Abstract
Paracatu River Basin, Minas Gerais, Brazil, houses long areas of irrigated agriculture and gold-, lead-, and zinc-mining activities. This region has a prevalence of sulfide minerals and a natural occurrence of high levels of arsenopyrite. In this work, surface water, groundwater, sediments and local vegetable samples were collected in October 2010 and November 2011 and were analyzed to evaluate arsenic (As) distribution, mobility, and transport in these environmental compartments. All sediment samples (738–2,750 mg kg−1) and 37 % of the water samples [less than the limit of detection (LOD) to 110 µg L−1] from the rivers and streams of Paracatu had As concentrations greater than the quality standards established by national and international environmental organizations (5.9 mg kg−1 for sediments and 10 µg L−1 for water). Most vegetable samples had As concentrations within the normal range for plants (lower than the LOD to 120 mg kg−1). A correlation among As concentrations in water, sediment, and vegetable samples was verified.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Agency for Toxic Substances and Disease Registry (2011) Priority list of hazardous substances. http://www.atsdr.cdc.gov/spl/resources/ATSDR_2011_SPL_Detailed_Data_Table.pdf. Accessed 25 Feb 2014
Almeida BS (2009) Geoquímica dos filitos carbonosos do depósito Morro do Ouro, Paracatu, Minas Gerais. Dissertation, Universidade de Brasília, Brasilia, Brazil
Anawar HM, Akai J, Mihaljevic M, Sikder AM, Ahmed G, Tareq SM et al (2011) Arsenic contamination in groundwater of Bangladesh: perspectives on geochemical, microbial and anthropogenic issues. Water 3:1050–1076
Anawar HM, Garcia-Sanchez A, Hossain MN, Akter S (2012) Evaluation of health risk and arsenic levels in vegetables sold in markets of Dhaka (Bangladesh) and Salamanca (Spain) by hydride generation atomic absorption spectroscopy. Bull Environ Contam Toxicol 89:620–625
Andrade RP (2007) Controle da mobilidade geoquímica do arsênio em ambiente de drenagem ácida de mina. Dissertation, Universidade Estadual de Campinas, Campinas, Brazil
Andrade RP, Figueiredo BR, Mello JWV, Santos JCZ, Zandonadi LU (2008) Control of geochemical mobility of arsenic by liming in materials subjected to acid mine drainage. J Soil Sediment 8:123–129
Andrade RP, Mello JWV, Windmöller CC, Silva JBB, Figueiredo BR (2012) Evaluation of arsenic availability in sulfidic materials from gold mining areas in Brazil. Water Air Soil Pollut 223:4679–4686
Assis RA (2006) Aperfeiçoamento e Aplicações de uma metodologia para análise de especiação de arsênio por eletroforese capilar com detector de ICPMS. Thesis, Pontifícia Universidade Católica do Rio de Janeiro, Rio de Janeiro, Brazil
Assis IR (2010) Adsorção e disponibilidade de arsênio em solos com diferentes composições mineralógicas. Thesis, Universidade Federal de Viçosa, Viçosa, Brazil
Baig JA, Kazi TG (2012) Translocation of arsenic contents in vegetables from growing media of contaminated areas. Ecotoxicol Environ Saf 75:27–32
Baig JA, Kazi TG, Shah AQ, Arain MB, Afridi HI, Kandhro GA et al (2009) Optimization of cloud point extraction and solid phase extraction methods for speciation of arsenic in natural water using multivariate technique. Anal Chim Acta 651:57–63
Beavington F, Cawse PA, Wakenshaw A (2004) Comparative studies of atmospheric trace elements: improvements in air quality near a copper smelter. Sci Total Environ 332:39–49
Benin AL, Sargent JD, Dalton M, Roda S (1999) High concentrations of heavy metals in neighborhoods near ore smelters in Northern Mexico. Environ Health Perspect 107:279–284
Borba RP, Figueiredo BR, Matschullat J (2003) Geochemical distribution of arsenic in waters, sediments and weathered gold mineralized rocks from Iron Quadrangle, Brazil. Environ Geol 4:39–52
Borba RP, Figueiredo BR, Cavalcanti JA (2004) Arsênio na água subterrânea em Ouro Preto e Mariana, Quadrilátero Ferrífero (MG). Rev Esc Minas 57:45–51
Bundschuh J, Litter MI, Parvez F, Román-Ross G, Nicolli HB, Jean JS et al (2012) One century of arsenic exposure in Latin America: a review of history and occurrence from 14 countries. Sci Total Environ 429:2–35
Canadian Council of Ministers of the Environment (1999) Canadian sediment quality guidelines for the protection of aquatic life: Arsenic. CCME, Winnipeg
Carabantes AG, de Fernicola NAGG (2003) Arsénico en el água de bebida: un problema de salud pública. Rev Bras Ciênc Farm 39:365–372
Cebrian ME, Albores A, Aquilar M, Blakely E (1983) Chronic arsenic poisoning in the North of Mexico. Hum Toxicol 2:121–133
Chakraborty AK, Saha KC (1987) Arsenical dermatosis from tubewell water in West Bengal. Indian J Med Res 85:326–334
Chen SL, Dzeng SR, Yang MH, Chiu KH, Shich GM, Wai CM (1994) Arsenic species in groundwaters of the blackfoot disease area, Taiwan. Environ Sci Technol 28:877–881
Comitê da Sub-Bacia Hidrográfica Mineira do Rio Paracatu (2005) Plano Diretor de Recursos Hídricos da Bacia Hidrográfica do Rio Paracatu. http://comites.igam.mg.gov.br/new/index.php?option=com_contentandtask=viewandid=875andItemid=819. Accessed 27 Mar 2014
Companhia de Pesquisa de Recursos Minerais (2003) Arsênio. http://www.cprm.gov.br/pgagem/puerto/arsenio.pdf. Accessed: 25 February 2014
Conselho Nacional do Meio Ambiente (2005) Resolução 357 de 17 de março de 2005—Dispõe sobre a classificação dos corpos d’água e diretrizes ambientais para o seu enquadramento, bem como estabelece as condições e padrões de lançamento de efluentes, e dá outras providências. CONAMA, Brasília
Conselho Nacional do Meio Ambiente (2008) Resolução 396 de 03 de abril de 2008—Dispõe sobre a classificação e diretrizes ambientais para o enquadramento das águas subterrâneas e dá outras providências. Publicado no D.O.U. no 66 de 07 de abril de 2008, Seção I, 64-68
Costa Júnior CN (1997) Caracterização mineralógica dos diferentes tipos de minérios e concentrado de flotação da mina Morro do Ouro, Paracatu, MG. Dissertation, Universidade de Brasília, Brasilia, Brazil
Csavina J, Field J, Taylor MP, Gao S, Landázuri A, Betterton EA et al (2012) A review on the importance of metals and metalloids in atmospheric dust and aerosol from mining operations. Sci Total Environ 433:58–73
Cullen WR (2014) Chemical mechanism of arsenic biomethylation. Chem Res Toxicol 27:457–461
Deschamps E, Matschullat J (2007) Arsênio antropogênico e natural: Um estudo em regiões do Quadrilátero Ferrífero. Fundação Estadual de Meio Ambiente, Belo Horizonte
Deschamps E, Ciminelli VST, Lange FT, Matschullat J, Raue B, Schmidt H (2002) Soil and sediment geochemistry of the Iron Quadrangle, Brazil. J Soil Sed 2:216–222
Empresa Brasileira de Pesquisa Agropecuária (1997) Manual de métodos de análise de solo, 2nd edn. EMBRAPA, Rio de Janeiro
Farías SS, Casa VA, Vásquez C, Ferpozzi L, Pucci GN, Cohen IM (2003) Natural Contamination with arsenic and other trace elements in ground waters or Argentine Pampean Plain. Sci Total Environ 309:187–199
Figueiredo BR (2010) Minérios e ambiente. Editora UNICAMP, Campinas
Figueiredo BR, Borba RP, Angélica RS (2007) Arsenic occurrence in Brazil and human exposure. Environ Geochem Health 29:109–118
Goering PL, Aposhian HV, Mass MJ, Cebrián M, Beck BD, Waalkes MP (1999) The enigma of arsenic carcinogenesis: role of metabolism. Toxicol Sci 49:5–14
Gurgel BS (2007) Avaliação de impactos ambientais por estudo geoquímico na Bacia do Córrego Rico, Paracatu–MG. Dissertation, Universidade de Brasília, Brasilia, Brazil
Hopenhayn-Rich C, Biggs ML, Kalman DA, Moore LE, Smith AH (1996) Arsenic methylation patterns before and after change from high to lower arsenic concentrations in drinking water. Environ Health Perspect 104:1200–1207
Hopenhayn-Rich C, Biggs ML, Smith AH (1998) Lung and kidney cancer mortality associated with arsenic in drinking water in Córdoba, Argentina. Int J Epidemiol 27:561–569
Hunt KM, Srivastava RK, Elmets CA, Athar M (2014) The mechanistic basis of arsenicosis: pathogenesis of skin cancer. Cancer Lett 354:211–219
Instituto Mineiro de Gestão das Águas (2010) Monitoramento da Qualidade das águas superficiais na Bacia do Rio São Francisco e afluentes em 2009—Relatório anual. IGAM, Belo Horizonte
Keng JCW, Uehara G (1974) Chemistry, mineralogy and taxonomy of oxysols and ultisols. Proc Soil Crop Sci Soc 33:119–126
Ladeira ACQ, Ciminelli VST (2000) Mobility of As(III) and As(V) on soils. In: Young C (ed) Minor elements 2000. SME, Englewood, pp 191–198
Ladeira ACQ, Ciminelli VST (2004) Adsorption and desorption of arsenic on an oxisol and its constituents. Water Res 38:2087–2094
Liao VH, Chu Y, Su Y, Lin P, Hwang Y, Liu C et al (2011) Assessing the mechanisms controlling the mobilization of arsenic in the arsenic contaminated shallow alluvial aquifer in the blackfoot disease endemic area. J Hazard Mater 197:397–403
Lomax C, Liu W, Wu L, Xue K, Xiong J, Zhou J et al (2012) Methylated arsenic species in plants originate from soil microorganisms. New Phytol 193:665–672
Machado PLOA, Campos AC, Santos FS (2003) Métodos de preparo de amostras e de determinação de carbono em solos tropicais. EMBRAPA, Rio de Janeiro
Maity S, Chakravarty S, Thakur P, Gupta KK, Bhattacharjee S, Roy BC (2004) Evaluation and standardization of a simple HG AAS method for rapid speciation of As(III) and As(V) in some contaminated groundwater samples of West Bengal, India. Chemosphere 54:1199–1206
Mandal BK, Suzuki KT (2002) Arsenic round the world: a review. Talanta 58:201–235
Matschullat J, Borba RP, Deschamps E, Figueiredo BR, Gabrio T, Schwenk M (2000) Human and environmental contamination in the Iron Quadrangle, Brazil. Appl Geochem 15:181–190
Mello JWV, Roy WR, Talbott JL, Scott J, Stucki JW (2006) Mineralogy and arsenic mobility in arsenic-rich Brazilian soils and sediments. J Soil Sed 6:9–19
Mello JWV, Talbott JL, Scott J, Roy WR, Stucki JW (2007) Arsenic speciation in arsenic-rich Brazilian soils from gold mining sites under anaerobic incubation. Environ Sci Pollut Res 14:388–396
Monteiro LVS, Bittencourt JS, Juliani C, Oliveira TF (2006) Geology, petrography, and mineral chemistry of the Vazante non-sulfide and Ambrósia and Fagundes sulfide-rich carbonate-hosted Zn-(Pb) deposits, Minas Gerais, Brazil. Ore Geol Rev 28:201–234
Mulholland DS (2009) Geoquímica aplicada à avaliação da qualidade de sistemas aquáticos da Bacia do Rio Paracatu (MG). Dissertation, Universidade de Brasília, Brasilia, Brazil
Nguyen KP, Itoi R (2009) Source and release mechanism of arsenic in aquifers of Mekong Delta, Vietnam. J Contam Hydrol 103:58–69
Nguyen VA, Bang S, Viet PH, Kim KW (2009) Contamination of groundwater and risk assessment for arsenic exposure in Hanam province, Vietnam. Environ Int 35:466–472
Nickson RT, Macarthur JM, Burgess WG, Ahmed KM, Ravenscroft P, Rahman M (1998) Arsenic poisoning in Bangladesh groundwater. Nature 395:338
Nickson RT, Macarthur JM, Ravenscroft P, Burgess WG, Ahmed KM (2000) Mechanism of arsenic release to groundwater, Bangladesh and West Bengal. Appl Geochem 15:403–413
Nriagu JO (1994) Arsenic in the environment, part II: human health and ecosystems. Wiley, New York, pp 1–16
Palmieri HEL (2006) Distribuição, especiação e transferência de Hg e As para a biota em areas do sudeste do Quadrilátero Ferrífero, MG. Thesis, Universidade Federal de Ouro Preto, Ouro Preto, Brazil
Pereira JC, Silva AK, Nalini HA Jr, Silva EP, Lena JC (2007) Distribuição, fracionamento e mobilidade de elementos traço em sedimentos superficiais. Quim Nova 30:1249–1255
Phuong NM, Kang Y, Sakurai K, Sugihara M, Kien CN, Bang ND et al (2012) Arsenic contamination in groundwater and its possible sources in Hanam, Vietnam. Environ Monit Assess 184:4501–4515
Rezende PS (2009) Avaliação da distribuição e mobilidade de elementos traço em sedimentos da Bacia Hidrográfica do Rio São Francisco. Dissertation, Universidade Federal de Minas Gerais, Belo Horizonte, Brazil
Rezende PS, Costa LM, Windmöller CC (2013) Total and trivalent inorganic arsenic determination in water samples by selective hydride generation atomic absorption spectrometry. Braz J Anal Chem 10:429–435
Rodrigues LCV (2008) Estudo da disponibilidade química de chumbo e arsênio em sedimentos de corrente e colunas de sedimentos no Vale do Ribeira–SP. Thesis, Universidade Federal Fluminense, Niterói, Brazil
Santos MJ (2012) O ouro e a dialética territorial em Paracatu: Opulência e Resistência. Dissertation, Universidade de Brasília, Brasilia, Brazil
Segnini A, Santos LM, Silva WTL, Martin-Neto L, Borato CE, Melo WJ et al (2008) Estudo comparativo de métodos para a determinação da concentração de carbono em solos com altos teores de Fe (latossolos). Quim Nova 31:94–97
Silva J, Mello JWV, Gasparon M, Abrahão WAP, Ciminelli VST, Jong T (2010) The role of Al-goethites on arsenate mobility. Water Res 44:5684–5692
Silva J, Mello JWV, Gasparon M, Abrahão WAP (2012) Effects on competing anions and iron bioreduction on arsenic desorption. Water Air Soil Pollut 223:5707–5717
Smith AH, Hopenhayn-Rich C, Bates MN, Goeden HM, Hertz-Picciotto I, Duggan HM et al (1992) Cancer risks from arsenic in drinking water. Environ Health Perspect 97:259–267
Sun F, Dempsey BA, Osseo-Asare KA (2012) As(V) and As(III) reactions on pristine and on surface-oxidized pyrite. J Colloid Interface Sci 388:170–175
Tannús MB, Pimentel PF, Castro e Silva MEM, Moreira CVR, Oliveira EC (2001) Projeto Paracatu: Concepção e resultados preliminares. Presented at Jornada Ambiental Sobre el Impacto Ambiental del Mercurio Utilizado por la Minería Aurífera Artesanal em Iberoamérica, Lima, Peru, September 26–28, 2001
Tseng WP, Chu HM, How SW, Fong JM, Lin CS, Yeh S (1968) Prevalence of skin cancer in and endemic area of chronic arsenicism in Taiwan. J Natl Cancer Inst 40:453–463
Tuzen M, Saygi KO, Karaman I, Soylak M (2010) Selective speciation and determination of inorganic arsenic in water, food and biological samples. Food Chem Toxicol 48:41–46
United States Environmental Protection Agency (2001) Methods for collection, storage and manipulation of sediments for chemical and toxicological analyses: Technical manual. EPA 823-B-01-002. USEPA, Office of Water, Washington, DC
United States Environmental Protection Authority, Australia (2007a) EPA guideline: regulatory monitoring and testing water and wastewater sampling. USEPA, South Australia
United States Environmental Protection Authority, Australia (2007b) EPA guideline: regulatory monitoring and testing groundwater sampling. USEPA, South Australia
Vahter M (2002) Mechanisms of arsenic biotransformation. Toxicology 181:211–217
Vieira EC, Kamogawa MY, Lemos SG, Nóbrega JA, Nogueira ARA (2005) Decomposição de amostras de solos assistida por radiação micro-ondas: estratégia para evitar a formação de fluoretos insolúveis. Rev Bras Ciênc Solo 29:547–553
Welch AH, Westjohn DB, Helsel DR, Wanty RB (2000) Arsenic in ground water of the United States: occurrence and geochemistry. Ground Water 38:589–604
World Health Organization (2010) Exposure to arsenic: a major public health concern. WHO, Geneva, Switzerland. http://www.who.int/ipcs/features/arsenic.pdf?ua=1. Accessed 20 Nov 2013
Acknowledgments
The authors thank the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, Conselho Nacional de Desenvolvimento Científico e Tecnológico, Fundação de Amparo à Pesquisa do Estado de Minas Gerais, and Centro Federal de Educação Tecnológica de Minas Gerais for their financial support. They are also grateful to the Metallic Trace Laboratories from CDTN and CETEC for the water analysis.
Author information
Authors and Affiliations
Corresponding author
Electronic supplementary material
Below is the link to the electronic supplementary material.
Rights and permissions
About this article
Cite this article
Rezende, P.S., Costa, L.M. & Windmöller, C.C. Arsenic Mobility in Sediments from Paracatu River Basin, MG, Brazil. Arch Environ Contam Toxicol 68, 588–602 (2015). https://doi.org/10.1007/s00244-015-0134-y
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00244-015-0134-y