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Macro and Trace Elements in Barley (Hordeum vulgare L.) Breeds in Latvia Depending on Variety, Environment, and Agricultural Practice

, LLC, CRC Press. 534 pp. Kabata-Pendias, A., Mukherjee, A.B. (2007). Trace Elements from Soil to Human . Springer-Verlag, Berlin. 550 pp. Kan, A. (2015). Characterization of the fatty acid and mineral composition of selected cereal cultivars from Turkey. Rec. Nat. Prod. J., 9 (1), 124–134. Korkmaz, K., Kara, S. M., Ozkutlu, F., Gul, V. (2010). Monitoring of heavy metals and selected micronutrients in hempseeds from north-western Turkey. Afr. J. Agricult. Res., 5 , 463–467. Kumpiene, J., Lagerkvist, A., Naurice, C. (2008). Stabilization

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Mineral Nutrition of Young Ash in Latvia

REFERENCES Aksoy, A., Demirezen, D. (2006). Fraxinus excelsior as a biomonitor of heavy metal pollution. Pol. J. Environ. Stud., 15 (1), 27–33. Alriksson, A., Eriksson, H. M. (1998). Variation in mineral nutrient and C distribution in the soil and vegetation compartments of five temperate tree species in NE Sweden. For. Ecol. Manag ., 108 , 261–273. Augusto, L., Ranger, J., Binkley, D., Rothe, A. (2002). Impact of several common tree species of European temperate forests on soil fertility. Ann. For. Sci ., 59 , 233–253. Balsberg

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Assimilation of Selenium, Copper, and Zinc in Rye Malt

. Annu. Rev. Plant Physiol. Mol. Biol., 51 , 401–432. Titov, A. F., Talanova, V. V., Kaznina, N. M., Laidinen, G. F. (2007). The Resistance of Plants to Heavy Metals [Титов, А. Ф., Таланова, В. В., Казнина, Н. М., Лайдинен, Г. Ф. Устойчивость растений к тяжелым металлам ]. Karelskii Scientific Centre of Russian Academy of Sciences, Petrozavodsk. 172 pp. (in Russian). Wang, Y., Wang, X., Wong, Y. (2012). Proteomics analysis reveals multiple regulatory mechanisms in response to selenium in rice. J. Proteomics , 75 (6), 1849–1866. Właúniewski, S

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Macro-Elements and Trace Elements in Cereal Grains Cultivated in Latvia

). Hattori, H., Chino, M. (2001). Growth, cadmium, and zinc contents of wheat grown on various soils enriched with cadmium and zinc. Devel. Plant Soil Sci., 92, 462-463. Kan, A. (2015). Characterizaton of the fatty acid and mineral composition of selected cereal cultivars from Turkey. Rec. Nat. Prod. J., 9 (1), 124-134. Kashian, S., Fathivand, A. A. (2015). Estimated daily intake of Fe, Cu, Ca and Zn through common cereals in Tehran, Iran. Food Chem., 176, 193-196. Klavins, M., Vircavs, M. (2001). Metals in sediments of

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Sea Buckthorn Vegetative Parts – A Good Source of Bioactive Compounds

., Hettiarachchy, N. S. (2011). Review: Green tea and grape seed extracts - Potential applications in food safety and quality. Food Res. Int., 44 , 827-839. Popescu, M., Dune, A., Ivopol, G., Ionescu, D. (2010). Powders and extracts of plants as an interesting source of bioavailable minerals. A focus upon the mineral content of certain agricultural soils. In: Proceeding of the International Conference on New Research in Food and Tourism - BIOATLAS 2010 , 28-30 May 2010 (pp. 96-99). Transilvania University of Brasov, Romania. Poiana, M. A

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Sediment quality of the ecoregion Engure, Gulf of Riga, assessed by using ecotoxicity tests and biomarker responses

Netherlands Continental Shelf and the North Sea. Prepared by Tak, van der C. OSPAR Commission. 27 pp. Anonymous (2010). Hazardous substances in the Baltic Sea-an integrated thematic assessment of hazardous substances in the Baltic Sea. Balt. Sea Environ. Proc., 120B, 1-119. Barda, I., Purina, I., Rimsa, E., Balode, M. (2014). Seasonal dynamics of biomarkers in infaunal clam Macoma balthica from the Gulf of Riga (Baltic Sea). J. Mar. Syst., 1, 150-156. Bat, L. (1998). Influence of sediment on heavy metal uptake by the

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