This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Adam, A., Mohammad-Noor, N., Anton, A., Saleh, E., Saad, S. et al. (2011). Temporal and spatial distribution of Harmful Algal Bloom (HAB) species in coastal waters of Kota Kinabalu, Sabah, Malaysia. Harmful Algae 10: 495-502.AdamA.Mohammad-NoorN.AntonA.SalehE.SaadS.et al.2011Temporal and spatial distribution of Harmful Algal Bloom (HAB) species in coastal waters of Kota Kinabalu, Sabah, Malaysia1049550210.1016/j.hal.2011.03.006Search in Google Scholar
Agrawal, Y.C. & Pottsmith, H.C. (2000). Instruments for particle size and settling velocity observations in sediment transport. Marine Geology 168: 89-114.AgrawalY.C.PottsmithH.C.2000Instruments for particle size and settling velocity observations in sediment transport1688911410.1016/S0025-3227(00)00044-XSearch in Google Scholar
Ali, S.A.M., Tan, W.H., Tair, R., Naser, A.A. and Sualin, F. (2014). Surface sediment analysis on heavy metals in coastal area of UMS- Tuaran, Sabah. Borneo Science 34: 6-10.AliS.A.M.TanW.H.TairR.NaserA.A.SualinF.2014Surface sediment analysis on heavy metals in coastal area of UMS-Tuaran, Sabah34610Search in Google Scholar
Alluri, H.K., Ronda, S.R., Settalluri, V.S., Suryanarayana, V. Venkateshwar, P. (2007). Biosorption: An eco-friendly alternative for heavy metal removal. African Journal of Biotechnology 6(11): 2924-2931.AlluriH.K.RondaS.R.SettalluriV.S.SuryanarayanaV.VenkateshwarP.2007Biosorption: An eco-friendly alternative for heavy metal removal6112924293110.5897/AJB2007.000-2461Search in Google Scholar
Anderson, D.M., Glibert, P.M. Burkholder, J.M. (2002). Harmful algal blooms and eutrophication: Nutrient sources, composition, and consequences. Estuaries 25: 704-726.AndersonD.M.GlibertP.M.BurkholderJ.M.2002Harmful algal blooms and eutrophication: Nutrient sources, composition, and consequences2570472610.1007/BF02804901Search in Google Scholar
Anderson, D.M. (2009). Approaches to monitoring, control and management of harmful algal blooms (HABs). Ocean and Coastal Management 52: 342.AndersonD.M.2009Approaches to monitoring, control and management of harmful algal blooms (HABs)5234210.1016/j.ocecoaman.2009.04.006Search in Google Scholar
Azanza, R.V., David, L.T., Borja, R.T., Baula, I.U. Fukuyo, Y. (2008). An extensive Cochlodinium bloom along the western coast of the Palawan, Philippines. Harmful Algae 7: 324-330.AzanzaR.V.DavidL.T.BorjaR.T.BaulaI.U.FukuyoY.2008An extensive Cochlodinium bloom along the western coast of the Palawan, Philippines732433010.1016/j.hal.2007.12.011Search in Google Scholar
Bao, S.D. (2005). Agricultural soil analysis, third ed. China Agriculture press, Beijing.BaoS.D.2005third edChina Agriculture pressBeijingSearch in Google Scholar
Birch, G.F., Taylor, S.E. Matthai, C. (2001). Small-scale spatial and temporal variance in the concentration of heavy metals in aquatic sediments: a review and some new concepts. Environmental Pollution 113: 357-372.BirchG.F.TaylorS.E.MatthaiC.2001Small-scale spatial and temporal variance in the concentration of heavy metals in aquatic sediments: a review and some new concepts11335737210.1016/S0269-7491(00)00182-2Search in Google Scholar
Bradl, H. (2005). Heavy metals in the environment: Origin, interaction and remediation. Elsevier Academic Press, London.BradlH.2005Elsevier Academic PressLondonSearch in Google Scholar
Carpenter, E.J. Capone, D.J. (1983). Nitrogen in the marine environment. Stony Book, Marine Science Research Center. 900p.CarpenterE.J.CaponeD.J.1983Nitrogen in the marine environmentMarine Science Research Center900Search in Google Scholar
Colizza, E., Fontolan, G. Brambati, A. (1996). Impact of a coastal disposal site for inert wastes on the physical marine environment, Barcola-Bovedo, Trieste, Italy. Environmental Geology 27(4): 270-285.ColizzaE.FontolanG.BrambatiA.1996Impact of a coastal disposal site for inert wastes on the physical marine environment, Barcola-Bovedo, Trieste, Italy27427028510.1007/BF00766697Search in Google Scholar
Covelli, S. Fontolan, G. (1997). Application of a normalization procedure in determining regional geochemical baseline. Environmental Geology 30: 34-45.CovelliS.FontolanG.1997Application of a normalization procedure in determining regional geochemical baseline30344510.1007/s002540050130Search in Google Scholar
Dasklakis, K.D. O'Connor, T.P. (1995). Normalization and elemental sediment contamination in the coastal United States. Environmental Science and Technology 29: 470-477.DasklakisK.D.O'ConnorT.P.1995Normalization and elemental sediment contamination in the coastal United States2947047710.1021/es00002a024Search in Google Scholar
Date, A.R. Gray, A.L. (1988). Applications of inductivity coupled plasma source mass spectrometry. Blackie Publishers, Glassgow.DateA.R.GrayA.L.1988Blackie PublishersGlassgowSearch in Google Scholar
Din, Z. (1992). Use of aluminium to normalize heavy-metal data from estuarine and coastal sediment of Strait of Melaka. Marine Pollution Bulletin 24: 484-491.DinZ.1992Use of aluminium to normalize heavy-metal data from estuarine and coastal sediment of Strait of Melaka2448449110.1016/0025-326X(92)90472-ISearch in Google Scholar
Hanson, P., Evans, D.W. Colby, D.R. (1993). Assessment of elemental contamination in estuarine and coastal environments based on geochemical and statistical modelling of sediments. Marine Environmental Research 36: 237-266.HansonP.EvansD.W.ColbyD.R.1993Assessment of elemental contamination in estuarine and coastal environments based on geochemical and statistical modelling of sediments3623726610.1016/0141-1136(93)90091-DSearch in Google Scholar
Ideriah, T.J.K., David-Omiema, S. Ogbonna, D.N. (2012). Distribution of heavy metals in water and sediment along Abonnema Shoreline, Nigeria. Resources and Environment 2(1): 33-40.IderiahT.J.K.David-OmiemaS.OgbonnaD.N.2012Distribution of heavy metals in water and sediment along Abonnema Shoreline, Nigeria21334010.5923/j.re.20120201.05Search in Google Scholar
Inengite, A.K., Oforka, N.C. Leo, C.O. (2010). Survey of heavy metals in sediments of Kolo creek in the Niger Delta, Nigeria. Africa Journal of Environmental Science and Technology 4(9): 558-566.InengiteA.K.OforkaN.C.LeoC.O.2010Survey of heavy metals in sediments of Kolo creek in the Niger Delta, Nigeria49558566Search in Google Scholar
Ismail, A., Badri, M.A. Ramlan, M.N. (1993). The background levels of heavy metal concentration in sediments of the west coast of Peninsular Malaysia. The Science of the Total Environment Supplement 134: 315-323.IsmailA.BadriM.A.RamlanM.N.1993The background levels of heavy metal concentration in sediments of the west coast of Peninsular Malaysia13431532310.1016/S0048-9697(05)80032-4Search in Google Scholar
Kamaruzzaman, B.Y., Mohd Zahir, M.S., Akbar John, B., Jalal, K.C.A., Shahbudin, S. et al. (2011). Bioaccumulation of some heavy metal by green mussel Perna viridis(Linnaues 1758) from Pekan, Pahang, Malaysia. International Journal of Biological Chemistry 5(1): 54-60.KamaruzzamanB.Y.Mohd ZahirM.S.Akbar JohnB.JalalK.C.A.ShahbudinS.et al.2011Bioaccumulation of some heavy metal by green mussel Perna viridis (Linnaues 1758) from Pekan, Pahang, Malaysia51546010.3923/ijbc.2011.54.60Search in Google Scholar
Lakherwal, D. (2014). Adsorption of heavy metals: A review. International Journal of Environmental Research and Development. 4(1): 41-48.LakherwalD.2014Adsorption of heavy metals: A review414148Search in Google Scholar
Loring, D.H. (1990). Lithium- a new approach for granulometric normalization of trace metal data. Marine Chemistry 29: 155-168.LoringD.H.1990Lithium- a new approach for granulometric normalization of trace metal data2915516810.1016/0304-4203(90)90011-ZSearch in Google Scholar
Loring, D.H. (1991). Normalization of heavy metal data from estuarine and coastal sediments. ICES Journal of Marine Science 48: 101-115.LoringD.H.1991Normalization of heavy metal data from estuarine and coastal sediments4810111510.1093/icesjms/48.1.101Search in Google Scholar
Malaysian Meteorological Department. Annual Report (2014). Putrajaya, Malaysia: Malaysian Meteorological Department.Annual Report2014Putrajaya, MalaysiaMalaysian Meteorological DepartmentSearch in Google Scholar
Matthai, C., Birch, G.F., Szymezak, R. (1998). Suboxic, early diagenetic process in surficial sediments near a deepwater ocean outfall, Sydney, Australia. Journal of Geochemical Exploration 64: 1-17.MatthaiC.BirchG.F.SzymezakR.1998Suboxic, early diagenetic process in surficial sediments near a deepwater ocean outfall, Sydney, Australia6411710.1016/S0375-6742(98)00018-1Search in Google Scholar
Middleton, R. Grant, A. (1990). Heavy metals in the Humber estuary: Scrobicularia clay as a preindustrial datum. Proceeding of the Yorkshire Geological Society 48: 75-80.MiddletonR.GrantA.1990Heavy metals in the Humber estuary: Scrobicularia clay as a preindustrial datum48758010.1144/pygs.48.1.75Search in Google Scholar
Mokhtar, M., Awaluddin, A. Low, Y.G. (1994). Water quality of Inanam river estuary and the Ko-Nelayan tiger prawn aquaculture ponds in Sabah, Malaysia. Hydrobiologia 285(1): 227-235.MokhtarM.AwaluddinA.LowY.G.1994Water quality of Inanam river estuary and the Ko-Nelayan tiger prawn aquaculture ponds in Sabah, Malaysia285122723510.1007/978-94-011-0958-1_22Search in Google Scholar
Molinaroli, E., Guerzoni, S., Saretta, A., Mosiol, M. Pistolato, M. (2009). Thirty-year changes (1970 to 2000) in bathymetry and sediment texture recorded in the Lagoon of Venice sub-basins, Italy. Marine Geology 258: 115-125. 10.1016/j.margeo.2008.12.001.MolinaroliE.GuerzoniS.SarettaA.MosiolM.PistolatoM.2009Thirty-year changes (1970 to 2000) in bathymetry and sediment texture recorded in the Lagoon of Venice sub-basins, Italy25811512510.1016/j.margeo.2008.12.001Open DOISearch in Google Scholar
Murray, K.S. (1996). Statistical comparisons of heavy metal concentration in river sediments. Environmental Geology 27: 54-58.MurrayK.S.1996Statistical comparisons of heavy metal concentration in river sediments27545810.1007/BF00770602Search in Google Scholar
Newman, B.K. Watling, R.J. (2007). Definition of baseline metal concentrations for assessing metal enrichment of sediment from the south-eastern Cape coastline of South Africa. Water SA 33(5): 675-691.NewmanB.K.WatlingR.J.2007Definition of baseline metal concentrations for assessing metal enrichment of sediment from the south-eastern Cape coastline of South Africa33567569110.4314/wsa.v33i5.184089Search in Google Scholar
Pempkowiak, J. (1992). Enrichment factors of heavy metals in the Southern Baltic surface sediments dated with Pb-210 and Cs-134. Environment International 17: 421-428.PempkowiakJ.1992Enrichment factors of heavy metals in the Southern Baltic surface sediments dated with Pb-210 and Cs-1341742142810.1016/0160-4120(91)90275-USearch in Google Scholar
Rae, J.E. (1997). Trace metals in deposited intertidal sediment, in biogeochemistry of intertidal sediments. In T.D. Jickells, J.E. Rae (Eds.), (pp. 16-31). Cambridge University Press.RaeJ.E.1997JickellsT.D.RaeJ.E.Eds1631Cambridge University Press10.1017/CBO9780511524905.003Search in Google Scholar
Rubio, B., Nombela, M. Vilas, F. (2000). Geochemistry of major and trace elements in sediments of the Ria de Vigo (NW Spain): an assessment of metal pollution. Marine Pollution Bulletin 40(11): 968-980.RubioB.NombelaM.VilasF.2000Geochemistry of major and trace elements in sediments of the Ria de Vigo (NW Spain): an assessment of metal pollution401196898010.1016/S0025-326X(00)00039-4Search in Google Scholar
Sany, S.B.T., Hashim, R., Rezayi, M., Salleh, A. Safari, O. (2014). A review of strategies to monitor water and sediment quality for a sustainability assessment of marine environment. Environment Science Pollution Research 21: 813-833.SanyS.B.T.HashimR.RezayiM.SallehA.SafariO.2014A review of strategies to monitor water and sediment quality for a sustainability assessment of marine environment2181383310.1007/s11356-013-2217-5Search in Google Scholar
Schiff, K.C. Weisberg, S.B. (1999). Iron as a reference element for determining trace metal enrichment in Southern California coastal shelf sediments. Marine Environmental Research 48: 161-176.SchiffK.C.WeisbergS.B.1999Iron as a reference element for determining trace metal enrichment in Southern California coastal shelf sediments4816117610.1016/S0141-1136(99)00033-1Search in Google Scholar
Shazili, N.A.M., Yunus, K., Ahmad, A.S., Abdullah, N. Abd Rashid, M.K. (2006). Heavy metal pollution status in the Malaysian aquatic environment. Aquatic Ecosystem Health and Management 9(2): 137-145.ShaziliN.A.M.YunusK.AhmadA.S.AbdullahN.Abd RashidM.K.2006Heavy metal pollution status in the Malaysian aquatic environment9213714510.1080/14634980600724023Search in Google Scholar
Siddique, A., Mumtaz, M., Zaigham, N.A., Mallick, K.A., Saied, S. et al. (2009). Heavy metal toxicity levels in coastal sediments of Arabian Sea along the urban Karachi (Pakistan) region. Marine Pollution Bulletin 58(9): 1406-1414.SiddiqueA.MumtazM.ZaighamN.A.MallickK.A.SaiedS.et al.2009Heavy metal toxicity levels in coastal sediments of Arabian Sea along the urban Karachi (Pakistan) region5891406141410.1016/j.marpolbul.2009.06.01019616812Search in Google Scholar
Spagnoli, F., Bartholini, G., Dinelli, E. Giordano, P. (2008). Geochemistry and particle size of surface sediments of Gulf of Manfredonia (Southern Adriatic Sea). Estuarine Coastal and Shelf Science 80: 21-30.SpagnoliF.BartholiniG.DinelliE.GiordanoP.2008Geochemistry and particle size of surface sediments of Gulf of Manfredonia (Southern Adriatic Sea)80213010.1016/j.ecss.2008.07.008Search in Google Scholar
Storlazzi, C.D. Field, M.E. (2000). Sediment distribution and transport along a rocky, embayed coast: Monterey Peninsula and Carmel Bay, California. Marine Geology 170: 289-316.StorlazziC.D.FieldM.E.2000Sediment distribution and transport along a rocky, embayed coast: Monterey Peninsula and Carmel Bay, California17028931610.1016/S0025-3227(00)00100-6Search in Google Scholar
Sulochanan, B., Krishnakumar, P.K., Prema, D., Kaladharan, P., Valsala, K.K. et al. (2007). Trace metal contamination of the marine environment in Palk Bay and Gulf of Mannar. Journal of Marine Biology Association India 49(1): 12- 18.SulochananB.KrishnakumarP.K.PremaD.KaladharanP.ValsalaK.K.et al.2007Trace metal contamination of the marine environment in Palk Bay and Gulf of Mannar4911218Search in Google Scholar
Tan, K.S. Ransangan, J. (2015a). Factors influencing the toxicity, detoxification and biotransformation of paralytic shellfish toxins. In D.M. Whitacre (Ed.), Reviews of environmental contamination and toxicology Volume 235(pp. 1-25). Springer International Publishing Switzerland.TanK.S.RansanganJ.2015aFactors influencing the toxicity, detoxification and biotransformation of paralytic shellfish toxinsWhitacreD.M.Ed125Springer International Publishing Switzerland10.1007/978-3-319-10861-2_125376112Search in Google Scholar
Tan, K.S. Ransangan, J. (2015b). Factor influence the larvae distribution and spat settlement of Perna viridis in Marudu Bay, Sabah, Malaysia. Advance in Environmental Biology 9(17): 18-23.TanK.S.RansanganJ.2015bFactor influence the larvae distribution and spat settlement of Perna viridis in Marudu Bay, Sabah, Malaysia9171823Search in Google Scholar
Tan, K.S. Ransangan, J. (2016). Feeding behaviour of green mussels, Perna viridis farmed in Marudu bay, Malaysia. Aquaculture Research 1-16. 10.1111/are.12963TanK.S.RansanganJ.2016Feeding behaviour of green mussels, Perna viridis farmed in Marudu bay, Malaysia11610.1111/are.12963Open DOISearch in Google Scholar
Tan, K.S., Denil, D.J. Ransangan, J. (2016). High mortality and poor growth of green mussels, Perna viridis in high chlorophyll-a environment. Ocean Science Journal In pressTanK.S.DenilD.J.RansanganJ.2016High mortality and poor growth of green mussels Perna viridis in high chlorophyll-a environmentIn pressSearch in Google Scholar
Trimble, C.A., Hoenstine, R.W., Highley, A.B., Donoghue, J.F. Ragland, P.C. (1999). Baseline sediment trace metals investigations: Steinhatchee river estuary, Florida, northeast Gulf of Mexico. Marine Georesources and Geotechnology 17(2-3): 187-197.TrimbleC.A.HoenstineR.W.HighleyA.B.DonoghueJ.F.RaglandP.C.1999Baseline sediment trace metals investigations: Steinhatchee river estuary, Florida, northeast Gulf of Mexico172-318719710.1080/106411999273864Search in Google Scholar
Tyson, R.V. (1995). Sedimentary organic matter. Organic facies and palynofacies. London: Chapman and Hall. 615p.TysonR.V.1995Sedimentary organic matterLondonChapman and Hall61510.1007/978-94-011-0739-6Search in Google Scholar
Wang, W.X., Yan, Q.L., Fan, W. Xu, Y. (2002). Bioavailability of sedimentary metals from a contaminated bay. Marine Ecological Progress Series 240: 27-38.WangW.X.YanQ.L.FanW.XuY.2002Bioavailability of sedimentary metals from a contaminated bay240273810.3354/meps240027Search in Google Scholar
Weiguo, Z., Lizhong, Y. Hutchinson, S. (2001). Magnetic normalization of particle size effects in a heavy metal pollution study of intertidal sediments from the Yangzte estuary. Science in China 44: 185-189.WeiguoZ.LizhongY.HutchinsonS.2001Magnetic normalization of particle size effects in a heavy metal pollution study of intertidal sediments from the Yangzte estuary4418518910.1007/BF02884826Search in Google Scholar
Weisberg, S.B., Wilson, H.T., Heimbunch, D.G., Windom, H.L. Summers, J.K. (2000). Comparison of sediment metal: Aluminium relationships between the eastern and gulf coasts of the United States. Environmental Monitoring and Assessment 61(3): 373-385.WeisbergS.B.WilsonH.T.HeimbunchD.G.WindomH.L.SummersJ.K.2000Comparison of sediment metal: Aluminium relationships between the eastern and gulf coasts of the United States61337338510.1023/A:1006113631027Search in Google Scholar
Xu, H., Liu, B. and Wu, F. (2010). Spatial and temporal variations of Rb/Sr ratios of the bulk surface sediments in Lake Qinghai. Geochemical Transactions 11(3).XuH.LiuB.WuF.2010Spatial and temporal variations of Rb/Sr ratios of the bulk surface sediments in Lake Qinghai11310.1186/1467-4866-11-3290914720615264Search in Google Scholar
Yang, S.L., Li, H., Ysebaert, T., Bouma, T.J., Zhang, W.X. et al. (2008). Spatial and temporal variations in sediment grain size in tidal wetlands, Yangtze Delta: On the role of physical and biotic controls. Estuarine Coastal and Shelf Science 77: 657-671.YangS.L.LiH.YsebaertT.BoumaT.J.ZhangW.X.et al.2008Spatial and temporal variations in sediment grain size in tidal wetlands, Yangtze Delta: On the role of physical and biotic controls7765767110.1016/j.ecss.2007.10.024Search in Google Scholar
Yap, C.K., Ismail, A. Tan, S.G. (2004). Heavy metal (Cd, Cu, Pb and Zn) concentrations in the green-lipped mussel Perna viridis(Linnaeus) collected from some wild and aquaculture sites in the west coast of Peninsular Malaysia. Food Chemistry 84: 569-575.YapC.K.IsmailA.TanS.G.2004Heavy metal (Cd, Cu, Pb and Zn) concentrations in the green-lipped mussel Perna viridis (Linnaeus) collected from some wild and aquaculture sites in the west coast of Peninsular Malaysia8456957510.1016/S0308-8146(03)00280-2Search in Google Scholar
Yap, C.K., Ismail, A., Tan, S.G. Rahim Ismail. A. (2006). Is gender a factor contributing to the natural variations in the accumulation of heavy metals (Cd, Cu, Pb and Zn) by the green-lipped mussel Perna viridis? Indian Journal of Marine Science 35: 29-35.YapC.K.IsmailA.TanS.G.Rahim IsmailA.2006Is gender a factor contributing to the natural variations in the accumulation of heavy metals (Cd, Cu, Pb and Zn) by the green-lipped mussel352935Search in Google Scholar
Yap, C.K., Edward, F.B. Tan, S.G. (2007). Determination of heavy metal distribution in the green mussel Perna viridis as bioindicators of heavy metal contamination in the Johore Straits and Senggarang Peninsular Malaysia. Trends in Applied Science Research 2(4): 284-294.YapC.K.EdwardF.B.TanS.G.2007Determination of heavy metal distribution in the green mussel Perna viridis as bioindicators of heavy metal contamination in the Johore Straits and Senggarang Peninsular Malaysia2428429410.3923/tasr.2007.284.294Search in Google Scholar
Yap, C.K. Al-Barwani, S.M. (2012). A comparative study of condition indices and heavy metals in Perna viridis population at Sebatu and Muar, Peninsular Malaysia. Sains Malaysiana 41(9): 1063-1069.YapC.K.Al-BarwaniS.M.2012A comparative study of condition indices and heavy metals in Perna viridis population at Sebatu and Muar, Peninsular Malaysia41910631069Search in Google Scholar
Zaaboub, N., Oueslati, W., Helali, M.A., Abdeljaouad, S.A., Huertas, F.J. et al. (2014). Trace elements in different marine sediment fractions of the Gulf of Tunis (Central Mediterranean Sea). Chemical Speciation and Bioavailability 26(1): 1-12.ZaaboubN.OueslatiW.HelaliM.A.AbdeljaouadS.A.HuertasF.J.et al.2014Trace elements in different marine sediment fractions of the Gulf of Tunis (Central Mediterranean Sea)26111210.3184/095422914X13884279095945Search in Google Scholar
Zhang, J. (1995). Geochemistry of trace metals from Chinese River/ Estuary systems: an overview. Estuarine Coastal and Shelf Science 41: 631-658.ZhangJ.1995Geochemistry of trace metals from Chinese River/ Estuary systems: an overview4163165810.1006/ecss.1995.0082Search in Google Scholar