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Attila Sztrik
Researcher at University of Debrecen
Publications - 19
Citations - 914
Attila Sztrik is an academic researcher from University of Debrecen. The author has contributed to research in topics: Selenium & Selenate. The author has an hindex of 14, co-authored 19 publications receiving 672 citations.
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Journal ArticleDOI
Selenium and nano-selenium in plant nutrition
Hassan El-Ramady,Neama Abdalla,Hussein Taha,Tarek Alshaal,Ahmed El-Henawy,Salah E.-D. A. Faizy,Mohamed S. Shams,Sarwat Youssef,Tarek A. Shalaby,Yousry Bayoumi,Nevien Elhawat,Said A. Shehata,Attila Sztrik,József Prokisch,Miklós Fári,Éva Domokos-Szabolcsy,Elizabeth A. H. Pilon-Smits,Dirk Selmar,Silvia Haneklaus,Ewald Schnug +19 more
TL;DR: A review of the physiological importance of Se forms as well as different Se fertilizers for higher plants, especially plant growth, uptake, transport, and metabolism is presented in this article.
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Selenium and nano-selenium in agroecosystems
Hassan El-Ramady,Hassan El-Ramady,Éva Domokos-Szabolcsy,Neama Abdalla,Tarek Alshaal,Tarek A. Shalaby,Attila Sztrik,Jόszef Prokisch,Miklós Fári +8 more
TL;DR: A review of nano-selenium in agroecosystems can be found in this paper, where the authors focus on the production, biological effects, and use of nano selenium particles.
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Subacute toxicity of nano‐selenium compared to other selenium species in mice
Ilona Benko,Gábor Nagy,Bence Tanczos,Eva Ungvari,Attila Sztrik,Péter Eszenyi,József Prokisch,Gaspar Banfalvi +7 more
TL;DR: Toxicity was more pronounced when inorganic Se was applied than after subacute application of Sel‐Plex, nanoSe, or LactoMicroSe, and a comparison of lowest toxic doses of sodium selenite in mice and mallard indicates that birds are more resistant to Se than rodents.
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Elemental, Nano-Sized (100-500 nm) Selenium Production by Probiotic Lactic Acid Bacteria
TL;DR: In these experiments, nano-size (100-500nm) elemental selenium is produced by using probiotic yogurt bacteria in a fermentation procedure and the laboratory technology of product purification and recovery from bacteria is developed.
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Accumulation of Red Elemental Selenium Nanoparticles and Their Biological Effects in Nicotinia Tabacum
TL;DR: The data clearly indicated that red nanoSe was taken up by tobacco callus cultures and rooted tobacco plantlets, and inhibited both callus growth and root regeneration totally in 265–530 μM concentrations.