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Rare earth elements (REEs) in recent decade are widely used and lead to the accumulation of REE in the environment and human body. The aim of this study was to evaluate the concentrations of REEs in soil and human body (scalp hair and urine) of peo-ple living in agricultural soil near smelting and mining areas in Hezhang County, China. The results showed that mean concentrations of determined REEs in agricultural soil from smelting areas were higher than background. However, concentration was slightly higher in soil in mining area. In addition, REEs concentrations of hair and urine in smelting areas were higher than those in mining areas.ΣREEs for soil in mining and smelting areas were 177.79 and 277.06 mg/kg, respectively.ΣREEs for hair in mining and smelting were 1.13 and 1.55 mg/kg, respectively, andΣREEs for urine in mining and smelting were 0.58 and 0.59 μg/L, respectively. Results showed that La, Ce and Nd were enriched in soil, hair and urine. Eu in smelting area showed a positive anomaly. In smelting and mining areas, females were more likely than male to expose to REEs. The relationship between REEs concentration and age group showed that hair’s high concentrations of REE existed in 18–40 years age for people from smelting areas and females from mining areas. While high concentrations distributed in the age of 41–65 for males from mining area. However, urine did not present similar distribution for different age group. Compared with hair and urine, soil showed the same distribution of REEs. And according to the Ce/Ce* value vs. LaN/YbN ratio showed that hair and soil tended to increase, with the stability of Ce/Ce* value. Thus the distri-bution of REEs in soil was closely related with the accumulation in human body. This is a preliminary study which may be suggested to the other research, and this study data may be useful for adding up the data pool on REEs levels in China.

参考文献

[1] Seishiro Hirano;Kazuo T. Suzuki.Exposure, Metabolism, and Toxicity of Rare Earths and Related Compounds[J].Environmental Health Perspectives,1996suppl 1(suppl 1):85-95.
[2] ZHU Weifang;XU Suqin;ZHANG Hui;SHAO Pingping;WU Dongsen;YANG Wenjiao;FENG Jia.Investigation on the intelligence quotient of children in the areas with high REE background (I) -- REE bioeffects in the REE-high areas of southern Jiangxi Province[J].Chinese science bulletin,199623(23):1977-1981.
[3] 汪淼;沈美庆;王建强;魏光曦;李航;王军.Cerium based shells with palladium cores encapsulated:an efficient catalyst for carbon monoxide oxidation[J].稀土学报(英文版),2014(12):1114-1119.
[4] 何立莹;苏玉民;蒋兰宏;石士考.Recent advances of cerium oxide nanoparticles in synthesis, luminescence and biomedical studies:a review[J].稀土学报(英文版),2015(8):791-799.
[5] He ML;Wang YZ;Xu ZR;Chen ML;Rambeck WA.Effect of dietary rare earth elements on growth performance and blood parameters of rats[J].Journal of Animal Physiology and Animal Nutrition,20035/6(5/6):229-235.
[6] Porru S;Placidi D;Quarta C;Sabbioni E;Pietra R;Fortaner S.The potencial role of rare earths in the pathogenesis of interstitial lung disease: a case report of movie projectionist as investigated by neutron activation analysis.[J].Journal of trace elements in medicine and biology: Organ of the Society for Minerals and Trace Elements (GMS),20014(4):232-236.
[7] Feng L;He X;Xiao H;Li Z;Li F;Liu N;Chai Z;Zhao Y;Zhang Z.Ytterbium and trace element distribution in brain and organic tissues of offspring rats after prenatal and postnatal exposure to ytterbium.[J].Biological trace element research,20071/3(1/3):89-104.
[8] Kobayashi K;Shida R;Hasegawa T;Satoh M;Seko Y;Tohyama C;Kuroda J;Shibata N;Imura N;Himeno S.Induction of hepatic metallothionein by trivalent cerium: role of interleukin 6.[J].Biological & pharmaceutical bulletin,200510(10):1859-1863.
[9] Ming Y.;Bing L..Determination of rare earth elements in human hair and wheat flour reference materials by inductively coupled plasma mass spectrometry with dry ashing and microwave digestion[J].Spectrochimica Acta, Part B. Atomic Spectroscopy,199810(10):1447-1454.
[10] Amarasiriwardena CJ.;Potula V.;Korrick S.;Hu H.;Lupoli N..Determination of the total arsenic concentration in human urine by inductively coupled plasma mass spectrometry: a comparison of the accuracy of three analytical methods[J].The Analyst: The Analytical Journal of the Royal Society of Chemistry: A Monthly International Publication Dealing with All Branches of Analytical Chemistry,19983(3):441-445.
[11] Bi XY;Feng XB;Yang YG;Qiu GL;Lia GH.Quantitative assessment of cadmium emission from zinc smelting and its influences on the surface soils and mosses in Hezhang County, Southwestern China[J].Atmospheric environment,200622(22):4228-4233.
[12] Feng XB;Li GH;Qiu GL.A preliminary study on mercury contamination to the environment from artisanal zinc smelting using indigenous methods in Hezhang County, Guizhou, China: Part 2. Mercury contaminations to soil and crop[J].Science of the Total Environment,20061(1):47-55.
[13] 李广辉;冯新斌;仇广乐.贵州省赫章县土法炼锌过程中汞的释放量初步研究[J].环境科学学报,2005(6):836-839.
[14] Stadlbauer C;Prohaska T;Reiter C;Knaus A;Stingeder G.Time-resolved monitoring of heavy-metal intoxication in single hair by laser ablation ICP-DRCMS[J].Analytical and bioanalytical chemistry,20053(3):500-508.
[15] LLerena,F.;Maynar,M.;Barrientos,G.;Palomo,R.;Robles,M.C.;Caballero,M.J..Comparison of urine toxic metals concentrations in athletes and in sedentary subjects living in the same area of Extremadura (Spain)[J].European journal of applied physiology,20128(8):3027-3031.
[16] Loska K.;Wiechula D..Application of principal component analysis for the estimation of source of heavy metal contamination in surface sediments from the Rybnik Reservoir[J].Chemosphere,20038(8):723-733.
[17] 肖燕飞;刘向生;冯宗玉;黄小卫;黄莉;陈迎迎;吴文远.Role of minerals properties on leaching process of weathered crust elution-deposited rare earth ore[J].稀土学报(英文版),2015(5):545-552.
[18] Bettinelli M.;Spezia S.;Terni C.;Ronchi A.;Balducci C.;Minoia C..Determination of rare earth elements in urine by electrothermal vaporization inductively coupled plasma mass spectrometry[J].Rapid Communications in Mass Spectrometry: RCM,20026(6):579-584.
[19] Binggan Wei;Yonghua Li;Hairong Li;Jiangping Yu;Bixiong Ye;Tao Liang.Rare earth elements in human hair from a mining area of China[J].Ecotoxicology and Environmental Safety,2013Oct.1(Oct.1):118-123.
[20] Feng L;Xiao H;He X;Li Z;Li F;Liu N;Zhao Y;Huang Y;Zhang Z;Chai Z.Neurotoxicological consequence of long-term exposure to lanthanum.[J].Toxicology Letters: An International Journal Providing a Forum for Original and Pertinent Contributions in Toxicology Research,20062(2):112-120.
[21] Zaichick, Sofia;Zaichick, Vladimir;Karandashev, Vasilii;Nosenko, Sergey ..Accumulation of rare earth elements in human bone within the lifespan[J].Metallomics. integrated biometal science,20112(2):186-194.
[22] Barbosa-F Jr;Correa-Rodrigues MH;Buzalaf MR;Krug FJ;Gerlach RF;Tanus-Santos JE.Evaluation of the use of salivary lead levels as a surrogate of blood lead or plasma lead levels in lead exposed subjects.[J].Archives of Toxicology,200610(10):633-637.
[23] Marta Esteban;Argelia Castano.Non-invasive Matrices In Human Biomonitoring: A Review[J].Environment international,20092(2):438-449.
[24] Shi-Lu Tong;Wang-Zhao Zhu;Zhao-Hua Gao;Yu-Xiu Meng;Rui-Ling Peng;Guo-Cheng Lu.Distribution Characteristics of Rare Earth Elements in Children's Scalp Hair from a Rare Earths Mining Area in Southern China[J].Journal of environmental science and health, Part A. Toxic/hazardous substances & environmental engineering,20049(9):2517-2532.
[25] 张帆;成海容;王祖武;陈宏玲;刘佳;吕效谱.武汉大气PM2.5中稀土元素的组成特征和来源分析[J].环境科学与技术,2014(2):69-73,137.
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