References

1. H.-H. Deng, Evaluating the Longjiang river’s water environment quality by fuzzy relation composite theory, Gx. Wat. Res. Hydro. Eng., 4 (2001) 7.
2. B. Liao, R. Bi, D. Liang, An investigation into Fe, Mn contents in Longjiang River in Yizhou County in 2006, J. Hechi. U., 5 (2008) 26.
3. N. Lin, F. Yang, The analysis of water environmental quality in Longjiang River Valley of Fuqing and its countermeasure, J. Fuqing. Branch. Fujian Nor U., 5 (2007) 13.
4. GB3838, Environmental quality standards for surface water, MEP, China, (2002), pp. 4–7.
5. J. Usero, M. Gamero, J. Morillo, I. Gracia, Comparative study of three sequential extraction procedures for metals in marine sediments, Environ. Int., 24 (1998) 487–496.
6. T. Clevenger, Use of sequential extraction to evaluate the heavy metals in mining wastes, Water. Air. Soil. Pollut., 50 (1990) 241–254.
7. J. Maskall, I. Thornton, Chemical partitioning of heavy metals in soils, clays and rocks at historical lead smelting sites, Water Air Soil Pollut., 108 (1998) 391–409.
8. W.J. Dixon, F.J. Massey, Introduction to statistical analysis, McGraw-Hill. NY., 2 (1957) 488.
9. J. Aitchison, The statistical analysis of compositional data (1986), pp. 139–177.
10. R.A. Johnson, D.W. Wichern, Applied multivariate statistical analysis, Prentice Hall, Englewood, Cliffs, NJ (1992).
11. A. Tessier, P.G. Campbell, M. Bisson, Sequential extraction procedure for the speciation of particulate trace metals, Anal. Chem., 51 (1979) 844–851.
12. GMüller, Schwermetalle in den Sedimenten des Rheins-Veränderungen seit 1971, Umschau., 79 (1979) 778–783.
13. M.A. Stylianou, D. Kollia, K. Haralambous, V.J. Inglezakis, K.G. Moustakas, M.D. Loizidou, Effect of acid treatment on the removal of heavy metals from sewage sludge, Desalination, 215 (2007) 73–81.
14. O.O. Olujimi, O. Oputu, O. Fatoki, O.E. Opatoyinbo, O.A. Aroyewun, J. Baruani, Heavy metals speciation and human health risk assessment at an illegal gold mining site in Igun, Osun State, Nigeria, J. Health. Pollut., 5 (2015) 19–32.
15. M. Sayadi, M. Rezaei, A. Rezaei, Fraction distribution and bioavailability of sediment heavy metals in the environment surrounding MSW landfill: a case study, Environ. Monit. Asses., 187 (2015) 1–11.
16. B. Li, Y.J. Fu, C.Q. Wang, Y. Yang, Speciation distribution characteristics of heavy metals and its relationships with soil acid chemical properties in the Chengdu Plain, Nat. Environ. Pollut. Technol., 14 (2015) 349.
17. S. Venkatramanan, S. Chung, T. Ramkumar, G. Gnanachandrasamy, T.H. Kim, Evaluation of geochemical behavior and heavy metal distribution of sediments: the case study of the Tirumalairajan river estuary, southeast coast of India, Int. J. Sediment. Res., 30 (2015) 28–38.
18. H. Ye, S. Zang, H. Xiao, L. Zhang, Speciation and ecological risk of heavy metals and metalloid in the sediments of Zhalong Wetland in China, Int. J. Environ. Sci. Te., 12 (2015) 115–124.
19. H.M. Aghamirlou, M. Khadem, A. Rahmani, et al., Heavy metals determination in honey samples using inductively coupled plasma-optical emission spectrometry, J. Environ. Health. Sci. Eng., 13 (2015) 001.
20. B. Gičevski, S. Hristovski, Hydrochemical properties of cave lake and ground water flow in the cave of slatinski izvor in the dry period of the year, Contrib. Nat. Math. Biotech. Sci., 36 (2015).
21. M.J. Rusan, S. Hinnawi, L. Rousan, Long term effect of wastewater irrigation of forage crops on soil and plant quality parameters, Desalination, 215 (2007) 143–152.
22. F.Z. Moubarrad, O. Assobhei, Health risks of raw sewage with particular reference to Ascaris in the discharge zone of El Jadida (Morocco), Desalination, 215 (2007) 120–126.
23. R. Sudoh, M.S. Islam, K. Sazawa, et al., Removal of dissolved humic acid from water by coagulation method using polyaluminum chloride (PAC) with calcium carbonate as neutralizer and coagulant aid, J. Environ. Chem. Eng., 3 (2015) 770–774.
24. D.H. Youssef, G.F. El-Said, Assessment of some heavy metals in surface sediments of the Aqaba Gulf, Egypt, Environ. Monit. Asses., 180 (2011) 229–242.