Iranian Journal of Analytical Chemistry

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Metal Determination in Iranian Saffron

Document Type : Full research article

Authors

1 Department of Food Safety and Quality Control, Research Institute of Food Science and Technology, P. O. Box 91735-147, Mashhad, Iran.

2 Department of Food Chemistry, Research Institute of Food Science and Technology. Mashhad, Iran.

3 Department of Chemistry, KCG College of Technology, Chennai, Tamil Nadu, India – 600097.

Abstract

The present investigation reports a quantitative analysis of metals in the saffron samples collected from seven different saffron production areas in the Khorasan Razavi province, Iran. Khorasan Razavi is the leading producer of saffron in Iran, and more than 95% of the global production of this expensive spice is attributed to Iran. Since environmental pollution is increasing, saffron is contaminated with various organic and inorganic contaminants such as heavy metals. Twenty-one saffron samples were collected in the flowering season of 2018 and analyzed for metal content. The concentration of microelements and heavy metals including Zn, Fe, Ca, Mn, Mg, Na, K, Pb, Cd, Cu, and Cr was determined in the samples collected from three farms in each production area with graphite furnace and flame atomic absorption spectroscopy. The results revealed that the collected saffron stigmas contain a wide range of minerals and heavy metals with different concentrations. Potassium is the most abundant element, and Cd had the least concentration in the saffron. It can be concluded that ecological management plans such as reducing chemical fertilizers and improving organic fertilizers can decline the extent of heavy metals in the saffron.

Keywords

References
[1]     P. Goldblatt, T.J. Davies, J.C. Manning, M. van der Bank and V. Savolainen, Phylogeny of Iridaceae Subfamily Crocoideae Based on a Combined Multigene Plastid DNA Analysis. Aliso 22(1) (2006):Article 32.
[2]     S.R. Sampathu, S. Shivashankar, Y.S. Lewis and A.B. Wood, Saffron (Crocus Sativus Linn.) — Cultivation, processing, chemistry and standardization. Crit. Rev. Food Sci. Nutr. 20(2) (1984) 123-157.
[3]     H. Hosseinzadeh and H.M. Younesi, Antinociceptive and anti-inflammatory effects of Crocus sativus L.stigma and petal extracts in mice. BMC Pharmacol. 2 (2002) 7-15.
[4]     H. Caballero-Ortega, R. Pereda-Miranda, L. Riverón-Negrete, J.M. Hernández, M. Medécigo-Ríos, A. Castillo-Villanueva and F.I. Abdullaev, Chemical composition of saffron (Crocus sativus L.) from four countries. In, 2004. International Society for Horticultural Science (ISHS), Leuven, Belgium, pp 321-326.
[5]     M. Kafi, A. Koocheki and M.H. Rashed, Saffron (Crocus Sativus): Production and Processing. Taylor & Francis, CRC Press; 1st edition (2006) pp 1-252.
[6]     A. Mollafilabi, Comparative study of q new method of saffron cultivation with a traditional method for improving saffron productivity. Paper presented at the III International Symposium on Saffron: Forthcoming Challenges in Cultivation, Research and Economics, (2010).
[7]     F.I. Abdullaev, Cancer chemopreventive and tumoricidal properties of saffron (Crocus sativus L.). Exp. Biol. Med 227 (2002) 20-25.
[8]     J.A. Fernandez, Biology, biotechnology and biomedicine of saffron. Recent research developments in plant science, Research Signpost, Trivandrum 2 (2004) pp127-159.
[9]     M. Ajami, S. Eghtesadi, H. Pazoki-Toroudi, R. Habibey and S.A. Ebrahimi, Effect of crocus sativus on gentamicin induced nephrotoxicity. Biol. Res.  43 (2010) 83-90.
[10] C.D. Kanakis, P.A. Tarantilis, H.A. Tajmir-Riahi and M.G. Polissiou, Crocetin, Dimethylcrocetin, and Safranal Bind Human Serum Albumin:  Stability and Antioxidative Properties. J. Agric. Food Chem. 55(3) (2007) 970-977.
[11] S.A. Ordoudi, C.D. Befani, N. Nenadis, G.G. Koliakos and M.Z. Tsimidou, Further Examination of Antiradical Properties of Crocus sativus Stigmas Extract Rich in Crocins. J. Agric. Food Chem. 57(8) (2009) 3080-3086.
[12] A.K. Sharma, A Handbook of Organic Farming. Agrobios (India), India (2001) pp 1-11.
[13] A. Kumar, A.G.C Nair,. A.V.R. Reddy and A.N. Garg, Availability of essential elements in Indian and US tea brands. Food Chem. 89(3) (2005) 441-448.
[14] A. Łozak, K. Sołtyk, P. Ostapczuk and Z. Fijałek, Determination of selected trace elements in herbs and their infusions. Sci. Total Environ. 289(1) (2002) 33-40.
[15] X. Cao, G. Zhao, M. Yin and J. Li, Determination of ultratrace rare earth elements in tea by inductively coupled plasma mass spectrometry with microwave digestion and AG50W-x8 cation exchange chromatography. Analyst 123(5) (1998) 1115-1119.
[16] D.A. Blake, R.M. Jones, R.C. Blake, A.R.P. avlov, I.A. Darwish and H.Yu, Antibody-based sensors for heavy metal ions. Biosens. Bioelectron. 16(9) (2001) 799-809.
[17]  S.C. Wong, X.D. Li, G. Zhang, S.H. Qi and Y.S. Min, Heavy metals in agricultural soils of the Pearl River Delta, South China. Environ. Pollut. 119(1) (2002) 33-44.
[18] D.C. Adriano, W.W. Wenzel, J. Vangronsveld and N.S. Bolan, Role of assisted natural remediation in environmental cleanup. Geoderma 122(2) (2004) 121-142.
[19] M.R. Behnia, Saffron cultivation, vol 1. Tehran university publication, Tehran (1991) pp 1-530.
[20] S. Ikram, U. Habib and N. Khalid, Effect of different potting media combinations on growth and vase life of tuberose (Polianthes tuberosa Linn.). Pak. J. Agric. Sci. 49 (2012) 121-125.
[21] A.R. Koocheki, M.A. Behdani, M. Nassiri Mahallati and P. Rezvani Moghaddam, The Evaluation of Quantitative Relationships between Saffron Yield and Nutrition (On farm trial). J. Iranian Field Crops Res. 3 (2005) 14-11.
[22] Y.Y. Murevanhema and V.A. Jideani, Potential of Bambara Groundnut (Vigna subterranea (L.) Verdc) Milk as a Probiotic Beverage-A Review. Crit. Rev. Food Sci. Nutr. 53(9) (2013) 954-967.
[23] C.Q. Wang and H. Song, Calcium protects Trifolium repens L. seedlings against cadmium stress. Plant Cell Rep. 28(9) (2009) 1341-1349.
[24]  J. Ahmadi, M.M. Seyfi and M. Amini, Effect of spraying micro nutrients Fe, Zn and Ca on grain and oilyield of sesame (Sesamusindicum L.) varieties. J. Crop Prod. 5(3) (2012) 115-130.
[25] A. Vatanpur-Azghadi and N. Mojtahedi, A review on application of tissue culture and biotechnology in saffron. Paper presented at the Proceeding of 3rd National Congress on Saffron, 11-12th December (2003), Mashhad, Iran.
[26] J.L. Havlin, S.L. Tisdale, W.L. Nelson and J.D. Beaton, Soil fertility and fertilizers : an introduction to nutrient management. Boston : Pearson, (2014).
[27] L.X. Zhou and J.W.C. Wong, Effect of Dissolved Organic Matter from Sludge and Sludge Compost on Soil Copper Sorption. J. Environ. Qual. 30 (2001) 878-883.
[28] D.J. Walker,  R. Clemente, A. Roig, and M. Bernal, The effects of soil amendments on heavy metal bioavailability in two contaminated Mediterranean soils. Environ. Pollut. 122(2) (2003) 303-312.
[29] M. Taghipour, M. Khademi and S. Ayoubi, Spatial variability of Pb and Zn concentration and itsrelationship with land use and parent materials in selected surface soils of Hamadan province. J. Soil Water Conserv. 24(1) (2010) 132-144.
[30] E. Nelson, Principles of Environmental Geochemistry. Cengage Learning, Inc, CA, United States (2003).
[31] M. Shokrzadeh and S.S. Saeedi Saravi, The study of heavy metals (zinc, lead, cadmium, and chromium) in water sampled from Gorgan coast (Iran), Spring 2008. Toxicol. Environ. Chem. 91(3) (2009) 405-407.
[32] S. Kamala-Kannan, B. Prabhu Dass Batvari, K.J. Lee, N. Kannan, R. Krishnamoorthy,  K. Shanthi and M. Jayaprakash, Assessment of heavy metals (Cd, Cr and Pb) in water, sediment and seaweed (Ulva lactuca) in the Pulicat Lake, South East India. Chemosphere 71(7) (2008) 1233-1240.
[33] M. Rostami, R. Karamian and Z. Joulaei, Effect of Different Heavy Metals on Physiological Traits of Saffron (Crocus sativus L.). Saffron Agronomy Technol. 3(2) (2015) 83-96.
[34] L. Brahim and M. Mohamed, Effects of copper stress on antioxidative enzymes, chlorophyll and protein content in Atriplexhalimus. African J. Biotechnol. 10(50) (2011) 10143-10148.
[35]  INSO 259-1. Saffron-Specification. 2013. 5th revision, Iranian National Standard Organization. 
[36] C. Micó, L. Recatalá, M. Peris and J. Sánchez, Assessing heavy metal sources in agricultural soils of an European Mediterranean area by multivariate analysis. Chemosphere 65(5) (2006) 863-872.
[37] H. Rodríguez, R. Fraga,  T. Gonzalez and Y. Bashan, Genetics of phosphate solubilization and its potential applications for improving plant growth-promoting bacteria. In, Dordrecht, 2007. First International Meeting on Microbial Phosphate Solubilization. Springer Netherlands, pp 15-21.
[38] E. Islam, D. Liu, T. Li,  X. Yang, X. Jin, Q. Mahmood,  S. Tian  and J. Li, Effect of Pb toxicity on leaf growth, physiology and ultrastructure in the two ecotypes of Elsholtzia argyi. J. Hazard. Mater. 154(1) (2008) 914-926.
[39] R. John, P. Ahmad,  K. Gadgil and S. Sharma, Heavy metal toxicity: Effect on plant growth, biochemical parameters and metal accumulation by Brassica juncea L. Int. J. Plant Prod. 3(3) (2012) 65-76.
[40] Y. Rui,  J. Shen and F. Zhang,  Application of ICP-MS to determination of heavy metal content of heavy metals in two kinds of N fertilizer. Guang Pu Xue Yu 28(10) (2008) 2425-2427.
[41] M. Molina,  F. Aburto,  R. Calderón,  M. Cazanga and  M. Escudey, Trace Element Composition of Selected Fertilizers Used in Chile: Phosphorus Fertilizers as a Source of Long-Term Soil Contamination. J. Soil Contam. 18(4) (2009) 497-511.
[42] M.B. McBride and G. Spiers, Trace element content of selected fertilizers and dairy manures as determined by ICP–MS. Comm. Soil Sci. Plant Anal. 32(1-2) (2001) 139-156.
[43] X.T. Ju,  C.L. Kou,  P. Christie, Z.X. Dou and  F.S. Zhang, Changes in the soil environment from excessive application of fertilizers and manures to two contrasting intensive cropping systems on the North China Plain. Environ. Pollut. 145(2) (2007) 497-506.
[44] Y. Jiao,  C.A. Grant and L.D. Bailey,  Effects of phosphorus and zinc fertilizer on cadmium uptake and distribution in flax and durum wheat. J. Sci. Food Agric. 84(8) (2004) 777-785.
[45] L-H. Jia and Y. Liu, Determination of the major metal elements including heavy metals in Saffron from Tibet and Henan by ICP-AES or ICP-MS. J. Chin. Pharm. Sci. 20 (2011) 297-301.
[46] J.P. Melnyk, S. Wang and M.F. Marcone, Chemical and biological properties of the world's most expensive spice: Saffron. Food Res. Int. 43(8) (2010) 1981-1989.
Iranian Journal of Analytical Chemistry
Volume 8, Issue 1 - Serial Number 15
March 2021
Pages 78-86
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