Chlorophyll fluorescence imaging in fruit plant breeding for resistance to dehydration and hyperthermia

The possibility of using chlorophyll fluorescence visualization in practical apple and apricot breeding is considered. A significant influence of water deficit and heat shock on the photosynthetic activity of leaves, estimated from their fluorescent images, is found. It is confirmed that the most sensitive indicator for detecting the degree of drought-induced depression of fruit plants is the effective quantum yield of photosystem II.

1. K. Maxwell, G. N. Johnson. J. Exp. Botany, 51 (2000) 659—668

2. N. R. Baker, E. Rosenqvist. J. Exp. Botany, 55 (2004) 1607—1621

3. M. H. Kalaji, V. N. Goltsev, K. Zuk-Golaszewska, M. Zivcak, M. Brestic. Chlorophyll Fluorescence Understanding Crop Performance - Basics and Applications Edition 1st Edition First Published2017 eBook Published 23 May 2017 Pub. location Boca Raton Imprint CRC Press, doi: https://doi.org/10.1201/9781315153605

4. L. Guidi, M. Landi, C. Penella, A. Calatayud. Ann. Bot. (Roma), N 6 (2016) 5—22

5. M. Kitajima, W. L. Butler. Biochim. Biophys. Acta, 376 (1975) 105—115

6. O. Bjorkman, B. Demmig. Planta, N 170 (1987) 489—504

7. B. Genty, J.-M. Briantais, N. R. Baker. Biochim. Biophys. Acta (BBA) - General Subjects, 990 (1989) 87—92

8. K. Rohacek. Photosynthetica, 40, N 1 (2002) 13—29

9. J. Burke. Plant Physiology, 143 (2007) 108—121

10. A. Oukarroum, S. E. Madidi, G. Schansker. J. Exp. Botany, 60 (2007) 438—446

11. Y. Tang, X. Wen, Q. Lu, Z. Yang, Z. Cheng, C. Lu. Plant Physiology, 143 (2007) 629—638

12. E. Janka, O. Korner, E. Rosenqvist, C.-O. Ottosen. Plant Physiol. Biochem., 67 (2013) 87—94

13. D. Sharma, S. Andersen, C. Ottosen, E. Rosenqvist. Plant Physiology, 153 (2014) 298—298

14. D. Epron. J. Exp. Botany, 48 (1997) 1835—1841

15. J. Flexas, M. J. Briantais, Z. Cerovic, H. Medrano, I. Moya. Remote Sens. Environ., 73 (2000) 283—270

16. K. Oxborough. J. Exp. Botany, 55 (2004) 1195—1205

17. E. Gorbe, A. Calatayud. Scientia Horticulturae, 138 (2012) 24—35

18. J. M. Da Silva. Applied Photosynthesis, New Progress (2016), doi: 10.5772/62391

19. R. P. Barbagallo, K. Oxborough, K. E. Pallett, N. R. Baker. Plant Physiology, 132 (2003) 485—493

20. N. S. Woo, M. R. Badger, B. J. Pogson. Plant Methods, 27, N 4 (2008) 1746—1811

21. D. J. Chen, K. Neumann, S. Friedel, B. Kilian, M. Chen, T. Altmann. Plant Sci., 26 (2014) 4636—4655, doi: 10.1105/tpc.114.129601

22. J. Yao, D. Sun, H. Cen, H. Xu, H. Weng, F. Yuan, Y. He. Plant Sci., 9 (2018) 603, doi: 10.3389/fpls.2018.00603

23. K. Omasa, K. L. Shimazaki, I. Aiga, W. Larcher, M. Onoe. Plant Physiology, 84 (1987) 748—752

24. P. A. Calatayud, E. Llovera, J. F. Bois, T. Lamaze. Photosynthetica, 38 (2000) 97—104

25. J. Bresson, F. Vasseur, M. Dauzat, G. Koch, C. Granier, D. Vile. Plant Methods, 11 (2015) 23, doi: 10.1186/s13007-015-0067-5

26. B. Ehlert, D. K. Hincha. Plant Methods, 4 (2008) 12

27. M. Zivcak, M. Brestic, K. Olsovska, P. Slamka. Plant Soil Environ., 54, N 4 (2008) 133—139

28. А. Н. Юшков, Н. В. Борзых, А. И. Бутенко. Журн. прикл. спектр., 83, № 2 (2016) 323—328 [A. N. Yushkov, N. V. Borzykh, A. I. Butenko. J. Appl. Spectr., 83, N 2 (2016) 302—306]

29. U. Schreiber. In: Chlorophyll a Fluorescence: A Signature of Photosynthesis, Ed. G. C. Papageorgiou, Govindjee, Springer, Dordrecht (2004) 279—319

30. В. Г. Леонченко, Р. П. Евсеева, Е. В. Жбанова, Т. А. Черенкова. Предварительный отбор перспективных генотипов плодовых растений на экологическую устойчивость и биохимическую ценность плодов, Мичуринск (2007)