the feeding phase, herbal supplements were given for 70 days to ameliorate their effects. Seven groups were established: the control negative group (CON−ve), control positive group (CON+ve, without any treatment), and five groups with supplementation of 1% turmeric (TUR), cinnamon (CIN), ginger (GIN), garlic (GAR), and their mixture (MIX), respectively. A total of 315 fishes were distributed evenly in experimental tanks (15 fishes per tank, in triplicates). The results revealed that exposure to HMs led to significant (p < 0.05) alterations in all the tested parameters, i.e., liver damage and growth reduction. The herbal supplements, especially the MIX groups, ameliorated the harmful effects of HMs and restored fish growth, digestibility, carcass composition, and liver health. In conclusion, the study demonstrated that the herbal supplements were effective in reducing the HMs-linked toxicity in Nile tilapia. Future studies pertaining to the mechanisms facilitated by the various herbal bioactive substances-linked tolerance to HMs in fishes are warranted. [ABSTRACT FROM AUTHOR]

Published

2024

24. Responses to exogenous elicitor treatment in lead-stressed Oryza sativa L.

Author

Altun, Hıdır and Orcan, Pınar

Subjects

*HEAVY metal toxicology, *PHOTOSYNTHETIC pigments, *POLLUTANTS, *FLAVONOIDS, *METABOLITES, *SALICYLIC acid, *PLANT pigments

Abstract

Heavy metal toxicity adversely affects plants by changing physiological, biochemical, and molecular mechanisms. Lead (Pb) is one of the most common heavy metal pollutants. Hence this study investigated changes caused by exogenous methyl jasmonate (MeJA; 20 and 100 µM) and salicylic acid (SA; 2 and 20 mM) elicitors in local Karacadağ rice exposed to Pb stress (0, 100, and 400 ppm). The effects of elicitors on photosynthetic pigment content (chlorophyll a, chlorophyll b, and total carotenoid), proline, malondialdehyde (MDA), total phenolic and flavonoid, Pb, and total protein contents in stressed plants were evaluated. All parameters studied increased and decreased at varying rates in the treatment groups compared to the Pb-free group (control), indicating that rice plants were affected by Pb stress. The elicitors (MeJA, SA, and MeJA + SA) were applied by foliar spraying. The elicitor treatments increased photosynthetic pigment content, total protein, proline, total flavonoid, and phenolic contents depending on the elicitor type and concentration. MDA and Pb contents, increasing with Pb toxicity, decreased with elicitor treatments, and the stress degree was reduced. When the elicitors were compared, SA was more effective than MeJA in total flavonoid content at 400 ppm Pb toxicity. However, MeJA was more effective in photosynthetic pigment contents, MDA, total protein, Pb, total phenolic, and proline contents. The best results for all parameters examined in rice plants exposed to Pb toxicity were obtained from the 400 ppm Pb + 2 mM SA + 20 µM MeJA treatment group. In conclusion, this study showed that the combined application of MeJA + SA alleviated the harmful effects of Pb by reducing MDA and increasing photosynthetic pigments, total protein, proline, and secondary metabolites, especially at high Pb concentrations. Consequently, this study demonstrated that the combined use of MeJA and SA in rice plants eliminated the negative effects of stress quite effectively, even at high Pb concentrations. Therefore, future studies should focus on the synergistic application of different elicitors to better understand the effects of heavy metal toxicity on plant growth and development. [ABSTRACT FROM AUTHOR]

Published

2024

25. Assessment of selected tree species as phytoremediation agents in polluted soils.

Author

Olajiire-Ajayi, B. L., Akintola, O. O., and Thomas, E.

Subjects

*SOIL remediation, *ADANSONIA digitata, *FACTORIAL experiment designs, *POTTING soils, *PHYTOREMEDIATION, *HEAVY metals

Abstract

Abstract\nNOVELTY STATEMENT\nSIGNIFICANCE OF THE STUDYThe study investigates the ability of selected tree species to absorb heavy metals (Pb, Ni, Zn) from polluted soils. Seedlings of Adansonia digitata (P1), Jatropha curcas (P2), and Hildegardia barteri (P3) were transplanted into polythene pots with soils from a dumpsite (T1), highway (T2), industrial area (T3), and farmland (T4), forming a 3x4 factorial experiment replicated five times in a Completely Randomized Block Design. Pre-sowing analysis showed T1 and T2 had the highest Pb and Zn concentrations, T3 had the highest Ni, and T4 had the lowest heavy metal concentrations. After 12 weeks, heavy metal concentrations decreased in all soils. P1 concentrated metals in the root, P2 in the shoot, and P3 in various plant parts, with significant differences between species. P2 was identified as an effective phytoextractor for Pb and Zn (TF > 1), and P3 for Ni. All species showed potential for phytostabilization. The study concludes that these species are viable options for phytoremediation of heavy metals in contaminated soils.The study examines the effectiveness of indigenous tree species in phytoremediation, highlighting the importance of using species adapted to local ecosystems for successful land restoration.The study provides essential data for environmental restoration, highlighting sustainable, eco-friendly approaches to soil remediation. These findings have direct implications for policy-making and land management in polluted regions. [ABSTRACT FROM AUTHOR]

Published

2024

26. Gamma irradiation effects on photoluminescence and semiconducting properties of non-conventional heavy metal binary PbO–Bi2O3 glasses.

Author

Marzouk, M. A. and Ali, I. S.

Subjects

*X-ray diffraction measurement, *BAND gaps, *LIGHT absorption, *REFRACTIVE index, *ABSORPTION spectra, *VISIBLE spectra

Abstract

Non-conventional heavy metal oxide glasses have attracted great interest owing to their unique optical properties and their radiation shielding behavior. Non-conventional glasses of main chemical composition (100 − x) PbO–xBi2O3 where x = 35, 30, 25, 20, 15, 10, and 5 were prepared through the conventional melting and annealing approach. X-ray diffraction measurements denoted the amorphous nature of the prepared glasses. The optical absorption in the UV–visible range recorded strong UV-near visible absorption spectra that correlated to trivalent Bi3+ ions. The optical band gap Eopt, Urbach energy ∆E, and the refractive index were identified for the prepared glasses employing the cognizant theories. The variations in the optical parameters have been associated with the increasing Bi2O3 and the doses of γ- irradiation. The photoluminescent properties of the prepared non-conventional binary Bi2O3–PbO glasses were recorded in the visible range after UV excitation and the color coordinates are located and distributed in the hue violet degree. FT-IR spectroscopic measurements before and after gamma irradiation were applied to investigate the structural changes in the binary heavy metal PbO–Bi2O3 glasses. FTIR data specified that the glass network is composed of different structural building units from BiO3/BiO6 and PbO3/PbO4 depending on the addition ratio between PbO and Bi2O3. [ABSTRACT FROM AUTHOR]

Published

2024

27. Semi-continuous cultivation of EPS-producing marine cyanobacteria: A green biotechnology to remove dissolved metals obtaining metal-organic materials.

Author

Ciani, Matilde, Decorosi, Francesca, Ratti, Claudio, De Philippis, Roberto, and Adessi, Alessandra

Subjects

*COPPER, *CYANOBACTERIA, *METALS, *BIOMASS production, *BIOTECHNOLOGY, *DUNALIELLA, *MARINE algae

Abstract

Given the necessity for bioprocesses scaling-up, the present study aims to explore the potential of three marine cyanobacteria and a consortium, cultivated in semi-continuous mode, as a green approach for i) continuous exopolysaccharide-rich biomass production and ii) removal of positively charged metals (Cu, Ni, Zn) from mono and multi-metallic solutions. To ensure the effectiveness of both cellular and released exopolysaccharides, weekly harvested whole cultures were confined in dialysis tubings. The results revealed that all the tested cyanobacteria have a stronger affinity towards Cu in mono and three-metal systems. Despite the amount of metals removed per gram of biomass decreased with higher biosorbent dosage, the more soluble carbohydrates were produced, the greater was the metal uptake, underscoring the pivotal role of released exopolysaccharides in metal biosorption. According to this, Dactylococcopsis salina 16Som2 showed the highest carbohydrate productivity (142 mg L−1 d−1) and metal uptake (84 mg Cu g−1 biomass) representing a promising candidate for further studies. The semi-continuous cultivation of marine cyanobacteria here reported assures a schedulable production of exopolysaccharide-rich biosorbents with high metal removal and recovery potential, even from multi-metallic solutions, as a step forward in the industrial application of cyanobacteria. [Display omitted] • Semi-continuous cultivation ensures consistent, schedulable biosorbent production. • Marine cyanobacteria show higher affinity to Cu than Ni and Zn dissolved in water. • Up to 84 mg Cu per gram of dry weight were removed by D. salina 16Som2. • The presence of soluble EPS improves metal uptake. [ABSTRACT FROM AUTHOR]

Published

2024

28. Study on the migration behaviour of heavy metals at the improved mine soil-plant rhizosphere interface.

Author

Zhang, Xu, Zhang, Shuqin, Liu, Shuang, Ren, Dajun, and Zhang, Xiaoqing

Subjects

METAL content of soils, HEAVY metals removal (Sewage purification), PLANT exudates, SOIL remediation, COPPER, HEAVY metals

Abstract

With the increasing shortage of land resources and the aggravation of soil pollution in mining areas, the remediation of soil in abandoned mining areas has gradually attracted people's attention. The remediation of heavy metal contaminated soil in mining areas is the key to reduce the harm of heavy metals to the environment and human health. In this study, municipal sludge and phytoremediation technology were combined to investigate the migration and transformation of heavy metals at the soil-plant interface in improved mining areas through indoor pot experiments. The results showed that heavy metals in non-rhizosphere soil entered the rhizosphere environment with the growth of plants, leading to the increase of heavy metal content in rhizosphere soil. The cumulative amounts of Cu, Zn, Pb and Cd were 1299.32, 832.10, 347.89 and 71.34 mg/kg, respectively. The content of oxidized Cu and Zn decreased with increasing planting days, while the oxidized Pb and Cd showed an increasing trend. Under acidic conditions, H+ is easy to compete with heavy metal ions for exchangeable positions in the clay mineral layer, so that the reducible heavy metals are easy to be converted into exchangeable states. In this paper, the effects of various factors on the distribution of heavy metals were discussed by adjusting soil pH, adding humic acid and root exudates, so as to analyse the migration and transformation mechanism of heavy metals at the soil-plant interface, and provide a reliable theoretical basis for soil remediation in mining areas. [ABSTRACT FROM AUTHOR]

Published

2024

29. Modified Cellulose-Based Waste for Enhanced Adsorption of Selected Heavy Metals from Wastewater.

Author

Trivunac, Katarina, Mihajlović, Snežana, Vukčević, Marija, Maletić, Marina, Pejić, Biljana, Kalijadis, Ana, and Perić Grujić, Aleksandra

Subjects

*INDUSTRIAL wastes, *WASTE minimization, *WASTE products, *WASTE recycling, *WASTE management

Abstract

Due to industrial growth and its impact on the environment, the increasing amount of industrial waste requires a comprehensive approach aligned with the principles of sustainable development. The main goals are not only to preserve natural resources but also to encourage innovation in the reuse of waste materials. In an attempt to reduce the problems regarding waste disposal and wastewater treatment in the textile industry, fibrous textile waste was used as a starting material to obtain carbon adsorbents for the removal of pollutants from wastewater. Waste cotton and mixed yarns, mainly consisting of polysaccharide cellulose, were hydrothermally carbonized and activated with KOH to convert them into efficient carbon adsorbents for heavy metal removal from water. Characterization of carbonized material showed that after activation, an increase in specific surface area (up to 872 m2/g) and content of surface oxygen groups (6.04 mmol/g) leads to a higher affinity towards heavy metal ions, especially lead ions, and high adsorption capacity of 19.98 mg/g obtained for activated cotton yarns. The results of this research represent a contribution to the reduction of waste materials by modifying them into adsorbents, while the regeneration of adsorbents is an example of the practical application of polysaccharide-based materials in the purification of wastewater containing various heavy metal ions. [ABSTRACT FROM AUTHOR]

Published

2024

30. A study of the stabilization and solidification of heavy metals in co-vitrification of medical waste incineration ash and coal fly ash.

Author

Song, Huikang, Huang, Yaji, Pang, Junfeng, Li, Zhiyuan, Zhu, Zhicheng, Cheng, Haoqiang, Gao, Jiawei, Zuo, Wu, and Zhou, Haiyun

Subjects

*INCINERATION, *MEDICAL wastes, *FLY ash, *COAL ash, *CHLORINE, *SOLIDIFICATION, *HEAVY metals, *VITRIFICATION

Abstract

• The ash melting temperature decreased on the influence of Na2O. • An appropriate ratio of MBA and MFA can effectively reduce the Cr leaching level. • The stabilization of heavy metals was enhanced when vitreous content exceeded 97.7%. • The solidification effect on Mn and Zn was readily apparent. Medical waste incineration ash (MWIA) has significant concentrations of heavy metals, dioxins, and chlorine that, if handled incorrectly, might cause permanent damage to the environment and humans. The low content of calcium (Ca), silicon (Si), and aluminum (Al) is a brand-new challenge for the melting technique of MWIA. This work added coal fly ash (CFA) to explore the effect of melting on the detoxication treatment of MWIA. It was found that the produced vitrification product has a high vitreous content (98.61%) and a low potential ecological risk, with an initial ash solidification rate of 67.38%. By quantitatively assessing the morphological distribution features of heavy metals in ashes before melting and molten products, the stabilization and solidification rules of heavy metals during the melting process were investigated. This work ascertained the feasibility of co-vitrification of MWIA and CFA. In addition, the high-temperature melting and vitrification accelerated the detoxification of MWIA and the solidification of heavy metals. [ABSTRACT FROM AUTHOR]

Published

2024

31. Health Risk of Heavy Metals in Drinking Water Sources of Water-Carrying Lakes Affected by Retreating Polder: A Case Study of Luoma Lake.

Author

Wang, Jindong, Zhu, Xiaolong, Dai, Yicong, Xu, Minyue, Wang, Dongmei, Han, Yingcai, Liang, Wenguang, Shi, Yifan, Song, Fanhao, Yao, Li, Zhen, Yiming, and Zhu, Qiuheng

Subjects

HEAVY metal toxicology, HEAVY metals, COPPER, DRINKING (Physiology), AQUATIC sports safety measures, DRINKING water

Abstract

Heavy metal pollution is a critical issue affecting the safety of drinking water sources. However, the impact of human activities on heavy metal risk levels in water-carrying lakes remains unclear. This study aims to explore the risk mechanisms of heavy metals in Luoma Lake, an important water-carrying lake for the South-to-North Water Diversion Project. We explored the spatial and temporal differences in the distribution of heavy metals in Lake Luoma using methods such as the heavy metal pollution index (HPI) and assessed the risk variations using a health assessment model. The results indicated that heavy metal concentrations in water-carrying lakes generally decreased during the dry season, with Mn and Zn levels decreasing by 89.3% and 56.2%, respectively. The comprehensive score of HPI decreased by 13.16% following the retreating polder compared to the control area (Non-retreating polder area). Furthermore, the HPI at the drinking water intake was lower, which is closely associated with the elevated dissolved oxygen (DO) and oxidation–reduction potential (ORP) resulting from water diversion. The annual average health risk across the entire lake was not significant, with higher levels observed in the control area. The annual non-carcinogenic risk levels of Mn, Ni, Cu, Zn, and Pb range from 10−13 to 10−9, which are considered negligible risk levels. Notably, the carcinogenic risk posed by arsenic (As) through the drinking pathway reached 10−5 a−1, exceeding the maximum levels recommended by certain organizations. These findings provide a critical foundation for managing heavy metals in water-carrying drinking water sources. [ABSTRACT FROM AUTHOR]

Published

2024

32. Alleviation of Lipid Disorder and Liver Damage in High-Fat Diet-Induced Obese Mice by Selenium-Enriched Cardamine violifolia with Cadmium Accumulation.

Author

Zhu, Junying, Lv, Qingqing, Li, Fengna, Xu, Ping, Han, Ziyu, Yang, Aolin, Shi, Zhan, Wang, Chao, Jiang, Jie, Zhu, Yunfen, Chen, Xiaofei, Sun, Lvhui, Lei, Xin Gen, and Zhou, Ji-Chang

Abstract

Background/Objectives: As a hyperaccumulator of selenium (Se), Cardamine violifolia (Cv) and its peptide extract could ameliorate the negative effects of a high-fat diet (HFD). However, the effects of the coaccumulation of cadmium (Cd) in Se-enriched Cv (Cv2) and the potential confounding effect on the roles of enriched Se remain unknown. We aimed to investigate whether Cv2 could alleviate HFD-induced lipid disorder and liver damage. Methods: Three groups of 31-week-old female mice were fed for 41 weeks (n = 10–12) with a control Cv-supplemented diet (Cv1D, 0.15 mg Se/kg, 30 µg Cd/kg, and 10% fat calories), a control Cv-supplemented HFD (Cv1HFD, 45% fat calories), and a Cv2-supplemented HFD (Cv2HFD, 1.5 mg Se/kg, 0.29 mg Cd/kg, and 45% fat calories). Liver and serum were collected to determine the element concentrations, markers of liver injury and lipid disorder, and mRNA and/or protein expression of lipid metabolism factors, heavy metal detoxification factors, and selenoproteins. Results: Both Cv1HFD and Cv2HFD induced obesity, and Cv2HFD downregulated Selenoi and upregulated Dio3 compared with Cv1D. When comparing Cv2HFD against Cv1HFD, Cv2 increased the liver Se and Cd, the protein abundance of Selenoh, and the mRNA abundance of 10 selenoproteins; reduced the serum TG, TC, and AST; reduced the liver TG, lipid droplets, malondialdehyde, and mRNA abundance of Mtf1 and Mt2; and differentially regulated the mRNA levels of lipid metabolism factors. Conclusions: Cv2 alleviated HFD-induced lipid dysregulation and liver damage, which was probably associated with its unique Se speciation. However, further research is needed to explore the interaction of plant-coenriched Se and Cd and its effects on health. [ABSTRACT FROM AUTHOR]

Published

2024

33. Sleep duration mediates the association between heavy metals and the prevalence of depression: an integrated approach from the NHANES (2005-2020).

Author

Qingsong Mao, Xiaoyi Zhu, and Yuzhe Kong

Subjects

HEALTH & Nutrition Examination Survey, SLEEP duration, ANALYSIS of heavy metals, LOGISTIC regression analysis, HEAVY metals

Abstract

Purpose: This study investigates the association between heavy metal exposure and the prevalence of depression, with the mediating role of sleep duration. Method: Our study investigated the association between heavy metal concentration and depression risk in the NHANES from 2005 to 2020. We used logistic regression analysis, WQS regression model and BKMR model to assess the association. Mediation analysis was performed to explore the role of sleep duration in heavy metal exposure-induced depression. Result: Of the 10,825 individuals included in this study, 705 (6.85%) were diagnosed with depression. We found a positive association between the cadmium (Cd), cobalt (Co), lead (Pb), antimony (Sb), wolfram (W) concentration and the prevalence of depression. Moreover, heavy metals mixtures were positively correlated with the prevalence of depression, with Cd identified as the main contributor in the WQS regression model (0.4654). Furthermore, sleep duration mediated the association between Cd, molybdenum (Mo), Pb, Sb, W exposure and prevalence of depression, explaining 3.12%, 15.84%, 18.24%, 9.56%, 3.68% of the effect. Conclusion: The findings affirm that heavy metal exposure is linked to higher depression incidence and that this relationship is partly mediated by sleep duration alterations. The study underscores the importance of environmental health monitoring and interventions aimed at reducing heavy metal exposure to mitigate its psychological impacts. [ABSTRACT FROM AUTHOR]

Published

2024

34. Comparing the environmental impacts of pollution from two types of industrial zones on the coast.

Author

Jian Liang, Chae-Woo Ma, and Kwang-Bae Kim

Subjects

HEAVY metal toxicology, ENVIRONMENTAL impact analysis, BIOINDICATORS, COASTS, RANK correlation (Statistics)

Abstract

Introduction: The construction of coastal industrial zones has significantly impacted the marine environment, with the extent of these effects varying based on the type of industrial activity. This study compares the environmental impact of two prevalent types of industrial zones along South Korea's coast: ironworks and shipyards. Methods: We assessed heavy metal pollution near these industrial zones using the Pollution Load Index (PLI) and Nemerow Pollution Index (Pn). To evaluate the impact of heavy metals and organic matter on macrobenthic communities, we employed redundancy analysis (RDA) and Spearman correlation analysis. Additionally, we used the AZTI's Marine Biotic Index (AMBI), Multivariate AMBI (M-AMBI), and Benthic Pollution Index (BPI) to gauge the ecological quality of the affected marine environments. Results and discussion: Our findings indicated that the biodiversity and abundance of species near shipyards were significantly lower than those near ironworks. Results of PLI and Pn revealed that the ecological risk posed by heavy metals from shipyard activities was significantly higher than from ironworks. The AZTI's Marine Biotic Index (AMBI), Multivariate AMBI (M-AMBI), and Benthic Pollution Index (BPI) demonstrated that the ecological quality of Asan Bay (ironworks) is better than that of Dangdong Bay (shipyard). RDA analysis identified Lumbrineris longifolia, Ancistrosyllis hanaokai, and Theora fragilis as biological indicators for assessing heavy metal and organic matter pollution. Spearman correlation analysis indicated that BPI and species richness index are effective indicators for evaluating such pollution. Overall, the negative impact of shipyards on the marine environment was significantly more significant than that of ironworks. Our study provides valuable insights for the South Korean government in managing coastal industrial zones and formulating relevant policies. [ABSTRACT FROM AUTHOR]

Published

2024

35. Identification of proper species that can be used to monitor and decrease airborne Sb pollution.

Author

Canturk, Ugur, Koç, İsmail, Ozel, Halil Baris, and Sevik, Hakan

Subjects

TRAFFIC density, CLUSTER pine, ENVIRONMENTAL health, AIR pollution, HEAVY metals

Abstract

Heavy metal concentrations, which have increased continuously in the environment this century due to anthropogenic factors, severely threaten human and environmental health. Antimony (Sb) is one of the most toxic and harmful heavy metals in terms of human and environmental health. Therefore, the priority research subjects are monitoring the alteration of Sb pollution in the airborne and reducing pollution. This study was conducted to conclude the proper species to monitor and drop airborne Sb contamination on trees grown in Düzce, the 5th most polluted European city. This study examined samples taken from Pseudotsuga menziesii, Cupressus arizonica, Pinus pinaster, Picea orientalis, and Cedrus atlantica, and the Sb concentration changes based on tree species, route, tissue, and age range in the last 40 years were evaluated. The study hypothesizes that Sb concentration varies depending on (1) tree species, (2) direction, (3) plant tissue, and (4) age range, all confirmed in this study. In conclusion, the maximum concentrations were achieved in the outer bark and east (5.45 µg g−1) and north directions (6.72 µg g−1), with high traffic density. In addition, the mining and industrial places (sources of metal pollution) are not close to the study area. Therefore, it was concluded that traffic pollution was the primary source of Sb pollution in the study area. The study revealed that C. arizonica is the most suitable species for monitoring and reducing the change in Sb pollution because the highest Sb concentration (4.47 µg g−1) in wood (the largest organ) was obtained in C. arizonica. [ABSTRACT FROM AUTHOR]

Published

2024

36. Fertilized soils enhance the efficiency of phytoremediation by tropical grasses in cadmium-contaminated soils.

Author

Prochnow Raposo, Jeissica Taline, Silva, Enilson de Barros, Bezerra, Iracema Raquel Santos, Costa Silva, Wesley, Fernandes Alves, Flávio Antônio, dos Santos, Lauana Lopes, and Menezes de Abreu, Caíque

Subjects

*SOIL amendments, *HEAVY metal toxicology, *ENVIRONMENTAL health, *SOIL pollution, *COVER crops

Abstract

Abstract\nNOVELTY STATEMENTThe effectiveness of phytoremediation in Cd-contaminated soils is crucial for enhancing nutrient availability and plant tolerance to Cd. We simulated soil contamination with varying textures and fertilization conditions. Two experiments were conducted: one without liming and fertilization and another with soil fertilization for grasses. The soil types used were Oxisol and Entisol, and the grasses tested were Megathyrsus maximus and Urochloa brizantha at three Cd levels: 0 mg kg−1 (Control), 2 mg kg−1 (Low), and 12 mg kg−1 (High). Soil amendments and fertilization did not significantly change Cd availability. Soil chemical attributes were unaffected by Cd contamination but were influenced by fertilization, which kept the pH below optimal levels. Cd availability was higher in more contaminated soils, with Entisol showing greater concentrations than Oxisol. Dry matter production of the grasses decreased with higher contamination, with U. brizantha being more productive than M. maximus in fertilized soils. Cd accumulation was higher in highly contaminated soils, particularly for U. brizantha. The bioconcentration factor was higher in Entisol, while the translocation factor exceeded 1.0 only for M. maximus in low-contamination Oxisol. Fertilization can mitigate Cd contamination effects, with U. brizantha showing greater tolerance and accumulation capacity in fertilized soils.Grasses, often seen just as cover crops or forages, can play a vital role in mitigating heavy metal pollution, especially Cd. By comparing the growth, Cd accumulation, and tolerance of different grass species in fertilized versus unfertilized soils, we identify optimal strategies to maximize the effectiveness of phytoremediation without compromising soil health and ecological balance. The findings of the study reveal that the response of grasses to fertilization in contaminated soils varies significantly, directly influencing their capacity to phytoremediate Cd. This discovery suggests that customizing fertilizer use, based on the grass species and specific soil conditions, could be crucial for optimizing the removal of Cd from the environment. [ABSTRACT FROM AUTHOR]

Published

2024

37. Quantifying the potential health risk of surface waters in the Qinling giant panda habitat.

Author

Ying-Juan Zheng, Yi-Ping Chen, Yan Zhao, Maltby, Lorraine, and Wan-Gang Liu

Subjects

POLLUTANTS, GIANT panda, WILDLIFE conservation, COPPER, INCINERATION, HEAVY metals, METAL content of water

Abstract

The giant panda (Ailuropoda melanoleuca) is recognized worldwide as an icon for wildlife conservation. The Qinling subspecies (Ailuropoda melanoleuca qinlingensis) inhabiting the Qinling Mountains is more endangered. Previous studies have indicated that Qinling pandas are potentially at risk from environmental pollutants, which they are exposed to via food and drinking water. However, there is little information about the surface water quality in the Qinling Mountains, and it is unknown whether drinking water is an important pollutant source for pandas. Water samples were collected from five different nature reserves in Qinling, each of which is home to a population of pandas. The samples were analyzed for five essential metals of copper (Cu), zinc (Zn), manganese (Mn), chromium (Cr), and nickel (Ni) and four non-essential metals of lead (Pb), cadmium (Cd), arsenic (As), and mercury (Hg). The concentrations of all heavy metals (HMs) were higher in buffer zones than in the core areas and were highest in Foping and Niuweihe nature reserves. The concentrations of mercury exceeded the water quality standard in the core zone of three reserves, suggesting that NWH (Niuweihe), THS (Tianhuashan), and PHL (Pingheliang) giant panda populations were at risk from mercury toxicity. The accumulation of other elements over time could also pose a serious risk to pandas. Three main sources of pollution were identified: coal combustion, waste incineration, and fertilizer use; traffic-related activities; and metal mining. Environmental pollution is compromising the efforts to conserve the giant panda, and measures need to be put in place to control pollution sources. [ABSTRACT FROM AUTHOR]

Published

2024

38. CO2 emission and microbial extracellular enzyme activities in sediment at land–water interface as influenced by metal pollution in the Ganga River.

Author

Prajapati, Dilip Kumar and Pandey, Jitendra

Subjects

*HEAVY metal toxicology, *MICROBIAL enzymes, *EXTRACELLULAR enzymes, *HEAVY metals, *CARBON emissions

Abstract

Understanding the interactions of carbon and metal pollutants in anthropogenically impacted rivers is a prerequisite for determining the relative fates of these stressors. Here, through two sets of studies, we report carbon–metal pollutant interactions choosing the CO2 emission and sediment microbial extracellular enzyme activities as major determinants. The study, conducted along a 520-km main river and along a point source trajectory, showed a TOC-dependent but metal pollution-constrained CO2 emission. We found significant relationships (p < 0.05–0.001) between CO2 emission flux and its determinants: TOC, Cmic, FDAase and β-D-glucosidase. In the point source trajectory, CO2 emission flux was closely synchronous to these determinants. These relationships, however, were significantly constrained at the sites such as Knuj, Jjmu and Rjht where the concentrations of total heavy metal (∑THM) in the sediment exceed 347.44 µg g−1 indicating that the heavy metal pollution counteracted the C processing and consequently the CO2 emission flux. The study suggests that the excessive load of metal pollutants will eventually interrupt the C-cycling in the Ganga River inviting caution in C budgeting and C transport to coastal ocean. [ABSTRACT FROM AUTHOR]

Published

2024

39. Variations of dissolved trace elements in precipitation and stream water in Japanese forest area: additional evidence of changing air pollution in the region.

Author

Morohashi, Masayuki, Saito, Tatsuyoshi, Takahashi, Masaaki, Inomata, Yayoi, Nakata, Makoto, Ohno, Masaki, Kose, Tomohiro, Ohizumi, Tsuyoshi, Shin, Ki-Cheol, Tayasu, Ichiro, and Sase, Hiroyuki

Subjects

TRANSBOUNDARY pollution, ACID deposition, TRACE metals, TRACE elements, STABLE isotopes, AIR pollution

Abstract

Trace elements released into the atmosphere by human activities, such as fossil fuel combustion, flow into forest ecosystems via wet and dry deposition and can flow out via mountainous stream water. The Kajikawa catchment site in Niigata Prefecture, located on the Sea of Japan side in central Japan, suffers from large amounts of acidic substance deposition due to its geographical conditions and meteorological seasonality and is affected by transboundary air pollution originating from the Asian continent due to northwesterly seasonal winds in winter. This study determined the concentrations of trace elements dissolved in precipitation and stream water to comprehensively evaluate the effects of transboundary air pollution on forest ecosystems. The results showed that the concentrations of trace elements and major inorganic ions in precipitation tended to be high in winter and low in summer. The fluxes of many trace elements also increased in winter, reflecting high precipitation amount. Except for Sr, the enrichment factors of the highly enriched trace elements did not show clear seasonality. Therefore, they were continuously influenced by anthropogenic activities. Furthermore, the stable Pb isotope ratio changed significantly during the observation period; however, this was not explained by seasonal changes. This study revealed that trace elements are transported to the Sea of Japan side in central Japan, especially in winter; however, their quantity and content change in response to changes in local and transboundary air pollution. [ABSTRACT FROM AUTHOR]

Published

2024

40. The dynamic roles of intracellular vacuoles in heavy metal detoxification by Rhodotorula mucilaginosa.

Author

Shi, Yixiao, Tang, Lingyi, Shao, Qi, Jiang, Yizhou, Wang, Zhijun, Peng, Chao, Gu, Tingting, and Li, Zhen

Subjects

*POISONS, *HEAVY metal toxicology, *COPPER, *ADENOSINE triphosphatase, *TRANSMISSION electron microscopy

Abstract

Aims Rhodotorula mucilaginosa (Rho) can develop a range of strategies to resist the toxicity of heavy metals. This study aimed to investigate the physiological responses and transcriptomic regulation of the fungus under different heavy metal stresses. Methods and results This study applied transmission electron microscopy and RNA-seq to investigate the fungal resistance to Pb, Cd, and Cu stresses. Under Pb stress, the activated autophagy-related genes, vesicle-fusing ATPase, and vacuolar ATP synthase improved vacuolar sequestration. This offsets the loss of lipids. However, the metal sequestration by vacuoles was not improved under Cd stress. Vacuolar fusion was also inhibited following the interference of intravacuolar Ca2+ due to their similar ionic radii. Cu2+ showed the maximum toxic effects due to its lowest cellular sorption (as low as 7%) with respect to Pb2+ and Cd2+, although the efflux pumps and divalent metal ion transporters partially contributed to the detoxification. Conclusions Divalent cation transporters and vacuolar sequestration are the critical strategies for Rho to resist Pb stress. Superoxide dismutase (SOD) is the main strategy for Cd resistance in Rho. The intracellular Cu level was decreased by efflux pump and divalent metal ion transporters. [ABSTRACT FROM AUTHOR]

Published

2024

41. Effects of Organic Manure on Wheat Yield and Accumulation of Heavy Metals in a Soil—Wheat System.

Author

Chen, Yu, Ouyang, Yingqi, Pan, Weiyan, Wang, Yitong, and Li, Yan

Abstract

The application of organic manure is an effective way to develop sustainable agriculture. However, the application of organic manure may be associated with a potential risk of heavy metal pollution for soil and crops. In this study, the effects of organic cow manure (T1) (as base fertilizer), organic pig manure (T2) (as base fertilizer) and chemical fertilizer (T3) on winter wheat grain yields, grain quality, heavy metal concentrations and heavy metal bioconcentration factors (BCFs) in a soil–wheat system were studied from November 2021 to June 2023. The results showed that the winter wheat grain yields in the T1 and T2 treatments were lower than those in the T3 treatment by 2.57–38.0% and 10.5–25%, respectively. There were no significant differences in quality indexes of winter wheat grain among different fertilizer treatments. The concentrations of heavy metals in topsoil and winter wheat were 0.12–76.11 μg/g and 0.01–43.25 μg/g, respectively. The BCFs of heavy mental in the soil–wheat grain system was 0–2.92. In general, there were no significant differences in heavy metals' concentrations in topsoil and wheat grain among different fertilizer treatments. In summary, compared with chemical fertilizer, the short-term application of organic manures had no significant effect on heavy metals concentrations in topsoil and wheat. [ABSTRACT FROM AUTHOR]

Published

2024

42. Bioindicators and their Applications: A Comprehensive Review.

Author

Bahranipour, Mohammad Hossein, Geravand, Nazanin, and Nowruzi, Bahareh

Subjects

*SOIL biology, *ENVIRONMENTAL degradation, *ECOSYSTEM management, *BIOMARKERS, *POLLUTION

Abstract

Biomarkers encompass a diverse range of living organisms, such as plants, plankton, animals, and microorganisms. Biological markers are commonly employed to assess and evaluate the environmental quality and health of ecosystems. Furthermore, these instruments serve as valuable resources for identifying instances of environmental deterioration and assessing its consequences for human civilization. Organisms are influenced by environmental determinants that contribute to environmental change. These organisms, commonly referred to as bioindicators, serve as a crucial tool in monitoring environmental pollution and are widely recognized as one of the primary methods employed for this purpose. Bioindicators provide scientists with a comprehensive assessment of the present state of various ecosystems. By analyzing this data, scientists are allowed to exercise improved management over ecosystem conditions and subsequently address issues such as pollution and toxic substances. The primary objective of this study is to collect pertinent and extensive data for individuals seeking to acquire knowledge about bioindicators or engage in research about this field, given its substantial role within the ecosystem. The data presented herein is acquired through the examination of bioindicators in diverse ecosystems, drawing upon the research conducted by other scholars. [ABSTRACT FROM AUTHOR]

Published

2024

43. On Heavy Metal: Existential Rage and the Neurotic Artist.

Author

Whitaker, Ashley L.

Subjects

*MENTAL health personnel, *HEAVY metals, *EXISTENTIALISM, *POPULAR music genres, *NEUROTICISM

Abstract

Many artists are seen as neurotic and some believe this occurs because of their underpinning struggle to ameliorate the existential angst that often arises from living out an embodied human life. An art piece can be a means to channel the artist's neuroticism and potentially alleviate exasperation due to conflicted thoughts about existence. At its extreme, what the author labels as existential rage occurs as a railing against the meaninglessness and disparity of life's circumstances. Art, especially the heavy metal musical genre, is a dynamic medium that encapsulates and communicates existential rage, a version of existential injury categorized by extreme embitterment toward one's being in the world. In this way, thoughts can be experienced as coming from outside of the artist as opposed to within the metaphorical inner cracks of their psyche. Heavy metal as a sonic medium of expression is intensely engrossed in existential concerns about existence. Laypersons and mental health practitioners alike stand to benefit from an expanded understanding of heavy metal in discourse on universal concerns within existential philosophy and psychology. [ABSTRACT FROM AUTHOR]

Published

2024

44. Nanoporous Gold-Modified Screen-Printed Electrodes for the Simultaneous Determination of Pb 2+ and Cu 2+ in Water.

Author

Li, Yongfang, Chen, Xuan, Yuan, Zhiyong, Yi, Zhijian, Wang, Zijun, and Wang, Rui

Subjects

*CARBON electrodes, *ELECTROCHEMICAL sensors, *COPPER, *HEAVY metals, *SQUARE waves

Abstract

In this study, nanoporous gold (NPG) was deposited on a screen-printed carbon electrode (SPCE) by the dynamic hydrogen bubble template (DHBT) method to prepare an electrochemical sensor for the simultaneous determination of Pb2+ and Cu2+ by square wave anodic stripping voltammetry (SWASV). The electrodeposition potential and electrodeposition time for NPG/SPCE preparation were investigated thoroughly. Scanning electron microscopy (SEM) and energy-dispersive X-ray diffraction (EDX) analysis confirmed successful fabrication of the NPG-modified electrode. Electrochemical characterization exhibits its superior electron transfer ability compared with bare and nanogold-modified electrodes. After a comprehensive optimization, Pb2+ and Cu2+ were simultaneously determined with linear range of 1–100 μg/L for Pb2+ and 10–100 μg/L for Cu2+, respectively. The limits of detection were determined to be 0.4 μg/L and 5.4 μg/L for Pb2+ and Cu2+, respectively. This method offers a broad linear detection range, a low detection limit, and good reliability for heavy metal determination in drinking water. These results suggest that NPG/SPCE holds great promise in environmental and food applications. [ABSTRACT FROM AUTHOR]

Published

2024

45. Monitoring Soil Copper in Urban Land Using Visibale and Near-Infrared Spectroscopy with Spatially Nearby Samples.

Author

Liu, Yi, Shi, Tiezhu, Lan, Zeying, Guo, Kai, Yang, Chao, and Chen, Yiyun

Subjects

*COPPER, *URBAN soils, *URBAN land use, *COPPER in soils, *CITY dwellers

Abstract

Soil heavy metal contamination in urban land can affect biodiversity, ecosystem functions, and the health of city residents. Visible and near-infrared (Vis-NIR) spectroscopy is fast, inexpensive, non-destructive, and environmentally friendly compared to traditional methods of monitoring soil Cu, a common heavy metal found in urban soils. However, there has been limited research on using spatially nearby samples to build the Cu estimation model. Our study aims to investigate how spatially nearby samples influence the Cu estimation model. In our study, we collected 250 topsoil samples (0–20 cm) from China's third-largest city and analyzed their spectra (350–2500 nm). For each unknown validation sample, we selected its spatially nearby samples to construct the Cu estimation model. The results showed that compared to the traditional method ( R p 2 = 0.75, RMSEP = 8.56, RPD = 1.73), incorporating nearby samples greatly improved the model ( R p 2 = 0.93, RMSEP = 4.02, RPD = 3.89). As the number of nearby samples increased, the performance of the Cu estimation model followed an inverted U-shaped curve—initially increasing and then declining. The optimal number of nearby samples is 125 (62.5% of the total), and the mean distance between validation and calibration samples is 17 km. Therefore, we conclude that using nearby samples significantly enhances the Cu estimation model. The optimal number of nearby samples should strike a balance, covering a moderate area without there being too few or too many. [ABSTRACT FROM AUTHOR]

Published

2024

46. Monitoring Heavy Metals and Metalloids in Soils and Vegetation by Remote Sensing: A Review.

Author

Lovynska, Viktoriia, Bayat, Bagher, Bol, Roland, Moradi, Shirin, Rahmati, Mehdi, Raj, Rahul, Sytnyk, Svitlana, Wiche, Oliver, Wu, Bei, and Montzka, Carsten

Subjects

*POISONS, *HEAVY metal toxicology, *HEAVY elements, *SPECTRAL reflectance, *SOIL pollution, *HEAVY metals

Abstract

Heavy metal contamination in soils and vegetation poses a significant problem due to its toxicity and persistence. Toxic effects on vegetation include not only impaired growth, reduced yields, and even plant death but also biodiversity loss and ecosystem degradation. Addressing this issue requires comprehensive monitoring and remediation efforts to mitigate the environmental, human health, and ecological impacts. This review examines the state-of-the-art methodologies and advancements in remote sensing applications for detecting and monitoring heavy metal contamination in soil and its subsequent effects on vegetation. By synthesizing the current research findings and technological developments, this review offers insights into the efficacy and potential of remote sensing for monitoring heavy metal contamination in terrestrial ecosystems. However, current studies focus on regression and AI methods to link spectral reflectances and indices to heavy metal concentrations, which poses limited transferability to other areas, times, spectral discretizations, and heavy metal elements. We conclude that one important way forward is the more thorough understanding and simulation of the related physico-chemical processes in soils and plants and their effects on the spectral signatures. This would offer a profound basis for remote sensing applications for individual circumstances and would allow disentangling heavy metal effects from other stressors such as droughts or soil salinity. [ABSTRACT FROM AUTHOR]

Published

2024

47. Analysis and Assessment of the Soil Environment Around a Plateau Municipal Solid Waste Incineration Plant.

Author

Zhou, Wenwu, Dan, Zeng, Meng, Dean, Guo, Jiachen, Zhou, Peng, and Chen, Guanyi

Subjects

*POLLUTION risk assessment, *INCINERATION, *HEAVY metal toxicology, *HEAVY metals, *PRINCIPAL components analysis, *COPPER

Abstract

To understand the source, distribution and degree of pollution of heavy metals in the soil around a plateau municipal solid waste incineration plant, a municipal solid waste incineration plant in Lhasa was taken as the research object in this study. The soil surrounding the facility was sampled, and the contents of heavy metals, including Cu, Pb, Zn, Cr, Ni, Cd, As, and Hg, in the soil were analyzed. Then, heavy metal pollution and risk assessments were conducted using the geoaccumulation index method, Nemerow index method, and potential ecological risk index method. Additionally, correlation and principal component analysis were used to determine the correlation between heavy metals in the soil and their sources of pollution. The results showed that based on the Nemerow comprehensive pollution index, the soil surrounding the incineration plant generally had a low level of pollution. Through the analysis of individual potential ecological risk indices, it was found that only the heavy metal Cd presented moderate potential risks, while the other seven heavy metals had mild potential risks. The average value of the total potential risk coefficient was 107.31, which was less than 150, indicating that there was a slight potential risk associated with the soil around the incineration plant. There was significant correlation between six heavy metals, namely, Cu, Pb, Zn, Cr, Ni, and Cd, in the soil around the incineration plant. Their pollution sources were similar, and their levels tended to be affected by the incineration plant. However, there was no significant correlation between the heavy metals As and Hg and the other six heavy metals. These two heavy metals had independent sources of pollution but were also influenced by human activities. [ABSTRACT FROM AUTHOR]

Published

2024

48. Trace Metal Based Eco-Biological and Health Risk Status of Surface Water and Sediments of Noyyal River Basin, Tamil Nadu, India.

Author

Abirami, Subramanian, Kadirvelu, Krishna, and Baskar, Sushmitha

Subjects

*INDUCTIVELY coupled plasma mass spectrometry, *COPPER, *LEAD, *HEAVY metal toxicology, *ENVIRONMENTAL health, *TRACE metals, *HEAVY metals

Abstract

Pollution in the Noyyal river is a well-known and documented issue and recently, heavy metal contamination has become a serious issue requiring immediate attention. So, to understand the severity of heavy metal contamination in the surface water and sediments of the Noyyal river, a comprehensive study was conducted. About 27 surface water samples and 25 sediment samples were collected at different sites along the Noyyal river. The concentrations of heavy metals were determined using inductively coupled plasma mass spectrometry (ICP-MS). The Noyyal river's surface water showed significant variations with nickel (Ni), copper (Cu), and zinc (Zn) concentrations exceeding acceptable limits for irrigation and aquatic life. Lead (Pb) concentrations were within acceptable limits for irrigation but potentially harmful to aquatic organisms. Noyyal river sediments also contained varying concentrations of chromium (Cr), copper (Cu), nickel (Ni), zinc (Zn), and gallium (Ga). Various assessment indices were employed to assess the eco-biological and human health risks associated with heavy metal contamination. The results highlighted alarming ecological and biological risks due to the accumulation of trace metals. Sediments exhibited high ecological risk (ERI values ranging from 43.81 to 371.43), while surface water samples intended for irrigation and aquatic purposes displayed extreme risks (ERI values exceeding 1200) to agricultural crops and aquatic organisms. The probability of toxicity to aquatic organisms, particularly benthic communities, was over 76% according to the biological risk assessment. The study also identified potential non-carcinogenic risks associated with metals like chromium (Cr), copper (Cu), nickel (Ni), and zinc (Zn) in the sediments. Moreover, elevated levels of Cr, Ni, and Cu in both sediments and surface water were likely to pose significant carcinogenic risks to exposed adults. Additionally, the heavy metal toxicity load in both surface water and sediments exceeded permissible limits, highlighting the urgent need for efficient removal strategies. [ABSTRACT FROM AUTHOR]

Published

2024

49. Assessment of phytodiversity and phytoremediation potential of plants in the vicinity of a thermal power plant.

Author

Pandey, Ashutosh, Behera, Soumit Kumar, Dwivedi, Sanjay, Singh, Vinay Kumar, and Pandey, Vivek

Subjects

*ENVIRONMENTAL health, *TEAK, *COAL-fired power plants, *AQUATIC plants, *ELECTRIC power production

Abstract

A study was carried out to evaluate phytodiversity along with the metal accumulation potential of native plants growing in the vicinity of a thermal power plant (TPP). We documented 26 tree species, six shrubs, and 35 herbs. Importance value index (IVI), which measures the extent to which a species dominates in an area, was found highest for Senna siamea (95.7) followed by Tectona grandis (56.5), and Pithecellobium dulce (19.6). Soil was acidic (pH 5.4) in nature with higher concentrations of Al and Fe. The pH of ground water was found acidic while pH of nearby river was found slightly alkaline. Values of PM2.5 and PM10 were slightly higher than NAAQS standards for industrial areas. The concentration of metals was found higher in aquatic plants than in terrestrial plants. In general, herbs and shrubs showed more metal accumulation potential than trees. Our results suggest that Senna siamea could be used for revegetation purposes in FA landfills. Further, terrestrial and aquatic plants such as Ageratina adenophora and Stuckenia pectinata could be used for reclamation of Mn, Zn, Al, and Fe from contaminated soils. Hydrilla verticillata (Ni and Mn), Nelumbo nucifera, and Ipomoea aquatica (Cr) can be used for metal removal from contaminated water. Novelty statement: The study focuses on the assessment of phytodiversity, soil and water analysis, ambient air quality, and bioaccumulation of heavy metals in plants growing in and around a thermal power plant. The study assumes significance as more than 65% of India's electricity generation is still by coal-fired power plants, having major implications for air, soil, and water pollution. By selecting native plant species adapted to the region, we can enhance biodiversity, restore habitats, and contribute to the overall ecological health of the area surrounding the power plant. [ABSTRACT FROM AUTHOR]

Published

2024

50. Assembly patterns and key taxa of bacterial communities in the rhizosphere soil of moso bamboo (Phyllostachys pubescens) under different Cd and Pb pollution.

Author

Wu, Yingjie, He, Hua, Ren, Jiayi, Shen, Hongchi, Sahito, Zulfiqar Ali, Li, Bing, Tang, Xiaoyan, Tao, Qi, Huang, Rong, and Wang, Changquan

Subjects

*ENVIRONMENTAL soil science, *RHIZOSPHERE, *MICROBIAL communities, *SOIL testing, *HOST plants, *BACTERIAL communities

Abstract

Moso bamboo is excellent candidate for cadmium (Cd)/lead (Pb) phytoremediation, while rhizosphere microbiome has significant impact on phytoremediation efficiency of host plant. However, little is known about the rhizosphere bacterial communities of moso bamboo in Cd/Pb contaminated soils. Therefore, this study investigated the assembly patterns and key taxa of rhizosphere bacterial communities of moso bamboo in Cd/Pb polluted and unpolluted soils, by field sampling, chemical analysis, and 16S rRNA gene sequencing. The results indicated α-diversity between Cd/Pb polluted and unpolluted soils showed a similar pattern (p > 0.05), while β-diversity was significantly different (p < 0.05). The relative abundance analysis indicated α-proteobacteria (37%) and actinobacteria (31%) were dominant in Cd/Pb polluted soils, while γ-proteobacteria (40%) and α-proteobacteria (22%) were dominant in unpolluted soils. Co-occurrence network analysis indicated microbial networks were less complex and more negative in polluted soils than in unpolluted soils. Mantel analysis indicated soil available phosphorus, organic matter, and available Pb were the most important environmental factors affecting microbial community structure. Correlation analysis showed 11 bacterial genera were significantly positively related to Cd/Pb. Overall, this study identified the bacterial community composition of bamboo rhizosphere in responding to Cd/Pb contamination and provides a theoretical basis for microbe-assistant phytoremediation in the future. Novelty statement: To date, little is known about the bacterial communities in the rhizosphere of moso bamboo under Cd and Pb multiple stresses. This study investigated the assembly patterns and key taxa of rhizospheric bacterial communities of moso bamboo in Cd/Pb polluted and unpolluted soils. It was found that the bacterial community structure in bamboo rhizosphere is easily influenced by soil chemical environment, such as fertilities and heavy metals. The key bacterial taxa identified here could be target microbe in future microbe-assistant phytoremediation. [ABSTRACT FROM AUTHOR]

Published

2024