Reporting period: 01.06. 2011 – 30.09. 2011

1. Element content of Fusarium-infected wheat genotypesSzeged – Timişoara axis for the safe food and feedSZETISA1HURO/0901/147/2.2.2 Reporting period: 01.06. 2011 – 30.09. 2011 Erdei László, Pető Andrea, Csiszár Jolán Department of Plant Biology University of Szeged 2nd Progress Report Meeting Szeged, 22-23 September, 2011 DisclaimerThe content of this page does not necessarily represent the official position of the European Union.

2. The wheat quality and consumer safety is threatened by Fusarium Head Blight (FHB) caused by i.e. Fusarium culmorum, F. graminearum and F. avenaceum. Diseased spikelets exhibit symptoms of premature bleaching shortly after infection. Hypothesis: Fusarium infection influences physiological, biochemical and membrane-transport characteristics of the plant resulting in altered mineral composition of the grain.

3. Visible effects of Fusarium sp. on wheat

4. I. Gatheringwheatears and flagleaves17. 06. 2010. Kecskéstelep, Cereal Research Nonprofit Kht.1. GK Mini Manó/Nobeokabozuwheatpopulation(Prof. Mesterházy Ákos ) Genetic mapping population with 350 members. The Fusarium resistance is a complex, quantitative character. The aim is to develop lines with several resistance genes. After crossing, the progenies will be inbred to increase the homogenity (recombinant inbred lines)

5. 1. GK Mini Manó/Nobeokabozu genetic mapping population (Prof. Mesterházy Ákos ) GK Mini Manó Arthur 71 / Sava // Rusalka / NS 171.2 /3/ F 30.74 Nobeokabozu: FHB resistant line A recombinant line from China: ‘WSY’, Wangshubai/Sumai3/Yangangfanzhou Resistant line to e.g. leaf rust

6. I. Gatheringwheatears and flagleaves 18. 05. 2011. Kecskéstelep, Cereal Research Nonprofit Kht.1. GK Mini Manó/Nobeokabozuwheatpopulation(Prof. Mesterházy Ákos ) The aim is to develop lines with several Fusarium resistance genes. After crossing, the progenies will be inbred to increase the homogenity (recombinant inbred lines)

7. I. Sampling before inoculation18. 05. 2011. 3-3 ears with stem were taken for ROS and NO detections The fluorescens investigations were done as soon as it was possible Determination of photosynthetic parameters on selected plants (Ferenc Horváth and Barnabás Wodala)

8. Timetable - Planned chronology • 1rst measurements and sampling: 05.18. • Inoculation: 05. 26. with Fusarium culmorum (Fc12551) and F. graminearum (Fg46.06 ) isolates • The bags were removed after 2 - 3 days • II. sampling after the symptomes will be developed (ca. after 3 weeks) • III. seeds will be harvested after another 3 weeks

9. Lines inoculated with two Fusarium species: Fusarium culmorum Fusarium graminearum

10. Line 561 – very resistant against Fusarium (Sumai3 from China) 1/a – inoculated with Fusarium culmorum 2/a – inoculated with Fusarium graminearum

11. Line 474 – earlier Fusarium resistant (alias 484), high Mn level in the ear 1/a – inoculated with Fusarium culmorum 2/a – inoculated with Fusarium graminearum

12. Line 501– earlier Fusarium resistant (alias 515), low Mn level in the ear 1/a – inoculated with Fusarium culmorum 2/a – inoculated with Fusarium graminearum

13. Line 483 – earlier Fusarium sensitive (alias 493), high Mn level in the ear 1/a – inoculated with Fusarium culmorum 2/a – inoculated with Fusarium graminearum

14. Line 488 – earlier Fusarium sensitive (alias 500), low Mn level in the ear 1/a – inoculated with Fusarium culmorum 2/a – inoculated with Fusarium graminearum

15. Accumulation of Cu, Mn, Fe, Zn mikroelements and K, Ca Mg macroelements in different plant parts Comparison of element concentrations in flag leaf, culm, green ear , and in the ripe ear in grains and husks Wheat lines: Sumai-3: resistant to Fusarium („line 561”) Lines regarded as resistant: „474”, „501” Lines regarded as sensitive: „483”, „488” To be observed: gradients of element within the upper parts of the plant

16. General gradient of Cu: from flag leaf to chaff High Mn Resistant Sensitive Low Mn

17. General gradient of Mn: from flag leaf to chaff High Mn Resistant Sensitive Low Mn

18. General gradient of Fe from flag leaf to chaff High Mn Resistant Sensitive Low Mn

19. General gradient of Zn: accumulation in grain High Mn Resistant Sensitive Low Mn

20. General gradient of K: accumulation in culm High Mn Resistant Sensitive Low Mn

21. General gradient of Ca: accumulation in chaff High Mn Resistant Sensitive Low Mn

22. General gradient of Mg: from flag leaf to chaff High Mn Resistant Sensitive Low Mn

23. Accumulation of Cu, Mn, Fe, Zn mikroelements and K, Ca Mg macroelements in different plant parts: Comparison of wheat lines and their responses to Fusarium inoculation • To be observed: • direction of transport (e.g. from schaff to grain, Cu, Zn) • Effects of inoculation

31. Conclusion Gradient s of element concentrations are different from flag leaf to the grain usually decerasing (Cu, Mn, Fe) but increasing for Zn only xylem transport, Ca (it is known fact), resulting in accumulation in the chaff accumulation in the tissue of the culm (K). Direction of transport (e.g. from schaff to grain, Cu, Zn) Effects of inoculation, maybe artefact:

32. Thank you for your attention and for the useful suggestions!!!