Aisien, F. A., Faleye, O. and Aisien, E.T. (2010). Phytoremediation of Heavy Metals in Aqueous Solutions. Leonardo Journal of Sciences, 17; 37-46.
Antonkiewicz, J., Jasiewicz, C., Koncewicz-Baran. M. and Sendor, R. (2016). Nickel bioaccumulation by the chosen plant species. Acta Physiol Plant., 38(2); 40. DOI: 10.1007/ s11738-016-2062-5
Aravind, P. and Prasad, M.N.V. (2005). Cadmium- Zinc interaction in hydroponic system using Ceratophyllum demersum L.: adaptive echophysiology, biochemistry and molecular toxicology. Braz. J. Plant Physiol., 17(1); 3-20. DOI: 10.1590/S1677-04202005000100002.
Asadi Kapourchal, S., Asadi Kapourchal, S., Pazira, E. and Homaee, M. (2009). Assessing radish (Raphanus sativus L.) potential for phytoremediation of Lead- contaminated soils resulting from air pollution. Soil Plant Environ., 55(5); 202-206. DOI: 10.17221/8/2009-PSE
Asdeo, A. and Loonker, S. (2011). A comparative analysis of trace metals in vegetables. Research Journal of Environmental Toxicology., 5(2); 125-132. DOI: 10.3923/ rjet.2011.125.132.
Banaee, M., Mohammadipour, S., and Madhani, S. (2015). Effects of sublethal concentrations of permethrin on bioaccumulation of cadmium in zebra cichlid (Cichlasoma nigrofasciatum). Toxicological & Environmental Chemistry, 97(2); 200-207. DOI: 10.1080/02772248. 2015. 1031668.
Banaee, M., Sureda, A., Taheri, S., and Hedayatzadeh, F. (2019). Sub-lethal effects of dimethoate alone and in combination with cadmium on biochemical parameters in freshwater snail, Galba truncatula. Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, 220; 62-70. doi: 10.1016/j.cbpc.2019.03.002.
Hedayatzadeh, F., et al.
692
Bolandnazar, S., Khorsandi, S. and Adlipoor, M. (2016). Effect of Cadmium and Zeolite on Vegetative Growth Parameters of Cress (Lepidium sativum L.) and Radish (Raphanuss ativus L.). Plant Production Technology., 8(1); 137-146.
Dos Santos, MC. and Lenzi, E. (2000). The use of aquatic macro-phytes (Eichhornia crassipes) as a biological filter in the treatment of lead contaminated effluents. Environmental Technology., 21(6); 615-622. DOI: 10.1080/09593332108618080. Eghbal, N., Nasrabadi, T., Karbassi, A. R., & Taghavi, L. (2019). Evaluating the potential of plants (leaves) in removal of toxic metals from urban soils (case study of a district in Tehran city). Pollution, 5(2); 387-394. DOI: 10.22059/POLL.2019.272090.555. Ghaderi, A. A., Abduli, M. A., Karbassi, A. R., Nasrabadi, T., & Khajeh, M. (2012). Evaluating the effects of fertilizers on bioavailable metallic pollution of soils, case study of Sistan farms, Iran. Int. J. Environ. Res., 6(2); 565-570. DOI: 10.22059/IJER.2012.526
Ghobadi, A. and Jahangard, A. (2016). Concentration of cadmium, zinc and manganese in root, stalk and leaf of spinach and tomato in Hamedan. Journal of Food Hygiene., 6(2); 67-75. (In Persian).
Hu, J.Z., Zheng, A.Z., Pei, D.L. and Shi, G.X. (2010). Bioaccumulation and Chemical Forms of Cadmium, Copper and Lead in Aquatic Plants. Braz. arch. biol. technol., 53(1); 235-240. DOI: 10.1590/S1516-89132010000100029. Karbassi, A., Nasrabadi, T., Rezai, M., & Modabberi, S. (2014). Pollution with metals (As, Sb, Hg, Zn) in agricultural soil located close to Zarshuran gold mine, Iran. Environmental Engineering & Management Journal, 13(1); 115-122. DOI: 10.30638/eemj.2014.014.
Khodakarami, Y., Shirvany, A., Zahedi Amiri, G., Matinizadeh, M. and Safari, H. (2010). Comparison of Lead Absorption in Organisms (Root, Stem and Leaf) of Oak (Quercus brantii) and Pistachio (Pistacia atlantica) Seedlings by Spraying. Iranian Journal of Forest., 1(4); 313-320.
Li, Y., Yan, H., Liu, Q., Li, X., Ge, J., Yu, X. (2020). Accumulation and transport patterns of six phthalic acid esters (PAEs) in two leafy vegetables under hydroponic conditions. Chemosphere, 249; 126457. DOI: 10.1016/j.chemosphere.2020.126457.
Loutfy, N., Fuerhache, M., Tundo, P., Raccanelli, S. and El-Dien, A.G. and Ahmed, M.T. (2006). Dietary intake of dioxins and dioxins-like PCBs, due to the consumption of dairy products, Fish/sea food and met from Ismailia Eity, Egypt. Sci Total Environ.., 370(1); 1-8. DOI: 10.1016/j.scitotenv.2006.05.012.
Maleki, A. and Alasvand Zarasvand, M. (2008). Heavy metals in selected edible vegetables and estimation of their daily intake in Sanandaj, Iran. Southeast Asian J Trop Med Public Health., 39 (2); 335- 340.
Mattina, M.J.I., Lannucci-Berger, W., Musante, C. and White, J.C. (2003). Concurrent plant uptake of heavy metals and persistent organic pollutants from soil. Environ Pollut., 124(3); 375-378. DOI: 10.1016/S0269-7491(03)00060-5.
Mohammadipour, F. and Asadi Kapourchal, S. (2012). Assessing land cress potential for phytoextraction of cadmium from Cd contaminated soils. Journal of Soil and Water Resources Conservation., 2 (2); 25-35. [In Persian]
Mohtadi, A., Ghaderian, S.M. and Schat H. (2012). A comparison of lead accumulation and tolerance among heavy metal hyperaccumulating and non-hyperaccumulating metallophytes. Plant and Soil., 352(1-2); 267-276. DOI: 10.1007/s11104-011-0994-5.
Nazemi, S., Asgari, A.R. and Raei, M. (2010). Survey the Amount of Heavy Metals in Cultural Vegetables in Suburbs of Shahroud. Iranian Journal of Health and Environment., 3(2); 195-202. [In Persian]
Parsa doost, F., Bahreini Nejad, B., Safari Sanjani, A.K. and Kaboli, M.M. (2007). Phytoremediation of Lead with Native Rangeland Plants in Irankoh polluted soils. Pajouhesh and Sazandegi., 20 (2(75); 54-63. [In Persian]
Ping, L., Zhao, H., Wang, L., Liu, Z., Wei, J. and Wang, Y. (2011). Analysis of Heavy Metal Sources for Vegetable Soils from Shandong Province, China. Journal of Integrative Agriculture., 10(1); 109-119. DOI: 10.1016/S1671-2927(11)60313-1.
Ramos, I., Esteban, E., Lucena, J.J. and Gárate, A. (2002). Cadmium uptake and subcellular distribution in plants of Lactuca sp. Cd–Mn interaction. Plant Science., 162(5); 761-767. DOI: 10.1016/S0168-9452(02)00017-1
Rouniasi, N. and Parvizi Mosaed, H. (2016). Investigating the Amount of Heavy Metals in Different Parts of Some Consumable Vegetables in Karaj City. Iranian Journal of Health and Environment (ijhe), 9 (2); 171-184.
Saraswet, S. and Rai, J.P.N. (2009). Phytoextraction potential of six plant species grown in multimetal
Pollution, 6(3): 681-693, Summer 2020
Pollution is licensed under a "Creative Commons Attribution 4.0 International (CC-BY 4.0)"
693
contaminated soil. Chemistry and Ecology., 25(1); 1-11. DOI: 10.1080 /027575 4080 2657185.
Sharma, R.K., Agrawal, M. and Marshall, F.M. (2008). Heavy metal (Cu, Zn, Cd and Pb) contamination of vegetables in urban India: A case study in Varanasi. Environmental Pollution., 154(2); 254 -263. DOI: 10.1016/j.envpol.2007.10.010.
Singh, A., Sharma, R.K., Agrawal, M. and Marshall, F.M. (2010). Risk assessment of heavy metal toxicity through contaminated vegetables from waste water irrigated area of Varanasi, India. Tropical Ecology., 51(2); 375-87.
Singh, R.P., Dhania, G., Sharma, A. and Jaiwal, P.K. (2007). Biotechnological Approaches to Improve Phytoremediation Efficiency for Environment Contaminants. Environmental Bioremediation Technologies. 223-258. DOI: 10.1007/978-3-540-34793-4_10.
Sinha, R.K., Heart, S. and Tandon, P.K. (2007). Phytoremediation: role of plants in contaminated site management. Book of Environmental Bioremediation Technologies, Springer, Berlin, Germany, pp. 315-330.
Toolabi1, Z., Rahimi, G.h. and Marofi, S. (2014). Accumulation of heavy metals in root and aerial part of radish (Raphanus Sativus) grown in amended soils with sewage sludge. J. of Water and Soil Conservation., 21(2); 209-226.
Torabian, A. and Mahjouri, M. (2002). Heavy metals uptake by vegetable crops irrigated with waste water in south Tehran. Journal of Environmental Study., 16(2); 196-89. [In Persian]
Verbruggen, N., Hermans, C. and Schat, H. (2009). Mechanisms to Cope with Arsenic or Cadmium Excess in Plant. Curr Opin Plant Biol., 12(3); 364-372.
Yang, B., Gao, Y., Zhang, C., Zheng, X., Li, B. (2020). Mercury accumulation and transformation of main leaf vegetable crops in Cambosol and Ferrosol soil in China. Environmental Science and Pollution Research, 27(1); 391-398. DOI: 10.1007/s11356-019-06798-0.
Zare, A.A., Khoshgoftarmanesh, A.H., Malakouti, M.J., Bahrami, H.A. and Chaney, R.L. (2018). Root uptake and shoot accumulation of cadmium by lettuce at various Cd:Zn ratios in nutrient solution. Ecotoxicol Environ Saf., 148; 441-446. DOI: 10.1016/j.ecoenv.2017.10.045.
Zoufan, P., Shiralipour, N. and Rastegharzadeh, S. (2016). Investigation of uptake and accumulation of zinc in Malva parviflora: a population collected from areas surrounding production industries of steel in Ahvaz. j.plant proc. Func., 5 (15); 43-56.