The development of hermaphrodite cultivars of kiwifruit (Actinidia deliciosa) to overcome dioecism is a priority for all breeding programmes, worldwide. If successful, the number of pollinators in the orchard could be reduced, allowing more space for reproductive vines. Hermaphroditism and the expression of self-compatibility were studied in A. deliciosa, using the new kiwifruit cultivar, 'Tsechelidis', as a model. This plant material was chosen for investigation as its female flowers produced viable pollen. The aim of the present study was to investigate the expression and nature of self-compatibility in 'Tsechelidis' and to evaluate its potential for breeding purposes. The expression of self-compatibility in 'Tsechelidis', between years, was investigated by controlled self-pollination of female flowers in the field and by microscopic studies on pollen viability in the laboratory. The commercial cultivar 'Hayward' and the pollinator 'Matua' were used as controls. Controlled self-pollination in the field confirmed that 'Tsechelidis' exhibited a degree of hermaphroditism and self-compatibility. Its flowers produced viable pollen and could set fruit of an acceptable size and quality after self-pollination, compared to open-pollinated fruit. The average fruit set percentage for 'Tsechelidis' was 34%, and ranked from 20% to 60% per vine, while the corresponding rate for 'Hayward' was only 4%. Microscopic studies on 'Tsechelidis' pollen revealed variations in pollen viability between different vines, which were even greater between different flowers on the same vine, ranging, in some cases, from 0% (absolutely sterile) to 70% (significantly fertile) per flower. Female control 'Hayward' vines were found to be practically sterile (0%), while male control 'Matua' vines were almost 100% fertile. The nature of self-compatibility in 'Tsechelidis' was investigated further by molecular analysis using the sex-linked sequence characterised amplified region (SCAR) markers, SmX, SmY, and SmY1, and by single nucleotide polymorphism (SNP) analysis. Hermaphroditism in 'Tsechelidis' was related to sex expression, as observed by SNP analysis, but complete genome mapping would be required to fully understand the mechanisms involved and to exploit this new genetic material for breeding purposes.

• 出版日期2016-1