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Journal articles on the topic 'Toxicology Keyword 3: Sediments'

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Published: 4 June 2021
Last updated: 4 February 2022

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1

Tsuji, Kiyomi, Hiroaki Masui, Hitoshi Uemura, Yasuaki Mori, and Ken-ichi Harada. "Analysis of microcystins in sediments using MMPB method." Toxicon 39, no. 5 (May 2001): 687–92. http://dx.doi.org/10.1016/s0041-0101(00)00196-3.

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2

Powell, R. T., and M. R. Alexander. "Trace Metal Contamination in Sediments of Barataria Bay, Louisiana." Bulletin of Environmental Contamination and Toxicology 71, no. 2 (August 1, 2003): 308–14. http://dx.doi.org/10.1007/s00128-003-0165-3.

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3

Fingler, S., V. Drevenkar, and Z. Fröbe. "Sorption of Chlorophenolates in Soils and Aquifer and Marine Sediments." Archives of Environmental Contamination and Toxicology 48, no. 1 (December 2004): 32–39. http://dx.doi.org/10.1007/s00244-003-0185-3.

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4

Rao, A. S. "Polycyclic Aromatic Hydrocarbons in Sediments from Kolleru Wetland in India." Bulletin of Environmental Contamination and Toxicology 70, no. 5 (May 1, 2003): 964–71. http://dx.doi.org/10.1007/s00128-003-0076-3.

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5

Ameur, W. Ben, S. Trabelsi, B. EL Bedoui, and M. R. Driss. "Polychlorinated Biphenyls in Sediments from Ghar El Melh lagoon, Tunisia." Bulletin of Environmental Contamination and Toxicology 86, no. 5 (April 5, 2011): 539–44. http://dx.doi.org/10.1007/s00128-011-0258-3.

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6

Wilkens, Justin L., Andrew D. McQueen, Joshua J. LeMonte, and Burton C. Suedel. "Initial Survey of Microplastics in Bottom Sediments from United States Waterways." Bulletin of Environmental Contamination and Toxicology 104, no. 1 (December 23, 2019): 15–20. http://dx.doi.org/10.1007/s00128-019-02762-3.

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7

Ighariemu, Victor, Donatus Chuka Belonwu, and Matthew Owhonda Wegwu. "Level of Petroleum Hydrocarbons in Water and Sediments of Ikoli Creek Bayelsa State Nigeria." Toxicology and Environmental Health Sciences 11, no. 2 (June 2019): 114–19. http://dx.doi.org/10.1007/s13530-019-0395-3.

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8

Pignatello, Joseph J. "Desorption of tetrachloroethene and 1,2-dibromo-3-chloropropane from aquifer sediments." Environmental Toxicology and Chemistry 10, no. 11 (November 1991): 1399–404. http://dx.doi.org/10.1002/etc.5620101104.

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9

Svenson, Anders, Tomas Viktor, and Mikael Remberger. "Toxicity of elemental sulfur in sediments." Environmental Toxicology and Water Quality 13, no. 3 (1998): 217–24. http://dx.doi.org/10.1002/(sici)1098-2256(1998)13:3<217::aid-tox3>3.0.co;2-a.

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10

Xu, Libin, Fengchang Wu, Guojiang Wan, Haiqing Liao, Xiaoli Zhao, and Baoshan Xing. "Relationship between 210Pbex activity and sedimentary organic carbon in sediments of 3 Chinese lakes." Environmental Pollution 159, no. 12 (December 2011): 3462–67. http://dx.doi.org/10.1016/j.envpol.2011.08.020.

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11

Šestinová, Oľga, Lenka Findoráková, and Jozef Hančuľák. "Toxicity Testing of Sediments." Nova Biotechnologica et Chimica 11, no. 2 (December 1, 2012): 111–16. http://dx.doi.org/10.2478/v10296-012-0012-1.

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Abstract This study presents the results of the testing toxicity of the contaminated sediments from the water reservoir of Ružín No.I deposit (Slovak Republic) by using Phytotoxkit tests (MicroBioTests Inc., Belgium). The Phytotoxkit system is a screening tool used for a variety of toxicity testing applications. The advantages of this toxicity bioassay are its speed, relative simplicity and low cost compared to chemical analysis and many other biotests. Evaluation of sediments phytotoxicity was based on the testing of seed germination and the assesment of the root growth decrease of the plant Sinapis alba which allows to complete the assays after only 3 days of incubacion. Chemical analysis of the sediment samples involved determination of heavy metal (Cu, Zn, Ni, As, Sb and Hg) concentration. No potential phytotoxic effect of heavy metals in contaminated sediments was observed in the majority of tested seeds of Sinapis alba.
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12

Widmeyer, Joline R., and Leah I. Bendell-Young. "Heavy Metal Levels in Suspended Sediments, Crassostrea gigas, and the Risk to Humans." Archives of Environmental Contamination and Toxicology 55, no. 3 (January 25, 2008): 442–50. http://dx.doi.org/10.1007/s00244-007-9120-3.

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13

Muohi, A. W., J. M. Onyari, J. G. Omondi, and K. M. Mavuti. "Heavy Metal Distribution in Surface Sediments from Mtwapa and Shirazi Creeks, Kenyan Coast." Bulletin of Environmental Contamination and Toxicology 70, no. 6 (June 1, 2003): 1220–27. http://dx.doi.org/10.1007/s00128-003-0112-3.

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14

Chi, Jie. "Vertical Fluxes and Accumulation of Organochlorine Pesticides in Sediments of Haihe River, Tianjin, China." Bulletin of Environmental Contamination and Toxicology 82, no. 4 (January 9, 2009): 510–15. http://dx.doi.org/10.1007/s00128-008-9630-3.

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15

Canário, J., C. Vale, M. Caetano, and M. J. Madureira. "Mercury in contaminated sediments and pore waters enriched in sulphate (Tagus Estuary, Portugal)." Environmental Pollution 126, no. 3 (December 2003): 425–33. http://dx.doi.org/10.1016/s0269-7491(03)00234-3.

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16

Li, K., H. W. Yin, M. H. Zheng, Z. Y. Rong, and L. J. Jia. "Polychlorinated Dibenzo-p-dioxins, Dibenzofurans and Dioxinlike Biphenyls in Sediments from the Suzhou Creek, China." Bulletin of Environmental Contamination and Toxicology 79, no. 4 (August 4, 2007): 432–36. http://dx.doi.org/10.1007/s00128-007-9250-3.

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17

Hori, Tomiyuki, Naoya Shiota, Takashi Asada, Kikuo Oikawa, and Kuniaki Kawata. "Distribution of Polycyclic Aromatic Hydrocarbons and n-Alkanes in Surface Sediments from Shinano River, Japan." Bulletin of Environmental Contamination and Toxicology 83, no. 3 (May 8, 2009): 455–61. http://dx.doi.org/10.1007/s00128-009-9743-3.

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18

Hui, Yamei, Minghui Zheng, Zhengtao Liu, and Lirong Gao. "PCDD/Fs and Dioxin-Like PCBs in Sediments from Yellow Estuary and Yangtze Estuary, China." Bulletin of Environmental Contamination and Toxicology 83, no. 4 (July 24, 2009): 614–19. http://dx.doi.org/10.1007/s00128-009-9832-3.

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19

Weisbrod, Barbara, Susanna A. Wood, Konstanze Steiner, Ruby Whyte-Wilding, Jonathan Puddick, Olivier Laroche, and Daniel R. Dietrich. "Is a Central Sediment Sample Sufficient? Exploring Spatial and Temporal Microbial Diversity in a Small Lake." Toxins 12, no. 9 (September 9, 2020): 580. http://dx.doi.org/10.3390/toxins12090580.

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(1) Background: Paleolimnological studies use sediment cores to explore long-term changes in lake ecology, including occurrences of harmful cyanobacterial blooms. Most studies are based on single cores, assuming this is representative of the whole lake, but data on small-scale spatial variability of microbial communities in lake sediment are scarce. (2) Methods: Surface sediments (top 0.5 cm) from 12 sites (n = 36) and two sediment cores were collected in Lake Rotorua (New Zealand). Bacterial community (16S rRNA metabarcoding), Microcystis specific 16S rRNA, microcystin synthetase gene E (mcyE) and microcystins (MCs) were assessed. Radionuclide measurements (210Pb, 137Cs) were used to date sediments. (3) Results: Bacterial community, based on relative abundances, differed significantly between surface sediment sites (p < 0.001) but the majority of bacterial amplicon sequence variants (88.8%) were shared. Despite intense MC producing Microcystis blooms in the past, no Microcystis specific 16S rRNA, mcyE and MCs were found in surface sediments but occurred deeper in sediment cores (approximately 1950′s). 210Pb measurements showed a disturbed profile, similar to patterns previously observed, as a result of earthquakes. (4) Conclusions: A single sediment core can capture dominant microbial communities. Toxin producing Microcystis blooms are a recent phenomenon in Lake Rotorua. We posit that the absence of Microcystis from the surface sediments is a consequence of the Kaikoura earthquake two years prior to our sampling.
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20

Schlenk, D., G. Batley, C. King, J. Stauber, M. Adams, S. Simpson, W. Maher, and J. T. Oris. "Effects of Light on Microalgae Concentrations and Selenium Uptake in Bivalves Exposed to Selenium-Amended Sediments." Archives of Environmental Contamination and Toxicology 53, no. 3 (June 14, 2007): 365–70. http://dx.doi.org/10.1007/s00244-006-0248-3.

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21

Manguilimotan, Lebeth C., and Jayzon G. Bitacura. "Biosorption of Cadmium by Filamentous Fungi Isolated from Coastal Water and Sediments." Journal of Toxicology 2018 (October 22, 2018): 1–6. http://dx.doi.org/10.1155/2018/7170510.

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The use of microorganisms in decontaminating the environment encumbered with heavy metal pollutants through biosorption is considered as a good option for bioremediation. This study was conducted to isolate Cadmium (Cd) tolerant fungi from coastal waters and sediments, compare their biosorption capabilities, and identify the isolates with the highest Cd uptake. Water and sediment samples were collected near the effluent sites of industrial belt in Ibo, Lapu-lapu City, Cebu, Philippines. Potato dextrose agar (PDA) plates containing Cd (25, 50, 75, and 100 ppm) were used to isolate Cd tolerant fungi from the samples. The distinct colonies that grew on the highest Cd concentration (100 ppm) were then isolated into pure cultures. The pure cultures of Cd tolerant fungi served as a source of inocula for in vitro biosorption assay using Cd dissolved in potato dextrose broth (PDB) as the substrate. Cd tolerant fungal isolates with the highest Cd uptake were finally identified up to the lowest possible taxon based on their colonial and microscopic characteristics. Most filamentous fungal colonies have grown most at the lower Cd concentrations and least at the higher concentrations. From the characteristics of the fungal growth on the plate with the highest Cd concentration, eight distinct colonies from both sediment and water samples were isolated into pure cultures. Among the eight fungal isolates, only three had significant Cd biosorption efficiency, these were fungal isolate 3 (13.87 %), fungal isolate 6 (11.46 %), and fungal isolate 4 (10.71 %). Two of them (fungal isolates 3 and 4) belong to genus Aspergillus while the other (fungal isolate 6) is a species of Penicillium. The results of this study showed that Cd tolerant fungi with biosorption capacity could be isolated from coastal water and sediments in the vicinity of areas suspected of heavy metal contamination.
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22

Chen, Y., J. C. Bonzongo, and G. C. Miller. "Levels of methylmercury and controlling factors in surface sediments of the Carson River system, Nevada." Environmental Pollution 92, no. 3 (1996): 281–87. http://dx.doi.org/10.1016/0269-7491(95)00112-3.

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23

Amiewalan, F. O., and J. A. Edegbai. "Foraminiferal Biozonation of Late Eocene - Early Oligocene sediments of BC-1 well, Onshore, Western Niger Delta Basin, Nigeria." Journal of Applied Sciences and Environmental Management 25, no. 2 (April 15, 2021): 287–96. http://dx.doi.org/10.4314/jasem.v25i2.24.

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Foraminiferal analysis was carried out on forty (40) ditch cutting samples from BC-1 well in the Onshore, Western Niger Delta at depth intervals of 5590 ft. - 8300 ft. Lithologic description of the samples together with the gamma ray log analytical data indicated the presence of four lithostratigraphic units composed of shale, sandstone, sandy shale and shaly sand corresponding to the continental Benin and paralic Agbada Formations. A total of twelve (12) species defined into eleven (11) genera, six (6) subfamilies and eleven (11) families were recovered. Benthonic and planktonic foraminiferal species constitute approximately 82 % and 18 % respectively. The calcareous benthics make up 44.4 % while the arenaceous benthics representing 37.7% of the total foraminiferal assemblages. Foraminiferal index marker species - Globorotalia opima nana, Nonion oyae, Cassigerinella chipollensis and Spiroplectammina wrightiirevealed that the age of the studied well is from Late Eocene - Early Oligocene epoch. This indicated that both the planktonic and benthonic foraminiferal recovered from the well contained the transition between the Priabonian and the Rupelian age. Three (3) informal foraminiferal zone were established - Nonion oyae zone, Cassigerinella chipollensis zone and undiagnostic zone. The zones compares with foraminiferal markers species whose stratigraphic ranges are well established in the Niger Delta and globally. Keyword: Lithostratigraphic units, Agbada Formation, Eocene, Oligocene and Biozone.
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24

Terence, R. C., and M. A. Masni. "Vertical profile of polycyclic aromatic hydrocarbons in the core sediment found in Langkawi, Kedah." Journal of Environmental Biology 42, no. 3(SI) (May 31, 2021): 849–56. http://dx.doi.org/10.22438/jeb/42/3(si)/jeb-17.

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Aim: To determine the concentration of PAHs by layers in each core sediment around one of Malaysia's tourism-oriented areas and to distinguish and classify the origin of PAHs in core sediments using index of molecular ratios. Methodology: The individual compounds and sources of polycyclic aromatic hydrocarbon (PAHs) were studied in 72 cm and 54 cm long sediment core, each that were taken in the Kuah Jetty and a rural area between Tanjung Ayer and Tanjung Batu Kulat of Langkawi Island. A total of 12 PAHs were determined and quantified by gas chromatography coupled with mass spectrometry (GC-MS). Results: Kuah Jetty, Langkawi's total PAH concentrations of sediment core layers ranged from 45.82 ng g-1 to 252.43 ng g-1. Furthermore, the total PAH concentrations of the sediment core layers from the rural area between Tanjung Ayer and Tanjung Batu Kulat ranged between 28.97 ng g-1 to 312.20 ng g-1. Interpretation: The potential application of a combination of molecular ratios and individual concentrations of PAH in determining the origin and source of pollution in sediments resulted in the determination of low to moderate pollution and indicated mixed sources of PAHs in the study area.
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25

Zubillaga, Alfredo, Luis A. Soto, Diana L. Salcedo, and Alfonso V. Botello. "Presence of Oil Mineral Aggregates (OMAs) in Surface Sediments from Mexico’s Exclusive Economic Zone, NW Gulf of Mexico." Bulletin of Environmental Contamination and Toxicology 101, no. 2 (July 11, 2018): 173–77. http://dx.doi.org/10.1007/s00128-018-2396-3.

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26

Qian, Y., M. H. Zheng, L. Gao, B. Zhang, W. Liu, W. Jiao, X. Zhao, and K. Xiao. "Heavy Metal Contamination and Its Environmental Risk Assessment in Surface Sediments from Lake Dongting, People's Republic of China." Bulletin of Environmental Contamination and Toxicology 75, no. 1 (July 2005): 204–10. http://dx.doi.org/10.1007/s00128-005-0739-3.

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27

Shumilin, Evgueni, Vyacheslav Gordeev, Griselda Rodríguez Figueroa, Liudmila Demina, and Konstantin Choumiline. "Assessment of Geochemical Mobility of Metals in Surface Sediments of the Santa Rosalia Mining Region, Western Gulf of California." Archives of Environmental Contamination and Toxicology 60, no. 1 (May 18, 2010): 8–25. http://dx.doi.org/10.1007/s00244-010-9532-3.

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Soto-Jiménez, M., and F. Páez-Osuna. "Cd, Cu, Pb, and Zn in Lagoonal Sediments from Mazatlán Harbor (SE Gulf of California): Bioavailability and Geochemical Fractioning." Bulletin of Environmental Contamination and Toxicology 66, no. 3 (March 1, 2001): 350–56. http://dx.doi.org/10.1007/s00128-001-0012-3.

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Jara-Marini, M. E., and L. García-Rico. "Distribution of Arsenic in Three Geochemical Fractions of Surface Sediments from Coastal Sites of Sonora, Gulf of California, Mexico." Bulletin of Environmental Contamination and Toxicology 76, no. 4 (April 2006): 677–83. http://dx.doi.org/10.1007/s00128-006-0973-3.

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30

Marziali, Laura, Claudio Roscioli, and Lucia Valsecchi. "Mercury Bioaccumulation in Benthic Invertebrates: From Riverine Sediments to Higher Trophic Levels." Toxics 9, no. 9 (August 24, 2021): 197. http://dx.doi.org/10.3390/toxics9090197.

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Riverine sediments are important sites of mercury methylation and benthic invertebrates may be indicators of Hg exposure to higher organisms. From 2014 to 2018, sediments and invertebrates were collected along a mercury gradient in the Toce River (Northern Italy) and analyzed for THg and MeHg. Concentrations in invertebrates, separated according to taxon and to Functional Feeding Group, ranged from 20 to 253 µg kg−1 dry weight (d.w.) for THg, increasing from grazers (Leuctra, Baetis, Serratella) to predators (Perla). MeHg ranged from 3 to 88 µg kg−1 d.w. in biota, representing 6–53% of THg, while in sediments it was mostly below LOD (0.7 µg kg−1), accounting for ≤3.8% of THg. The Biota-Sediment Accumulation Factor (BSAF, ranging 0.2–4.6) showed an inverse relation to exposure concentrations (THg in sediments, ranging 0.014–0.403 µg kg−1 d.w.) and to organic carbon. THg in invertebrates (up to 73 µg kg−1 wet weight), i.e., at the basal levels of the aquatic trophic chain, exceeded the European Environmental Quality Standard for biota (20 µg kg−1 w.w.), posing potential risks for top predators. Concentrations in adult insects were close to those in aquatic stages, proving active mercury transfer even to terrestrial food chains.
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31

Gardham, Stephanie, Grant C. Hose, Stuart L. Simpson, Chad Jarolimek, and Anthony A. Chariton. "Long-term copper partitioning of metal-spiked sediments used in outdoor mesocosms." Environmental Science and Pollution Research 21, no. 11 (February 22, 2014): 7130–39. http://dx.doi.org/10.1007/s11356-014-2631-3.

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32

Senapathi, Venkatramanan, Selvam Sekar, and Prasanna Mohan Viswanathan. "Recent environmental geochemical trends in water and sediments—a framework on OSPRC." Environmental Science and Pollution Research 28, no. 15 (March 24, 2021): 18421–22. http://dx.doi.org/10.1007/s11356-021-13496-3.

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33

Sibley, Thomas H., Edwin A. Wurtz, and James J. Alberts. "Partition coefficients for 244Cm on freshwater and estuarine sediments." Journal of Environmental Radioactivity 3, no. 3 (January 1986): 203–17. http://dx.doi.org/10.1016/0265-931x(86)90026-3.

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34

Yehouenou A. Pazou, Elisabeth, Judicaël P. Azehoun, Patrick Edorh Aléodjrodo, Nico M. van Straalen, Bert van Hattum, and Cornelis A. M. van Gestel. "Health Risks Associated With Pesticide Residues in Sediments, Fish, and Plants From the Ouémé Valley in the Republic of Bénin." Archives of Environmental Contamination and Toxicology 65, no. 2 (March 28, 2013): 260–65. http://dx.doi.org/10.1007/s00244-013-9895-3.

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35

Sun, Y. Z., B. Zhang, L. R. Gao, Z. T. Liu, and M. H. Zheng. "Polychlorinated Dibenzo-p-Dioxins and Dibenzofurans in Surface Sediments from the Estuary Area of Yangtze River, People's Republic of China." Bulletin of Environmental Contamination and Toxicology 75, no. 5 (November 2005): 910–14. http://dx.doi.org/10.1007/s00128-005-0836-3.

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36

Babcock-Adams, Lydia, Jeffrey P. Chanton, Samantha B. Joye, and Patricia M. Medeiros. "Hydrocarbon composition and concentrations in the Gulf of Mexico sediments in the 3 years following the Macondo well blowout." Environmental Pollution 229 (October 2017): 329–38. http://dx.doi.org/10.1016/j.envpol.2017.05.078.

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37

Moraes Pinto, Lilian, José Dórea, José Bernardi, and Leonardo Gomes. "Mapping the Evolution of Mercury (Hg) Research in the Amazon (1991–2017): A Scientometric Analysis." International Journal of Environmental Research and Public Health 16, no. 7 (March 28, 2019): 1111. http://dx.doi.org/10.3390/ijerph16071111.

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Because the Amazon rain forest is ecologically relevant on a global scale, we applied scientometric techniques to integrate studies dealing with mercury research in this unique ecosystem between 1991 and 2017. Using a combination of co-authorship and co-citation analyses, keyword mapping and overlay visualization of topics in the field, this article identified three major areas in the 26-year period of mercury research: (1) human exposure to mercury (artisanal small-scale gold mining-ASGM) and methylmercury through fish consumption, and their respective risks for human health; (2) mercury accumulation in the environment and its relation to ASGM and atmospheric concentration; and (3) mercury geochemistry and its presence in soils, sediments, and water. The paper also identified the leading institutions related to the published research and respective influential scholars in the context of this study. Overall, the analyses revealed patterns of convergence and divergence between authors, specialization, and interdisciplinary engagement in mercury investigation, thus highlighting strengths and weaknesses of research topics in the field. This scientometric approach could be a useful tool to monitor/assess the implementation of the Minamata Convention.
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McKay, W. A., and M. S. Baxter. "The partitioning of sellafield-derived radiocaesium in scottish coastal sediments." Journal of Environmental Radioactivity 2, no. 2 (January 1985): 93–114. http://dx.doi.org/10.1016/0265-931x(85)90001-3.

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Shen, Jian, Xueying Li, Xinze Wang, Jimeng Feng, Xiaojuan He, Shiyi Jiang, Ailing Zhou, and Xiaoyan Ouyang. "Study on the Release Potential of BPA and Steroid Estrogens in the Sediments of Erhai Lake, a Typical Plateau Lake of China." Bulletin of Environmental Contamination and Toxicology 105, no. 6 (November 11, 2020): 882–91. http://dx.doi.org/10.1007/s00128-020-03040-3.

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Štrok, Marko, Borut Smodiš, and Branko Petrinec. "Natural radionuclides in sediments and rocks from Adriatic Sea." Journal of Radioanalytical and Nuclear Chemistry 286, no. 2 (July 31, 2010): 303–8. http://dx.doi.org/10.1007/s10967-010-0705-3.

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Li, Miao, Shuying Zang, Haifeng Xiao, and Changshan Wu. "Speciation and distribution characteristics of heavy metals and pollution assessments in the sediments of Nashina Lake, Heilongjiang, China." Ecotoxicology 23, no. 4 (January 10, 2014): 681–88. http://dx.doi.org/10.1007/s10646-014-1180-3.

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Gupta, Saurabh, Richa Goyal, and Nagaraja Tejo Prakash. "Biosequestration of lead using Bacillus strains isolated from seleniferous soils and sediments of Punjab." Environmental Science and Pollution Research 21, no. 17 (May 2, 2014): 10186–93. http://dx.doi.org/10.1007/s11356-014-2951-3.

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Arfania, Hamed, Abbas Samadi, Farrokh Asadzadeh, Ebrahim Sepehr, and Deb Jaisi. "Distribution of phosphorous pools in western river sediments of the Urmia Lake basin, Iran." Environmental Science and Pollution Research 25, no. 12 (February 10, 2018): 11614–25. http://dx.doi.org/10.1007/s11356-018-1191-3.

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Maestre, Z., M. Martinez-Madrid, P. Rodriguez, and T. Reynoldson. "Ecotoxicity Assessment of River Sediments and a Critical Evaluation of Some of the Procedures Used in the Aquatic Oligochaete Tubifex tubifex Chronic Bioassay." Archives of Environmental Contamination and Toxicology 53, no. 4 (August 9, 2007): 559–70. http://dx.doi.org/10.1007/s00244-006-0264-3.

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Babu, V., P. Unnikrishnan, G. Anu, and S. M. Nair. "Distribution of Organophosphorus Pesticides in the Bed Sediments of a Backwater System Located in an Agricultural Watershed: Influence of Seasonal Intrusion of Seawater." Archives of Environmental Contamination and Toxicology 60, no. 4 (July 14, 2010): 597–609. http://dx.doi.org/10.1007/s00244-010-9569-3.

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Chao, How-Ran, Ya-Fen Wang, Ding-Yan Lin, Yi-Ting Cheng, and Tsui-Chun Tsou. "Fast Cleanup System Combined with a Dioxin-responsive Element-driven Luciferase Bioassay for Analysis of Polychlorinated Dibenzo-p-dioxins/furans in Sediments and Soils." Bulletin of Environmental Contamination and Toxicology 86, no. 3 (February 5, 2011): 278–82. http://dx.doi.org/10.1007/s00128-011-0205-3.

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Lei, Bingli, Jia Kang, Xuetong Wang, Yingxin Yu, Xiaolan Zhang, Yu Wen, and Yipei Wang. "The levels of PAHs and aryl hydrocarbon receptor effects in sediments of Taihu Lake, China." Environmental Science and Pollution Research 21, no. 10 (February 5, 2014): 6547–57. http://dx.doi.org/10.1007/s11356-014-2542-3.

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Reddy, Yudhistir, Dipnarayan Ganguly, Gurmeet Singh, Mamidala Harikrishna Prasad, Paneer Selvam Arumughan, Kakolee Banerjee, Arumugam Kathirvel, Purvaja Ramachandran, and Ramesh Ramachandran. "Correction to: Assessment of bioavailable nitrogen and phosphorus content in the sediments of Indian mangroves." Environmental Science and Pollution Research 28, no. 31 (April 29, 2021): 42070. http://dx.doi.org/10.1007/s11356-021-14155-3.

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Odumo, Benjamin Okang’, Gregoria Carbonell, Hudson Kalambuka Angeyo, Jayanti Purshottam Patel, Manuel Torrijos, and José Antonio Rodríguez Martín. "Impact of gold mining associated with mercury contamination in soil, biota sediments and tailings in Kenya." Environmental Science and Pollution Research 21, no. 21 (June 19, 2014): 12426–35. http://dx.doi.org/10.1007/s11356-014-3190-3.

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Cesar, Ricardo, Tiago Natal-da-Luz, Edison Bidone, Zuleica Castilhos, Helena Polivanov, and José Paulo Sousa. "Disposal of dredged sediments in tropical soils: ecotoxicological evaluation based on bioassays with springtails and enchytraeids." Environmental Science and Pollution Research 22, no. 4 (September 17, 2014): 2916–24. http://dx.doi.org/10.1007/s11356-014-3559-3.

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