Your search keyword '"Mercury contamination"' showing total 863 results

1. Novel enhancement strategy for Hg adsorption in wastewater: Nonthermal plasma-mediated advanced modification of zero-valent iron-carbon galvanic cells with thiol functionalization

Author

Song, Dongping, Huang, Tao, Feng, Yuxuan, Xie, Shihong, Wang, Chenglong, Fang, Qi, Wang, Baijun, Zhang, Shuwen, and Ren, Jie

Published

2025

2. Mercury concentrations in blood and back feathers are repeatable, heritable and correlated in a long-lived seabird

Author

Bertram, Justine, Moiron, Maria, Bichet, Coraline, Kürten, Nathalie, Schupp, Peter J., and Bouwhuis, Sandra

Published

2024

3. Integration of cadmium sulfide quantum dots with calcium alginate microbeads for dual-functional mercury (II) ion sensing and removal

Author

Kumar, Ambika, Jaswal, Nancy, Monika, Dutta, R.K., and Kumar, Pramod

Published

2024

4. Assessment of the temporal retention of mercury and nutrient records within the mangrove sediments of a highly impacted estuary

Author

Passos, Tiago, Sanders, Christian J., Barcellos, Roberto, and Penny, Dan

Published

2022

5. Mercury and Arctic Char Gill Microbiota Correlation in Canadian Arctic Communities.

Author

Amill, Flora, Couture, Patrice, and Derome, Nicolas

Subjects

ARCTIC char, HAZARDOUS waste sites, MERCURY poisoning, TOP predators, XENOBIOTICS

Abstract

Arctic char is a top predator in Arctic waters and is threatened by mercury pollution in the context of changing climate. Gill microbiota is directly exposed to environmental xenobiotics and play a central role in immunity and fitness. Surprisingly, there is a lack of literature studying the effect of mercury on gill microbiota. To fill this knowledge gap, our primary goal was to measure to what extent gill exposure to mercury may alter gill microbiota activity in Arctic char. Specifically, we calculated the correlation between the taxonomic distribution of gill-associated bacterial symbiont activity and total mercury concentration in livers and muscles in wild populations of Arctic char in the Canadian Arctic. Our results showed that total mercury concentrations in tissues were higher in Ekaluktutiak (Nunavut) than in the other sites in Nunavik. Proteobacteria was the main phylum correlated to mercury concentration in both tissues, followed by Bacteroidetes and Cyanobacteria. In the most contaminated sites, Aeromonas and Pseudomonas (Proteobacteria) were predominant, while mercury concentration negatively correlated with Photobacterium (Proteobacteria) or Cerasicoccus (Verrucomicrobia). In summary, we found that mercury contamination correlates with active gill microbiota composition, with potential implications of strains in modulating mercury toxicity, making them interesting for future biomarker studies. [ABSTRACT FROM AUTHOR]

Published

2024

6. Mercury pollution in water, soil, and biota induced by artisanal gold mining: A case study from Ananea District, Puno, Peru

Author

Fidel Huisa-Mamani, Americo Arizaca-Avalos, and Oscar Eloy Llanque-Maquera

Subjects

asgm, environmental impact, mercury concentrations, mercury contamination, Environmental effects of industries and plants, TD194-195

Abstract

Artisanal and small-scale gold mining (ASGM) significantly contributes to global mercury pollution, posing serious environmental and health risks. This study assessed mercury contamination in the Ananea District, heavily impacted by ASGM activities. Mercury levels were measured in water, soil, and plant tissues using a Direct Mercury Analyzer (DMA-80). Results showed water mercury concentrations ranging from 0.1169 mg/kg to 1.54 mg/kg, far exceeding the World Health Organization's safe limit of 0.001 mg/kg. Soil samples contained mercury levels between 0.0909 mg/kg and 22.49 mg/kg, surpassing typical uncontaminated soil levels. Plant tissues had mercury concentrations from 0.0909 mg/kg to 7.7467 mg/kg, indicating potential entry into the food chain. Elevated mercury levels closely correlate with proximity to mining and processing sites, highlighting ASGM's direct environmental impact. These findings align with global patterns observed in other ASGM regions. The study underscores the urgent need for mitigation strategies, including stronger regulations, promotion of mercury-free technologies, and community engagement to reduce mercury emissions and protect public health.

Published

2025

7. Selective electrochemical reduction of mercury(II) from a simulated traditional gold mining wastewater contaminated with cyanide and heavy metals.

Author

Tami-Pimiento, Leidy M., Joya-Herrera, Laura M., Pérez-Chía, Yolanda Isabel, and Meléndez, Angel M.

Subjects

*METAL cyanides, *HEAVY metals, *SEWAGE, *MERCURY, *ELECTROLYTIC reduction, *COPPER, *GOLD mining

Abstract

In traditional gold mining (TGM), the wastewater discharges are contaminated with high concentrations of cyanide and heavy metals. Understanding the effects of different cyanide species on the electrochemical behavior of mercury(II) is critical for its removal from TGM wastewater. Herein, we evaluated mercury electroreduction using a model solution simulating a TGM wastewater containing Fe(II), Cu(I), Zn(II), Hg(II), and CN– ions. According to speciation diagrams, the predominant Hg(II) species is Hg(CN)42–. Cyclic voltammetry was used to study the reduction processes from the simulated TGM wastewater solution and to select the potential for the potentiostatic deposition process of mercury. Scanning electron microscopy with energy-dispersive X-ray spectroscopy was used to study the morphology and elemental composition of the deposits. The free cyanide (CN–) concentration affects the electrochemical behavior of the anionic cyanide complex Hg(CN)42– in addition to the chemical stability of 316 stainless steel under open circuit conditions. Voltammetry and electrochemical impedance spectroscopy measurements show that the 316 stainless steel electrode becomes more resistive when exposed to the simulated TGM wastewater solution due to a passive surface oxide, while the passive layer on the titanium electrode inhibits Hg(II) reduction. [ABSTRACT FROM AUTHOR]

Published

2024

8. The global challenge of reducing mercury contamination from artisanal and small-scale gold mining (ASGM): evaluating solutions using generic theories of change.

Author

Aldous, Allison R., Tear, Tim, and Fernandez, Luis E.

Subjects

GOLD mining, INDIGENOUS peoples of South America, THEORY of change, MERCURY, INDIGENOUS peoples, GOVERNMENT policy

Abstract

Mercury contamination from artisanal and small-scale gold mining (ASGM) currently accounts for 37% of the global total, often affecting tropical regions where regulations, if they exist, are often poorly enforced. Ingestion by people and other animals damages the nervous, reproductive, and cognitive systems. Despite the efforts of many organizations and governments to curb mercury releases from ASGM, it is increasing globally. There are many possible interventions, all with significant complexity and cost. Therefore, we recommend taking an established systematic approach to articulate the current situation and construct theories of change (ToC) for different possible interventions for any government or organization trying to solve this problem. Here we present a high-level situation analysis and generic ToC to support a more coordinated approach that explicitly builds upon previous experience to identify organization- and situation-appropriate engagement on this issue. We then illustrate the use of these generic models to construct a specific ToC with a policy-focused entry point. This includes interventions through (1) engagement with the global Minamata Convention on Mercury; (2) support for existing national laws and policies connected to ASGM and mercury contamination; and (3) engagement of indigenous people and local communities with governments to meet the governments' legal obligations. By methodically articulating assumptions about interventions, connections among actions, and desired outcomes, it is possible to create a more effective approach that will encourage more coordination and cooperation among governments and other practitioners to maximize their investments and support broad environmental and socio-political outcomes necessary to address this pernicious problem. [ABSTRACT FROM AUTHOR]

Published

2024

9. Hg Pollution in Groundwater of Andean Region of Ecuador and Human Health Risk Assessment.

Author

Passarelli, Irene, Mora-Silva, Demmy, Jimenez-Gutierrez, Mirian, Logroño-Naranjo, Santiago, Hernández-Allauca, Damaris, Valdez, Rogelio Ureta, Avalos Peñafiel, Victor Gabriel, Tierra Pérez, Luis Patricio, Sanchez-Salazar, Marcelo, Tobar Ruiz, María Gabriela, Carrera-Silva, Katherin, Straface, Salvatore, and Mestanza-Ramón, Carlos

Subjects

HEALTH risk assessment, GROUNDWATER pollution, MERCURY poisoning, GOLD mining, DRINKING water, WATER sampling

Abstract

In Ecuador, illegal gold mining has led to significant environmental impacts, with the release of harmful elements such as mercury (Hg) into the environment. Mercury, due to its physical–chemical characteristics and the transport elements involved between different environmental matrices, can easily percolate through the soil and reach groundwater. The purpose of this study was to evaluate the mercury concentration levels in the Andean region in order to perform a human health risk assessment. For this purpose, 175 water samples were analyzed, of which 9.71% exceeded the maximum permissible limit (MPL) established for drinking water in accordance with Ecuadorian regulations. The risk analysis was conducted by applying two approaches: deterministic and probabilistic. The deterministic approach involves a specific analysis based on the calculation of the risk quotient (HQ) and risk index (HI) for both receptors (adults and children) and scenarios (residential and recreational) considered; the probabilistic approach is based on the use of stochastic simulation techniques. The results obtained from the two approaches show a discrepancy, with the deterministic analysis providing more conservative results; however, they coincide in showing higher risk for the child population; decision-makers could use these results to identify areas to be monitored and plan more detailed investigation plans. [ABSTRACT FROM AUTHOR]

Published

2024

10. Applications of Different Treatment Technologies for Mercury Removal From Soil, Waste, and Water

Author

Pant, Rakesh, Singh, Pratyaksha, Patrick, Nirmal, Gupta, Amit, Negm, Abdelazim M., Series Editor, Chaplina, Tatiana, Series Editor, and Kumar, Nitish, editor

Published

2024

11. Methylmercury Effect and Distribution in Two Extremophile Microalgae Strains Dunaliella salina and Coccomyxa onubensis from Andalusia (Spain).

Author

Simansky, Samuel, Holub, Jiří, Márová, Ivana, Cuaresma, María, Garbayo, Ines, Torronteras, Rafael, Vílchez, Carlos, and Gojkovic, Zivan

Subjects

DUNALIELLA salina, DUNALIELLA, METHYLMERCURY, MICROALGAE, WATER reuse, FOOD chains

Abstract

The main entrance point of highly toxic organic Hg forms, including methylmercury (MeHg), into the aquatic food web is phytoplankton, which is greatly represented by various natural microalgal species. Processes associated with MeHg fate in microalgae cells such as uptake, effects on cells and toxicity, Hg biotransformation, and intracellular stability are detrimental to the process of further biomagnification and, as a consequence, have great importance for human health. The study of MeHg uptake and distribution in cultures of marine halophile Dunaliella salina and freshwater acidophilic alga Coccomyxa onubensis demonstrated that most of the MeHg is imported inside the cell, while cell surface adhesion is insignificant. Almost all MeHg is removed from the culture medium after 72 h. Significant processes in rapid MeHg removal from liquid medium are its abiotic photodegradation and volatilization associated with algal enzymatic activity. The maximum intracellular accumulation for both species was in 80 nM MeHg-exposed cultures after 24 h of exposure for D. salina (from 27 to 34 µg/gDW) and at 48 h for C. onubensis (up to 138 µg/gDW). The different Hg intakes in these two strains could be explained by the lack of a rigid cell wall in D. salina and the higher chemical ability of MeHg to pass through complex cell wall structures in C. onubensis. Electron microscopy studies on the ultrastructure of both strains demonstrated obvious microvacuolization in the form of many very small vacuoles and partial cell membrane disruption in 80 nM MeHg-exposed cultures. Results further showed that Coccomyxa onubensis is a good candidate for MeHg-contaminated water reclamation due to its great robustness at nanomolar concentrations of MeHg coupled with its very high intake and almost complete Hg removal from liquid medium at the MeHg levels tested. [ABSTRACT FROM AUTHOR]

Published

2024

12. Mercury and Arctic Char Gill Microbiota Correlation in Canadian Arctic Communities

Author

Flora Amill, Patrice Couture, and Nicolas Derome

Subjects

Arctic char, gill microbiota, 16s rRNA gene transcript, bacterial activity, mercury contamination, Canadian Arctic, Biology (General), QH301-705.5

Abstract

Arctic char is a top predator in Arctic waters and is threatened by mercury pollution in the context of changing climate. Gill microbiota is directly exposed to environmental xenobiotics and play a central role in immunity and fitness. Surprisingly, there is a lack of literature studying the effect of mercury on gill microbiota. To fill this knowledge gap, our primary goal was to measure to what extent gill exposure to mercury may alter gill microbiota activity in Arctic char. Specifically, we calculated the correlation between the taxonomic distribution of gill-associated bacterial symbiont activity and total mercury concentration in livers and muscles in wild populations of Arctic char in the Canadian Arctic. Our results showed that total mercury concentrations in tissues were higher in Ekaluktutiak (Nunavut) than in the other sites in Nunavik. Proteobacteria was the main phylum correlated to mercury concentration in both tissues, followed by Bacteroidetes and Cyanobacteria. In the most contaminated sites, Aeromonas and Pseudomonas (Proteobacteria) were predominant, while mercury concentration negatively correlated with Photobacterium (Proteobacteria) or Cerasicoccus (Verrucomicrobia). In summary, we found that mercury contamination correlates with active gill microbiota composition, with potential implications of strains in modulating mercury toxicity, making them interesting for future biomarker studies.

Published

2024

13. 含汞气田装置绿色检修清洗技术研究与应用.

Author

张劲尧

Abstract

Copyright of Natural Gas & Oil is the property of Editorial Department of Natural Gas & Oil 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

14. Hg Pollution in Groundwater of Andean Region of Ecuador and Human Health Risk Assessment

Author

Irene Passarelli, Demmy Mora-Silva, Mirian Jimenez-Gutierrez, Santiago Logroño-Naranjo, Damaris Hernández-Allauca, Rogelio Ureta Valdez, Victor Gabriel Avalos Peñafiel, Luis Patricio Tierra Pérez, Marcelo Sanchez-Salazar, María Gabriela Tobar Ruiz, Katherin Carrera-Silva, Salvatore Straface, and Carlos Mestanza-Ramón

Subjects

gold extraction, mercury contamination, environmental impact, groundwater pollution, risk assessment, Science

Abstract

In Ecuador, illegal gold mining has led to significant environmental impacts, with the release of harmful elements such as mercury (Hg) into the environment. Mercury, due to its physical–chemical characteristics and the transport elements involved between different environmental matrices, can easily percolate through the soil and reach groundwater. The purpose of this study was to evaluate the mercury concentration levels in the Andean region in order to perform a human health risk assessment. For this purpose, 175 water samples were analyzed, of which 9.71% exceeded the maximum permissible limit (MPL) established for drinking water in accordance with Ecuadorian regulations. The risk analysis was conducted by applying two approaches: deterministic and probabilistic. The deterministic approach involves a specific analysis based on the calculation of the risk quotient (HQ) and risk index (HI) for both receptors (adults and children) and scenarios (residential and recreational) considered; the probabilistic approach is based on the use of stochastic simulation techniques. The results obtained from the two approaches show a discrepancy, with the deterministic analysis providing more conservative results; however, they coincide in showing higher risk for the child population; decision-makers could use these results to identify areas to be monitored and plan more detailed investigation plans.

Published

2024

15. Influence of a hydroelectric dam on fish mercury contamination along the Sinnamary River (French Guiana)

Author

Régine Maury-Brachet, Émilie P. Dassié, Alexia Legeay, Patrice Gonzalez, Agnès Feurtet-Mazel, François Gourand, Yannick Dominique, and Régis Vigouroux

Subjects

Mercury contamination, Tropical fish, Dam impoundment, French Guiana, Human health, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

The Petit Saut hydroelectric dam and the upstream and downstream areas of the Sinnamary River in French Guiana (Amazon basin) have been studied from 1993 to 2020. The nearly thirty-years-long study of the monitoring of total mercury concentration in fish and the physicochemical survey of the environment made it possible to demonstrate the impact of the flooding of the forest and the role of the hydroelectric dam on the methylation of mercury. Results show that the physicochemical modifications generated by the construction of the dam led to a significant production of methylmercury (MeHg) in the anoxic part of the reservoir and downstream of the river leading to a strong spatio-temporal impact of the dam. Seven species of fishes are studied and their mercury concentrations vary according to many parameters: fish diet, position in the water column, site, lake oxycline level and time.

Published

2024

16. Environmental Geochemical Analysis in the Yanomami Indigenous Land, Mucajaí River Basin, State of Roraima, Brazil.

Author

Jacques, Patricia Duringer, Viglio, Eduardo Paim, and de Oliveira d'El Rei Pinto, Daniel

Subjects

ANALYTICAL geochemistry, WATERSHEDS, RIVER sediments, GOLD mining, SEDIMENT sampling, GEOLOGICAL surveys

Abstract

The Yanomami Indigenous Land in the Amazon has a long history of illegal artisanal gold mining, leading to concerns about mercury (Hg) contamination. This study has conducted a geochemical analysis to assess Hg contamination from these mining activities. Geological materials, including river water and stream sediments, were collected from 14 predetermined points based on the Geological Survey of Brazil's methodology. The results revealed that water samples did not show Hg contamination above the limits set by the National Council of the Environment (Conama) Resolution 357. However, two stream sediment samples, particularly PJS009 and PJS010 collected from the Mucajaí River, exceeded the Conama Resolution 454's limit of 0.17 mg/kg. A Hg content of 0.344 mg/kg was found in the sediment sample PJS009, the one collected further upstream in the Mucajaí River, and 1.386 mg/kg was found in sample PJS010, also in the Mucajaí River in the region shortly before the Fumaça Waterfall, indicating that the sediments of the Mucajaí River may be contaminated with Hg from the Fumaça Waterfall upstream. [ABSTRACT FROM AUTHOR]

Published

2023

17. Effect of a 110 ppb mercury exposition on neotropical bumble bee workers, Bombus atratus: in situ localization of Hsp70 and Hsp90 and general morphological changes of hepato-nephrocitic cells.

Author

Balsamo, Paulo José, de Andrade Nogueira, Felipe Lissoni, Ceschi-Bertoli, Leticia, Salla, Raquel Fernanda, Maia, Fabiana Martins Costa, Irazusta, Silvia Pierre, Boeing, Guilherme Andrade Neto Schmitz, and Abdalla, Fábio Camargo

Abstract

We analyzed the effect of mercury (Hg) on the hepato-nephrocitic system (HNS) of Bombus atratus workers exposed to an estimated concentration similar to that found in honey stores of neotropical bees (110 ppb). The bees were divided into control and experimental groups. A solid mixture of honey, pollen and organic soy was offered to both experimental groups, ad libitum. The control group received distilled water and the exposed group received a 110 µg.L−1 (110 ppb) Hg solution. After 48 h of exposure, the bees were cryo-anesthetized, and the dorsal vessel was dissected directly in 4% paraformaldehyde. The samples were prepared for routine morphological analysis (HE), fluorescent histochemical staining (Acridine Orange and F-actin + DAPI), and in situ immunohistochemical labeling (Hsp70 and Hsp90). Our results showed that both the trophocytes and oenocytes of bees exposed to mercury exhibited chromatin damages. The Hg exposure also induced trophocytes deactivation of the nucleus-cytoplasm exchange as a result of branched contour loss of the nuclei. The pericardial cells were predominantly found at stage IV with pyknotic nuclei. Although the fluorescence intensity of both Hsp70 and Hsp90 was reduced in the exposed group compared to the control group, there was an indication of misfolded proteins. In conclusion, our results showed that the concentration of 110 µg.L−1Hg, which can be found in the honey stores of B. atratus colonies, has severely damaged the HNS of B. atratus workers. These effects can trigger major damage to their populations, contributing to bee declines in natural environments worldwide. [ABSTRACT FROM AUTHOR]

Published

2023

18. Geometrical influence on Hg determination in wet sediment using K‐shell fluorescence analysis.

Author

An, Siwen, Krapohl, David, González, Charlotte, Rydblom, Stefani, Norlin, Börje, and Thungström, Göran

Subjects

*FLUORIMETRY, *MERCURY, *HEAVY metals, *X-ray spectrometers, *HEAVY metal toxicology, *MONTE Carlo method, *CONTAMINATED sediments, *COMPTON scattering

Abstract

To quickly identify maritime sites polluted by heavy metal contaminants, reductions in the size of instrumentation have made it possible to bring an X‐ray fluorescence (XRF) analyzer into the field and in direct contact with various samples. The choice of source‐sample‐detector geometry plays an important role in minimizing the Compton scattering noise and achieving a better signal‐to‐noise ratio (SNR) in XRF measurement conditions, especially for analysis of wet sediments. This paper presents the influence of geometrical factors on a prototype, designed for in situ XRF analysis of mercury (Hg) in wet sediments using a 57Co excitation source and an X‐ray spectrometer. The unique XRF penetrometer prototype has been constructed and tested for maritime wet sediment. The influence on detection efficiency and SNR of various geometrical arrangements have been investigated using the combination of Monte Carlo simulations and laboratory experiments. Instrument calibration was performed for Hg analysis by means of prepared wet sediments with the XRF prototype. The presented results show that it is possible to detect Hg by K‐shell emission, thus enabling XRF analysis for underwater sediments. Consequently, the XRF prototype has the potential to be applied as an environmental screening tool for analysis of polluted sediments with relatively high concentrations (e.g., >2880 ppm for Hg), which would benefit in situ monitoring of maritime pollution caused by heavy metals. [ABSTRACT FROM AUTHOR]

Published

2023

19. Fish as bioindicators of mercury contamination in aquatic environments -- an underestimated threat to consumer health.

Author

Chmielewski, Jarosław, Dietrich, Grzegorz Janusz, Walosik, Alicja, Zięba, Ewa, Żeber-Dzikowska, Ilona, Motyl, Michał, Kosoń, Aneta, and Gworek, Barbara

Abstract

Fish are a recommended component of the diet, supplying complete proteins, vitamins, mineral salts, and omega-3 fatty acids. The presence of mercury in fish tissue, both freshwater and marine, is the effect of its accumulation in the aquatic environment and depends largely on the concentration of mercury in water as well as food. Most of mercury in fish tissues is present in the form of organic complexes, mainly methylmercury, which is much more toxic than metallic mercury. In organisms of predatory fish, such as shark, tuna, swordfish, or eel, mercury will be present in concentrations higher than in other species of fish. It is not just the result of their nutrition, but is also related to their age, mobility and habitat. In fish living near the bottom of a water body, the concentration of mercury will be much higher. It has to be noted that the ongoing climate change and increase in environmental contamination may significantly raise the bioavailability of mercury and its organic complexes in fish. Fish that are at the end of a food chain may contain such large amounts of mercury in their organisms that it may pose a threat to human health. This problem is particularly concerning people whose diets are based on fishmeat. The aim of the following paper is to present the current state of knowledge on sources of mercury released into aquatic environments and the related threats to human health with regard to fish consumption. The article takes note of the increasing number of incoming alerts under the European Rapid Alert System for Food and Feed (RASFF), regarding the contamination of fish and fish products with mercury. [ABSTRACT FROM AUTHOR]

Published

2023

20. The Ecological Risk Assessment of Mercury Contamination in a Mangrove Ecosystem of the Segara Anakan Cilacap, Indonesia.

Author

Hilmi, Endang, Junaidi, Teuku, Mahdiana, Arif, and Dewi, Rose

Subjects

ECOLOGICAL risk assessment, MANGROVE plants, MERCURY, BODIES of water, SOIL pollution

Abstract

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

Published

2023

21. The potential of microorganisms as biomonitoring and bioremediation tools for mercury-contaminated soils

Author

Lorraine Meyer, Stéphane Guyot, Michel Chalot, and Nicolas Capelli

Subjects

Mercury contamination, Mercury-resistant microorganisms, Bioremediation, Biomonitoring, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Mercury (Hg) pollution is a global issue due to the high toxicity and wide dispersion of Hg around the world. Whether due to anthropogenic activities or natural processes, Hg emissions are steadily increasing, with very high levels in some regions, directly threatening human and ecosystem health. However, bacteria and fungi have evolved and adapted in response to Hg-induced stress and have developed tolerance mechanisms, notably based on the mer operon system that is involved in Hg uptake and biovolatilization via Hg reduction reactions. Other processes, such as bioaccumulation or extracellular sequestration, are involved in Hg resistance, and the study of contaminated soils has allowed the isolation of a number of microorganisms capable of these mechanisms, with strong potential for the implementation of bioremediation approaches. In addition to playing an important role in determining the fate of Hg in the biogeochemical cycle, these microorganisms can indeed be applied to reduce Hg concentrations or at least stabilize Hg for the remediation of polluted soils. Moreover, thanks to the development of biotechnological tools, bioremediation based on Hg-tolerant microorganisms can be optimized. Finally, these microorganisms are relevant candidates for biomonitoring, for example, through the engineering of biosensors, because the detection of Hg is a major issue in preserving the health of living beings.

Published

2023

22. Methylmercury Effect and Distribution in Two Extremophile Microalgae Strains Dunaliella salina and Coccomyxa onubensis from Andalusia (Spain)

Author

Samuel Simansky, Jiří Holub, Ivana Márová, María Cuaresma, Ines Garbayo, Rafael Torronteras, Carlos Vílchez, and Zivan Gojkovic

Subjects

methylmercury, microalgae, mercury contamination, mercury toxicity, Biology (General), QH301-705.5

Abstract

The main entrance point of highly toxic organic Hg forms, including methylmercury (MeHg), into the aquatic food web is phytoplankton, which is greatly represented by various natural microalgal species. Processes associated with MeHg fate in microalgae cells such as uptake, effects on cells and toxicity, Hg biotransformation, and intracellular stability are detrimental to the process of further biomagnification and, as a consequence, have great importance for human health. The study of MeHg uptake and distribution in cultures of marine halophile Dunaliella salina and freshwater acidophilic alga Coccomyxa onubensis demonstrated that most of the MeHg is imported inside the cell, while cell surface adhesion is insignificant. Almost all MeHg is removed from the culture medium after 72 h. Significant processes in rapid MeHg removal from liquid medium are its abiotic photodegradation and volatilization associated with algal enzymatic activity. The maximum intracellular accumulation for both species was in 80 nM MeHg-exposed cultures after 24 h of exposure for D. salina (from 27 to 34 µg/gDW) and at 48 h for C. onubensis (up to 138 µg/gDW). The different Hg intakes in these two strains could be explained by the lack of a rigid cell wall in D. salina and the higher chemical ability of MeHg to pass through complex cell wall structures in C. onubensis. Electron microscopy studies on the ultrastructure of both strains demonstrated obvious microvacuolization in the form of many very small vacuoles and partial cell membrane disruption in 80 nM MeHg-exposed cultures. Results further showed that Coccomyxa onubensis is a good candidate for MeHg-contaminated water reclamation due to its great robustness at nanomolar concentrations of MeHg coupled with its very high intake and almost complete Hg removal from liquid medium at the MeHg levels tested.

Published

2024

23. Applications of Mercury Stable Isotopes in Environmental Forensics

Author

Saebom Jung, Young Gwang Kim, and Sae Yun Kwon

Subjects

mercury stable isotope, environmental forensics, mercury contamination, source tracing, minamata convention, Environmental engineering, TA170-171

Abstract

Mercury is a globally distributed toxic trace metal, which can travel long distances in the atmosphere and bioaccumulate to elevated levels in ecosystem food webs. Since 2013, various parts of the mercury life cycle, including the production, use, emissions, releases, as well as the environmental and ecosystem fate, have been governed via the global treaty on mercury, the Minamata Convention of Mercury. The convention also calls attention to the application of mercury stable isotopes for distinguishing between various mercury sources in environmental media and for identifying sources, which require targeted risk management. Here, we introduce ways in which mercury stable isotopes can be applied in the field of environmental forensics to identify sources responsible for local contamination and global cycling that require international governance. This review is divided into: 1) the general overview on the mercury speciation and cycling, 2) the nomenclature of mercury stable isotope systems, and 3) the introduction of case studies that have successfully utilized mercury isotopes to interpret legacy and recent mercury sources in atmospheric and freshwater environments. We conclude the review by making specific recommendations as to how mercury stable isotopes can be better utilized in the field of local and global environmental forensics. These recommendations include the development of comprehensive anthropogenic mercury source inventories and isotopic-based evidence on the transboundary transport of mercury.

Published

2022

24. Mercury concentration in the tissues of the Eurasian otter: a seasonal dependance in Slovakia.

Author

Pitoňáková, Tatiana

Subjects

MERCURY, OTTERS, TISSUES, HEAVY metals, TOP predators, BODY size

Abstract

The river otter is considered to be an important bioindicator of water clarity. This study focuses on mercury contamination within this species. Throughout the study, individuals from habitats in the foothills and surroundings of the Liptovská Mara reservoir were analyzed. Twenty-three samples of liver tissue, and twenty-two samples of hair and kidney tissue were collected. Of these samples, the average mercury concentration detected in tissues was 10.6 mg/kg in guard hairs; 12.9 mg/kg in under hairs; 3.3 mg/kg in kidney tissue; and 4.3 mg/kg in liver tissue. Analysis of certified reference material (ERM-BB186—Pig Kidney) was used to assist in the development of an accurate method for total mercury determination in animal tissues, to check the quality of measurements, and to validate the measurement method. Our method represented a high average percentage of recovery (> 95%) in the standard reference material matrix and a relative standard deviation (RSD) of 5% or less. Seasonality was determined to be a significant factor influencing the level of contamination of a given individual, both through mercury methylation within the aquatic environment and through fish ingestion by this apex semi-aquatic predator (guard hairs (p = 0.01); underfur (p = 0.04); kidney (p = 0.03); liver (p = 0.03)). Sex, location, and body size were not found to have a significant influence on heavy metal concentrations in river otters sampled in terms of season. [ABSTRACT FROM AUTHOR]

Published

2023

25. Oxidative stress protection and growth promotion activity of Pseudomonas mercuritolerans sp. nov., in forage plants under mercury abiotic stress conditions.

Author

Robas Mora, Marina, Fernández Pastrana, Vanesa M., González Reguero, Daniel, Gutiérrez Oliva, Laura L., Probanza Lobo, Agustín, and Jiménez Gómez, Pedro A.

Subjects

FORAGE plants, ABIOTIC stress, OXIDATIVE stress, MERCURY, GRAM-negative bacteria, PLANT growth

Abstract

SAICEUPSMT strain was isolated from soils in the mining district of Almadén (Ciudad Real, Spain), subjected to a high concentration of mercury. Using the plant model of lupinus, the strain was inoculated into the rhizosphere of the plant in a soil characterized by a high concentration of mercury (1,710 ppm) from an abandoned dump in the mining district of Almadén (Ciudad Real, Spain). As a control, a soil with a minimum natural concentration of mercury, from a surrounding area, was used. Under greenhouse conditions, the effect that the inoculum of the SAICEUPSMT strain had on the antioxidant capacity of the plant was studied, through the quantification of the enzymatic activity catalase (CAT), ascorbate peroxidase (APX), superoxide dismutase (SOD), and glutathione reductase (GR). Likewise, the capacity of the plant to bioaccumulate mercury in the presence of the inoculum was studied, as well as the effect on the biometric parameters total weight (g), shoot weight (g), root weight (g), shoot length (cm), root length (cm), total number of leaves (N), and total number of secondary roots (No). Finally, in view of the results, the SAICEUPSMT strain was identified from the phenotypic and genotypic point of view (housekeeping genes and complete genome sequencing). The inoculum with the SAICEUPSMT strain in the presence of mercury produced a significant reduction in the enzymatic response to oxidative stress (CAT, APX, and SOD). It can be considered that the strain exerts a phytoprotective effect on the plant. This led to a significant increase in the biometric parameters total plant weight, root weight and the number of leaves under mercury stress, compared to the control without abiotic stress. When analyzing the mercury content of the plant with and without bacterial inoculum, it was found that the incorporation of the SAICEUPSMT strain significantly reduced the uptake of mercury by the plant, while favoring its development in terms of biomass. Given the positive impact of the SAICEUPSMT strain on the integral development of the plant, it was identified, proving to be a Gram negative bacillus, in vitro producer of siderophores, auxins and molecules that inhibit stress precursors. The most represented fatty acids were C16:0 (33.29%), characteristic aggregate 3 (22.80%) comprising C16:1 ω7c and C16: ω6c, characteristic aggregate 8 (13.66%) comprising C18:1 ω7c, and C18: 1 cycle ω6c and C 17:0 (11.42%). From the genotypic point of view, the initial identification of the strain based on the 16S rRNA gene sequence classified it as Pseudomonas iranensis. However, genome-wide analysis showed that average nucleotide identity (ANI, 95.47%), DNA-DNA in silico hybridization (dDDH, 61.9%), average amino acid identity (AAI, 97.13%), TETRA (0.99%) and intergenic distance (0.04) values were below the established thresholds for differentiation. The results of the genomic analysis together with the differences in the phenotypic characteristics and the phylogenetic and chemotaxonomic analysis support the proposal of the SAICEUPSMT strain as the type strain of a new species for which the name Pseudomonas mercuritolerans sp. is proposed. No virulence genes or transmissible resistance mechanisms have been identified, which reveals its safety for agronomic uses, under mercury stress conditions. [ABSTRACT FROM AUTHOR]

Published

2022

26. Oxidative stress protection and growth promotion activity of Pseudomonas mercuritolerans sp. nov., in forage plants under mercury abiotic stress conditions

Author

Marina Robas Mora, Vanesa M. Fernández Pastrana, Daniel González Reguero, Laura L. Gutiérrez Oliva, Agustín Probanza Lobo, and Pedro A. Jiménez Gómez

Subjects

heavy metals, PGPB, oxidative stress protection, Pseudomonas mercuritolerans, phytoprotection against mercury, mercury contamination, Microbiology, QR1-502

Abstract

SAICEUPSMT strain was isolated from soils in the mining district of Almadén (Ciudad Real, Spain), subjected to a high concentration of mercury. Using the plant model of lupinus, the strain was inoculated into the rhizosphere of the plant in a soil characterized by a high concentration of mercury (1,710 ppm) from an abandoned dump in the mining district of Almadén (Ciudad Real, Spain). As a control, a soil with a minimum natural concentration of mercury, from a surrounding area, was used. Under greenhouse conditions, the effect that the inoculum of the SAICEUPSMT strain had on the antioxidant capacity of the plant was studied, through the quantification of the enzymatic activity catalase (CAT), ascorbate peroxidase (APX), superoxide dismutase (SOD), and glutathione reductase (GR). Likewise, the capacity of the plant to bioaccumulate mercury in the presence of the inoculum was studied, as well as the effect on the biometric parameters total weight (g), shoot weight (g), root weight (g), shoot length (cm), root length (cm), total number of leaves (N), and total number of secondary roots (No). Finally, in view of the results, the SAICEUPSMT strain was identified from the phenotypic and genotypic point of view (housekeeping genes and complete genome sequencing). The inoculum with the SAICEUPSMT strain in the presence of mercury produced a significant reduction in the enzymatic response to oxidative stress (CAT, APX, and SOD). It can be considered that the strain exerts a phytoprotective effect on the plant. This led to a significant increase in the biometric parameters total plant weight, root weight and the number of leaves under mercury stress, compared to the control without abiotic stress. When analyzing the mercury content of the plant with and without bacterial inoculum, it was found that the incorporation of the SAICEUPSMT strain significantly reduced the uptake of mercury by the plant, while favoring its development in terms of biomass. Given the positive impact of the SAICEUPSMT strain on the integral development of the plant, it was identified, proving to be a Gram negative bacillus, in vitro producer of siderophores, auxins and molecules that inhibit stress precursors. The most represented fatty acids were C16:0 (33.29%), characteristic aggregate 3 (22.80%) comprising C16:1 ω7c and C16: 1ω6c, characteristic aggregate 8 (13.66%) comprising C18:1 ω7c, and C18: 1 cycle ω6c and C 17:0 (11.42%). From the genotypic point of view, the initial identification of the strain based on the 16S rRNA gene sequence classified it as Pseudomonas iranensis. However, genome-wide analysis showed that average nucleotide identity (ANI, 95.47%), DNA-DNA in silico hybridization (dDDH, 61.9%), average amino acid identity (AAI, 97.13%), TETRA (0.99%) and intergenic distance (0.04) values were below the established thresholds for differentiation. The results of the genomic analysis together with the differences in the phenotypic characteristics and the phylogenetic and chemotaxonomic analysis support the proposal of the SAICEUPSMT strain as the type strain of a new species for which the name Pseudomonas mercuritolerans sp. is proposed. No virulence genes or transmissible resistance mechanisms have been identified, which reveals its safety for agronomic uses, under mercury stress conditions.

Published

2022

27. Environmental Geochemical Analysis in the Yanomami Indigenous Land, Mucajaí River Basin, State of Roraima, Brazil

Author

Patricia Duringer Jacques, Eduardo Paim Viglio, and Daniel de Oliveira d’El Rei Pinto

Subjects

environmental geochemical, Yanomami Indigenous Land, mercury contamination, Chemical technology, TP1-1185

Abstract

The Yanomami Indigenous Land in the Amazon has a long history of illegal artisanal gold mining, leading to concerns about mercury (Hg) contamination. This study has conducted a geochemical analysis to assess Hg contamination from these mining activities. Geological materials, including river water and stream sediments, were collected from 14 predetermined points based on the Geological Survey of Brazil’s methodology. The results revealed that water samples did not show Hg contamination above the limits set by the National Council of the Environment (Conama) Resolution 357. However, two stream sediment samples, particularly PJS009 and PJS010 collected from the Mucajaí River, exceeded the Conama Resolution 454’s limit of 0.17 mg/kg. A Hg content of 0.344 mg/kg was found in the sediment sample PJS009, the one collected further upstream in the Mucajaí River, and 1.386 mg/kg was found in sample PJS010, also in the Mucajaí River in the region shortly before the Fumaça Waterfall, indicating that the sediments of the Mucajaí River may be contaminated with Hg from the Fumaça Waterfall upstream.

Published

2023

28. Artisanal and small-scale mining methods and the Sustainable Development Goal 6: Perceived implications for clean water supply.

Author

Arthur-Holmes, Francis, Abrefa Busia, Kwaku, Yakovleva, Natalia, and Vazquez-Brust, Diego Alfonso

Subjects

MINING methodology, SUSTAINABLE development, WATER supply, COMMUNITIES, SMALL-scale fisheries, GROUNDWATER, GOLD mining

Abstract

This paper aims to examine methods of artisanal and small-scale mining (ASM) in Ghana, map their perceived impacts on water resources, and analyse the implications of these perceptions for meeting the targets related to Clean Water of the United Nations Sustainable Development Goal 6 (SDG 6). The paper draws on 74 interviews with artisanal and small-scale gold miners and other stakeholders to investigate communities' perceptions of the effects of ASM methods (alluvial mining, surface/open-pit mining, and underground mining) on water bodies. We find that different ASM methods impact surface and groundwater in distinct ways while concurrently having a synergistic negative effect on water bodies. Stakeholders – including community leaders – perceive that the mining methods employed in ASM cause various forms of environmental degradation – thus affecting progress towards SDG 6, target 6.3 (water quality) – and severely hinder the availability of clean water for domestic and agricultural purposes, thus endangering the livelihoods of communities and affecting progress towards SDG 6, target 6.4 (sustainable water use). The community perceived impacts of ASM activities on water resources have implications for community acceptance of formalisation efforts in Ghana. We contend that a better understanding of these perceived impacts can help shape the country's policy for achieving the targets of SDG 6 in relation to Clean Water by 2030. In particular, we propose that the integration of the Community Mining Scheme as part of formalisation efforts of informal gold mining in Ghana not only responds to SDG 6 target 6b (participation of local communities in water management) but also has the potential to reverse the current large-scale mining 'bias' in policy, while addressing the galamsey challenge that contributes to the increasing impact of informal gold mining on SDG 6, targets 6.3 and 6.4. • There is a nexus between ASM methods (alluvial, surface/open pit, and underground mining) and their impacts on water resources. • ASM methods impact surface and ground water in distinct ways. • Formalisation policy and ASM methods have implications for achieving the targets related to SDG 6, Clean Water and Sanitation. • The Community Mining Scheme (CMS) in Ghana has the potential to challenge the large-scale mining 'bias'. • The CMS provides directions for other African countries which face similar ASM concerns such as the formalisation hurdles. [ABSTRACT FROM AUTHOR]

Published

2022

29. The Determination of Algae Group as Bioindicator of Water Quality Change Affected by Mercury Release from Artisanal Small-Scale Gold Mining (ASGM).

Author

Purba, Indah Yusliga Sari and Dwi Ariesyady, Herto

Subjects

*GOLD mining, *WATER quality, *MERCURY, *MERCURY vapor, *ALGAE, *ALGAL communities, *PRINCIPAL components analysis

Abstract

Artisanal small scale gold mining (ASGM) practices typically use mercury for amalgamation. Near water environments this can degrade water quality and aquatic biota, including algae. Changes in algal communities can reflect water environment disturbance. The aim of this study was to determine if algae can be used as bioindicator of river water quality impacted by ASGM activities. The research was conducted from July to October 2018 at thirty sampling sites along rivers near ASGM areas in several regencies of Indonesia. Composite samples of water and sediment were collected. A plankton net and brushing methods were used to collect planktonic and benthic algae, respectively. The physicochemical parameters of the water and the sediment as well as the dominant algae genera were analyzed statistically with principal component analysis. The results showed that the total mercury concentration in the water ranged from <0.04 to 20 µg.L-1, while in the sediment the maximum value was 13,500 µg.kg-1. The total mercury content in the sediment was negatively correlated with the dominant benthic Navicula at a significance level of p < 0.05. This means that a low density of benthic Navicula can be proposed as a bioindicator of water quality, indicating the increase of mercury pollution in sediment. [ABSTRACT FROM AUTHOR]

Published

2022

30. Mercury transportation dynamics in the Ganga Alluvial Plain, India: rainwater–groundwater–river water interaction study from hotspot region.

Author

Devi, V., Atique, M. M., Raju, A., Upreti, G., Jigyasu, D. K., Yadav, J. K., Singh, S., Kar, R., and Singh, M.

Abstract

To evaluate the mercury sources and its transportation mechanism from a global hotspot region (the Ganga Alluvial Plain, northern India), two sets of time-series samples of shallow groundwater (n = 31) and river water (n = 31) were collected in alternate days, from the Behta River Basin, in July and August 2019. The estimation of total dissolved mercury was performed by using the Flow Injection Atomic Absorption Spectroscopy-Mercury Hydride System. The mercury concentrations ranged high (> 1400 ng/L), in the three orders of magnitude, emphasizing the importance of mercury transportation, through the unconfined alluvial aquifer system, linked with the monsoon precipitation. In July, the accumulative intensity of monsoon precipitation favored the increasing mercury concentrations in the river water, as well as, in the groundwater. The infiltration of mercury contaminated water is the prominent hydrological process accountable for the peaked mercury concentration (above the World Health Organization's drinking water standard of 1000 ng/L) in the river basin. In August, about 67% of the collected samples reported base-level mercury concentrations. Temporal variations of mercury concentration in the groundwater and the river water showed significantly higher values in July, than in August. These results illustrate the importance of the interaction between the monsoon precipitation, and anthropogenic mercury, in the river basin, for the riverine and groundwater mercury transportation as the fundamental hydraulic control. The present study underscores the significance of monsoon precipitation on the groundwater transportation of global mercury cycling by the Ganga River. [ABSTRACT FROM AUTHOR]

Published

2022

31. Effects of Mercury Concentration on the Health and Safety of Oil and Gas Workers

Author

Suvarnaraju Palathoti, Manar Al-Rawahi, Riyad Mahfud, and Victor Otitolaiye

Subjects

Mercury Contamination, Oil and Gas, Petroleum Workers, Health and Safety, Public aspects of medicine, RA1-1270

Abstract

Introduction: The processing of crude oil is characterized by numerous hazards, which have significant health, safety, and environmental impacts on neighboring communities. The occurrence of mercury and its toxic derivatives is considered one of the many negative impacts of oil and gas operations. However, there is limited research on mercury and its negative effects on workers in the Gulf Cooperation Council (GCC) region. This study examines the occurrence, exposure, and symptoms of mercury on the health and safety of oil and gas workers in Oman. It also explores the acute/chronic effects of mercury poisoning on the maintenance and inspection workers, who are more prone to the adverse effects of mercury poisoning during oil and gas operations. Methods: The two-pronged approach of literature review and survey questionnaire was used to deduce the effects of mercury exposure and poisoning using 68 respondents with 1 – 6 years of working experience in the sector. Results: Based on the questionnaire response rate of 72%, the results showed that over 90% of participants had experienced symptoms of elemental, organic, and methyl mercury poisoning. The common symptoms experienced are headaches, insomnia, weakness, hearing impairment, visual and sensory abilities. However, the respondents who experienced methyl mercury (MeHg) symptoms are due to consuming seafood and cigarettes, whereas elemental and organic mercury symptoms are due to oil and gas operations. Conclusion: The findings highlight the need for robust health and safety measures to effectively detect, monitor and eliminate mercury compounds responsible for poisoning maintenance and inspection workers.

Published

2022

32. The Legacy of Mercury Contamination from a Past Leather Manufacturer and Health Risk Assessment in an Urban Area (Pisa Municipality, Italy).

Author

Ghezzi, Lisa, Arrighi, Simone, Giannecchini, Roberto, Bini, Monica, Valerio, Marta, and Petrini, Riccardo

Abstract

An abandoned open green space in the urban setting of the Municipality of Pisa (Tuscany, Italy) has been designed for renewal to foster the development of recreational activities and improve the lives of the surrounding communities. However, the geochemical site characterization revealed Pb, Cu, Zn and Hg concentrations in the soil exceeding the thresholds imposed by Italian regulations for residential use. Pb, Cu and Zn contents likely reflect the effects of urban vehicle traffic, while Hg contamination represents the legacy of a past artisanal tannery that used Hg(II)-chloride in leather processing in the mid-1900s. Mercury is widely distributed in the area, with the highest concentration in the uppermost soil layer, and reaching about 170 mg/kg in the common dandelion rhizosphere. Chemical extractions and thermal desorption experiments have indicated that most Hg is in the elemental free and matrix-bound fraction, with a possible minor amount (less than 4 wt%) of HgS and negligible methylated forms (0.1 wt%). The data suggest that soil processes could reduce Hg2+ to volatile Hg0. Mercury in groundwater, hosted in a shallow aquitard in the area, was below 0.2 µg/L. However, the presence of chloride in groundwater might result in the formation of Hg stable aqueous complexes, increasing Hg release from solids. Future water quality monitoring is hence recommended. The risk assessment highlighted that mercury in soil carries a risk of non-cancerous effects, in particular for children, posing the basis for management planning. [ABSTRACT FROM AUTHOR]

Published

2022

33. Tactile Approaches to Help Learners Visualize Key Processes in Environmental Health Sciences

Author

Vandiver, Kathleen M., Finn, Symma, editor, and O'Fallon, Liam R., editor

Published

2019

34. Preliminary study of the distribution and risk assessment of mercury in different surficial sediments along the coastal area of the province Thai Binh in Vietnam

Author

Thi Lim Duong, Thi Lan Huong Nguyen, Thi Hue Nguyen, Thi Huong Thuy Nguyen, Thu Thuy Tran, Van Long Nguyen, Gabriele Walenzik, Wolfgang Genthe, Karl-Ulrich Rudolph, Ngo Nghia Pham, and Ngoc Nhiem Dao

Subjects

tessier extraction, metal fractionation, mercury contamination, thai binh coastal area, risk assessment, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Surficial sediment samples along the coastal area of the province Thai Binh in Vietnam have been collected and analysed by modified Tessier method for the mercury content. The mercury levels in these samples were found in the range between 0.12–3.79 mg/kg. Elevated concentrations were observed in some locations close to tidal marshes, large aquaculture productions or low-lying areas. The highest level of mercury was detected in a low-lying terrain near large aquaculture productions. The majority of the mercury species in all samples were witnessed in the fraction bound to organic matters. The predominance of this fraction is possibly associated with some misuses of mercurial fungicides by aqua farmers. These mercury species remain quite resistant in the sediments, thus posing a quite low risk for the surrounding ecological environment. Nevertheless, it is necessary to undertake further studies to evaluate the effect of this contamination on the food chain.

Published

2020

35. Mercury contamination imposes structural shift on the microbial community of an agricultural soil

Author

Lateef Babatunde Salam, Halima Shomope, Zainab Ummi, and Fatima Bukar

Subjects

Agricultural soil, Soil microcosm, Illumina shotgun sequencing, Mercury contamination, Science

Abstract

Abstract Background The purpose of this study is to use shotgun next-generation sequencing to unravel the microbial community structure of an agricultural soil, decipher the effects of mercury contamination on the structure of the microbial community and the soil physicochemistry and heavy metals content. Results The soil physicochemistry after mercury contamination revealed a shift in soil pH from neutral (6.99 ± 0.001) to acidic (5.96 ± 0.25), a decline in moisture content to < 4 %, and a significant decrease in the concentrations of all the macronutrients and the total organic matter. Significant decrease in all the heavy metals detected in the agricultural soil was also observed in mercury inundated SL3 microcosm. Structural analysis of the metagenomes of SL1 (agricultural soil) and SL3 (mercury-contaminated agricultural soil) using Illumina shotgun next-generation sequencing revealed the loss due to mercury contamination of 54.75 % of the microbial community consisting of an archaeal domain, 11 phyla, 12 classes, 24 orders, 36 families, 59 genera, and 86 species. The dominant phylum, class, genus, and species in SL1 metagenome are Proteobacteria, Bacilli, Staphylococcus, and Sphingobacterium sp. 21; while in SL3 metagenome, Proteobacteria, Alphaproteobacteria, Singulisphaera, and Singulisphaera acidiphila were preponderant. Mercury contamination resulted in a massive upscale in the population of members of the phylum Planctomycetes and the genera Singulisphaera, Brevundimonas, Sanguibacter, Exiguobacterium, Desulfobacca, and Proteus in SL3 metagenome while it causes massive decline in the population of genera Staphylococcus and Brachybacterium. Conclusions This study revealed that mercury contamination of the agricultural soil imposed selective pressure on the members of the microbial community, which negatively impact on their population, alter soil physicochemistry, and enriched sizable numbers of members of the community that are well adapted to mercury stress. It also reveals members of microbial community hitherto not reported to be important in mercury detoxification process.

Published

2019

36. Multi-Emission Carbon Dots Combining Turn-On Sensing and Fluorescence Quenching Exhibit Ultrahigh Selectivity for Mercury in Real Water Samples.

Author

Zhu P, Hou SL, Liu Z, Zhou Y, Alvarez PJJ, Chen W, and Zhang T

Subjects

Fluorescence, Quantum Dots chemistry, Water chemistry, Mercury analysis, Carbon chemistry, Water Pollutants, Chemical analysis

Abstract

Mercury is a ubiquitous heavy-metal pollutant and poses serious ecological and human-health risks. There is an ever-growing demand for rapid, sensitive, and selective detection of mercury in natural waters, particularly for regions lacking infrastructure specialized for mercury analysis. Here, we show that a sensor based on multi-emission carbon dots (M-CDs) exhibits ultrahigh sensing selectivity toward Hg(II) in complex environmental matrices, tested in the presence of a range of environmentally relevant metal/metalloid ions as well as natural and artificial ligands, using various real water samples. By incorporating structural features of calcein and folic acid that enable tunable emissions, the M-CDs couple an emission enhancement at 432 nm and a simultaneous reduction at 521 nm, with the intensity ratio linearly related to the Hg(II) concentration up to 1200 μg/L, independent of matrix compositions. The M-CDs have a detection limit of 5.6 μg/L, a response time of 1 min, and a spike recovery of 94 ± 3.7%. The intensified emission is attributed to proton transfer and aggregation-induced emission enhancement, whereas the quenching is due to proton and electron transfer. These findings also have important implications for mercury identification in other complex matrices for routine, screening-level food safety and health management practices.

Published

2024

37. Preliminary study of the distribution and risk assessment of mercury in different surficial sediments along the coastal area of the province Thai Binh in Vietnam.

Author

Duong, Thi Lim, Nguyen, Thi Lan Huong, Nguyen, Thi Hue, Nguyen, Thi Huong Thuy, Tran, Thu Thuy, Nguyen, Van Long, Walenzik, Gabriele, Genthe, Wolfgang, Rudolph, Karl-Ulrich, Pham, Ngo Nghia, and Dao, Ngoc Nhiem

Subjects

MERCURY, COASTAL sediments, RISK assessment, FOOD contamination, SALT marshes

Abstract

Surficial sediment samples along the coastal area of the province Thai Binh in Vietnam have been collected and analysed by modified Tessier method for the mercury content. The mercury levels in these samples were found in the range between 0.12–3.79 mg/kg. Elevated concentrations were observed in some locations close to tidal marshes, large aquaculture productions or low-lying areas. The highest level of mercury was detected in a low-lying terrain near large aquaculture productions. The majority of the mercury species in all samples were witnessed in the fraction bound to organic matters. The predominance of this fraction is possibly associated with some misuses of mercurial fungicides by aqua farmers. These mercury species remain quite resistant in the sediments, thus posing a quite low risk for the surrounding ecological environment. Nevertheless, it is necessary to undertake further studies to evaluate the effect of this contamination on the food chain. [ABSTRACT FROM AUTHOR]

Published

2020

38. The effect of traditional gold mining to land degradation, mercury contamination and decreasing of agricultural productivity.

Author

Basir-Cyio, Muhammad, Isrun-Baso, M., Nakazawa, Koyomi, Mahfudz-Muchtar, T., Napitupulu, Mery, Anshary, Alam, Rauf, Rustam Abd, and Laude, Syamsuddin

Subjects

*AGRICULTURAL productivity, *GOLD mining, *MERCURY poisoning, *AGRICULTURAL conservation, *LAND degradation, *LAND mines, *COCOA, *MERCURY

Abstract

The destruction of natural resources and the environment has affected the level of agriculture productivity directly. The activities of illegal gold mining using Mercury cause the damage, both to agricultural and conservation areas such as Lore Lindu National Park, and it is a serious threat to the communities surrounding. This study aims to assess the degradation and productivity of cocoa, maize, and upland rice on the affected land. The type of this study is an analytical survey that used the purposive sampling technique of composite soil analyzed in the most severely damaged area. The variables are the physicochemical properties of the soil and land productivity. Data on land degradation and productivity of selected commodities were analyzed using a descriptive approach based on the criteria of the physicochemical properties of soil. The result shows that the land in the area has been degraded. It can be seen from the pH (H2O) of affected land was 4.41, lower (very acidic) than the pH (H2O) of the agricultural area, which was 5.36 (slightly acidic), with high solubility of the heavy metal Al3+. Loamy clay sand in the mining area and sandy loam in the agricultural area had bulkdensity of 1.9 and 1.2 g/cm3, respectively. Productivity of agroforestry crops of cocoa, maize, and paddy (upland rice) has decreased in the last six years. Land and plants have been exposed to Hg both around the mining area and in the agricultural area. The transfer factor of the two areas was less than one (TF < 1), in a sequence, at the mine area, of Paddy Area > Maize Cropping > Cocoa Plantation > Cassava Cropping, and in the farm area, of Paddy Area > Maize Cropping > Cassava Cropping > Cocoa Plantation. There needs to be a regulation on illegal gold mining to protect the community and for sustainability of land in Lore Lindu National Park. [ABSTRACT FROM AUTHOR]

Published

2020

39. Levels of Mercury in Persian Gulf Frozen Fish Species

Author

Parisa Ziarati and Fatemehsadat Mirmohammad Makki

Subjects

Frozen Fish, Mercury Contamination, Risk Assessment, Carcharhinus dussumie, Pharmacy and materia medica, RS1-441, Public aspects of medicine, RA1-1270

Abstract

Severe discharge of sewage and industrial effluents into the Persian Gulf leads to the deposition of various types of heavy metals, especially lead and mercury, in the muscles of fish. Total mercury and methylmercury contents were determined in the edible parts (muscle tissue, fillet) of two different most popular frozen fish species from the Persian Gulf to ascertain whether the concentrations exceeded the maximum level fixed by the European Commission or not. During the period from October 2015 to June 2016, a total of 150 frozen fish packaged samples were randomly collected from the recognized supermarkets in Tehran province, Iran. The mercury (Hg) concentration of samples was determined by atomic absorption spectrophotometer using a mercuric hydride system (MHS 10) and also by direct mercury analyzer (DMA). High concentration of total Hg was found in a Carcharhinus dussumie brand (0.91 ± 0.12 μg/g) while the lowest level was detected in Pomadasys furcatus (0.29 ± 0.02 μg/g). In current study the mean concentrations of Mercury in all studied frozen fish samples were 0.79 ± 0.11 µg/g that means Hg levels were above 0.5 μg/g, which is the maximum standard level recommended by Joint FAO/WHO/Expert Committee on Food Additives (JECFA). In 13% of Pomadasys and in 47.2 % of Carcharhinus fish samples total mercury concentrations exceeded the maximum level fixed by the European Commission. All samples had also mean Hg concentrations that exceeded EPA's established safety level of 0.3 μg/g.

Published

2017

40. Green Kingfishers as Sentinel Species for Mercury Contamination in Amazon

Author

0000-0001-9327-5633, Oliveira, Edvagner, Ignácio, Aurea Regina Alves, Lázaro, Wilkinson Lopes, Díez, Sergi, Guimarães, Jean Remy Davee, Santos-Filho, Manoel, 0000-0001-9327-5633, Oliveira, Edvagner, Ignácio, Aurea Regina Alves, Lázaro, Wilkinson Lopes, Díez, Sergi, Guimarães, Jean Remy Davee, and Santos-Filho, Manoel

Abstract

Mercury is a global contaminant found in the Amazon; it can be biomagnified in the aquatic trophic chain. The use of piscivorous birds for biomonitoring of mercury contamination is increasing, mainly due to the non-mobility of mercury in bird feathers. We examined the concentrations of total mercury and methylmercury in different tissues of the green kingfisher, Chloroceryle americana collected from the Teles Pires and Juruena Rivers in the southern Brazilian Amazon. We also evaluated total mercury in small Characidae fish (potential C. americana food) in the same areas. The results indicate contamination of the birds with high concentrations, on average two-times higher in the green kingfishers from the Teles Pires River compared to the Juruena River; the same results were found for the fish specimens. Fifty-eight per cent of the feather samples from the Juruena River and 90% from the Teles Pires River had total mercury concentrations above 5 µg/g, a level previously associated with adverse effects related to bird breeding. The methylmercury concentration was lowest in the liver, followed by feathers and highest in muscle. Although Juruena River bird feathers had a lower total mercury concentration, > 96% of the total mercury was methylmercury, the highest amount for specimens from both rivers. Although the concentration of Hg in the muscle of the green kingfisher is higher when compared to the feather and liver, the non-invasive monitoring through analysis of samples of feathers is an efficient biomonitoring tool for evaluation of mercury contamination in tropical birds.

Published

2023

41. A biochemical and lipidomic approach to perceive Halimione portulacoides (L.) response to mercury: An environmental perspective

Author

European Research Council, Figueira, Etelvina, Matos, Diana, Cardoso, Paulo, Pires, Adília, Fernandes, Célia, Tauler, Romà, Bedia, Carmen, European Research Council, Figueira, Etelvina, Matos, Diana, Cardoso, Paulo, Pires, Adília, Fernandes, Célia, Tauler, Romà, and Bedia, Carmen

Abstract

The impact of hazardous materials, such as Hg, on life is far from being understood and due to the high number of polluted sites it has generated great concern. A biochemical and lipidomic approach was used to assess the effects of Hg on the saltmarsh halophyte Halimione portulacoides. Plants were collected at two sites of a Hg contaminated saltmarsh. Hg accumulation and distribution in the plant, biochemical parameters (antioxidant and metabolic) and lipid profiles were determined and compared between plant organs and sites (s1 and s2). Hg did not induce antioxidant enzyme activity. Lipid profiles changed under Hg exposure, especially in leaves, decreasing the unsaturation level, the membrane fluidity and stability, and evidencing that membrane lipid remodeling influences plant tolerance to Hg. This knowledge can help select the most appropriate methodologies for the restoration of Hg polluted hotspots, curtailing a serious environmental problem threatening saltmarshes.

Published

2023

42. Mercuric pollution of surface water, superficial sediments, Nile tilapia (Oreochromis nilotica Linnaeus 1758 [Cichlidae]) and yams (Dioscorea alata) in auriferous areas of Namukombe stream, Syanyonja, Busia, Uganda

Author

Timothy Omara, Shakilah Karungi, Raymond Kalukusu, BrendaVictoria Nakabuye, Sarah Kagoya, and Bashir Musau

Subjects

Mercury contamination, Busia gold district, Artisanal gold mining, Namukombe stream, Sediments, Geoaccumulation index, Medicine, Biology (General), QH301-705.5

Abstract

The mercury content and the contamination characteristics of water, sediments, edible muscles of a non-piscivorous fish (Oreochromis nilotica Linnaeus 1758 [Cichlidae]) and yams (Dioscorea alata) from Namukombe stream in Busia gold district of Uganda were evaluated. Human health risk assessment from consumption of contaminated fish and yams as well as contact with contaminated sediments from the stream were performed. Forty-eight (48) samples of water (n = 12), sediments (n = 12), fish (n = 12) and yams (n = 12) were taken at intervals of 10 m from three gold recovery sites located at up, middle and down sluices of the stream and analyzed for total mercury (THg) using US EPA method 1631. Results (presented as means ± standard deviations) showed that water in the stream is polluted with mercury in the range of < detection limit to 1.21 ± 0.040 mg/L while sediments contain mean THg from < detection limit to 0.14 ± 0.040 ugg−1. Mean THg content of the edible muscles of O. nilotica ranged from < detection limit to 0.11 ± 0.014 ugg−1while D. alata contained from < detection limit to 0.30 ± 0.173 ugg−1mean THg. The estimated daily intake ranged from 0.0049 ugg−1day−1 to 0.0183 ugg−1day−1 and 0.0200 ugg−1day−1 to 0.0730 ugg−1day−1 for fish consumed by adults and children respectively. The corresponding health risk indices ranged from 0.0123 to 0.0458 and 0.0500 to 0.1830. Estimated daily intake was from 0.0042 ugg−1day−1 to 0.1279 ugg−1day−1 and 0.0130 ugg−1day−1 to 0.3940 ugg−1day−1 for D. alata consumed by adults and children respectively. The health risk indices recorded were from 0.011 to 0.320 and 0.033 to 0.985 for adults and children respectively. The mean THg content of the sediments, edible muscles of O. nilotica and D. alata were within acceptable WHO/US EPA limits. About 91.7% of the water samples had mean THg above US EPA maximum permissible limit for mercury in drinking water. Consumption of D. alata grown within 5 m radius up sluice of Namukombe stream may pose deleterious health risks as reflected by the health risk index of 0.985 being very close to one. From the pollution and risk assessments, mercury use should be delimited in Syanyonja artisanal gold mining areas. A solution to abolish mercury-based gold mining in the area needs to be sought as soon as possible to avert the accentuating health, economic and ecological disaster arising from the continuous discharge of mercury into the surrounding areas. Other mercury-free gold recovering methods such as use of borax, sluice boxes and direct panning should be encouraged. Waste management system for contaminated wastewater, used mercury bottles and tailings should be centralized.

Published

2019

43. Green Kingfishers as Sentinel Species for Mercury Contamination in Amazon

Author

Oliveira, Edvagner, Ignácio, Aurea Regina Alves, Lázaro, Wilkinson Lopes, Díez, Sergi, Guimarães, Jean Remy Davee, and Santos-Filho, Manoel

Subjects

Ensure availability and sustainable management of water and sanitation for all, Mercury Contamination, Contamination, Aquatic trophic chain, Amazon

Abstract

Mercury is a global contaminant found in the Amazon; it can be biomagnified in the aquatic trophic chain. The use of piscivorous birds for biomonitoring of mercury contamination is increasing, mainly due to the non-mobility of mercury in bird feathers. We examined the concentrations of total mercury and methylmercury in different tissues of the green kingfisher, Chloroceryle americana collected from the Teles Pires and Juruena Rivers in the southern Brazilian Amazon. We also evaluated total mercury in small Characidae fish (potential C. americana food) in the same areas. The results indicate contamination of the birds with high concentrations, on average two-times higher in the green kingfishers from the Teles Pires River compared to the Juruena River; the same results were found for the fish specimens. Fifty-eight per cent of the feather samples from the Juruena River and 90% from the Teles Pires River had total mercury concentrations above 5 µg/g, a level previously associated with adverse effects related to bird breeding. The methylmercury concentration was lowest in the liver, followed by feathers and highest in muscle. Although Juruena River bird feathers had a lower total mercury concentration, > 96% of the total mercury was methylmercury, the highest amount for specimens from both rivers. Although the concentration of Hg in the muscle of the green kingfisher is higher when compared to the feather and liver, the non-invasive monitoring through analysis of samples of feathers is an efficient biomonitoring tool for evaluation of mercury contamination in tropical birds., The authors have no relevant financial or non-financial interests to disclose. The authors are part of a research group linked to the Graduate Program in Environmental Sciences.

Published

2023

44. Mercury in Populations of River Dolphins of the Amazon and Orinoco Basins.

Author

Mosquera-Guerra, F., Trujillo, F., Parks, D., Oliveira-da-Costa, M., Van Damme, P. A., Echeverría, A., Franco, N., Carvajal-Castro, J. D., Mantilla-Meluk, H., Marmontel, M., and Armenteras-Pascual, D.

Subjects

MERCURY, DOLPHINS, GOLD mining, RIVERS, AQUATIC animals

Abstract

In the Amazon and Orinoco basins, mercury has been released from artisanal and industrial gold mining since the Colonial time, as well as a result of deforestation and burning of primary forest, that release natural deposits of methyl mercury, affecting the local aquatic vertebrate fauna. This study reports the presence of mercury in river dolphins' genera Inia and Sotalia. Mercury concentrations were analysed in muscle tissue samples collected from 46 individuals at the Arauca and Orinoco Rivers (Colombia), the Amazon River (Colombia), a tributary of the Itenez River (Bolivia) and from the Tapajos River (Brazil). Ranges of total mercury (Hg) concentration in muscle tissue of the four different taxa sampled were: I. geoffrensis humboldtiana 0.003–3.99 mg kg−1 ww (n = 21, Me = 0.4), I. g. geoffrensis 0.1–2.6 mg kg−1 ww (n = 15, Me = 0.55), I. boliviensis 0.03–0.4 mg kg−1 ww (n = 8, Me = 0.1) and S. fluviatilis 0.1–0.87 mg kg−1 ww (n = 2, Me = 0.5). The highest Hg concentration in our study was obtained at the Orinoco basin, recorded from a juvenile male of I. g. humboldtiana (3.99 mg kg−1 ww). At the Amazon basin, higher concentrations of mercury were recorded in the Tapajos River (Brazil) from an adult male of I. g. geoffrensis (2.6 mg kg−1 ww) and the Amazon River from an adult female of S. fluviatilis (0.87 mg kg−1 ww). Our data support the presence of total Hg in river dolphins distributed across the evaluated basins, evidencing the role of these cetaceans as sentinel species and bioindicators of the presence of this heavy metal in natural aquatic environments. [ABSTRACT FROM AUTHOR]

Published

2019

45. Mercuric pollution of surface water, superficial sediments, Nile tilapia (Oreochromis nilotica Linnaeus 1758 [Cichlidae]) and yams (Dioscorea alata)in auriferous areas of Namukombe stream, Syanyonja, Busia, Uganda.

Author

Omara, Timothy, Karungi, Shakilah, Kalukusu, Raymond, Nakabuye, Brenda Victoria, Kagoya, Sarah, and Musau, Bashir

Subjects

WATER pollution, FISH as food, WATER, NILE tilapia, CICHLIDS, POLLUTION risk assessment, GOLD mining, MERCURY poisoning

Abstract

The mercury content and the contamination characteristics of water, sediments, edible muscles of a non-piscivorous fish (Oreochromis nilotica Linnaeus 1758 [Cichlidae]) and yams (Dioscorea alata) from Namukombe stream in Busia gold district of Uganda were evaluated. Human health risk assessment from consumption of contaminated fish and yams as well as contact with contaminated sediments from the stream were performed. Forty-eight (48) samples of water (n = 12), sediments (n = 12), fish (n = 12) and yams (n = 12) were taken at intervals of 10 m from three gold recovery sites located at up, middle and down sluices of the stream and analyzed for total mercury (THg) using US EPA method 1631. Results (presented as means ± standard deviations) showed that water in the stream is polluted with mercury in the range of < detection limit to 1.21 ± 0.040 mg/L while sediments contain mean THg from < detection limit to 0.14 ± 0.040 ugg−1. Mean THg content of the edible muscles of O. nilotica ranged from < detection limit to 0.11 ± 0.014 ugg−1while D. alata contained from < detection limit to 0.30 ± 0.173 ugg−1mean THg. The estimated daily intake ranged from 0.0049 ugg−1day−1 to 0.0183 ugg−1day−1 and 0.0200 ugg−1day-1 to 0.0730 ugg−1day−1 for fish consumed by adults and children respectively. The corresponding health risk indices ranged from 0.0123 to 0.0458 and 0.0500 to 0.1830. Estimated daily intake was from 0.0042 ugg−1day−1 to 0.1279 ugg−1day−1 and 0.0130 ugg−1day−1 to 0.3940 ugg−1day−1 for D. alata consumed by adults and children respectively. The health risk indices recorded were from 0.011 to 0.320 and 0.033 to 0.985 for adults and children respectively. The mean THg content of the sediments, edible muscles of O. nilotica and D. alata were within acceptable WHO/US EPA limits. About 91.7% of the water samples had mean THg above US EPA maximum permissible limit for mercury in drinking water. Consumption of D. alata grown within 5 m radius up sluice of Namukombe stream may pose deleterious health risks as reflected by the health risk index of 0.985 being very close to one. From the pollution and risk assessments, mercury use should be delimited in Syanyonja artisanal gold mining areas. A solution to abolish mercury-based gold mining in the area needs to be sought as soon as possible to avert the accentuating health, economic and ecological disaster arising from the continuous discharge of mercury into the surrounding areas. Other mercury-free gold recovering methods such as use of borax, sluice boxes and direct panning should be encouraged. Waste management system for contaminated wastewater, used mercury bottles and tailings should be centralized. [ABSTRACT FROM AUTHOR]

Published

2019

46. Comparing total mercury concentrations of northern Dolly Varden, Salvelinus malma malma, in two Canadian Arctic rivers 1986–1988 and 2011–2013.

Author

Tran, L., Reist, J. D., Gallagher, C. P., and Power, M.

Subjects

*MERCURY, *DOLLY Varden (Fish), *MICROSTRUCTURE, *ARCTIC char

Abstract

Given the importance of anadromous Northern Dolly Varden as a consumption staple for northern residents and the climate- and development-related impacts on total mercury (THg) concentrations, temporal changes in northern Dolly Varden THg concentrations were assessed between historical (1986–1988) and contemporary (2011–2013) periods from two rivers in the north-western Canadian Arctic. In the Rat River, mean THg changed from 79 ± 42 ng/g ww in 1986–1988 to 109 ± 44 ng/g ww in 2011–2013, while in the Firth River, THg changed from 126 ± 45 ng/g ww in 1986–1988 to 178 ± 47 ng/g ww in 2011–2012. Length adjusted values indicated increases in the Firth River were driven by the increased size of fish, but increases in the Rat River were not. After factoring in size, δ13C and δ15N, [THg] was found to be most influenced over time by fish size, but also significantly modified by temporal period and foodweb position. Relationships between log[THg] versus fork-length and log[THg] versus δ13C have remained constant over time in the Rat River, but not in the Firth River, while relationships between log[THg] versus δ15N have remained constant in the Firth River, but not in the Rat River. Changes in the significance and the slope of the relationships relating δ13C and δ15N to log[THg] suggests underlying bioaccumulative processes are temporally variant and will be sensitive to climate-driven changes in the aquatic environments within which fish live and feed. [ABSTRACT FROM AUTHOR]

Published

2019

47. A degradação ambiental em narrativas de naturalistas do século XIX para a Reserva da Biosfera da Serra do Espinhaço.

Author

Piuzana Mucida, Danielle, Machado Gontijo, Bernardo, de Morais, Marcelino Santos, and Fagundes, Marcelo

Published

2019

48. Environmental forensics approach to source investigation in a mercury contaminated river: Insights from mercury stable isotopes.

Author

Kim, Young Gwang, Kwon, Sae Yun, Washburn, Spencer J., Hong, Yongseok, Han, Seung Hee, Lee, Mikyung, and Park, Ji Hyoung

Subjects

*MERCURY isotopes, *ENVIRONMENTAL forensics, *STABLE isotopes, *MERCURY, *RIVER sediments, *SOLID waste

Abstract

Environmental forensics approach was applied to assess the efficacy of mercury (Hg) stable isotopes for source screening and decision-making in the Hyeongsan River, South Korea. Four Hg contamination scenarios were identified− atmospheric Hg emissions from a steel manufacturing industry, upstream riverine Hg transport, and industrial Hg releases and historical landfill collapse from Gumu Creek. The absence of significant Hg isotope difference between the Hyeongsan River sediments (δ202Hg; −0.46 ± 0.17‰, Δ199Hg; −0.04 ± 0.06‰) and the Gumu Creek sediment (δ202Hg; −0.39 ± 0.26‰, Δ199Hg; −0.04 ± 0.03‰) confirm that Hg source is originated from Gumu Creek. The heterogeneous Hg distribution throughout Gumu Creek and statistically similar Hg isotope ratios between Gumu Creek and solid waste cores from the landfill suggests that the landfill collapse is the dominant source to the Hyeongsan-Gumu system. Present Hg releases is also possible given the elevated and matching Δ199Hg between some riverine sediments and wastewater sampled from the landfill. The ternary mixing model estimates that the landfill collapse and wastewater releases contribute 61 ± 25 % and 22 ± 11 %, and the regional background, reflecting terrestrial runoff using deep sediment cores, explain 17 ± 24 % of Hg to the riverine sediment. We suggest that Hg isotopes can be used for routine source screening in areas where Hg sources are unknown. [Display omitted] • Environmental forensics approach was applied for Hg isotope source tracing. • Four plausible contamination scenarios were assessed in a Hg-contaminated river. • Hg isotopes confirm that historical collapse of a landfill is the dominant Hg source. • Present Hg release is also possible given the elevated wastewater Hg level. • Landfill collapse and wastewater contribute 61 % and 22 % to the Hg-contaminated river. [ABSTRACT FROM AUTHOR]

Published

2024

49. Influence of a hydroelectric dam on fish mercury contamination along the Sinnamary River (French Guiana).

Author

Maury-Brachet, Régine, Dassié, Émilie P., Legeay, Alexia, Gonzalez, Patrice, Feurtet-Mazel, Agnès, Gourand, François, Dominique, Yannick, and Vigouroux, Régis

Subjects

MERCURY, DAMS, FISH surveys, FOOD chains, DAM design & construction, FISHING surveys

Abstract

The Petit Saut hydroelectric dam and the upstream and downstream areas of the Sinnamary River in French Guiana (Amazon basin) have been studied from 1993 to 2020. The nearly thirty-years-long study of the monitoring of total mercury concentration in fish and the physicochemical survey of the environment made it possible to demonstrate the impact of the flooding of the forest and the role of the hydroelectric dam on the methylation of mercury. Results show that the physicochemical modifications generated by the construction of the dam led to a significant production of methylmercury (MeHg) in the anoxic part of the reservoir and downstream of the river leading to a strong spatio-temporal impact of the dam. Seven species of fishes are studied and their mercury concentrations vary according to many parameters: fish diet, position in the water column, site, lake oxycline level and time. • Petit Saut hydroelectric dam impoundment led to fish mercury contamination. • Fish mercury concentrations increases along the food web. • Fish mercury concentrations are heterogeneous along the Sinnamary river continuum. • Decrease in fish mercury concentrations in the dam and downstream since 2008. [ABSTRACT FROM AUTHOR]

Published

2024

50. Using seagrass as a nature-based solution: Short-term effects of Zostera noltei transplant in benthic communities of a European Atlantic coastal lagoon.

Author

Crespo, Daniel, Faião, Rita, Freitas, Vânia, Oliveira, Vitor Hugo, Sousa, Ana I., Coelho, João Pedro, and Dolbeth, Marina

Subjects

ZOSTERA marina, ZOSTERA, SEAGRASSES, EUROPEAN communities, ZOSTERA noltii, ENVIRONMENTAL health, LAGOONS, CORAL reef restoration

Abstract

Seagrass meadows provide several ecological functions that improve the overall ecological health of coastal systems and therefore, it is urgent to promote the restoration of such habitats. In Ria de Aveiro, a coastal lagoon in the Atlantic Coast of Portugal, a restoration initiative was responsible for transplanting the dwarf eelgrass Zostera noltei into a highly degraded area. This eelgrass was used as a nature-based solution (NbS) to mitigate some of the impacts of historical mercury contamination. Comparisons of key-species features (density and biomass), and some community-derived indicators (total density and biomass, species richness and Shannon-Wiener index) between the transplanted seagrass patch, their bare vicinities, and their counterpart habitats on the source area, provided signs of the effectiveness of the restoration action on the benthic communities' recovery. Indicators were higher within the restored meadow, and biomass derived indicators of the restored meadow were similar to the source meadow. • Zostera noltei was used as a nature-based solution to mitigate Hg contamination. • The impact was assessed on key-species, and in community-derived indicators. • Indicators improved in the restored meadow, when compared with the adjacent habitat. • Biomass on the restored meadow was on a par with the source meadow. • Indicators after one year of the transplant are already promising. [ABSTRACT FROM AUTHOR]

Published

2023