The risk element uptake by chamomile (Matricaria recutita (L.) Rauschert) growing in four different soils

Száková, J.; Dziaková, M.; Kozáková, A.; Tlustoš, P.

doi:10.24425/122298

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Tytuł artykułu

The risk element uptake by chamomile (Matricaria recutita (L.) Rauschert) growing in four different soils

Autorzy

Száková J. , Dziaková M. , Kozáková A. , Tlustoš P.

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DOI

10.24425/122298

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Języki publikacji

Abstrakty

German chamomile (Matricaria recutita (L.) Rauschert) belongs to the plants with a high tolerance to toxic elements. The ability of chamomile to accumulate risk elements was tested in a pot experiment in which four soils contaminated by different levels of arsenic (As), cadmium (Cd), lead (Pb), and zinc (Zn), differing in their physicochemical parameters, were used. The element mobility in the soils was affected predominantly by the cation exchange capacity (CEC) of the soils. Whereas As, Pb, and Zn were retained in roots, Cd showed good ability to translocate to the shoots, including anthodia, even in extremely Cd-contaminated soil without symptoms of phytotoxicity. The bioaccumulation factor for Cd calculated as the ratio of element content in the plant and the soil was the highest among the investigated elements. Between 5.5 and 35% of the total Cd was released to infusion, and its extractability decreased with increasing Cd content in anthodia. The essential oil composition suggested an alteration of the abundance of the individual compounds. However, no detectable contents of risk elements were found in the oil. Chamomile can be recommended as a suitable alternative crop for risk element-contaminated soils tested within this experiment, but only for production of essential oil.

Słowa kluczowe

soil-plant transfer plant uptake contaminated soil essential oil infusion

Wydawca

Institute of Environmental Engineering, Polish Academy of Sciences

Czasopismo

Archives of Environmental Protection

Rocznik

2018

Tom

Vol. 44, no. 4

Strony

12--21

Opis fizyczny

Bibliogr. 57 poz., tab., wykr.

Twórcy

autor

Száková J.

szakova@af.czu.cz

Czech University of Life Sciences, Czech Republic

autor

Dziaková M.

Czech University of Life Sciences, Czech Republic

autor

Kozáková A.

Institute of Microbiology of the Czech Academy of Sciences, Czech Republic

autor

Tlustoš P.

Czech University of Life Sciences, Czech Republic

Bibliografia

1. Adams, R. (2001). Identification of essential oil components by gas chromatography/ quadrupole mass spectrometry, Allured publishing Corporation, Carol Stream, USA 2001.
2. Adriano, D.C. (2001). Trace elements in terrestrial environments: Biogeochemistry, bioavailability, and risks of metals, 2nd Edition, Springer-Verlag, New York 2001.
3. Alloway, B.J. (1990). Heavy metals in soil, J. Wiley & Sons, New York 1990.
4. Anonymous (2016). Public notice No. 153/2016 about the conditions for the protection of the agricultural soil quality, Legal code of The Czech Republic, pp. 2692-2699.
5. Anonymous (2007). Czech Ministry of Agriculture, The case report „Medicinal, aromatic, and spice crops”.
6. Başgel, S. & Erdemoglu, S.B. (2006). Determination of mineral and trace elements in some medicinal herbs and their infusions consumed in Turkey, Science of the Total Environment, 359, 1-3, pp. 82-89.
7. Berglund, T., Lindström, A., Aghelpasand, H., Stattin, E. & Ohlsson, A.B. (2016). Protection of spruce seedlings against pine weevil attacks by treatment of seeds or seedlings with nicotinamide, nicotinic acid and jasmonic acid, Forestry, 89, 2, pp. 127-135.
8. Borůvka, L., Huan Wei, C., Kozák, J. & Kristoufková, S. (1996). Heavy contamination of soil with cadmium, lead and zinc in the alluvium of the Litavka river, Rostlinná Vyroba, 42, 12, pp. 543-550.
9. Borůvka, L., Kozák, J. & Kristoufková, S. (1997). Heavy metal accumulation in plants grown in heavily polluted soils, Folia Microbiologica, 42, 5, pp. 524-526.
10. Carrara Vulcano, I.R., Silveira, J.N. & Alvarez-Leite, E.M. (2008). Lead and cadmium levels in tea traded in the metropolitan area of Belo Horizonte, Revista Brasileira de Ciencias Farmaceuticas, 44, 3, pp. 425-431.
11. Chand, S., Pandey, A. & Patra, D.D. (2012). Influence of vermicompost on dry matter yield and uptake of Ni and Cd by chamomile (Matricaria chamomilla) in Ni- and Cd-polluted soil, Water, Air and Soil Pollution, 223, 5, pp. 2257-2262.
12. Cheng, H.H. & Mulla, D.J. (1999). The soil environment, In: Bioremediation of Contaminated Soils, Adriano, D.C., Bollag, J.M., Frankenberger Jr., W.T. & Sims, R.C. (Eds.), Madison, Wisconsin USA 1999.
13. Chizzola, R., Michitsch, H. & Franz, C. (2003). Monitoring of metallic micronutrients and heavy metals in herbs, spices and medicinal -plants from Austria, European Food Research and Technology, 216, 5, pp. 407-411
14. Chizzola, R., Michitsch, H. & Mitteregger, U.S. (2008). Extractability of selected mineral and trace elements in infusions of chamomile, International Journal of Food Sciences and Nutrition, 59, 6, pp. 451-456.
15. Formisano, C., Delfine, S., Oliviero, F., Tenore, G.C., Rigano, D. & Senatore, F. (2015). Correlation among environmental factors, chemical composition and antioxidative properties of essential oil and extracts of chamomile (Matricaria chamomilla L.) collected in Molise (South-central Italy), Industrial Crops and Products, 63, pp. 256-263.
16. Grejtovsky, A., Markusová, K. & Nováková, L. (2008). Lead uptake by Matricaria chamomilla L., Plant, Soil and Environment, 54, 2, pp. 47-54.
17. ISO 11260. (1994). Standard of Soil Quality — Determination of Effective Cation Exchange Capacity and Base Saturation Level Using Barium Chloride Solution. International Organization for Standardization Geneva 1994.
18. Iyengar, S.S., Martens, D.C. & Miller, W.P. (1981). Distribution and plant availability of soil zinc fraction, Soil Science Society of America Journal, 45, 4, pp. 735-739.
19. Kabata-Pendias, A. & Pendias, H. (2001). Trace Elements in Soils and Plants, Third ed. CRC Press, Boca Raton 2001.
20. Kaličanin, B. & Velimirović, D. (2013). The content of lead in herbal drugs and tea samples, Central European Journal of Biology, 8, 2, pp. 178-185.
21. King, L.D. (1988). Effect of selected soil properties on cadmium content of tobacco, Journal of Environmental Quality, 17, 2, pp. 251-255.
22. Kovačik, J., Gruz, J., Klejdus, B., Stork, F. & Hedbavny, J. (2012). Accumulation of metals and selected nutritional parameters in the field-grown chamomile anthodia, Food Chemistry, 131, 1, pp. 55-62.
23. Masarovičová, E., Král’ová, K. & Kummerova, M. (2010). Principles of classification of medicinal plants as hyperaccumulators or excluders, Acta Physiologiae Plantarum, 32, 5, pp. 823-829.
24. McKay, D.L. & Blumberg, J.B. (2006). A review of the bioactivity and potential health benefits of chamomile tea (Matricaria recutita L.). Phytotherapy Research, 20, 7, pp. 519-530.
25. Mehlich, A. (1984). Mehlich 3 Soil Test Extractant: A modification of Mehlich 2 Extractant, Communications in Soil Science and Plant Analysis, 15, 12, pp. 1409-1416.
26. Meloun, M. & Militky, J. (2004). Statistical analysis of the experimental data, Academia, Praha 2004. (in Czech)
27. Mihaljev, Z., Zivkov-Balos, M., Cupic, Z. & Jaksic, S. (2014). Levels of some microelements and essential heavy metals in herbal teas in Serbia, Acta Poloniae Pharmaceutica, 71, 3, pp. 385-391.
28. Miholová, D., Mader, P., Száková, J., Slámová, A. & Svatos, Z. (1993). Czechoslovakian biological certified reference materials and their use in the analytical quality assurance system in a trace element laboratory, Fresenius’Journal of Analytical Chemistry, 345, 2-4, pp. 256-260.
29. Mosleh, Z., Salehi, M.H. & Rafieiolhossaini, M. (2013). Effect of different soil series and manure application on agro- -morphological characteristics, essential oil and chamazulene content of German chamomile, Journal of Essential Oil Bearing Plants, 16, 6, pp. 730-739.
30. Nasiri, Y, Zehtab-Salmasi, S., Nasrullahzadeh, S., Najafi, N. & Ghassemi-Golezani, K. (2010). Effects of foliar application of micronutrients (Fe and Zn) on flower yield and essential oil of chamomile (Matricaria chamomilla L.). Journal of Medicinal Plant Research, 4, 17, pp. 1733-1737.
31. Novozamsky, J., Lexmond, T.M. & Houba, V.J.G. (1993). A single extraction procedure of soil for evaluation of uptake of some heavy metals in plants, International Journal of Environmental Analytical Chemistry, 51, 1-4, pp. 47-58.
32. Orav, A., Raal, A. & Arak, E. (2010). Content and composition of the essential oil of Chamomilla recutita (L.) Rauschert from some European countries, Natural Product Research, 24, 1, pp. 48-55.
33. Pavlovič, A., Masarovičová, E., Král’ová, K. & Kubová, J. (2006). Response of chamomile plants (Matricaria recutita L.) to cadmium treatment, Bulletin of Environmental Contamination and Toxicology, 77, 5, pp. 763-771.
34. Petö, A., Lehotai, N., Lozano-Juste, J., León, J., Tari, I., Erdei, L. & Kolbert, Z. (2011). Involvement of nitric oxide and auxin in signal transduction of copper-induced morphological responses in Arabidopsis seedlings, Annals of Botany, 108, 3, pp. 449-457.
35. Prokop’ev, I.A., Filippova, G.V., Shein, A.A. & Gabyshev, D.V. (2014). Impact of urban anthropogenic pollution on seed production, morphological and biochemical characteristics of chamomile, Matricaria chamomila L., Russian Journal of Ecology, 45, 1, pp. 18-23.
36. Pytlakowska, K., Kita, A., Janoska, P., Połowniak, M. & Kozik, V. (2012). Multi-element analysis of mineral and trace elements in medicinal herbs and their infusions, Food Chemistry, 135, 2, pp. 494-501.
37. Quevauviller, P., Ure, A., Muntau, H. & Griepink, B. (1993). Improvement of analytical measurements within the BCR - program - Single and sequential extraction procedures applied to soil and sediment analysis, International Journal of Environmental Analytical Chemistry, 51, 1-4, pp. 129-134.
38. Raal, A., Orav, A., Pussa, T., Valner, C., Malmiste, B. & Arak, E. (2012). Content of essential oil, terpenoids and polyphenols in commercial chamomile (Chamomilla recutita L. Rauschert) teas from different countries, Food Chemistry, 131, 2, pp. 632-638
39. Ross, S.M. (1994). Toxic Metals in Soil-Plant Systems, John Willey & Sons, New York 1994.
40. Ruzičková, P., Száková, J., Havlík, J. & Tlustos, P. (2015). The effect of soil risk element contamination level on the element contents in Ocimum basilicum L., Archives of Environmental Protection, 41, 2, pp. 47-53.
41. Sastre, J., Hernández, E., Rodríguez, R., Alcobé, X, Vidal, M. & Rauret, G. (2004). Use of sorption and extraction tests to predict the dynamics of the interaction of trace elements in agricultural soils contaminated by a mine tailing accident, Science of The Total Environment, 329, 1-3, pp. 261-281.
42. Sauerbeck, D. & Lübben, S. (1996) The impact of municipal waste on soil, soil biota and plants, Forschungszentrum Julich Gmbh, Germany 1996. (in German)
43. Schwartz, C., Gérard, E., Perronnet, K. & Morel, J.L. (2001). Measurement of in situ phytoextraction of zinc by spontaneous metallophytes growing on a formed smelter site, Science of The Total Environment, 279, 1-3, pp. 215-221.
44. Sims, J.R. & Haby, V.A. (1971). Simplified colorimetric determination of soil organic matter, Soil Science, 112, 2, pp. 137-141.
45. Srivastava, J.K., Shankar, E. & Gupta, S. (2010). Chamomile: A herbal medicine of the past with a bright future (Review), Molecular Medicine Reports, 3, 6, pp. 895-901.
46. Stancheva, I., Geneva, M., Hristozkova, M., Markovska, Y. & Salamon, I. (2010). Antioxidant capacity of sage grown on heavy metal-polluted soil, Russian Journal of Plant Physiology, 57, 6, pp. 799-805.
47. Street, R., Száková, J., Drábek, O. & Mládková, L. (2006). The status of micronutrients (Cu, Fe, Mn, Zn) in tea and tea infusions in selected samples imported to the Czech Republic, Czech Journal of Food Science, 24, 2, pp. 62-71.
48. Száková, J., Tlustos, P., Balík, J., Pavlíková, D. & Vanek, V. (1999). The sequential analytical procedure as a tool for evaluation of As, Cd and Zn mobility in soil, Fresenius ’ Journal of Analytical Chemistry, 363, 5-6, pp. 594-595.
49. Száková, J., Tlustos, P., Balík, J., Pavlíková, D. & Balíková, M. (2000). Efficiency of extractants to release As, Cd, and Zn from main soil compartments, Analysis, 28, 9, pp. 808-812.
50. Száková, J., Tlustos, P., Gössler, W., Frková, Z. & Najmanová, J. (2009). Mobility of arsenic and its compounds in soil and soil solution: The effect of soil pretreatment and extraction methods, Journal of Hazardous Materials, 172, 2-3, pp. 1244-1251.
51. Tokalioğlu, Ş., Kartal, Ş. & Birol, G. (2003). Application of a three- -stage sequential extraction procedure for the determination of extractable metal contents in highway soils, Turkish Journal of Chemistry, 27, 3, pp. 333-346.
52. Tokalioğlu, Ş. 2012. Determination of trace elements in commonly consumed medicinal herbs by ICP-MS and multivariate analysis, Food Chemistry, 134, 4, pp. 2504-2508.
53. Voyslavov, T., Georgieva, S., Arpadjan, S. &, Tsekova, K. (2013). Phytoavailability assessment of cadmium and lead in polluted soils and accumulation by Matricaria chamomilla (chamomile), Biotechnology & Biotechnological Equipment, 27, 4, pp. 3939-3943.
54. WHO (2005) National policy on traditional medicine and regulations of herbal medicines, WHO, Geneva 2005.
55. Zheljazkov, V.D., Craker, L.E. & Xing, B. (2006). Effects of Cd, Pb, and Cu on growth and essential oil contents in dill, peppermint, and basil, Environmental and Experimental Botany, 58, 1, pp. 9-16.
56. Zheljazkov, V.D., Craker, L.E., Xing, B., Nielsen, N.E. & Wilcox, A. (2008a). Aromatic plant production on metal contaminated soils, Science of the Total Environment, 395, 2, pp. 51-62.
57. Zheljazkov, V.D., Jeliazkova, E.A., Kovacheva, N. & Dzhurmanski, A. (2008b). Metal uptake by medicinal plant species grown in soils contaminated by a smelter, Environmental and Experimental Botany, 64, 3, pp. 207-216.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

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Bibliografia

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