Dr hab Tomasz Hura
Department of Ecophysiology
(+48) 12 4253301 (wew./ext. 65)
t.hura@ifr-pan.edu.pl
Publications
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- Hura T.
- Hura K.
- Ostrowska A.
- Urban K.
- Toward resilient agriculture and environmental protection: The role of cell wall-bound phenolics.
- 2023.
- Journal of Plant Physiology, 287: 54020.
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- Urban K.
- Hura T.
- Zastosowanie inhibitorów amoniakoliazy L-fenyloalaniny w badaniach ekofizjologii roślin.
- 2023.
- Postępy Biochemii, 69: 11-17.
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- Ostrowska A.
- Hura K.
- Hura T.
- Different patterns of the photosynthetic apparatus recovery during early rehydration following drought stress in two types of intergeneric hybrid of triticale.
- 2023.
- Environmental and Experimental Botany, 214: 105475.
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- Hura T.
- Hura K.
- Ostrowska A.
- Drought-stress induced physiological and molecular changes in plants 2.0.
- 2023.
- International Journal of Molecular Sciences, 24: 1773.
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- Hura T.
- Hura K.
- Dziurka K.
- Ostrowska A.
- Urban K.
- Cell dehydration of intergeneric hybrid induces subgenome-related specific responses.
- 2023.
- Physiologia Plantarum, 175: e13855.
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- Ostrowska A.
- Dziurka M.
- Hura K.
- Hura T.
- A delay in the senescence during a rehydration following soil drought is a precondition for limiting yield loss in triticale.
- 2023.
- International Agrophysics, 37: 69–78.
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- Grzesiak M.
- Hura T.
- Maksymowicz A.
- Dziurka K.
- Rut G.
- Rzepka A.
- Grzesiak S.
- Effect of soil drought on growth and yield of maize (Zea mays L.) hybrids grown under compacted soil.
- 2023.
- Journal of Agronomy and Crop Science, 209: 300-315.
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- Hura T.
- Hura K.
- Ostrowska A.
- Gadzinowska J.
- Urban K.
- Pawłowska B.
- The role of invasive plant species in drought resilience in agriculture: The case of sweet briar (Rosa rubiginosa L.).
- 2023.
- Journal of Experimental Botany, 74: 2799–2810 .
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- Hura T.
- Hura K.
- Sviriz M.
- Rouco C.
- Ostrowska A.
- Gadzinowska J.
- Urban K.
- Pawłowska B.
- Physiological and molecular features predispose native and invasive populations of sweet briar (Rosa rubiginosa L.) to colonization and restoration of drought degraded environments.
- 2022.
- Perspectives in Plant Ecology, Evolution and Systematics, 56: 125690.
-
- Hura T.
- Hura K.
- Ostrowska A.
- Urban K.
- Non-rolling flag leaves use an effective mechanism to reduce water loss and light-induced damage under drought stress.
- 2022.
- Annals of Botany, 130: 393–408.
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 -
2018/31/B/NZ9/00298,
Structural and functional characteristics of loci determining the level of cell wall phenols under conditions of water stress in triticale. -
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 -
NN310 778 640,
Winter hardiness QTL location in triticale (× Triticosecale Wittm.) -
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 -
480/N-COST/2009/0,
Determination of polyamines and other osmoprotectants in stimulation of resistance of wheat to osmotic stress
EDUCATION
1992-1997: Department of Chemistry Jagiellonian University;
1997: master degree in chemistry, specialization in biological chemistry;
2002: doctor degree at Faculty of Agriculture and Economics of Agricultural Academy in Kraków;
2012: habilitation in agricultural sciences, Agricultural University of Kraków.
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SCHOLARSHIPS
2004-2006: holder of CropStress fellowship (EU project), 2004-2005 (6 months), 2005-2006 (5 months), at the Plant Breeding Institute, University of Hohenheim, Stuttgart, Germany.
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RESEARCH INTERESTS
Plant stress physiology - drought and rehydration (triticale, Rosa rubiginosa L.).
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EU PROJECTS
2003-2006: Centre of Research on the Biology of Plants Subjected to Environmental Stress in Sustainable Agricultural Production, CropStress-projekt EU (QLAM-2001-00424). Realization of Task 1, Work Package 1. Twinning with Plant Breeding Institute, Univer sity of Hohenheim. Group of dr. Eva Bauer.
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AWARDS
2009: collective award of the 5th Division of Agricultural, Forestry and Veterinary Sciences of the Polish Academy of Sciences for studies concerning physiological and biochemical adaptactions to drought stress in maize and triticale.
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