User menu

Somaclonal variation and improvement in chilling tolerance in rice: Changes in chilling-induced electrolyte leakage

Bibliographic reference Bertin, Pierre ; Bouharmont, Jules ; Kinet, JM.. Somaclonal variation and improvement in chilling tolerance in rice: Changes in chilling-induced electrolyte leakage. In: Plant Breeding, Vol. 115, no. 4, p. 268-272 (1996)
Permanent URL
  1. Adkins S. W., Shiraishi T., McComb J. A., Ratanopol S., Kupkanchanakul T., Armstrong L. J., Schultz A. L., Somaclonal variation in rice - Submergence tolerance and other agronomic characters, 10.1034/j.1399-3054.1990.800424.x
  2. Adkins S. W., Aust. J. Bot, 43, 201 (1995)
  3. Bertin P., Aust. J. Bot, 44, 91 (1995)
  4. Bertin P., Kinet J. M., Bouharmont J., Evaluation of chilling sensitivity in different rice varieties. Relationship between screening procedures applied during germination and vegetative growth, 10.1007/bf00034606
  5. Chang T. T., Climate and Rice, 87 (1976)
  6. Van De Dijk Siebren J., Maris Janien A., Van Hasselt Philip R., Genotypic Variation in Chilling-induced Leakage of Electrolytes from Leaf Tissue of Tomato (Lycopersicon esculentum Mill.) in Relation to Growth under Low-energy Conditions, 10.1016/s0176-1617(85)80120-6
  7. Furmanski R. J., Hort. Science, 14, 167 (1979)
  8. FUTSUHARA Yuzo, TORlYAMA Kunio, Genetic Studies on Cool Tolerance in Rice : III. Linkage relations between genes controlling cool tolerance and marker genes of NAGAO and TAKAHASHI, 10.1270/jsbbs1951.16.231
  9. Futsuhara Yuzo, Toriyama Kunio, GENETIC STUDIES ON COOL TOLERANCE IN RICE : IV. Direct and Indirect Effects of Selection for Cool Tolerance, 10.1270/jsbbs1951.19.286
  10. Futsuhara Yuzo, Toriyama Kunio, Genetic Studies on Cool Tolerance in Rice : V. Effectiveness of Individual and Line Selections for Cool Tolerance, 10.1270/jsbbs1951.21.181
  11. Hugly S., Plant Physiol, 99, 197 (1992)
  12. Kaw R. N., Rice Genetics, 593 (1986)
  13. King M. M., J. Am. Soc. Hortic. Sci, 108, 74 (1983)
  14. Kodama H., Plant Physiol, 105, 601 (1994)
  15. Li C. C., Crop. Sci, 20, 295 (1980)
  16. Lyons James M., Chilling Injury in Plants, 10.1146/annurev.pp.24.060173.002305
  17. Murata N., Ishizaki-Nishizawa O., Higashi S., Hayashi H., Tasaka Y., Nishida I., Genetically engineered alteration in the chilling sensitivity of plants, 10.1038/356710a0
  18. Murata T., Chilling Injury of Horticultural Crops, 201 (1990)
  19. Murata Takao, Tatsumi Yasuo, ION LEAKAGE IN CHILLED PLANT TISSUES, Low Temperature Stress in Crop Plants (1979) ISBN:9780124605602 p.141-151, 10.1016/b978-0-12-460560-2.50014-5
  20. Parkin K. L., Plant Physiol, 90, 1049 (1989)
  21. Patterson B. D., Aust. J. Plant Physiol, 3, 435 (1976)
  22. Paull R. E., Plant Physiol, 68, 149 (1981)
  23. Sharom M., Plant Physiol, 105, 305 (1994)
  24. Sun Z.-X., Biotechnology in Agriculture and Forestry 14, 329 (1991)
  25. Tatsumi Y., J. Jpn. Soc. Hortic. Sci, 47, 105 (1978)
  26. TORIYAMA Kunio, FUTSUHARA Yuzo, Genetic studies on cool tolerance in rice : I. Inheritance of cool tolerance, 10.1270/jsbbs1951.10.143
  27. V. Sint Jan, 1992 : Selectionin vitroet caracterisation de lignees de cellules et de plantesd'Oryza sativaL. tolerantes a l'aluminium . Ph.D. Thesis , Universite Catholique de Louvain, Belgium.
  28. Wolter F. P., EMBO J, 11, 4685 (1992)