Determination of trace metals in the bark root of Phyllanthus emblica (L.,)
Jaya Gupta, Amit Gupta, A.K.Gupta
Department of Chemistry, Agra College, Agra, India
DOI : http://dx.doi.org/10.13005/ojc/300256
Article Received on :
Article Accepted on :
Article Published : 22 May 2014
The bark root of Phyllanthus emblica were digested with HNO3 and HClO4 (4:1) and the contents of trace elements such as As, Ca, Cd, Co, Cr, Cu, Fe, K , Mg, ,Ni, Mn, Pb, and Zn were determined by atomic absorption spectroscopy. The presence of beneficial element i.e., Fe, Zn, K, Mg,Mn, Ca, Co, Ni are within limit. The concentration of heavy trace elements Cu, Cr, and Cd are within limit but the concentration of Pb and As are high.
KEYWORDS:Phyllanthus emblica; atomic absorption spectroscopy; essential trace elements; heavy metals
Download this article as:Copy the following to cite this article: Gupta J, Gupta A, Gupta A. K. Determination of trace metals in the bark root of Phyllanthus emblica (L.,). Orient J Chem 2014;30(2). |
Copy the following to cite this URL: Gupta J, Gupta A, Gupta A. K. Determination of trace metals in the bark root of Phyllanthus emblica (L.,). Orient J Chem 2014;30(2) Available from: http://www.orientjchem.org/?p=3402 |
INTRODUCTION
Phyllanthus emblica Linn. known as Indian gooseberry belongs to family Euphorbiaceae. It is a very richest source of vitamin C1 found in abundant amount in deciduous forest of Madhya Pradesh. It is common all over tropical and sub-tropical India. It is known as amalaka in Sanskrit, amla in Hindi, olay in Punjabi, aamla in Gujarati, nellikkai in Tamil, amala in Nepali, ma kham pom in Thai, usiri in Telgu, emblic myrobalan in English. It has antiaging, antiviral, chondroprotective2,antibacterial3,anti-proliferative, anti-platelet4-6,anti-HIV-1, chemoprotective7, hypolipidamic,antiulcer,antidiabetic8 properties. It is used as antioxidant9, aphrodisiac, as chelating agent, in constipitation, dental problems, diarrhoea, diuretic fevers, gonorrhea, hair growth, headache10, inflammation mouth ulcers, respiratory problems, skin whitening etc . Leaves of Phyllanthus emblica possess antineutrophilic activity. It reduces blood cholesterol and triglyceride levels11-12.
Heavy metals are a definite human health hazard because of their bioaccummulativity13 and they belong to group of undesirable substances. Due to the essential or toxic nature of heavy metals, their distribution in plants is of interest. For example, zinc, iron, cobalt, chromium, copper and manganese are essential, while cadmium, lead, mercury are toxic14. In past few years research of trace element distribution in medicinal plants15-16 becomes important. Trace elements are the essential for human health and they prevent several diseases. The atomic absorption spectroscopy 17-18 is an important method for detection of trace elements.
EXPERIMENTAL
Bark roots of Phyllanthus emblica are picked from Agra and Firozabad. For fifteen days, the samples were air dried under shade. Then powdered with the help of warming blender, 2.5gm ground dried plant leaves were place in a 250 ml conical flask, 2.5 ml concentrated HNO3 was added slowly with constant shaking. The mixture was heated on a hot plate until the production of brown fumes ceases. The content of beaker was cooled and 10 ml of 70% HClO4 was added. It was heated again very gently until the solution turns colorless and allowed to evaporating to a small volume. Now cooled and added double distilled water and was filtered into a 100 ml flask using Whatmann filter paper and volume was diluted with double distilled water. The total concentrations of Zn, Fe, Ni, Mn, K, Ca, Mg ,Co, Cr, Cu, Cd, Pb, As etc. were analyzed by atomic absorption spectroscopy (Model: Perkin Elmer A Analyst 100)
(Table: 1) ESSENTIAL TRACE ELEMENTS
Element | Zn | Fe | Ni | Mn | K | Ca | Mg | Co | |
Phyllanthus emblica (bark root) of Agra | Mean | 9.473 ppm | 19.226 ppm | 1.878ppm | 8.345 ppm | 15.413ppm | 30.824 ppm | 4.242 ppm | 0.124ppm |
Element | Zn | Fe | Ni | Mn | K | Ca | Mg | Co | |
Phyllanthus emblica (bark root) of Firozabad | Mean | 12.578 ppm | 18.485 ppm | 2.032ppm | 6.421ppm | 12.362ppm | 28.226ppm | 2.573 ppm | 0.228ppm |
Fig 1: 1 Comparative study of essential trace elements in Agra and Firozabad Click here to View Figure |
(Table: 2) HARMFUL HEAVY METALS
Element | Cu | Cr | Cd | Pb | As | |
Phyllanthus emblica (Bark root) of Agra | Mean | 0.814 ppm | 0.628 ppm | 0.082 ppm | 10.216 ppm | 5.821ppm |
Element | Cu | Cr | Cd | Pb | As | |
Phyllanthus emblica (Bark root) of Firozabad | Mean | 0.762 ppm | 0.524 ppm | 0.915 ppm | 15.628 ppm | 6.743 ppm |
Fig 2: 2 Comparative study of harmful heavy metals in Agra and Firozabad Click here to View Figure |
RESULTS AND DISCUSSION
The concentration of copper is 0.814ppm in bark root sample of Agra and 0.762ppm in sample of Firozabad. For some essential enzymes such as super oxide dismustase, cytochrome oxidase, lysyl oxidase etc. copper is required. Excess of copper causes dermatitis, metallic taste in the mouth, hair and skin decoloration etc. Copper19 play role in some neurological conditions like Alzheimer’s disease, Wilson’s disease, Prion disease. In edible plants permissible limit set by FAO/WHO in 1984 was 3.00 ppm. Thus in Phyllanthus emblica copper is within limit. Sample of Agra contains more copper in comparison to sample of Firozabad.
The concentration of cadmium in bark root is 0.082 ppm of Agra and 0.915 ppm in the sample of Firozabad. Cadmium is non-essential trace element and very hazardous to human. As cadmium accumulates in the environment throughout the food chain, it poses a serious threat to human beings. The industrial uses of cadmium are wide spread and increasing in electroplating, paint, plastic, alloy preparation, mining and silver-cadmium batteries. Cadmium biochemically replaces zinc and causes high blood pressure. Cd damages kidney and liver20. Cadmium causes a disease known as Itai-Itai. The permissible limit set by WHO is 0.2 to 0.81 ppm Thus in Phyllanthus emblica concentration of cadmium is within limit..
The concentration of lead in bark root sample of Agra is 10.216 ppm and 15.628 ppm in leaf sample of Firozabad. Lead is non-essential element and has no beneficial effects in humans. Exposure of lead produces harmful effects 21-22. Lead can cause abnormal brain23 and nerve function, chronic nephritis of kidneys, anemia etc. The permissible limit set by WHO is 0.1 to 10 ppm. Thus, concentration of lead in both the sample of Phyllanthus emblica are high.
The concentration of arsenic in bark root sample of Agra is 5.821 ppm and 6.743 ppm in the sample of Firozabad. In medicinal plants concentration of arsenic recommended is less than 1.0 ppm24. So, it is more than permissible limit. Excess of arsenic causes metabolic disorder, dermatitis, lung cancer, cardiovascular and neurological effects.
In Phyllanthus emblica concentration of Ni in the sample of Agra is 1.878 ppm and 2.032 ppm in the sample of Firozabad. No limit yet been given by WHO in 2005 for Ni in medicinal plants. Ni plays an important role in the production of insulin. Nickel was thought to be essential to plants and some domestic animals25 but not considered to be a metal of biological importance .But after discovery of urease i.e., an nickel enzyme26, it is consider as an element of biological importance. Ni is identified as suspected carcinogen. Nickel can cause a skin disorder known as nickel – eczema27.Thus concentration nickel in Phyllanthus emblica is within limit.
In the sample of Agra concentration of iron is 19.226 ppm and 18.485 ppm in the sample of Firozabad. For Fe in medicinal plants limits not yet been established by WHO in 2005. For the formation of hemoglobin iron is necessary. Iron is required in the process of cellular respiration in human body28.Deficiency of iron causes anemia, depression, poor resistance to infection29,weakness etc.
Concentration of Cr in the sample of Agra is 0.628 ppm and 0.524 ppm in the leaf sample of Firozabad. Deficiency of chromium causes diabetes, growth failure, hyperglycemia, neuropathy, and atherosclerosis. For the normal metabolism of cholesterol, fat and glucose30, trivalent chromium is necessary. Hexavalent chromium is a mucous membrane and skin irritant. Chromium is one of the known environmental toxic pollutants in the world. Excess of chromium causes respiratory trouble, liver and kidney damage,skin rashes etc. By U.S. Toxicology Programme chromium is recognized as pulmonary carcinogen. No limit yet been established by WHO (2005) for Cr. In medicinal plants, Canada set 2 ppm permissible limit in raw medicinal plant material. Thus, concentration of Cr is within limit.
The concentration of zinc in the sample of Phyllanthus emblica is 9.473 ppm in the sample of Agra and 12.578 ppm in the sample of Firozabad. The permissible limit set by FAO/WHO (1984) in edible plants was 27.4 ppm. More than 200 proteins and enzymes contain zinc. It is required for brain development, DNA synthesis, steroidogenesis31 bone formation, wound healing32. Thus, concentration of zinc is within limit.
The concentration of calcium in the sample of Agra is 30.824 ppm and 28.226 ppm in the sample of Firozabad. For all organisms calcium is essential. Calcium helps in transporting of long chain fatty acids which helps in preventing high blood pressure, heart diseases and some other cardiovascular diseases. Deficiency of calcium causes osteoporosis, rickets, back pain etc. The concentration of calcium is within limit.
The concentration of magnesium in the sample of Agra is 4.242 ppm and in the sample of Firozabad is 2.573 ppm. Magnesium works with calcium to help transmitting nerve impulse in the brain. Mg is required in the plasma and extracellular fluid, where in helps in maintaining osmotic equilibrium. Magnesium has calming effect and works on the nervous system of those peoples, suffering from depression. In blood its quantity is 2-4mg/100ml.
The concentration of K in bark root of Phyllanthus emblica is 15.413 ppm in the sample of Agra and 12.362 ppm in the sample of Firozabad. It is a major cation in the cytoplasma and important in nerve action. Potassium reduces blood pressure. It is essential in protein bio-synthesis by ribosomes. The concentration of cobalt in the sample of Agra is 0.124 ppm and in the sample of Firozabad is 0.228 ppm. Cobalt is found in Vitamin-B12 and plays an important role in the synthesis of hemoglobin, DNA and several enzymes. There is no established criterion for cobalt in medicinal plants.
The concentration of manganese in the sample of Agra is 8.345 ppm and that of Firozabad is 6.421 ppm. Mn strengthens nerves and involved in the synthesis of cholesterol and fatty acids. Mn provides resistance to disease. Excess of manganese causes adverse effects on the lungs and brain. Its deficiency results in several skeletal and reproductive abnormalities. The estimated dietary intake of Mn in adults is 11 mg/day. WHO (2005) established no limit for Mn. Thus, manganese is within limit. Thus on the basis of above results, it is found that Phyllanthus emblica contain useful trace elements Ca, Fe, Zn, Mg , K, Mn, Co, Ni are within limit. Harmful heavy metals Cu, Cr Cd, Pb are also with in limit but concentration of Pb and As are high.
ACKNOWLEDGEMENT
We are very grateful to University Grants Commission, New Delhi, India for their financial assistance (Grant No.F.15-39/12 (SA-II)). We are also very thankful to Dr.M.K.Rawat, Principal Agra College, Agra for their support.
REFERENCES
- Tarwadi,K. and Agte,V., Int J Food Sci Nutr, 58(5): 341 (2007).
- Sumantran,V.N.,Kulkarni,A.,Chandrasekhar,R.,Harsulkar,A.,Patwardhan,B.,Chopra.A. andWaugh,U.V., Evidence-Based Complemntary and Alternative medicine,5,239-335,(2008)
- Khopde, S.M., Priyadarshni,K.I.,Guha,S.N., Satav,J.G., Vankatesan,P. and Rao, M.N.A., Biosci.Biotechnol.Biochem, 64, 503, (2000).
- Raghu,H.S. and Ravindara,P., International Journal of Pharmaceutical Studies and Research, 1, 30 (2010)
- Chaterjee,A.,Chattopadhyay,S.andBandyopadhyay,S.K.,Evidince Based Complementary and Alternative Medicine,8,1-13 (2011).
- Charoenteeraboon,J.,Ngamkitidechakul,C.,Soonthornchareonnon,N.,Jaijoy,K.and Sireeratawong,S., J.Sci. Technol, 32(6), 599 (2010).
- Sultana,S.,Ahmed,S.and Jahanger,T.,Journal of Ethnopharmacology,118,1-3(2008)
- Krishnaveni,M.and Minunalini,S.,Journal of basic and Clinical Physiology and Pharmacology,21,93-105(2010)
- Reddy,V.D.,Padmavathi,P.andVaradacharyulu.M.C., Journal of Medicinal food,12,327-333(2005)
- Perry,L.M., Medicinal Plants of East and Southeast Asia, MIT Press. Cambridge, p149-150 (1980).
- Jacob,A., Pandey,M., Kapoor,S. and Saroja,R., Eur .J Clin Nutr, 42 (11), 939 (1988).
- Qureshi,S.A., Asad,W. and Sultana,V., Pakistan Journal of Nutrition 8(2) 125-128 (2009).
- Stwerka,A.A.,Guide to the elements,Oxford University Press(1996)
- Nordberg,G.F., Environ.Health Perpect.,114,191,(2006)
- Gupta,J and Gupta,A., Oriental Journ.Of Chemistry,29(4),1547-1551,(2013)
- Zhang S.B. and Guo,Y.S., Chin. J.Health Lab.Technol., 46, 15, (2005).
- Liu,C.H.,Wang,C.H., and Liu,Z.P., Spectrosc.Spect. Anal., 28, 686, (2008).
- Liang, B.A., and Zhang, F.J., Spectrosc. Spect. Anal., 27, 813, (2007).
- Onyamborko,N.V., Benemariya,H., Robberecht,H. and Deelstra,H., Food Chem Biotech.,45,21 (1990)
- Neil, P.O., Minor Element and Environmental Problems, Environmental Chemistry, 2nd Ed. 96, (1993).
- Chukhlovin, A.B., Tokalov, S.V.,Yagunov, A.S., Westendorf, J., Reincke,H. and Karbe,L., Sci.Total Environ., 281,153 (2001)
- Hsu, P.C. and Guo,Y.L., Toxicology, 180, 33 (2002)
- Goel,J., Kadirvelu,K.,Rajagopal.C and Garg,VK.,J.Hazard.Mater., B125.211,(2005)
- WHO, Monographs on Selected Medicinal Plants, Vol.1 World Health Organization, Geneva (1999).
- Wang,K.,Nickel Trace Elements in Life Science, Chinese Measurement Press,Perking,China,pp.275-280(1991)
- Zerner,B.,Bioorg.Chem.,19,116 (1991)
- Kristiansen,J., Christensen,J.M., Henriksen,T., Nielsen,N,H. and Menne,T., Anal,Chim.Acta,403,265,(2000)
- Kaya.I. and Incekara ,N., J. Turkish Weed Sci., 3, 56 (2000).
- Weight,L.M.,Jalobes,P. and Noakes,T.D.,’Dietary iron deficiency and anemia’,Brit,J.of Nutri.,68,253-260,(1992)
- Barceloux,G.D., Clin Taxicol. 37, 239, (1999)
- Apagar J., Ann.Rev.Nutr.,5,43 (1985)
- Lima-Hermes,M., Pereira.B. and Bechara,E.J.H., Xenobiotica, 21, 1085, (1991).
This work is licensed under a Creative Commons Attribution 4.0 International License.