سازمان حفاظت محیطزیست ایران. 1373. استاندارد خروجی فاضلابها.
غضبان، ف.، زارع، م.، 1390. بررسی منشأ آلودگی فلزات سنگین در رسوبات تالاب انزلی (شمال ایران)، محیطشناسی، سال سی و هفتم، شمارۀ 57، صص 45-56.
مؤسسۀ استاندارد و تحقیقات ایران. 1376. استاندارد 1053: ویژگیهای آب آشامیدنی، چاپ چهارم، تجدیدنظر پنجم.
ASTM (American Society for Testing and Materials). 2002. Standard test methods for specific gravity of soil solids by water pycnometer (ASTM D854-02). ASTM, West Conshohocken, PA.
ASTM (American Society for Testing and Materials). 2007. Standard test method for particle-size analysis of soils (ASTM D422-63). ASTM, West Conshohocken, PA.
ASTM (American Society for Testing and Materials). 2010a. Standard test methods for laboratory determination of water (moisture) content of soil and rock by mass (ASTM D2216-10). ASTM, West Conshohocken, PA.
ASTM (American Society for Testing and Materials). 2010b. Standard test methods for liquid limit, plastic limit, and plasticity index of soils (ASTM D4318-10). ASTM, West Conshohocken, PA.
Beckett, P. H. 1989. The use of extractants in studies on trace metals in soils, sewage sludges, and sludge-treated soils. In: Advances in soil science. Springer, pp. 143-176.
Calmano, W., Hong, J., Förstner, U. 1993. Binding and mobilization of heavy metals in contaminated sediments affected by pH and redox potential.Water science and technology, 28: pp. 223-223.
Cappuyns, V., Swennen, R., Verhulst, J. 2006. Assessment of heavy metal mobility in dredged sediments: porewater analysis, single and sequential extractions. Soil & sediment contamination, 15: pp. 169-186.
de Mora, S., Sheikholeslami, M. R., Wyse, E., Azemard, S., Cassi, R. 2004. An assessment of metal contamination in coastal sediments of the Caspian Sea. Marine Pollution Bulletin, 48: pp. 61-77.
Devesa-Rey, R., Díaz-Fierros, F., Barral, M. T. 2010. Trace metals in river bed sediments: An assessment of their partitioning and bioavailability by using multivariate exploratory analysis. Journal of environmental management, 91: pp. 2471-2477.
Drexler, J. W., Brattin, W. J. 2007. An in vitro procedure for estimation of lead relative bioavailability: with validation. Human and Ecological Risk Assessment, 13: pp. 383-401.
Ferraz, M.C.M., Lourenco, J.C.N. 2000. The influence of organic matter content of contaminated soils on the leaching rate of heavy metals. Environtal Progress, 19: pp. 53-58.
Gupta, S. K., Vollmer, M. K., Krebs, R. 1996. The importance of mobile, mobilisable and pseudo total heavy metal fractions in soil for three-level risk assessment and risk management. Science of the Total Environment, 178: pp. 11-20.
Hakanson, L. 1980. An ecological risk index for aquatic pollution control. A sedimentological approach. Water research, 14: pp. 975-1001.
Jamshidi-Zanjani, A. 2013. Development of index of heavy metals pollution intensity in aquatic sediments (unpublished doctoral dissertation). Iran University of Science and Technology, Tehran, Iran.
Jamshidi-Zanjani, A., Saeedi, M. 2013. Metal pollution assessment and multivariate analysis in sediment of Anzali international wetland. Environmental Earth Sciences. 70: pp. 1791-1808.
Jamshidi-Zanjani, A., Saeedi, M., Li, L. Y. 2014. A risk assessment index for bioavailability of metals in sediments: Anzali International Wetland case study.Environmental Earth Sciences doi: 10.1007/s12665-014-3562-5
JICA (Japan International Cooperation Agency). 2005. The study on integrated management for ecosystem conservation of the Anzali wetland in the Islamic Republic of Iran. Final report submitted to department of environment.
Karbassi, A. R., Nabi-Bidhendi, G.R., Bayati, I. (2005). Environmental geochemistry of heavy metals in a sediment core off Bushehr, Persian Gulf. Iranian Journal of Environmental Health Science & Engineering, 2: pp. 255-260.
Klavinš, M., Briede, A., Rodinov, V., Kokorite, I., Parele, E., Klavina, I. 2000. Heavy metals in rivers of Latvia. Science of the Total Environment, 262: pp. 175-183.
Liu, R., Zhao, D. 2007. The leachability, bioaccessibility, and speciation of Cu in the sediment of channel catfish ponds. Environmental Pollution, 147: pp. 593-603.
Luo, X. S., Yu, S., Li, X. D. 2012. The mobility, bioavailability, and human bioaccessibility of trace metals in urban soils of Hong Kong. Applied Geochemistry, 27: pp. 995-1004.
Madrid, F., Biasioli, M., Ajmone-Marsan, F. 2008. Availability and bioaccessibility of metals in fine particles of some urban soils. Archives of Environmental Contamination and Toxicology, 55: pp. 21-32.
Magdaleno, A., Mendelson, A., de Iorio, A. F., Rendina, A., Moretton, J. 2008. Genotoxicity of leachates from highly polluted lowland river sediments destined for disposal in landfill. Waste management, 28: pp. 2134-2139.
Maskell, J.E., Thornton, I. 1998. Chemical partitioning of heavy metals in soil rock at historical lead smelter site. Water, air and soil pollution, 108: pp.391-409.
Morillo, J., Usero, J., Rojas, R. 2008. Fractionation of metals and As in sediments from a biosphere reserve (Odiel salt marshes) affected by acidic mine drainage. Environmental monitoring and assessment, 139: pp. 329-337.
Novozamsky, I., Lexmond, T. M., Houba, V. J. G. 1993. A single extraction procedure of soil for evaluation of uptake of some heavy metals by plants.International Journal of Environmental Analytical Chemistry, 51: pp. 47-58.
Pacifico, R., Adamo, P., Cremisini, C., Spaziani, F., Ferrara, L. 2007. A geochemical analytical approach for the evaluation of heavy metal distribution in lagoon sediments. Journal of Soils and Sediments, 7: pp. 313-325.
Pardo, R., Barrado, E., Lourdes, P., Vega, M. 1990. Determination and speciation of heavy metals in sediments of the Pisuerga River. Water Research, 24: pp. 373-379.
Park, C., Allaby, M. (Eds.). 2013. A dictionary of environment and conservation. Oxford University Press.
Piou, S., Bataillard, P., Laboudigue, A., Férard, J. F., Masfaraud, J. F. 2009. Changes in the geochemistry and ecotoxicity of a Zn and Cd contaminated dredged sediment over time after land disposal. Environmental research, 109: pp. 712-720.
Poggio, L., Vrščaj, B., Schulin, R., Hepperle, E., Ajmone Marsan, F. 2009. Metals pollution and human bioaccessibility of topsoils in Grugliasco (Italy).Environmental Pollution, 157: pp. 680-689.
Quevauviller, P., Rauret, G., Rubio, R., López-Sánchez, J. F., Ure, A., Bacon, J., Muntau, H. 1997. Certified reference materials for the quality control of EDTA-and acetic acid-extractable contents of trace elements in sewage sludge amended soils (CRMs 483 and 484). Fresenius' journal of analytical chemistry, 357: pp. 611-618.
Ramos, L., Gonza lez, M.J., Herna ndez, L.M. 1999. Sequential extraction of copper, lead, cadmium and zinc in sediments from Ebro River (spain): relationship with levels detected in earthworms. Bull. Environ. Bulletin of Environmental Contamination and Toxicology, 62: pp. 301-308.
Rath, P., Panda, U. C., Bhatta, D., Sahu, K. C. 2009. Use of sequential leaching, mineralogy, morphology and multivariate statistical technique for quantifying metal pollution in highly polluted aquatic sediments—a case study: Brahmani and Nandira Rivers, India. Journal of Hazardous Materials, 163: pp. 632-644.
Reddy, K. R., DeLaune, R. D. 2004. Biogeochemistry of wetlands: science and applications. New York: Crc Press.
Tessier, A., Campbell, P. G., Bisson, M. 1979. Sequential extraction procedure for the speciation of particulate trace metals. Analytical chemistry, 51: pp. 844-851.
Sahuquillo, A., Rigol, A., Rauret, G. 2003. Overview of the use of leaching/extraction tests for risk assessment of trace metals in contaminated soils and sediments. TrAC Trends in Analytical Chemistry, 22: pp. 152-159.
Salomons, W., Förstner, U. 1984. Metals in the Hydrocycle. Springer, Berlin.
Stephens, S. R., Alloway, B. J., Parker, A., Carter, J. E., Hodson, M. E. 2001. Changes in the leachability of metals from dredged canal sediments during drying and oxidation. Environmental Pollution, 114: pp. 407-413.
Tack, F. M., Verloo, M. G. 1996. Impact of single reagent extraction using NH4OAc-EDTA on the solid phase distribution of metals in a contaminated dredged sediment. Science of the total environment, 178: pp. 29-36.
Thornburg, T., Cumberland, H., Hermans, M., Childs, M. 2002, May. Sediment and Water Quality Evaluation Framework for Disposal of Dredged Material in an Upland Rehandling Facility, Portland, Oregon. (Presented Conference Paper style). In: Dredging '02, Orlando, Florida. ASCE, pp. 1-15
Turekian, K. K., Wedepohl, K. H. 1961. Distribution of the elements in some major units of the earth's crust. Geological Society of America Bulletin, 72: pp. 175-192.
Udovic, M., Drobne, D., Lestan, D. 2009. Bioaccumulation in Porcellio scaber (Crustacea, Isopoda) as a measure of the EDTA remediation efficiency of metal-polluted soil. Environmental pollution, 157: pp. 2822-2829.
USEPA (U.S. Environmental Protection Agency). 1997. Test Methods for Evaluating Solid Waste Physical/Chemical Methods (SW-846).
USEPA (U.S. Environmental Protection Agency). 2006. Drinking Water Standards and Health Advisories. http://water.epa.gov/action/advisories/drinking/upload/2009_04_27_criteria_drinking_dwstandards.pdf
Wade ,R., Price, R.A., Simmers, J.W., Price, C., Palermo, M.R., Gibson, A.B. 2002. Evaluation of Dredged Material Disposal and Management for Appomattox River Federal Navigation Channel, Petersburg, Virginia: phase I and II: Environmental and engineering studies. U.S. Army Engineer Research and Development Center, Vicksburg, MS.
Zhu, Q. H., Huang, D. Y., Liu, S. L., Luo, Z. C., Zhu, H. H., Zhou, B., Lei, M., Rao, Z. X., Cao, X. L. 2012. Assessment of single extraction methods for evaluating the immobilization effect of amendments on cadmium in contaminated acidic paddy soil. Plant Soil Environ, 58: pp. 98-103.
)