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Many faces of arsenic

Autorzy
Radke Barbara , Dembska Grażyna , Pazikowska-Sapota Grażyna , Galer-Tatarowicz Katarzyna
Wybrane pełne teksty z tego czasopisma
Identyfikatory
DOI
10.1515/ohs-2019-0010
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Arsenic (As) is a natural component of the Earth’s crust. Due to its specific properties, arsenic became e.g. the favorite poison in the 19th century in Europe, a component of an effective insecticide and herbicide in agriculture, a specific chemical weapon during World War II and a medication used to treat various diseases. The bad reputation of this element was confirmed after World War II, when arsenic-based chemical weapons were dumped on the seabed and became a potential threat to the marine ecosystem. The wide distribution of arsenic compounds in the environment necessitated the development of technologies aimed at removing arsenic from the aquatic ecosystem. This study provides a detailed overview of the occurrence, distribution and transformation of arsenic species in the aquatic environment.
Słowa kluczowe
EN
Wydawca
Institute of Oceanography University of Gdańsk
Czasopismo
Oceanological and Hydrobiological Studies
Rocznik
2019
Tom
Vol. 48, No. 1
Strony
90--104
Opis fizyczny
Bibliogr. 84 poz.
Twórcy
autor
Radke Barbara
bradke@im.gda.pl
  • Department of Environmental Protection,Maritime Institute in Gdańsk, Długi Targ 41/42 St., 80-830 Gdańsk, Poland
autor
Dembska Grażyna
  • Department of Environmental Protection,Maritime Institute in Gdańsk, Długi Targ 41/42 St., 80-830 Gdańsk, Poland
autor
Pazikowska-Sapota Grażyna
  • Department of Environmental Protection,Maritime Institute in Gdańsk, Długi Targ 41/42 St., 80-830 Gdańsk, Poland
autor
Galer-Tatarowicz Katarzyna
  • Department of Environmental Protection,Maritime Institute in Gdańsk, Długi Targ 41/42 St., 80-830 Gdańsk, Poland
Bibliografia
  • [1]. Ali, M.M., Ali, M.K., Islam, Md.S. & Rahman, Md.Z. (2016). Preliminary assessment of heavy metals in water and sediment of Karnaphuli River, Bangladesh. ENMM 5: 27-35.
  • [2]. Akhtar, A., Wang, S.X., Ghali, L., Bell, C. & Wen, X. (2017). Recent advances in arsenic trioxide encapsulated nanoparticles as drug delivery agents to solid cancers. J. Biomed. Mater. Res 31(3): 177-188.
  • [3]. Antman, K.H. (2001). Introduction: The history of arsenic trioxide in cancer therapy. Oncologist 6(2): 1-2
  • [4]. Arain, M.B., Kazi, T.G., Baig, J.A., Jamali, M.K., Afridi, H.I. et al. (2009). Determination of arsenic levels in lake water, sediment, and foodstuff from selected area of Sindh, Pakistan: Estimation of daily dietary intake. Food Chem. Toxicol 47: 242-248.
  • [5]. Arms Control Association (2018, January). Chemical Weapons Convention Signatories and States-Parties Retrieved January 23, 2018 from https://www.armscontrol.org/factsheets/cwcsig
  • [6]. ATSDR (2007). Toxicological profile for arsenic. U.S. Department of health and human service. Agency for Toxic Substances and Diseases Registry Retrieved January 21 2015 https://www.atsdr.cdc.gov/toxprofiles/tp.asp?id=22&tid=3
  • [7]. Bartrip, P. (1992). A pennurth of arsenic for rat poison: the arsenic act, 1851 and the prevention of secret poisoning. Med. Hist 36(1): 53-69.
  • [8]. Bastami, K.D., Neyestani, M.R., Shemirani, F., Soltani, F., Haghparast, S. et al. (2015). Heavy metal pollution assessment in relation to sediment properties in the coastal sediments of the southern Caspian Sea. Mar. Pollut. Bull 92(1-2): 237-243.
  • [9]. Bełdowski, J., Long, T. & Söderström, M. (2018). Introduction. In J. Bełdowski, R. Been & E.K. Turmus (Eds.), Towards the monitoring of dumped munitions threat (MODUM). A study of chemical munitions dumpsites in the Baltic Sea (pp. 2-17). The Netherlands: Springer.
  • [10]. Bełdowski, J., Szubska, M., Emelyanov, E., Garnaga, G., Drzewinska, A. et al. (2016a). Arsenic concentrations in Baltic Sea sediments close to chemical munitions dumpsites. Deep-Sea Res. 2 Top. Stud. Oceanogr 128: 114-122.
  • [11]. Bełdowski, J., Klusek, Z., Szubska, M., Turja, R., Bulczak, A.I. et al. (2016b). Chemical Munitions Search & Assessment-an evaluation of the dumped munitions problem in the Baltic Sea. Deep-Sea Res. 2 Top. Stud. Oceanogr 128: 85-95.
  • [12]. Bojanowska, I., Gliwicz, T., Kozłowska, O. & Szyborska-Kaszycka, J. (2010). Charakterystyka geochemiczna wód rzeki Wieprz. Górnictwo i Geologia 5(4): 51-62. (In Polish).
  • [13]. Brooks, W.E. (2013). Metal Prices in the United States through 2010 U.S. Geological Survey Scientific Investigations Report 2012-5188. Retrieved March 5 2013 https://pubs.usgs.gov/sir/2012/5188/sir2012-5188.pdf
  • [14]. Brininstool, M. (2017). Mineral Commodity Summaries 2017 U.S. Geological Survey, Reston. Retrieved February 9 2017 https://minerals.usgs.gov/minerals/pubs/mcs/2017/mcs2017.pdf
  • [15]. Canadian Council of Ministers of the Environment. (1999). Glossary. Canadian environmental quality guidelines Canadian Council of Ministers of the Environment, Winnipeg.
  • [16]. Chetia, M., Chatterjee, S., Banerjee, S., Nath, M.J., Singh, L. et al. (2011). Groundwater arsenic contamination in Brahmaputra river basin: a water quality assessment in Golaghat (Assam), India. Environ. Monit. Assess 173: 371-385.
  • [17]. Das, K.K., Dastidar, S.G., Chakrabarty, S. & Banerjee, S.K. (1980). Toxicity of mercury: a comparative study in air-breathing and non air-breathing fish. Hydrobiology 68(3): 225-229.
  • [18]. Deycard, V.N., Schafer, J., Blanc, G., Coynel, A., Petit, J.C.J. et al. (2014). Contribution and potential impacts of seven priority substances (As, Cd, Cu, Cr, Ni, Pb and Zn) to a major European Estuary (Gironde Estuary, France) from urban waste water. Mar. Chem 167: 123-134.
  • [19]. Douer, D., Hu, W., Giralt, S., Lill, M. & DiPersio, J. (2003). Arsenic Trioxide (trisenox) Therapy for Acute Promyelocytic Leukemia in the Setting of Hematopoietic Stem Cell Transplantation. Oncologist 8(2): 132-140.
  • [20]. Duran, R., Bielen, A., Paradžik, T., Gassie, C., Pustijanac, E. et al. (2015). Exploring Actinobacteria assemblages in coastal marine sediments under contrasted Human influences in the West Istria Sea, Croatia. Environ. Sci. Pollut. Res 22(20): 15215-15229.
  • [21]. Eisler, R. (1988). Arsenic hazards to fish, wildlife, and invertebrates: a synoptic review. U.S. Fish Wildl. Serv. Biol. Rep 85(1.12): 1-65.
  • [22]. Emelyanov, E.M. (2007). The geochemical and geoecological situation of the Gotland Basin in the Baltic Sea where chemical munitions were dumped. Geologija 60: 10-26.
  • [23]. Council Directive 98/83/EC. (1998). Council Directive 98/83/EC of 3 November 1998 on the quality of water intended for human consumption Europe: Offcial Journal of the European Communities.
  • [24]. Frith, J. (2013). Arsenic - the “Poison of Kings” and the “Saviour of Syphilis”. JMVH 21(4): 11-17.
  • [25]. Flora S.J.S. (2015). Arsenic toxicology. In S.J.S. Flora (Ed.), Handbook of arsenic toxicology London, San Diego, Waltham, Oxford: Elsevier Inc.
  • [26]. Ghori, Z., Iftikhar, H., Bhatti, M.F., Nasar-um-Minullah, Sharma, I. et al. (2016). Phytoextraction: the use of plants to remove heavy metals from soil. In P. Ahmad (Ed.), Plant Metal Interaction: Emerging Remediation Techniques. 1st Edition (pp. 385-409). Amsterdan, Netherlands, Oxford, UK, Waltham, USA: Elsevier Inc.
  • [27]. Gomez-Caminero, A., Howe, P., Hughes, M., Kenyon, E., Lewis, D.R. et al. (2001). Environmental Health Criteria 224: Arsenic and Arsenic compounds (2nd edition) Geneva: World Health Organization.
  • [28]. Grimwood, M.J. & Dixon, E. (1997). Assessment of risks posed by List II metals to Sensitive Marine Areas (SMAs) and adequacy of existing environmental quality standards (EQSs) for SMA protection Report to English Nature.
  • [29]. Han, D., Cheng, J., Hu, X., Jiang, Z., Mo, L. et al. (2017). Spatial distribution, risk assessment and source identification of heavy metals in sediments of the Yangtze River Estuary. China. Mar. Pollut. Bull 115(1-2): 141-148.
  • [30]. Hierro, A., Olías, M., Cánovas, C.R., Martínc, J.E. & Bolivar, J.P. (2014). Trace metal partitioning over a tidal cycle in an estuary affected by acid mine drainage (Tinto estuary, SW Spain). Sci. Total Environ (497-498): 18-28.
  • [31]. Hong, S., Kwon, H-O., Choi, S-D., Lee, J-S. & Khim, J.S. (2016). Arsenic speciation in water, suspended particles, and coastal organisms from the Taehwa River Estuary of South Korea. Mar. Pollut. Bull 108(1-2):155-162.
  • [32]. HMSO. (1989). DoE Circular 7/89 (Circular 16/89 Welsh Office), Department of the Environment and Welsh Office Water and the Environment. 30th March 1989.
  • [33]. Hughes, M.F., Beck, B.D., Chen, Y., Lewis, A.S. & Thomas, D.J. (2011). Arsenic exposure and toxicology: a historical perspectice. Toxicol. Sci 123(2): 305-332.
  • [34]. Izdebska, M., Grzanka, A., Szczepanski, M.A. & Litwiniec, A. (2008). Selected mechanisms of the therapeutic effect of arsenic trioxide in cancer treatment. Postepy Hig. Med. Dosw 62: 463-467.
  • [35]. Jaishankar, M., Tseten, T., Anbalagan N., Mathew, B.B. & Krishnamurthy N.B. (2014). Toxicity, mechanism and health effects of some heavy metals. Interdiscip. Toxicol 7(2): 60-72.
  • [36]. Johnston, R. & Heijnen, H. (2001). Safe water technology. In M.F. Ahmed, M.A. Ali & Z. Adeel (Eds.), Technologies for arsenic removal from drinking water (pp.1-22). Dhaka, Bangladesh: University of Engineering and Technology.
  • [37]. Khalikov, I.S. & Savin, Y.I. (2011). Arsenic Content in Water and Bottom Sediments in the Areas of Chemical Weapon Dumps in the Bornholm Basin of the Baltic Sea. Meteorologiya i Gidrologiya 5: 43-55.
  • [38]. Khan, Md.B., Masiol M., Hofer A. & Pavoli B. (2014). Harmful element in estuarine and coastal system. In C. Bini & J. Bech. (Eds.), PHEs, Environment and human health potentially harmful elements in the environment and the impact on human health (pp. 57-59). Netherlands: Springer.
  • [39]. Klimczak, N. (2016). The Black Masses of la Voisin: How a fortune teller became a murderess in the French Royal Court. Retrieved November 5, 2016, from http://www.ancient-origins.net/history-famous-people/black-masses-la-voisin-how-fortune-teller-became-murderess-french-royal-court-021057
  • [40]. Kumari, B., Kumar, V., Sinha, A.K., Ahsan, J., Ghosh, A.K. et al. (2016). Toxicology of arsenic in fish and aquatic system. Environ. Chem. Lett 15: 43-64.
  • [41]. Lenoble, V., Bouras, O., Deluchat, V., Serpaud, B. & Bollinger, J.C. (2002). Arsenic adsorption onto pillared clays and iron oxides. J. Colloid. Interface. Sci 255(1): 52-58.
  • [42]. Li, L., Pohl, C., Ren, J-L., Schulz-Bull, D., Cao, X-H. et al. (2018) Revisiting the biogeochemistry of arsenic in the Baltic Sea: Impact of anthropogenic activity. Sci. Total Environ 613-614: 557-568.
  • [43]. Lin, Z. & Puls, R.W. (2000). Adsorption, desorption and oxidation of arsenic affected by clay minerals and aging process. Environ. Geol 39(7): 753-759.
  • [44]. Litynska, M., Astrelin, I. & Tolstopalova, N. (2017). Ways of Arsenic Compounds Getting into Natural. MESE 3(1): 50-60.
  • [45]. Magdalan, J., Smolarek, M., Porebska, B., Zawadzki, M. & Dys, P. (2007). Two different clinical cases of acute arsenic trioxide intoxication. Przegl. Lek 64(4-5): 336-338. (In Polish).
  • [46]. Mandal, S.K., Majumder, N., Chowdhury, C., Jana, T.K. & Dutta, B. (2016). Arsenic distribution in waters and its geochemical behavior in sediment of Mahanadi estuary in India. Environ. Monit. Assess 188(8): 461.
  • [47]. Marchina, C., Bianchini, G., Natali, C., Pennisi, M., Colombani, N. et al. (2015). The Po river water from the Alps to the Adriatic Sea (Italy): new insights from geochemical and isotopic (δ18O-δD) data. Environ. Sci. Pollut. Res 22: 5184-5203.
  • [48]. McArthur, JM., Sikdar, P.K. & Ghosal, U. (2012). Waste-water impacts on groundwater: Cl/Br ratios and implications for arsenic pollution of groundwater in the Bengal Basin and Red River Basin, Vietnam. Sci. Total Environ 437: 390-402.
  • [49]. National Driller (2010). Technologies to Remove Arsenic from Drinking Water. Retrieved July, 20, 2010, from https://www.nationaldriller.com/articles/87947-technologies-to-remove-arsenic-from-drinking-water
  • [50]. Nicomel, N.R., Leus, K., Folens, K., Van Der Voort, P. & Du Laing, G. (2015). Technologies for Arsenic Removal from Water: Current Status and Future Perspectives. I. J. Environ. Res. Public Health 13(62): 1-24.
  • [51]. Ning, R. Y. (2002). Arsenic removal by reverse osmosis. Desalination 143(3): 237-241.
  • [52]. Nriagu, J.O. (2002). Arsenic poisoning through the ages. In W.T.Jr. Frankenberger (Ed.), Environmental Chemistry of arsenic (pp.1-26). New York, NY: Marcel Dekker.
  • [53]. Nystrand, M.I., Österholm, P., Changxun, Y. & Åström, M. (2016). Distribution and speciation of metals, phosphorus, sulfate and organic material in brackish estuary water affected by acid sulfate soils. Appl. Geochem 66: 264-274.
  • [54]. Panagiotaras, D. & Nikolopoulos, D. (2015). Arsenic Occurrence and Fate in the Environment; A Geochemical Perspective. J. Earth Sci. Clim. Change 6(4): 1-9.
  • [55]. Petkovšek, S.A.S., Grudnik, Z.M. & Pokorny, B. (2012). Heavy metals and arsenic concentrations in ten fish species from the Šalek lakes (Slovenia): assessment of potential human health risk due to fish consumption Environ. Monit. Assess 184: 2647-2662.
  • [56]. Pietro D.M., Martín-Liñares, Piñeiro,V. & Barral, M.T. (2016). Arsenic Transfer from As-Rich Sediments to River Water in the Presence of Biofilms. J. Chem 2016: 2-14.
  • [57]. Puntoriero, M.L., Volpedo, A.V. & Cirelli, A.F. (2014). Arsenic, Fluoride, and Vanadium in surface water (Chasicó Lake, Argentina). Front. Environ. Sci 2(23): 1-5.
  • [58]. Radke, B., Jewell, L., Piketh, S. & Namiesnik, J. (2014). Arsenic-based warfare agents: production, use and destruction. Crit. Rev. Env. Sci. Technol 44(14): 1525-1576.
  • [59]. Reinsel, M. (2015, March). Arsenic removal technologies: A review Water Online. Retrieved March 11 2015 https://www.wateronline.com/doc/arsenic-removal-technologies-a-review-0001
  • [60]. Rmalli, S., Malli, S.W., Harrington, C.F., Ayub, M. & Haris, P. I. (2005). A Biomaterial Based Approach for Arsenic Removal from Water. J. Environ. Monit 7(4): 279-282.
  • [61]. Rowe, J. (2013, November). Alternative arsenic removal. Water and Waste Digest. Retrieved November, 11, 2013, from https://www.wwdmag.com/arsenic/alternative-arsenic-removal
  • [62]. Saint-Jacques, N., Parker, L., Brown, P. & Dummer, T.J.B. (2014). Arsenic in drinking water and urinary tract cancers: a systematic review of 30 years of epidemiological evidence. Environ. Health 13(44): 1-32.
  • [63]. Salminen, R. (2005). Geochemical atlas of Europe. Part I Background information, methodology and maps Geological Survey of Finland, Espoo.
  • [64]. Sancha, A.M. (2006). Review of coagulation technology for removal of arsenic: case of Chile. J. Health Popul. Nutr 24(3): 267-272.
  • [65]. Sanders, J.G. (1986). Direct and indirect effects of arsenic on the survival and fecundity of estuarine zooplankton. Can. J. Fish. Aquat. Sci 43: 694-699.
  • [66]. Singh, N., Kumar, D. & Sahu, A. (2007). Arsenic in the environment: effects on human health and possible prevention. J. Environ. Biol 28(2 Suppl): 359-365.
  • [67]. Smith, I.N.H., Edwards, V. (1992). Revised Environmental Quality Standards for Arsenic in water WRc report to the Department of the Environment DoE 2633/1.
  • [68]. Souri, Z., Karimi, N. & Sandalio, L.M. (2017). Arsenic Hyperaccumulation Strategies: An Overview. Front. Cell Dev. Biol 5(67): 1-8.
  • [69]. Smedley, P.L. & Kinniburgh, D.G. (2002). A review of the source, behaviour and distribution of arsenic in natural waters. Appl. Geochem 17: 517-568.
  • [70]. Subramanian, V., Madhavan, N. & Naqvi, S.A.S. (2002). Arsenic in Our Environment - Critical Review. In V. Subramanian (Ed.), Environmental Hazards in South Asia (pp. 189-211). New Delhi Capital Books Private Limited.
  • [71]. Thomson, D., Maher, W. & Foster, S. (2007). Arsenic and selected elements in inter-tidal and estuarine marine algae, southeast coast, NSW, Australia. Appl. Organometal. Chem 21: 396-411.
  • [72]. Truus, K., Viitak, A., Vaher, M., Muinasma, U., Paasrand, K. et al. (2007). Comparative determination of microelements in Baltic seawater and brown algae samples by atomic absorption spectrometric and inductively coupled plasma methods. Proc. Estonian Acad. Sci. Chem 56(3): 122-133.
  • [73]. UKMPA. (2001). Toxic substance profile: Arsenic UK Marine Special Arseas of Conservation. Retrieved October, 2001 from http://www.ukmarinesac.org.uk/index.htm
  • [74]. U.S. EPA. (2002). Arsenic treatment technologies for soil waste and water Cincinnati, OH: U.S. EPA/National Service Center for Environmental Publications (EPA-542-R-02-004).
  • [75]. Uscinowicz, S. (2011). Geochemistry of Baltic Sea Surface Sediments Warsaw, Poland: Polish Geological Institute.
  • [76]. Vallius, H. (2014). Heavy metal concentrations in sediment cores from the northern Baltic Sea: Declines over the last two decades. Mar. Pollut. Bull 79(1-2): 359-364.
  • [77]. Varejão, E.V.V., Bellato, C.R., Fontes, M.P.F. & Mello, J.W.V. (2016). Arsenic and trace metals in river water and sediments from the southeast portion of the Iron Quadrangle, Brazil. Environ. Monit. Assess 172: 631-642.
  • [78]. Walker, M. (2010). What is the average cost of arsenic per gram/pound/ton? Average arsenic price? Kaycircle. Retrieved November, 27, 2010, from http://www.kaycircle.com/What-Is-The-Average-Cost-Of-Arsenic-Per-Gram/Pound/Ton-Average-Arsenic-Price
  • [79]. Wei, C. & Zhang, N. (2012). Arsenic Variation in Two Basins of Lake Dianchi. Bull. Environ. Contam. Toxicol 88(4): 605-610.
  • [80]. WHO. (2011, June). Arsenic in drinking-water. Background document for development of WHO Guidelines for Drinking-water Quality Retrieved June 14, 2017, from http://www.who.int/water_sanitation_health/dwq/chemicals/arsenic.pdf
  • [81]. WHO. (2000). Air Quality Guidelines for Europe. Second Edition Copenhagen: World Health Organization Regional Office for Europe. (ISBN 13583 ISSN 0378-2255).
  • [82]. Wu, S., Xu, L., Huang, X., Geng, S., Xu, Y. et al. (2016). Arsenic induced complete remission in refractory T-ALL patient with a distinct T-cell clonal evolution without molecular complete remission: A case report. Oncol. Lett 11(6): 4123-4130.
  • [83]. Wurl, O., Shelley, R.U., Landing, W.M. & Cutter, G.A (2015). Biogeochemistry of dissolved arsenic in the temperate to tropical North Atlantic Ocean. Deep-Sea Res. 2 Top. Stud. Oceanogr 116: 240-250.
  • [84]. Zohra, B.S. & Habib, A. (2016). Assessment of heavy metal contamination levels and toxicity in sediments and fishes from the Mediterranean Sea (southern coast of Sfax, Tunisia). Environ. Sci. Pollut. Res 23(14): 13954-13963.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2e8e0417-1244-47f6-84c6-3f3deef869b3
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