RESEARCH PAPER
The monitoring of mineral elements content in fruit purchased in supermarkets and food markets from Timisoara, Romania
 
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1
Banat’s University of Agricultural Sciences and Veterinary Medicine of Timisoara – Romania
 
2
Polytechnic University of Timisoara – Romania
 
 
Ann Agric Environ Med. 2014;21(1):98-105
 
KEYWORDS
ABSTRACT
This study aimed at evaluating various fruit samples using atomic absorption spectrometry method, the content in mineral elements, macroelements (Na, K, Ca, Mg) and microelements (Cr, Cu, Mn, Fe, Cd , Pb, Zn, Co and Ni). Fruit samples were taken from supermarkets (imported products) and agricultural markets (domestic products) in the city of Timisoara, Romania. The results obtained by chemical analysis were evaluated statistically based on method of main components analyzed. Major influence in the group had evidence if macroelements potassium and sodium, iron and manganese where microelements. The results were compared with results obtained by other researchers in the world. The results fall within the legal limits set by law.
 
REFERENCES (25)
1.
Akhtar S, Naz S, Tuseef SM, Mahmood S, Nasir M, Ahmad A. Physicochemical attributes and heavy metalcontent of mangoes (Mangifera indica) cultivated in different regions of Pakistan. Pak J. Bot. 2010; 42(4): 2691–2702.
 
2.
Aberoumand A, Deokule SS. Elements evaluation of some edible vegetables and fruits of Iran and India. Asian Journal of Agricultural Sciences 2010; 2(1): 35–37.
 
3.
Ali L, Alsanius BW, Rosberg AK, Svensson B, Nielsen T, Olsson ME. Effects of nutrition strategy on the levels of nutrients and bioactive compounds in blackberries. Eur Food Res Technol. 2011.
 
4.
Hashmi DR, Ismail S, Shaikh GH. Assessment of the level of trace metals in commonly edible vegetables locally available in the markets of Karachi City. Pak J Bot. 2007; 39(3): 747–751.
 
5.
Valvi SR, Rathod VS. Mineral composition of some wild edible fruits from Kolhapur District. International Journal of Applied Biology and Pharmaceutical Technology, 2011; 2(1): 392–396.
 
6.
Soetan KO, Olaiya CO, Oyewole OE. The importance of mineral elements for humans, domestic animals and plants. African Journal of Food Science 2010; 4 (5): 200–222.
 
7.
Xin SZ, Song YJ, Lv C, Rui YK, Zhang FS, Xu W, Wu D, Wu S, Zhong J, Chen DL, Chen Q, Peng FT. Application of synchrotron radiation X-ray fluorescence to investigate the distribution of mineral elements in different organs of greenhouse spinach. Hort. Sci. 2009; 36 (4): 133–139.
 
8.
Patras A, Brunton NP, Downey G, Rawson A, Warriner K, Gernigon G. Application of principal component and hierarchical cluster analysis to classify fruits and vegetables commonly consumed in Ireland based on in vitro antioxidant activity. Journal of Food Composition and Analysis 2011; 24: 250–256.
 
9.
Reducing the Sodium in Your Diet. McKinley Health Center, University of Illinois, a Urbana Champaign.
 
10.
Nour V, Trandafir I, Ionica MM. Compositional characteristics of fruits of several apple (Malus domestica Borkh.) cultivars. Not. Bot. Hort. Agrobot. Cluj 2010; 38 (3): 228–233.
 
11.
Rodríguez MJ, Villanueva MJ, Tenorio MD. Changes in chemical composition during storage of peaches (Prunus persica). Eur Food Res Technol. 1999; 209: 135–139.
 
12.
Çalışır S, Hacıseferogˇulları H, Özcan M, Arslan D. Some nutritional and technological properties of wild plum (Prunus spp.) fruits in Turkey. Journal of Food Engineering 2005; 66(2): 233–237.
 
13.
Hacıseferoğulları H, Gezer I, Özcan MM, Murat AB. Post harvest chemical and physical–mechanical properties of some apricot varieties cultivated in Turkey. Journal of Food Engineering 2007; 79: 364–373.
 
14.
El Kossori RL, VillaumeC, El Boustani E, Sauvaire Y, Méjean L. Composition of pulp, skin and seeds of prickly pears fruit (Opuntia ficus indica sp.). Plant Foods for Human Nutrition 1998; 52: 263–270.
 
15.
The fourth National Nutrition Survey of Thailand. Ministry of Public Health, Nutrition Division, Department of Health, Thailand 1995.
 
16.
Kalyoncu IH, Ersoy N, Ylmaz M. Some physico-chemical properties and mineral contents of sweet cherry (Prunus avium L.) type grown in Konya. African Journal of Biotechnology 2009; 8 (12): 2744–2749.
 
17.
Sobukola OP, Adeniran OM, Odedairo AA, Kajihausa OE. Heavy metal levels of some fruits and leafy vegetables from selected markets in Lagos, Nigeria. African Journal of Food Science 2010; 4(2): 389–393.
 
18.
Olalla M, Fernandez J, Cabrera C, Navarro M, Gimenez R, Loapez MC. Nutritional study of copper and zinc in grapes and commercial grape juices from Spain. J Agric Food Chem. 2004; 52: 2715–2720.
 
19.
Agency for Toxic Substances and Disease Registry (ATSDR) (1999) Toxicological Profile for Cadmium and Nickel. Agency for Toxic Substances and Disease Registry, US Department of Health and Human Services, Public Health Service Contact No., 205–93–0606.
 
20.
Hakala M, Lapveteläinen A, Huopalahti R, Kallio H, Tahvonen H. Effects of varieties and cultivation conditions on the composition of strawberries. Journal of Food Composition and Analysis 2003; 16 (1): 67–80.
 
21.
Lead. Environmental Health Criteria. WHO, Geneva 1995. 22. Krejpcio Z, Sionkowski S, Bartela J. Safety of fresh fruits and juices available on the polish market as determined by heavy metal residues. Polish Journal of Environmental Studies 2005;14 (6): 877–881.
 
22.
Krejpcio Z, Sionkowski S, Bartela J. Safety of fresh fruits and juices available on the polish market as determined by heavy metal residues. Polish Journal of Environmental Studies 2005;14 (6): 877–881.
 
23.
Agency for Toxic Substances and Disease Rigistry (2004) Toxicology Profile for Cobalt. Us Department of Health and Humans Service.
 
24.
Hussain A, Yasmin A, Ali J (2010) Comparative study of chemical composition of some dried apricot varieties grown in northern areas of Pakistan. Pak. J. Bot., 42(4): 2497–2502.
 
25.
Order no. 975 of 16 December 1998 on the approval rules of the sanitary hygienic food.
 
eISSN:1898-2263
ISSN:1232-1966
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