Abstract
This study was conducted to determine status of heavy metals in agricultural soils under different patterns of land use. A total of 38, 40 and 45 soil samples for bare vegetable field, greenhouse vegetable field, and grain crop field were respectively taken from surface layer (0–20 cm) from selected experimental areas away from suburbs of ten counties (or districts or cities) in four provinces or municipalities of Huabei plain in north China. Information of crop production history, including varieties, rotation systems and fertilizer use, at the corresponding sampling sites was surveyed. Soil total Cu, Zn, Cd, Pb, Cr, As and Hg were measured. The results showed that the contents of total Cu, Zn, Cd, Pb, Cr, As, and Hg in the soil samples, especially soil total Cu and Zn contents, were higher in the bare vegetable field and the greenhouse vegetable field than that in the grain crop field. Long-term use of excessive chemical fertilizers and organic manures in the bare vegetable field and the greenhouse vegetable field contributed to the accumulation of Cu, Zn, and other heavy metals in the soils. The contents of total Cu, Zn, and other heavy metals in soils increased with increasing vegetable production history of the research areas. In comparison with the grain crop field, the comprehensive pollution indices of the seven soil heavy metals and the single-factor pollution indices of soil Zn, Cu, Cd, Cr, and Hg based on the second criterion of Environmental Quality Standard for Soils were significantly higher in the bare vegetable field and the greenhouse vegetable field. Soils from the greenhouse vegetable field were slightly contaminated according to the comprehensive pollution index, and soils from the bare vegetable field and the grain crop field were at the warning heavy metal pollution level. The soils were contaminated with Cd according to the single-factor pollution index. The Cd pollution was relatively more serious in the bare vegetable field and the greenhouse vegetable field than that in the grain crop field. The soils selected with different land use patterns were not contaminated with Zn, Cu, Pb, Cr, As and Hg.
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References
Alexandrovskaya, E. I., & Alexandrovskiv, A. L. (2000). History of the cultural layer in Moscow and accumulation of anthropogenic substances in it. Catena, 41, 249–259.
Andersson, A. (1992). Trace elements in agricultural soils-fluxes, balances and background values. Swedish Environmental Protection Agency. Report, 4077.
Andersson, A., & Bingefors, S. (1985). Trends and annual variations in cadmium concentrations in grain of winter wheat. Acta Agriculturae Scandinavica 35, 339–344.
Biasioli, M., Barberis, R., & Ajmone-Marsan, F. (2006). The influence of a large city on some soil properties and metal content. Science of the Total Environment, 356(1–3), 154–164.
Carlosena, A., Andrade, J. M., & Kubista, M. (1995). Procrustes rotation as a way to compare different sampling seasons in soils. Analytical Chemistry, 67, 2373–2378.
Chai, S. W., Wen, Y. M., Zhang, Y. N., Dong, H. Y., Chen, Y. J., Long, X. B. et al. (2003). The heavy metal content character of agriculture soil in Guangzhou suburbs (In Chinese). China Environmental Science, 23(6), 592–596.
Chen, T. B., Wong, M. H., & Wong, J. M. C. (1997). A study on heavy metal pollution in soil in Hong Kong (In Chinese). Acta Geographica Sinica, 52(3), 228–236.
Deng, Q. J., Song, C. R., Xie, F., He, J. L., Tan, H., Ji, Y. B. et al. (2006). Distribution and evaluation of heavy metals in cultivated soil of Guiyang (In Chinese). Soils, 38(1), 53–60.
Fan, Z. H. (2003). Determination of mercury in soils using atomic fluorescence spectroscopy (In Chinese). Agricultural Environment and Development, 6, 39–40.
FAO. (1988). FAO-UNESCO soil map of the world: Revised legend FAO, world soil resources report. no. 60. Rome: FAO.
Giuffréde López Carnelo L., Ratto de Miguez, S., & Marbán, L. (1997). Heavy metals input with phosphate fertilizers used in Argentina. Science of the Total Environment, 204(3), 245–250.
Hassan, M. J., Wang, F., Ali, S., & Zhang, G. P. (2005). Toxic effect of cadmium on rice as affected by nitrogen fertilizer form. Plant and Soil, 277, 359–365.
Holm, A. E. (1990). coli associated diarrhoea in weaner pigs: zinc oxide added to the feed as a preventative measure. Proceedings of the International Pig Veterinary Society. 11th Congress. Switzerland: Lausanne 1–5 July.
Huang, Y., Guo, Q. R., Ren, H., Wan, H. F., & Yang, G. Y. (2005). A review of the study on heavy metal pollution in urban soils (In Chinese). Tropical Geography, 25(1), 14–18.
Jackson, A. P., & Alloway, B. J. (1992). The transfer of cadmium from agricultural soils to the human food chain. In D. C. Adriano (Ed.), Biogeochemistry of Trace Metals. (pp. 109–158).Lewis publishers: Boca Raton, FL.
Jones, K. C., Symon, C. J., & Johnston, A. E. (1987). Retrospective analysis of an archived soil collection II. Cadmium. Science of the Total Environment, 67, 75–89.
Ju, X. T., Kou, C. L., Christie, P., Dou, Z. X., & Zhang, F. S. (2006). Changes in the soil environment from excessive application of fertilizers and manures to two contrasting intensive cropping systems on the North China Plain. Environmental Pollution, 1–10 (doi:10.1016/j.envpol.2006.04.017).
Li, S. P. (2002). Environmental biology (In Chinese). Beijing: Chinese Agricultural Press, pp 426–442.
Li, X. M., Wang, Z. W., & Deng, X. W. (2005). The assessment of heavy metal pollution in soil in Tianjin suburb (In Chinese). Journal of Tianjin Normal University (Natural Science Edition), 25(1), 69–72.
Lin, C. G. (1996). Soil pollution and its control (In Chinese). Beijing: Chinese Agricultural Press, pp 44–58.
Liu, R. L., Li, S. T., Wang, X. B., & Wang, M. (2005). Contents of heavy metal in commercial organic fertilizers and organic wastes (In Chinese). Journal of Agro-Environment Science, 24(2), 392–397.
Lu, R. K. (2000). Soil and agricultural chemistry analysis (In Chinese). Beijing: Chinese Agricultural Science Press.
Markus, J. A., & Mcbranthey, A. B. (1996). An urban soil study: heavy metals in Globe, Australia. Australian Journal of Soil Research, 34, 453–465.
McLaughlin, M. J., Parker, D. R., & Clarke, J. M. (1999). Metals and micronutrients – food safety issues. Field Crops Research, 60, 143–163.
Mebride, M., Sauve, S., & Hendershot, W. (1997). Solubility control of Cu, Zn, Cd and Pb in contaminated soils. European Journal of Soil Science, 48, 337–346.
Nath, R., Prasad, R., Palinal, V. K., & Chopra, R. K. (1984). Molecular basis of cadmium accumulation. Progress in Food and Nutrition Science, 18, 109–163.
Nicholson, F. A., Smith, S. R., Alloway, B. J., Carlton-Smith, C., & Chambers, B. J. (2003). An inventory of heavy metal inputs to agricultural soils in England and Wales. The Science of the Total Environment, 311, 205–219.
Nordberg, G. F. (1974). Health hazards of environmental cadmium pollution. Ambio, 3, 51–65.
Peng, Y. K., Zhao, S. L., & Wang, B. (2002). A research on mineral nutrients and heavy metal elements in vegetables from suburb of big or medium cities of Shaanxi province (In Chinese). Acta Agriculturae Boreali-occidentalis Sinica, 11(1), 97–100.
Pouyat, R. V., & McDonnell, M. J. (1991). Heavy metal accumulations in forest soils along an urban–rural gradient in southeastern New York, USA. Water, Air and Soil Pollution, 57, 797–807.
Rosen, G. D., & Roberts, P. A. (1996). Comprehensive survey of the response of growing pigs to supplementary copper in feed. London: Field Investigations and Nutrition Service, Ltd.
Sanità di, T. L., & Gabbrielli, R. (1999). Response to cadmium in higher plants. Environmental and Experimental Botany, 41, 105–130.
Shang, J. C., Long, A. M., & Jiang, J. X. (1996). The corresponding analysis of heavy metal pollution of soil in Zhuzhou city (In Chinese). Scientia Geographica Sinica, 16(1), 73–78.
Stigliani, W. M. (1993). Overview of the chemical time bomb problem in Europe. In G. R. B. Meulen, W. M. Stigliani, W. Salomons, E. M. Brigdes, & A. C. Imeson (Eds.), Chemical time bombs. proceedings of the European State-of-the-art conference on delayed effects of chemicals in soils and sediments. Veldhoven, the Netherlands, 1992 (pp. 13–29). The Netherlands: Hoofddorp.
Taylor, M. D. (1997). Accumulation of cadmium derived from fertilizers in New Zealand soils. Science of the Total Environment, 208(1/2), 123–126.
Underwood, E. J., & Suttle, N. F. (1999). The mineral nutrition of livestock, 3rd ed. Wallingford: CABI.
Wagner, G. J. (1993). Accumulation of cadmium in crop plants and its consequences to human health. Advances in Agronomy, 51, 173–212.
Williams, C. H., & David, D. J. (1976). The accumulation of cadmium residues from phosphate fertilizers and their effect on the content of plants. Soil Science, 121, 86–93.
Wu, H. T. (2001). Regional distribution of heavy metals in soils and vegetables of Beijing and their pollution assessment (In Chinese). Ph.D. dissertation, Southwest Agricultural University.
Xia, J. Q. (1996). The detailed explanation of environmental quality standard for soils (In Chinese). Beijing: China Environment Science Press, pp 7–53.
Zhang, C. L., & Bai, H. Y. (2001). Evaluation of heavy metal pollution in soils and vegetables in suburb of Nanjing (In Chinese). Journal of Guangxi Agricultural and biological Science, 20(3), 186–189.
Zhang, M., & Gong, Z. T. (1996). Contents and distribution of some heavy metal elements in the vegetable cultivated soils in China. Acta Pedologica Sinica 33(1), 85–93.
Zhang, Z. Q., & Yang, Y. H. (2001). Status and influencing factors of heavy metal and As pollution in vegetables in Jingzhou city (In Chinese). Journal of Hubei Agricultural College, 21(2), 141–143.
Zhao, L. F., Huang, P. W., Zhang, Z. X., Fu, F. X., Liao, L., & Jiang, Q. Y. (2001). Status of soil nutrients and heavy metals in Leqing city (In Chinese). Journal of Zhejiang Agricultural Sciences(3), 124–126.
Zheng, G. Z., Yue, L. P., Li, Z. P., & Chen, C. (2006). Assessment on heavy metal pollution of agricultural soil in Guangzhong district. Journal of Geographical Sciences, 16(1), 105–113.
Zhou, J. L., & Chen, T. B. (2002). Situation and prospect of research on heavy metal pollution in vegetables and soils for vegetable cultivation in urban areas of China (In Chinese). Journal of Hubei Agricultural College, 22(5), 476–480.
Zhu, Y. M., & Zhou, Q. X. (1999). The present status, theory and prospects of soil pollution and agro-environmental protection (In Chinese). Chinese Journal of Soil Science, 30(3), 132–135.
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Huang, SW., Jin, JY. Status of heavy metals in agricultural soils as affected by different patterns of land use. Environ Monit Assess 139, 317–327 (2008). https://doi.org/10.1007/s10661-007-9838-4
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DOI: https://doi.org/10.1007/s10661-007-9838-4