Paddy soil heavy metal contamination and uptake in rice plants from the adjacent area of Barapukuria coal mine, northwest Bangladesh

Adepoju MO, Adekoya JA (2014) Heavy metal distribution and assessment in stream sediments of River Orle, southwestern Nigeria. Arab J Geosci 7:743–756

Al-Hobaib AS, Al-Jaseem KQ, Baioumy HM, Ahmed AH (2012) Environmental impact assessment inside and around Mahd Adh Dhahab gold mine, Saudi Arabia. Arab J Geosci 4:199–205

Alkorta I, Hernandez-Alica J, Becerril JM, Amezaga I, Albizu I, Garbisu C (2004) Recent findings on the phytoremediation of soils contaminated with environmentally toxic heavy metals and metalloids such as zinc, cadmium, lead and arsenic. Rev Environ Sci Bio/Tech 3:71–90

Allen SE, Grimshaw HM, Rowland AP (1986) Chemical analysis. In: Moore PD, Chapman SB (eds) Methods in plant ecology. Blackwell Scientific, London

Almasoud FI, Usman AR, Al-Farraj AS (2014) Heavy metals in the soils of the Arabian Gulf coast affected by industrial activities: analysis and assessment using enrichment factor and multivariate analysis. Arab J Geosci. doi: 10.1007/s12517-014-1298-x

Antoniadis V, Alloway BJ (2002) The role of dissolved organic carbon in the mobility of Cd, Ni and Zn in sewage sludge-amended soils. Environ Poll 117:515–521

Antoniadis V, Robinson JS, Alloway BJ (2008) Effects of short-term pH fluctuations on cadmium, nickel, lead, and zinc availability to ryegrass in a sewage sludge-amended field. Chemosphere 71:759–764

Aydinalp C, Marinova S (2003) Distribution and forms of heavy metals in some agricultural soils. Pol J Environ Stud 12:629–633

Bhuiyana MAH, Parvez L, Islam MA, Dampare SB, Suzu S (2010) Heavy metal pollution of coal mine-affected agricultural soils in the northern part of Bangladesh. J Hazard Mat 173:384–392

Bruce SL, Noller BN, Grigg AH, Mullen BF, Mulligan DR, Ritchie PJ, Currey N, Ng JC (2003) A field study conducted at Kidston Gold Mine, to evaluate the impact of arsenic and zinc from mine tailing to grazing cattle. Toxicol Lett 137:23–34

Carbonell-Barrachina AA, Jugsujinda A, Burlo F, Delaune RD, Patrick WH (2000) Arsenic chemistry in municipal sewage sludge as affected by redox potential and pH. Water Res 34:216–224

CFSA (Chinese Food Standards Agency) (2005) Hygienic standard for grain-maximum levels of pollutant in rice, GB

Costa M (2000) Chromium and nickel. In: Zalups RK, Koropatnick J (eds) Molecular biology and toxicology of metals. Taylor and Francis, Great Britain

Fernández-Caliani JC, Barba-Brioso C, González I, Galán E (2009) Heavy metal pollution in soils around the abandoned mine sites of the Iberian pyrite belt (southwest Spain). Water Air Soil Pollut 200:211–226

Filgueiras AV, Lavilla I, Bendicho C (2002) Chemical sequential extraction for metal partitioning in environmental solid samples. J Environ Monit 4:823–857

Halim MA, Majumder RK, Zaman MN, Hossain S, Rasul MG, Sasaki K (2013) Mobility and impact of trace metals in Barapukuria coal mining area, northwest Bangladesh. Arab J Geosci 6:4593–4605

Harun-Or-Rashid, Hossain MS, Urbi Z, Islam MS (2014a) Environmental impact of coal mining: a case study on the barapukuria coal mining industry, Dinajpur, Bangladesh. Middle-East J Sci Res 21:268–274

Harun-Or-Rashid, Shanto MAS, Roy DR, Hossain MS, Islam MS, Hoque MMM, Zannat Urbi Z (2014b) Impact of coal mining on soil, water and agricultural crop production: a cross-sectional study on Barapukuria coal mine industry, Dinajpur, Bangladesh. J Environ Sci Res 1(1):1–6

Hoque MMM, Roy DR, Shanta MAS, Roy S (2013) Level of mineral elements in soil and plant roots of the adjacent area of Barapukuria coal mine. J Innov Dev Strateg 7:10–13

Jones C, Jacobsen J (2009) Micronutrients: cycling, testing and fertilizer recommendations. Nutrient management modules 7, #4449-7, Montana State University Extension Service, Bozeman, Montana

Kabata-Pendias A, Pendias H (2001) Trace elements in soils and plants, 3rd edn. CRC Press, Boca Raton

Kashem MA, Singh BR (2001) Metal availability in contaminated soils: I. Effects of flooding and organic matter on changes in Eh, pH and solubility of Cd, Ni and Zn. Nutr Cycl Agroecosyst 61:247–255

Kibria MG, Osman KT, Ahmed MJ (2006) Cadmium and lead uptake by rice (Oryza sativa L.) grown in three different textured soils. Soil Environ 25(2):70–77

Korre A, Durucan S, Koutroumani A (2002) Quantitative-spatial assessment of the risks associated with high Pb loads in soils around Lavrio, Greece. Appl Geochem 17:1029–1045

Liao Q, Evans LJ, Gu X, Fan D, Jin Y, Wang H (2007) A regional geochemical survey of soils in Jiangsu Province, China: preliminary assessment of soil fertility and soil contamination. Geoderma 142:18–28

Liu H, Probst A, Liao B (2005) Metal contamination of soils and crops affected by the Chenzhou lead/zinc mine spill (Hunan, China). Sci Total Environ 339:153–166

Liu LN, Chen HS, Cai P, Liang W, Huang QY (2009) Immobilization and phytotoxicity of Cd in contaminated soil amended with chicken manure compost. J Hazard Mater 163:563–567

Lund LJ, Betty EE, Page AL, Elliot RA (1981) Occurrence of high Cd levels in soil and its accumulation by vegetation. J Environ Qual 10:551–556

Machender G, Dhakate R, Rao STM, Rao BM, Prasanna L (2014) Heavy metal contamination in sediments of Balanagar industrial area, Hyderabad, Andra Pradesh, India. Arab J Geosci 7:513–525

Markert B (1996) Instrumental element and multi-element analysis of plant samples—methods and applications. Wiley, Chichester

McCauley A, Jones C, Jacobsen J (2009) Soil pH and Organic Matter. Nutrient management modules 8, #4449-8, Montana State University Extension Service, Bozeman, Montana

Muller G (1981) Die Schwermetallbelastung der sedimente des Neckars und seiner Nebenflusse: eine Bestandsaufnahme. Chem Zeit 105:157–164

Nganje TN, Adamu CI, Ugbaja AN, Ebieme E, Sikakwe GU (2011) Environmental contamination of trace elements in the vicinity of Okpara coal mine, Enugu, southeastern Nigeria. Arab J Geosci 4:199–205

Papafilippaki A, Gasparatos D, Haidouti C, Stavroulakis G (2007) Total and bioavailable forms of forms of Cu, Zn, Pb and Cr in agricultural soils: a study from the hydrological basin of Keritis, Chania, Greece. Glob NEST J 9:201–206

Rahman AKMR, Hossain SM, Akramuzzaman MM (2010) Distribution of heavy metals in rice plant cultivated in industrial effluent receiving soil. Environ Asia 3(2):15–19

Rogan N, Serafimovski T, Dolenec M, Tasev G, Dolenec T (2009) Heavy metal contamination of paddy soils and rice (Oryza sativa L.) from Kočani Field (Macedonia). Environ Geochem Health 31:439–451

Rogan N, Dolenec T, Serafimovski T, Tasev G, Dolenec M (2010) Distribution and mobility of heavy metals in paddy soils of the Kočani Field in Macedonia. Environ Earth Sci 61:899–907

Ruiz F (2001) Trace metals in estuarine sediments from the southwestern Spanish, Coast. Mar Pollut Bull 42:482–490

Sahibin AR, Zulfahmi AR, Lai KM, Errol P, Talib ML (2002) Heavy metals content of soil under vegetables cultivation in Cameron Highland. In: Omar R, Ali Rahman Z, Latif MT, Lihan T, Adam JH (eds) Proceedings of the Regional Symposium on Environment and Natural Resources. Hotel Renaissance Kuala Lumpur, Malaysia

Salisbury FB, Ross CW (1992) Plant physiology. Wadsworth Publishing Company, Belmont

Sidenko NV, Khozhina EI, Sherriff BL (2007) The cycling of Ni, Zn, Cu in the system “mine tailings–ground water–plants”: a case study. Appl Geochem 22:30–52

StatSoft Inc. (2006) STATISTICA (Data Analysis Software System), version 7

Tissier A, Campbell PGC, Bisson M (1979) Sequential extraction procedure for the speciation of particulate trace metals. Anal Chem 51:844–851

Tremel-Schaub A, Feix I (2005) Soil contamination: soil transfers to the plant, 2nd edn. ADEME/EDP Sciences, Cedex, p 422

Vamerali T, Bandiera M, Mosca G (2010) Field crops for phytoremediation of metal-contaminated land. A review. Environ Chem Lett 8:1–17

Webster R, Oliver MA (2001) Geostatistics for environmental scientists. Wiley, Chichester

Williams PN, Islam S, Islam R, Jahiruddin M, Adomako E, Soliaman ARM, Rahman GKMM, Lu Y, Deacon C, Zhu YG, Meharg AA (2009) Arsenic limits trace mineral nutrition (selenium, zinc, and nickel) in Bangladesh rice grain. Environ Sci Technol 43:8430–8436

Yap DW, Adezrian J, Khairiah J, Ismail BS, Ahmad-Mahir R (2009) The uptake of heavy metals by paddy plants (Oryza sativa) in Kota Marudu, Sabah, Malaysia. Am-Eurasian J Agric Environ Sci 6(1):16–19

Zeng FR, Mao Y, Cheng WD, Wu FB, Zhang GP (2008) Genotypic and environmental variation in chromium, cadmium and lead concentrations in rice. Environ Pollut 153:309–314

Zeng F, Ali S, Zhang H, Ouyang Y, Qiu B, Wu F, Zhang G (2011) The influence of pH and organic matter content in paddy soil on heavy metal availability and their uptake by rice plants. Environ Pollut 159:84–91

Zhao KL, Zhang WW, Zhou L, Liu XM, Xu JM, Huang PM (2009) Modeling transfer of heavy metals in soil-rice system and their risk assessment in paddy fields. Environ Earth Sci 59:519–527

Zhao K, Liu X, Xu J, Selim HM (2010) Heavy metal contaminations in a soil–rice system: identification of spatial dependence in relation to soil properties of paddy fields. J Hazard Mater 181(2010):778–787

Zhuang P, Zou B, Li NY, Li ZA (2009) Heavy metal contamination in soils and food crops around Dabaoshan mine in Guangdong, China: implication for human health. Environ Geochem Health 31:707–715