1. B. Alloway, D.C. Ayres, Chemical Principles of Environmental Pollution, CRC Press, Rome, 1997.
  2. S. Ming-Chien, K. Nien-Hsin, The fate of nitrogen compounds and heavy metals in studied semi-closed organic paddy fields, Desal. Wat. Treat., 46 (2012) 149–159.
  3. P. Yadav, B. Singh, S. Mor, V. Garg, Quantification and health risk assessment due to heavy metals in potable water to the population living in the vicinity of a proposed nuclear power project site in Haryana, India, Desal. Wat. Treat., 52 (2014) 7586–7597.
  4. I.A. Idowu, W. Atherton, K. Hashim, P. Kot, R. Alkhaddar, B.I. Alo, A. Shaw, An analyses of the status of landfill classification systems in developing countries: Sub Saharan Africa landfill experiences, Waste Manage., 87 (2019) 761–771.
  5. N. H. Al-Saati, T.K. Hussein, M.H. Abbas, K. Hashim, Z.N. Al-Saati, P. Kot, M. Sadique, M.H. Aljefery, I. Carnacina, Statistical modelling of turbidity removal applied to non-toxic natural coagulants in water treatment: a case study, Desal. Wat. Treat., 150 (2019) 406–412.
  6. C.P. Liyanage, K. Yamada, Impact of population growth on the water quality of natural water bodies, Sustainability, 9 (2017) 1405.
  7. K.S. Hashim, I.A. Idowu, N. Jasim, R. Al Khaddar, A. Shaw, D. Phipps, P. Kot, M.O. Pedrola, A.W. Alattabi, M. Abdulredha, Removal of phosphate from River water using a new baffle plates electrochemical reactor, MethodsX, 5 (2018) 1413–1418.
  8. K.S. Hashim, A. Shaw, R. Al Khaddar, M. Ortoneda Pedrola, D. Phipps, Defluoridation of drinking water using a new flow column-electrocoagulation reactor (FCER) - experimental, statistical, and economic approach, J. Environ. Manage., 197 (2017) 80–88.
  9. K.S. Hashim, A. Shaw, R. Al Khaddar, M.O. Pedrola, D. Phipps. Energy efficient electrocoagulation using a new flow column reactor to remove nitrate from drinking water - experimental, statistical, and economic approach, J. Environ. Manage., 196 (2017) 224–233.
  10. A.W. Alattabi, C.B. Harris, R.M. Alkhaddar, K.S. Hashim, M. Ortoneda-Pedrola, D. Phipps, Improving sludge settleability by introducing an innovative, two-stage settling sequencing batch reactor, J. Water Process Eng., 20 (2017) 207–216.
  11. A.W. Alattabi, C. Harris, R. Alkhaddar, A. Alzeyadi, K. Hashim. Treatment of residential complexes’ wastewater using environmentally friendly technology, Procedia Eng., 196 (2017) 792–799.
  12. K.S. Hashim, R.A. Khaddar, N. Jasim, A. Shaw, D. Phipps, P. Kota, M.O. Pedrola, A.W. Alattabi, M. Abdulredha, R. Alawsh, Electrocoagulation as a green technology for phosphate removal from river water, Sep. Purif. Technol., 210 (2018) 135–144.
  13. D. Al-Jumeily, K. Hashim, R. Alkaddar, M. Al-Tufaily, J. Lunn, Sustainable and Environmental Friendly Ancient Reed Houses (Inspired by the Past to Motivate the Future), in 2018 11th International Conference on Developments in eSystems Engineering (DeSE), IEEE, 2018, pp. 214–219.
  14. E. Bazrafshan, M. Sobhanikia, F. Mostafapour, H. Kamani, D. Balarak, Chromium biosorption from aqueous environments by mucilaginous seeds of Cydonia oblonga: kinetic and thermodynamic studies, Global Nest J., 19 (2017) 269–277.
  15. K.S. Hashim, N.H. Al-Saati, A.H. Hussein, Z.N. Al-Saati, An Investigation into the Level of Heavy Metals Leaching from Canal-Dreged Sediment: A Case Study Metals Leaching from Dreged Sediment, Presented at the 1st International Conference on Materials Engineering & Science, Istanbul Aydın University (IAU), Turkey, 2018.
  16. C. Adamu, T. Nganje, A. Edet, Heavy metal contamination and health risk assessment associated with abandoned barite mines in Cross River State, southeastern Nigeria, Environ. Nanotechnol. Monit. Manage., 3 (2015) 10–21.
  17. D. Balarak, A. Joghataei, H. Azarpira, F. Mostafapour, Isotherms and thermodynamics of Cd (II) ion removal by adsorption onto Azolla filiculoides, Int. J. Pharm. Technol., 8 (2016) 15780–15788.
  18. K.S. Hashim, A. Shaw, R. Al Khaddar, M.O. Pedrola, D. Phipps, Iron removal, energy consumption and operating cost of electrocoagulation of drinking water using a new flow column reactor, J. Environ. Manage., 189 (2017) 98–108.
  19. X. Jiang, A. Teng, W. Xu, X. Liu, Distribution and pollution assessment of heavy metals in surface sediments in the Yellow Sea, Marine Pollut. Bull., 83 (2014) 366–375.
  20. K. Mohiuddin, K. Otomo, Y. Ogawa, N. Shikazono, Seasonal and spatial distribution of trace elements in the water and sediments of the Tsurumi River in Japan, Environ. Monit. Assess., 184 (2012) 265–279.
  21. I.-H. Liao, J.-H. Huang, S.-L. Wang, M.-P. Cheng, J.-C. Liu, Adsorptions of Cd (II) and Pb (II) in aqueous solution by rice-straw char, Desal. Wat. Treat., 57 (2016) 21619–21626.
  22. Y. Wang, Z. Yang, Z. Shen, Z. Tang, J. Niu, F. Gao, Assessment of heavy metals in sediments from a typical catchment of the Yangtze River, China, Environ. Monit. Assess., 172 (2011) 407–417.
  23. M. Ahmad, S. Islam, M. Rahman, M. Haque, M. Islam, Heavy metals in water, sediment and some fishes of Buriganga River, Bangladesh, Int. J. Environ. Res., 4 (2010) 321–332.
  24. S.K. Sundaray, B.B. Nayak, S. Lin, D. Bhatta, Geochemical speciation and risk assessment of heavy metals in the river estuarine sediments--a case study: Mahanadi basin, India, J. Hazard. Mater., 186 (2011) 1837–1846.
  25. A. Al-Juboury, Natural pollution by some heavy metals in the Tigris River, Northern Iraq, Int. J. Environ. Res., 3 (2009) 189–198.
  26. A.M. Rabee, Y.F. Al-Fatlawy, A.-A.-H.N.A. Own, M. Nameer. Using pollution load index (PLI) and geoaccumulation index (I-Geo) for the assessment of heavy metals pollution in Tigris River sediment in Baghdad Region, J. Al-Nahrain Univ., 14 (2011) 108–114.
  27. J.M. Salman, H.A. Hussain, Water quality and some heavy metals in water and sediments of Euphrates River, Iraq, J. Environ. Sci. Eng. A, 1 (2012) 1088.
  28. E.J. Abdullah, Quality assessment for Shatt Al-Arab River using heavy metal pollution index and metal index, J. Environ. Earth Sci., 3 (2013) 114–120.
  29. M. Ilie, F. Marinescu, R. Szep, G. Ghiță, G. Deak, A.-M. Anghel, A. Petrescu, B. Urițescu, Ecological risk assessment of heavy metals in surface sediments from the Danube River, Carpathian J. Earth Environ. Sci., 12 (2017) 437–445.
  30. T.I. Kassim, H.A. Al‐Saadi, A.A. Al‐Lami, H.H. Al‐Jaberi, Heavy metals in water, suspended particles, sediments and aquatic plants of the upper region of Euphrates river, Iraq, J. Environ. Sci. Health Part A, 32 (1997) 2497–2506.
  31. A.M. Rabee, Y.F. Al-Fatlawy, A.-A.-H.N.A. Own, Seasonal variation and assessment of heavy metals pollution in sediments from selected stations in Tigris and Euphrates Rivers, Central Iraq. Iraqi J. Sci., 50 (2009) 466–475.
  32. J.S. Dougrameji, A.I. Hawa, A. Ishaq, H.A. Hassan, J.Z. AL Rawi, V. Aart, K.R. Ubell, Hydrological and soil physical conditions in a pilot area in the Greater Mussayeb Project, Inst. Appl. Res. Natural Resour., Report No. 17, Baghdad, Iraq, 1970.
  33. A. Al-Falahi, A. Qureshi, Understanding Linkages Between Groundwater Table Depth, Soil Salinity and Crop Production in AlGujaila and Al-Mussaib Areas of Iraq, Internal Report (Salinity Management in Iraq Project), Baghdad, Iraq, 2011.
  34. S.S. Jameel, A.S. Qureshi, Rehabilitation of Irrigation and Drainage Infrastructure in Iraq, in Iraq Salinity Project, Iraq, 2017.
  35. Q.A. Ojam, Great Al-Mussaib Project, Babylon University, Technical Report, 2010.
  36. I.I. Omran, A.H. Hussein, W.A. Abidalla, O.T. Al-Heetimi, Using of Shields Parameter as a Determinate for the Sediment Movement in Irrigation and Drainage Channels (A Case Study in Central Region of Iraq), 2017.
  37. T.K. Edwards, G.D. Glysson, H.P. Guy, V.W. Norman, Field methods for measurement of fluvial sediment, US Geological Survey Denver, CO, 1999.
  38. P. Diplas, J.B. Fripp, Properties of various sediment sampling procedures, J. Hydraul. Eng., 118 (1992) 955–970.
  39. W. Iyama, O. Edori, Analysis of the water quality of imonite creek in Ndoni, Rivers State, Nigeria, IOSR J. Appl. Chem., 7 (2014) 6–9.
  40. M.M. Ali, M.L. Ali, M.S. Islam, M.Z. Rahman, Preliminary assessment of heavy metals in water and sediment of Karnaphuli River, Bangladesh, Environ. Nanotechnol. Monit. Manage., 5 (2016) 27–35.
  41. V. Sandroni, C.M. Smith, A. Donovan, Microwave digestion of sediment, soils and urban particulate matter for trace metal analysis, Talanta, 60 (2003) 715–723.
  42. E.A.M. Salah, T.A. Zaidan, A.S. Al-Rawi, Assessment of heavy metals pollution in the sediments of Euphrates River, Iraq, J. Water Resour. Protect., 4 (2012) 1009–1023.
  43. K.V. Raju, R. Somashekar, K. Prakash, Heavy metal status of sediment in river Cauvery, Karnataka, Environ. Monit. Assess., 184 (2012) 361–373.
  44. M.S. Islam, M.K. Ahmed, M. Raknuzzaman, M. Habibullah-Al-Mamun, M.K. Islam, Heavy metal pollution in surface water and sediment: a preliminary assessment of an urban river in a developing country. Ecol. Indicators, 48 (2015) 282–291.
  45. D. Tomlinson, J. Wilson, C. Harris, D. Jeffrey, Problems in the assessment of heavy-metal levels in estuaries and the formation of a pollution index, Helgoländer Meeresuntersuchungen, 33 (1980) 566–575.
  46. L. Hakanson, An ecological risk index for aquatic pollution control. A sedimentological approach, Water Res., 14 (1980) 975–1001.
  47. Z. Karim, B.A. Qureshi, M. Mumtaz, Geochemical baseline determination and pollution assessment of heavy metals in urban soils of Karachi, Pakistan. Ecol. Indic., 48 (2015) 358–364.
  48. Z. Ya, L. Zhou, Z. Bao, P. Gao, X. Sun, High efficiency of heavy metal removal in mine water by limestone, Chin. J. Geochem., 28 (2009) 293–298.
  49. R.M. Bethea, Statistical Methods for Engineers and Scientists, CRC Press, 1995.
  50. W.H. Tang, A. Ang, Probability Concepts in Engineering: emphasis on Applications to Civil and Environmental Engineering, Wiley Hoboken, NJ, 2007.
  51. A.A. Shubbar, H. Jafer, A. Dulaimi, K. Hashim, W. Atherton, M. Sadique, The development of a low carbon binder produced from the ternary blending of cement, ground granulated blast furnace slag and high calcium fly ash: an experimental and statistical approach, Construct. Build. Mater., 187 (2018) 1051–1060.
  52. L.E. Hussain, Concentration of Some Heavy Metals in Water, Sediments and Two Types of Plants in Al-Chibayish Marsh in Thi-Qar Province in Southern Iraq, MSc Thesis, University of Queensland, Australia, 2014.
  53. H.A.S. Al-Amar, A study the concentration of heavy metals in water of the Al-Massab Al-Aam Channel (Middle Sector) in Iraq, Int. J. ChemTech Res., 10 (2017) 594–603.
  54. B.Y.D. Al-Khafaji, Trace Metals in Water Sediment and Fishes from Shatt Al Arab Estuary NW Arabian Gulf, PhD Thesis, Basrah University, Iraq, 1996.
  55. WHO, Guidelines for Drinking-Water Quality: Recommendations, World Health Organization, 2004.
  56. J. Pandey, R. Singh, Heavy metals in sediments of Ganga River: up-and downstream urban influences, Appl. Water Sci., 7 (2017) 1669–1678.
  57. G. Muller, Index of geoaccumulation in sediments of the Rhine River, Geojournal, 2 (1969) 108–118.
  58. E. Bazrafshan, F.K. Mostafapour, M. Esmaelnejad, G.R. Ebrahimzadeh, A.H. Mahvi, Concentration of heavy metals in surface water and sediments of Chah Nimeh water reservoir in Sistan and Baluchestan province, Iran, Desal. Wat. Treat., 57 (2016) 9332–9342.
  59. M. Mirzabeygi, A. Abbasnia, M. Yunesian, R.N. Nodehi, N. Yousefi, M. Hadi, A.H. Mahvi, Heavy metal contamination and health risk assessment in drinking water of Sistan and Baluchistan, Southeastern Iran, Human Ecol. Risk Assess., 23 (2017) 1893–1905.
  60. W. Bouguerra, A. Barhoumi, N. Ibrahim, K. Brahmi, L. Aloui, B. Hamrouni, Optimization of the electrocoagulation process for the removal of lead from water using aluminium as electrode material, Desal. Wat. Treat., 56: (2015) 2672–2681.
  61. M. Abdulredha, R. Al Khaddar, D. Jordan, P. Kot, A. Abdulridha, K. Hashim, Estimating solid waste generation by hospitality industry during major festivals: a quantification model based on multiple regression, Waste Manage., 77 (2018) 388–400.
  62. M. Abdulredha, A. Rafid, D. Jordan, K. Hashim, The development of a waste management system in Kerbala during major pilgrimage events: determination of solid waste composition, Procedia Eng., 196 (2017) 779–784.
  63. S. Ryecroft, A. Shaw, P. Fergus, P. Kot, K. Hashim, A. Moody, L. Conway, A first implementation of underwater communications in raw water using the 433 MHz frequency combined with a bowtie antenna. Sensors, 19 (2019) 1813.
  64. K.H. Teng, P. Kot, M. Muradov, A. Shaw, K. Hashim, M. Gkantou, A. Al-Shamma’a, Embedded smart antenna for non-destructive testing and evaluation (NDT&E) of moisture content and deterioration in concrete. Sensors, 19 (2019) 547.