Putting Plant Physiology on the Map

1. Genetic approaches to plant physiology; 2. From phenotype via QTL to virtual phenotype in Microseris (Asteraceae): predictions from multilocus marker genotypes; 3. Genetic analysis of some flowering time and adaptive traits in wheat; 4. Introgression, tagging and expression of a leaf senescence gene in Festulolium; 5. Repeated sequence markers in pea (Pisum sativum); 6. B chromosomes: a physiological enigma; 7. Dissecting drought- and cold-tolerance traits in the Lolium-Festuca complex by introgression mapping; 8. Dehydrins: genes, proteins, and associations with phenotypic traits; 9. Introgression of salt-tolerance genes from Thinopyrum bessarabicum into wheat; 10. Quantitative trait loci associated with stomatal conductance, leaf rolling and heading date mapped in upland rice (Oryza sativa); 11. A cytogenetic approach to the improvement of aluminium tolerance in wheat; 12. Relationships between relative water content and growth parameters under water stress in barley: a QTL study; 13. Genetic analysis and physiology of a trait for enhanced K+/Na+ discrimination in wheat; 14. Looking for molecular and physiological markers of osmotic adjustment in sunflower; 15. Development of laboratory-based methods for assessing seedling thermotolerance in pearl millet; 16. Locating genotypes and genes for abiotic stress tolerance in barley: a strategy using maps, markers and the wild species; 17. Mapping physiological traits in barley; 18. Correlating molecular markers with physiological expression in Hordeum, a developing approach using stable isotopes; 19. Markers and mapping: we are all geneticists now.