Plant Soil Environ., 2011, 57(2):75-80 | DOI: 10.17221/125/2010-PSE

Using soil heavy metal enrichment and mobility factors to determine potential uptake by vegetables

V.M. Ngole
Faculty of Science, Engineering, and Technology, Walter Sisulu University, Mthatha, South Africa

This study investigated copper (Cu) and lead (Pb) enrichment factor (EF) and mobility factor (MF) as possible indicators of their uptake by spinach (Spinaceae oleraceae) and carrots (Daucus carota) grown on a sludge-amended luvisol (SAL). Sewage sludge was applied to luvisol at different rates and spinach and carrots planted. Enrichment of Cu and Pb in SAL was determined, and values regressed with those of Cu and Pb concentrations in spinach and carrots. Concentration of Cu and Pb in vegetables was calculated using the regression model obtained, and calculated values compared with actual values. Pb MF were higher than Cu MF but Cu and Pb EFsoil values were < 3.0, indicating minor enrichment from sludge addition. EF had 10% reliability in predicting Cu and Pb uptake in vegetables. MF was more than 70% reliable in predicting carrot Cu uptake and spinach Pb uptake. EF and MF are not effective as predictors of heavy metal uptake by vegetables. The role of other soil components including root exudates and by-products from microbial activities should also be investigated.

Keywords: bioavailability; luvisol; sludge application; regression model

Published: February 28, 2011  Show citation

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Ngole VM. Using soil heavy metal enrichment and mobility factors to determine potential uptake by vegetables. Plant Soil Environ. 2011;57(2):75-80. doi: 10.17221/125/2010-PSE.
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    References

    1. Almăs A.R., Singh B.R. (2001): Plant uptake of cadmium-109 and Zinc-65 at different temperatures and organic matter levels. Journal of Environmental Quality, 30: 869-877. Go to original source... Go to PubMed...
    2. Badaway S.H., El-Motaium R.A. (2000): Fate of Some Heavy Metals in Sandy Soil Amended with Sewage Sludge and their Accumulation in Plants. ICEHM2000, Cairo University, Egypt September, 483-494.
    3. Cheng H.F., Chen S.Y., Lin J.G. (2001): Hazardous organic matter in municipal sewage sludge in Taiwan. Water Science and Technology, 44: 65-70. Go to original source...
    4. Chimbari M., Madyiwa R., Musesengwa R. (2001): Pollution implications of disposing wastewater in Pasturelands. A Focus on Heavy Metals. 2nd WARFSA/WaterNet Symposium: integrated water Resources Management: theory, practice, cases: Cape Town, 30-31 October 2001, 1-13.
    5. Csuros M. (1997): Determination of Phosphorus. Environmental Sampling and Analyses Lab Manual. Lewis Publishers, New York.
    6. Dousset S., Morel J.L., Jacobson A., Bitton G. (2001): Copper binding capacity of root exudates of cultivated plants and associated weeds. Biology and Fertility of Soils, 34: 230-234. Go to original source...
    7. Dragović S., Mihailović N., Gajić B. (2008): Heavy metals in soils: distribution, relationship with soil characteristics and radionuclides and multivariate assessment of contamination sources. Chemosphere, 72: 491-495. Go to original source... Go to PubMed...
    8. Franco-Uría A., López-Mateo C., Roca E., Fernández-Marcos M.M. (2009): Source identification of heavy metals in pastureland by multivariate analysis in NW Spain. Journal of Hazardous Materials, 165: 1008-1015. Go to original source... Go to PubMed...
    9. Fuentes A., Lloréns M., Sáez J., Soler A., Aguilar M.L., Ortuňo J.F., Meseguer V.F. (2008): Comparative study of six different sludge by sequential extraction of heavy metals. Bioresource Technology, 99: 517-525. Go to original source... Go to PubMed...
    10. Hammer D., Keller C. (2002): Changes in the Rhizosphere of metal- accumulating plants evidenced by chemical extractanta. Journal of Environmental Quality, 31: 1561-1569. Go to original source... Go to PubMed...
    11. Logan T.J., Harrison B.J., McAvoy D.C., Greff J.A. (1996): Effects of olestra in sewage sludge on soil physical properties. Journal of Environmental Quality, 25: 153-161. Go to original source...
    12. Ma L.Q., Rao G.N. (1997): Chemical fractionation of cadmium, copper, nickel, and zinc in contaminated soils. Journal of Environmental Quality, 26: 259-264. Go to original source...
    13. Manzoor S., Shah M.H., Shaheen N., Khalique A., Jaffar M. (2006): Multivariate analysis of trace metals in textile effluents in relation to soil and groundwater. Journal of Hazardous Materials, A137, 31-37. Go to original source... Go to PubMed...
    14. Martínez F., Cuevas, G., Calvo, R., Walter I (2003): Biowaste effects and native plants in a semiarid ecosystem. Journal of Environmental Quality, 32: 472-479. Go to original source... Go to PubMed...
    15. Mingorance M.D., Valdés B., Olivioa S.R. (2007): Strategies of heavy metal uptake by plants growing under industrial emissions. Environment International, 33: 514-520. Go to original source... Go to PubMed...
    16. Mtanga A., Machiwa J. (2007): Assessment of heavy metal pollution in sediment and polychaete worms from the Mzinga Creek and Ras Dege mangrove ecosystem, dar es Salaam, Tanzania. Western Indian Ocean Journal of Marine Science, 6: 125-135. Go to original source...
    17. Nicholls A.M., Mal T.K. (2003): Effects of lead and copper exposure on growth of an invasive weed, Lythrum salicaria L. (Purple Loosestrife). Ohio Journal of Science, 103: 129-133.
    18. Ngole V.M. (2007): Response of copper, lead and zinc mobility and bioavailability to sludge application on different soils. Polish Journal of Soil Science, 40: 125-138.
    19. Ngole V., Mpuchane S., Totolo O. (2006): Survival of faecal coliforms in four different types of sludge-amended soils in Botswana. European Journal of Soil Biology, 42: 208-218. Go to original source...
    20. Ščančar J., Milačič R., Stražar M., Burica O., Bukovec P. (2001): Environmentally safe sewage sludge disposal: the impact of liming on the behaviour of Cd, Cr, Cu, Fe, Mn, Ni, Pb, Zn. Journal of Environmental Monitoring, 3: 226-231. Go to original source... Go to PubMed...
    21. Šmuc N.R., Vrhovnik P., Dolenec T., Serafimovski T., Tasev G., Dolenec M. (2009): Assessment of the heavy metal contamination in the surficial sediments of Lake Kalimanci (Macedonia): a preliminary study. RMZ - Materials and Geoenvironment, 56: 437-447.
    22. Su D.C., Wong J.W.C. (2004): Chemical speciation and phytoavailability of Zn, Cu, Ni and Cd in soil amended with fly ash-stabilized sewage sludge. Environment International, 29: 895-900. Go to original source... Go to PubMed...
    23. Tessier A., Campbell P.G.C., Bisson M. (1979): Sequential extraction procedure for the speciation of particulate trace metals. Analytical Chemistry, 51: 844-851. Go to original source...
    24. Tlustoš P., Balík, J., Pavlíková D., Száková J., Kaewrahum S. (2000): The accumulation of potentially toxic elements in spinach biomass grown on nine soils treated with sewage sludge. Rostlinná výroba, 46: 9-16. (In Czech)
    25. Van Reeuwijk L.P. (2002): Procedures for soil analysis, international soil reference and information centre. Technical paper, No. 9, 19.
    26. Xiong Z.T., Zhao F., Li M. (2006): Lead toxicity in Brassica pekinensis Rupr: effect on nitrate assimilation and growth. Environmental Toxicology, 21: 147-153. Go to original source... Go to PubMed...
    27. Yoon J., Cao X., Zhou Q., Ma L.Q. (2006): Accumulation of Pb, Cu, and Zn in native plants growing on a contaminated Florida site. Science of the Total Environment, 368: 456-464. Go to original source... Go to PubMed...

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