Dr hab Tomasz Hura
Associate Professors
Department of Ecophysiology
(+48) 12 4253301 (wew./ext. 58)
t.hura@ifr-pan.edu.pl
Department of Ecophysiology
(+48) 12 4253301 (wew./ext. 58)
t.hura@ifr-pan.edu.pl
Drought stress • plant phenolics • photosynthetic apparatus • chlorophyll fluorescence • triticale
Publications
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- Ostrowska A.
- Biesaga-Kościelniak J.
- Grzesiak M.
- Hura T.
- Physiological responses of spring wheat to 5-aminolevulinic acid under Water stress applied at seedling stage.
- 2019.
- Cereal Research Communications 47(1): 32–41.
-
- Hura T.
- Katarzyna Hura
- Ostrowska A.
- Gadzinowska J.
- Grzesiak M.
- Dziurka K.
- Dubas E.
- Rieske iron-sulfur protein of cytochrome-b6f is involved in plant recovery after drought stress.
- 2018.
- Environmental and Experimental Botany.
-
- Grzesiak M.
- Hura T.
- Grzesiak S.
- Kaczanowska K.
- Szczyrek P.
- Influence of nitrogen deficiency or excess on a root system structure of maize and triticale seedlings grown under low and high soil density.
- 2018.
- Journal of Agronomy and Crop Science 2018: 196–208.
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- Gołębiowska-Pikania G.J
- Kopeć P.
- Surówka E.
- Janowiak F.
- Krzewska M.
- Dubas E.
- Nowicka A.
- Kasprzyk J.
- Ostrowska A.
- Malaga S.
- Hura T.
- Żur I.
- Changes in protein abundance and activity induced by drought during generative development of winter barley (Hordeum vulgare L.).
- 2017.
- Journal of Proteomics 169: 73-86.
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- Grzesiak M.
- Hura K.
- Jurczyk B.
- Hura T.
- Rut G.
- Szczyrek P.
- Grzesiak S.
- Physiological markers of stress susceptibility in maize and triticale under different soil compactions and/or soil water contents.
- 2017.
- Journal of Plant Interactions 12: 355–372.
Projects
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2018/29/B/NZ9/01510,
Changes in the intensity of selected physiological, biochemical and molecular processes caused by the simultaneous effect of soil compaction stress and soil drought in individual maize hybrids differing in the degree of sensitivity to these stresses -
MRiRW, nr 26,
Identification of factors which determine drought and freezing tolerance in barley (Hordeum vulgare L.) -
PBS1/A8/1/2012,
The innovative system of selection of barley and triticale based on the latest achievements fenomics and genomics - Task 7, Task 8 -
N N310 782540,
Physiological, biochemical and morphological responses triticale and corn on the level of stress caused by different soil compaction, and the shortage or excess of water in the soil -
2011/01/B/NZ9/00019,
Studies on the biochemical basics of molecular adaptation of the photosynthetic apparatus to soil drought at different growth stages of triticale
