Early Exposure to Ethylene Modifies Shoot Development and Increases Sucrose Accumulation Rate in Sugarcane

Autor: Edwina Mills, Annathurai Gnanasambandam, Graham D. Bonnett, Barrie Fong Chong
Rok vydání: 2009
Předmět:
Zdroj: Journal of Plant Growth Regulation. 29:149-163
ISSN: 1435-8107
0721-7595
DOI: 10.1007/s00344-009-9118-3
Popis: Sugarcane varieties (Saccharum spp. hybrids) that accumulate high levels of sucrose at the start of the harvest season are of considerable commercial interest. Our understanding of the factors that contribute to early sucrose accumulation in these varieties is limited. In this study we used the plant hormone ethylene to investigate the relationship between growth and early sucrose accumulation in sugarcane. The sugarcane variety KQ228Open image in new window was exposed to a low concentration of the ethylene-forming compound 2-chloroethylphosphonic acid (CEPA) for a prolonged duration commencing from shoot emergence. The changes in sucrose accumulation and plant growth were investigated. Results from two glasshouse experiments revealed that the CEPA-treated plants accumulated a significantly higher amount of sucrose in their primary culm 2 and 3½ months post-germination. The treated plants had taller primary culms with many smaller internodes, smaller leaves, and a higher photosynthetic rate. Despite producing smaller internodes, treated culms were comparable in fresh weight and volume to the controls due to the compensating effect of faster internode formation. We identified three factors that may have contributed to the early accumulation of more sucrose in the treated culm: (1) the specific leaf area of young leaves was greater indicating efficient diversion of photoassimilate to sink tissue, (2) internode formation was initiated earlier, and (3) internodes continued to form at a faster rate. Consequently, a greater proportion of the internodes in the treated sugarcane matured earlier and began filling with sucrose sooner. The higher reducing sugar level in the apical region of the culm probably contributed to faster internode development. This coincided with elevated vacuolar and cell wall acid invertase gene expression that increased sucrose turnover in the vacuole and increased apoplastic uptake of reducing sugars. These findings extend our understanding of how some sugarcane varieties can naturally accumulate a high level of sucrose early in the season.
Databáze: OpenAIRE