Heavy Metal Accumulation at the Bertam Agricultural Watershed in Cameron Highlands, Malaysia

  • Authors

    • Haron S.H
    • Ismail S
    • Sidek L.M
    2018-11-30
    https://doi.org/10.14419/ijet.v7i4.35.22735
  • Heavy metal, Cameron Highlands, pollutants, agriculture, water quality
  • The existence of heavy metals residues in water, soil and air poses a serious risk to all living organisms. Heavy metals, such as Cd, Pb, Cr, Ni, and Hg, are major sources of environmental pollution, especially in areas with high anthropogenic and agriculture activities. The objective of this study is to determine the status of heavy metal concentrations of Cd, Cr, Ni, Pb, Zn, Cu, and Fe in the water bodies of Bertam River, which passes through agricultural areas. The water samples were collected randomly in three replicates from 10 sampling points along the Bertam River. The heavy metals in the water were extracted by using filter paper with a pore size of 0.45 mm. The extracted water sample was preserved by adding nitric acid (pH <2). Sample concentrations were then tested for metal concentrations using inductively coupled plasma mass spectrometry. In this study, the highest mean concentration was Fe (96.04 ± 90.43 ppb), followed by Zn (5.68 ± 0.2.34 ppb), Cu (5.13 ± 2.98 ppb), Cr (1.53 ± 0.19 ppb), Ni (0.85 ± 0.22 ppb), Pb (0.85 ± 1.61 ppb), and Cd (0.027 ± 0.02 ppb), where Fe> Zn> Cu> Pb> Cr> Ni> Cd. However, the concentrations of selected heavy metals in the water samples were below the standards recommended by the World Health Organization.

  • References

    1. [1] C. Ferreira, R. Walsh, A. Ferreira, Degradation in Urban Areas, Current Opinion in Environmental Science & Health, 5 (2018) 19-25.

      [2] S. Zhu, A. Mostafaei, W. Luo, B. Jia, J. Dai, Assessing water quality for urban tributaries of the Three Gorges Reservoir, China, Journal of Water Reuse and Desalination, (2018) 1-10.

      [3] C.S.S. Ferreira, R.P.D. Walsh, A.J.D. Ferreira, Degradation in urban areas, Current Opinion in Environmental Science & Health, 5 (2018) 19-25.

      [4] S. Haron, B. Ismail, M. Mispan, N.A. Rahman, K. Khalid, M.A. Rasid, L. Sidek, Time Series Analysis of Heavy Metal Concentrations along the Watershed Gradient in Cameron Highlands: Geospatial Approaches, IOP Conference Series: Earth and Environmental Science, IOP Publishing, 2016, pp. 012064.

      [5] S. Haron, Comparison pesticide residue levels in the surface of Bertam River in Cameron Highlands, Pahang, AIP Conference Proceedings, AIP Publishing, 2015, pp. 020015.

      [6] S.H. Haron, I. Sahid, N. Ab Rahman, M. Mohamad, M. Mispan, Non-point sources of pollution identification in Cameron Highlands using ArcGIS, Nationwide GIS Application Conference Proceedings, 2014, pp. 1-11.

      [7] M. Jajarmizadeh, L.M. Sidek, M. Mirzai, S. Alaghmand, S. Harun, M.R. Majid, Prediction of surface flow by forcing of climate forecast system reanalysis data, Water resources management, 30 (2016) 2627-2640.

      [8] L.E. Castillo, E. Martínez, C. Ruepert, C. Savage, M. Gilek, M. Pinnock, E. Solis, Water quality and macroinvertebrate community response following pesticide applications in a banana plantation, Limon, Costa Rica, Science of the Total Environment, 367 (2006) 418-432.

      [9] C. Cooper, Biological effects of agriculturally derived surface water pollutants on aquatic systems—a review, Journal of Environmental Quality, 22 (1993) 402-408.

      [10] M.E. DeLorenzo, G.I. Scott, P.E. Ross, Effects of the agricultural pesticides atrazine, deethylatrazine, endosulfan, and chlorpyrifos on an estuarine microbial food web, Environmental Toxicology and Chemistry: An International Journal, 18 (1999) 2824-2835.

      [11] W.J. Ntow, The use and fate of pesticides in vegetable-based agro-ecosystems in Ghana, CRC Press2008.

      [12] I.A.R. Al-Ani, L.M. Sidek, N.E.A. Basri, Expert system for mitigating erosion and sedimentation due to storm water during construction activities in Malaysia, European Journal of Scientific Research, 38 (2009) 38-44.

      [13] F. Che Ros, H. Tosaka, L.M. Sidek, H. Basri, Homogeneity and trends in long-term rainfall data, Kelantan River Basin, Malaysia, International Journal of River Basin Management, 14 (2016) 151-163.

      [14] I.A.R. Al-Ani, L.M. Sidek, M.M. Desa, N.A. Basri, Knowledge-based Expert System for Stormwater Management in Malaysia, Science and Technology, 5 (2012) 381-388.

      [15] K.H. Kok, L. Mohd Sidek, M.F. Chow, M.R. Zainal Abidin, H. Basri, G. Hayder, Evaluation of green roof performances for urban stormwater quantity and quality controls, International Journal of River Basin Management, 14 (2016) 1-7.

      [16] K.H. Kok, L.M. Sidek, M. Abidin, H. Basri, Z. Muda, S. Beddu, Evaluation of green roof as green technology for urban stormwater quantity and quality controls, IOP Conference Series: Earth and Environmental Science, IOP Publishing, 2013, pp. 012045.

      [17] K.R. Ayub, L.M. Sidek, A. Ainan, N.A. Zakaria, A.A. Ghani, R. Abdullah, Storm water treatment using bioâ€ecological drainage system, International Journal of River Basin Management, 3 (2005) 215-221.

      [18] M.F. Chow, M.F. Abu Bakar, L. Mohd Sidek, H. Basri, Effects of Substrate Types on Runoff Retention Performance Within the Extensive Green Roofs, 2017.

      [19] Department of Statistics Malaysia, Population and housing census of Malaysia, Department of Statistics Malaysia Putrajaya, 2010.

      [20] M. Mispan, S. Haron, B. Ismail, N.A. Rahman, K. Khalid, M.A. Rasid, The use of pesticides in agriculture area, Cameron Highlands, International Journal of Scientific Progress and Research, 15 (2015) 19-22.

      [21] S. Lacorte, C. Molina, D. Barceló, Temperature and extraction voltage effect on fragmentation of organophosphorus pesticides in liquid chromatography–atmospheric pressure chemical ionization mass spectrometry, Journal of Chromatography A, 795 (1998) 13-26.

      [22] C. Gaudet, S. Lingard, P. Cureton, K. Keenleyside, S. Smith, G. Raju, Canadian environmental quality guidelines for mercury, Water, Air, and Soil Pollution, 80 (1995) 1149-1159.

      [23] U. EPA, National recommended water quality criteria, United States Environmental Protection Agency', Office of Water, Office of Science and Technology, (2009).

      [24] S. Tong, S. Goh, Water quality criteria and standard development and river classification in Malaysia, Ensearch Malaysia, 10 (1997) 15-26.

      [25] B. Koukal, J. Dominik, D. Vignati, P. Arpagaus, S. Santiago, B. Ouddane, L. Benaabidate, Assessment of water quality and toxicity of polluted Rivers Fez and Sebou in the region of Fez (Morocco), Environmental Pollution, 131 (2004) 163-172.

      [26] H.-B. Li, S. Yu, G.-L. Li, Y. Liu, G.-B. Yu, H. Deng, S.-C. Wu, M.-H. Wong, Urbanization increased metal levels in lake surface sediment and catchment topsoil of waterscape parks, Science of the Total Environment, 432 (2012) 202-209.

      [27] M.S. Islam, S. Han, M.K. Ahmed, S. Masunaga, Assessment of trace metal contamination in water and sediment of some rivers in Bangladesh, Journal of Water and Environment Technology, 12 (2014) 109-121.

      [28] J. Khairiah, J. Habibah, R. Ahmad Mahir, A. Maimon, A. Aminah, B. Ismail, Studies on heavy metal deposits in soils from selected agricultural areas of Malaysia, Adv Environ Biol, 3 (2009) 329-336.

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  • How to Cite

    S.H, H., S, I., & L.M, S. (2018). Heavy Metal Accumulation at the Bertam Agricultural Watershed in Cameron Highlands, Malaysia. International Journal of Engineering & Technology, 7(4.35), 219-222. https://doi.org/10.14419/ijet.v7i4.35.22735