Heavy Metal Content Screening in Leaves and Flowers of Hypericum montbretii Spach. by Atomic Absorption Spectrometry

Yıl 2021, Cilt: 5 Sayı: 1, 33 - 39, 01.06.2021

İsmühan Potoğlu Erkara Asiye Berber Okan Sezer

https://doi.org/10.47947/ijnls.882414

Öz

Atomic absorption spectrometry facilitates the reliable determination of mineral content during pharmaceutical quality control of medicinal plants. In the present work, measurable amounts of Fe, Ca, Cu, K, Mg, Mn, Na and Zn were detected in the leaves and flowers of Hypericum montbretii Spach. through atomic absorption spectrometry. Mean heavy metal content in the flowers and leaves of H. montbretii Spach. was, in descending order, Ca > Mg > K > Mn> Na. Ca was present in higher concentrations in the leaves (10252.75 ppm) and flowers (7321.94 ppm) of titled plant. Our results reveal that flowers are less suitable as target plant parts for metal accumulation than leaves.

Anahtar Kelimeler

Hypericum montbretii Spach., heavy metals, atomic absorption spectrometry

Kaynakça

• Ajasa, A. M. O., Bello, M. O., İbrahim, A. O., Ogunwande, I. A., & Olawore, N. O. (2004). Heavy trace metals and macronutrients status in herbal plants of Nigeria. Food Chemistry, 85, 67-71.
• Andrew, A. S., Warren, A. J., Barchowsky, A., Temple, K. A., Klei, L., Soucy, N. V., O’Hara, K. A., & Hamilton, J. W. (2003). Genomic and Proteomic Profiling of Responses to Toxic Metals in Human Lung Cells. Environ. Health Perspect, 111(6), 825-835.
• Bertoli, A., Çırak, C., & Seyis, F. (2015). Hypericum origanifolium Willd.: The essential oil composition of a new valuable species. Industrial Crops and Products, 77, 676-679.
• Boran, R. (2018). Investigations of anti-aging potential of Hypericum origanifolium Willd. for skin care formulations. Industrial Crops and Products, 118, 290-295.
• Çırak, C., Radušienė, J., Ivanauskas, L., & Janulis, V. (2007). Variation of bioactive secondary metabolites in Hypericum origanifolium during its phenological cycle. Acta Physiologiae Plantarum, 29(3), 197-203.
• Dönmez, A. A. (2000). Hypericum L. – In: Flora of Turkey and the East Aegean Islands (Vol.11), (Güner, A, Özhatay N, Ekim, T., & Başer, K. H. C) (Eds.) Edinburgh: Edinburgh University Press, pp. 71-72.
• Duman, H., & Çakır-Dindar, E. G. (2020). Hypericum alacamdaglariense (Hypericaceae), a new species from Turkey. Phytotaxa, 470(2), 176-185.
• Gomez, M. R., Cerutti, S., Olsina, R. A., Silva, M. F., & Martinez, L. D. (2004). Metal content monitoring in Hypericum perforatum pharmaceutical derivatives by atomic absorption and emission spectrometry. Journal of Pharmaceutical and Biomedical Analysis, 34(3), 569-576.
• Gomez, M. R., Cerutti, S., Sombra, L. L., Silva, M. F., & Martinez, L. D. (2007). Determination of heavy metals for the quality control in argentinian herbal medicines by ETAAS and ICP-OES. Food and Chemical Toxicology, 45, 1060-1064.
• Güzey. G. (2007). Cytotoxic and Antiproliferative Effects of Hypericum perforatum, Hypericum montbretti and Hypericum origanifolium Species on A549, HeLa and NIH3T3 Cell Cultures. PhD. Thesis, Anadolu University Institute of Health Sciences, Eskişehir, Turkey.
• Güzey, G., Ibadova, S., Öztürk, Y., Öztürk, N., Maggi, F., Sagratini, G., Ricciutelli, M., & Vittori, S. (2011). Antiproliferative and Antioxidant Effects of Three Hypericum Species of Turkish Origin: H. perforatum, H. montbretii and H. origanifolium. Medicinal and Aromatic Plant Science and Biotechnology, 5(1), 91-99.
• Kadıoğlu, I., Mendil, D., Sarı, H., & Hasdemir, E. (2005). Determination of Heavy Metal Levels in Some Weeds Collected from Tokat, Turkey. Asian Journal of Chemistry, 17(1), 564-568.
• Kitanov, G. M., & Nedialkov, P. T. (1998). Mangiferin and isomangiferin in some Hypericum species. Biochemical Systematics and Ecology, 26, 647-653.
• Makovests'ka, O. Y. (1999). Research of biologically active substances of Hypericum L. species. Report VI. Sections olympia (Spach) Nyman, oampylopus Boiss. and origanifolia Stef. Farmatsevtichnii Zhurnal (Kiev), 6, 46-50.
• Mathis, C., & Ourisson, G. (1964). Chemo-taxonomic study of the genus Hypericum. III. The distribution of saturated hydrocarbons and monoterpenes from the essential oil of Hypericum. Phytochemistry, 3, 133-141.
• Özcan, M. M., & Akbulut, M. (2007). Estimation of minerals, nitrate and nitrite contents of medicinal and aromatic plants used as spices, condiments and herbal tea. Food Chemistry, 106, 852-858.
• Öztürk, N., Tunçel, M., & Potoğlu Erkara, İ. (2009). Phenolic compounds and antioxidant activities of some Hypericum species: A comparative study with H. perforatum. Pharmaceutical Biology, 47(2), 120-127.
• Que Hee, S. S., & Boyle, Jr. (1988). Simultaneous multielemental analysis of some environmental and biological samples by inductively coupled plasma atomic emission-spectrometry. Analytical Chemistry, 60(10), 1033-1042.
• Potoğlu Erkara, İ., & Tokur, S. (2004). Morphological and anatomical investigations on some Hypericum L., species growing naturally in and arround Eskişehir. Trakya University Journal of Natural Sciences 5, 97-105.
• Robson, N. K. B. (1967). Hypericum L. – In: Flora of Turkey and the East Aegean Islands (Vol. 2), (Davis, P. H.) (Ed.) Edinburgh: Edinburgh University Press., p. 355.
• Robson, N. K. B. (1977). Studies in the genus Hypericum L. (Guttiferae): 1. Infrageneric classification. Bulletin of the British Museum (Natural History) Botany, 5, 291-355.
• Robson, N. K. B. (1988). Hypericum L. – In: Flora of Turkey and the East Aegean Islands (Vol.10), (Davis, P. H., Mill, R. R., & Tan, K.) (Eds.) Edinburgh: Edinburgh University Press., p. 96.
• Robson, N. K. B. (2012). Studies in the genus Hypericum L. (Hypericaceae) 9. Addenda, corrigenda, keys, lists and general discussion. Phytotaxa, 72, 1-111.
• Sakar, M. K., Tamer, A. U., & Tokur, S. (1988). Antimicrobial activities of some Hypericum species growing in Turkey. Fitoterapia, 59, 49-52.
• Sakar, M. K., & Tamer, A. U. (1990). Antimicrobial activity of different extracts from some Hypericum species. Fitoterapia, 61, 464-466.
• Shaw, D., Leon, C., Kolev, S., & Murray, V. (1997). Traditional remedies and food supplements. A 5-year toxicological study (1991-1995). Drug Safety, 17, 342-356.
• Sirvent, T. M., Walker, L., Vance, N., & Gibson, D. M. (2002). Variation in hypericins from wild populations of Hypericum perforatum L. in the Pacific Northwest of the USA. Economic Botany, 56, 41-48.
• Yaşar, Ş. N., Can, Ö. D., Öztürk, N., Sagratini, G., Ricciutelli, M., Vittori, S., & Maggi, F. (2013). Central nervous system activities of Hypericum origanifolium extract via GABAergic and opioidergic mechanisms. Phytotherapy Research, 27(6), 877-884.
• Yaylacı, Ö. K., Özgişi, K., Sezer, O., Orhanoğlu, G., Öztürk, D., & Koyuncu, O. (2013). Anatomical studies and conservation status of rare endemic Hypericum sechmenii Ocak & Koyuncu (Sect: Adenosepalum) from Eskişehir-Turkey. Journal of Selcuk University Natural and Applied Science, 2(1), 1-11.