Effect of Sucrose on Growth and Stress Status of Castanea sativa x C. crenata Shoots Cultured in Liquid Medium

• Published in: Plants (Basel) Vol. 11; no. 7; p. 965
• Main Authors: Gago, Diego, Bernal, María Ángeles, Sánchez, Conchi, Aldrey, Anxela, Cuenca, Beatriz, Christie, Colin Bruce, Vidal, Nieves
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 01.04.2022; MDPI
• Subjects: Acclimation; Acclimatization; Adaptation; Antioxidants; Biodiversity; Bioreactors; Carbon; Carbon dioxide; Castanea crenata; Castanea sativa; Chestnut; Climate change; continuous immersion; Explants; Genotypes; Humidity; Immersion; Laboratories; Light intensity; Luminous intensity; Micropropagation; Monosaccharides; Phenols; photoautotrophy; photosynthesis; Physiology; Plant propagation; Propagation; Propagules; Rooting; Shoots; Submerging; Sucrose; temporary immersion; Ventilation; Europe; temporary immersion; continuous immersion; bioreactors; chestnut; photoautotrophy; photosynthesis
• ISSN: 2223-7747; 2223-7747
• DOI: 10.3390/plants11070965

Current breeding programs aim to increase the number of ink-tolerant chestnut trees using vegetative propagation of selected genotypes. However, the commercial vegetative propagation of chestnut species is still a bottleneck for the forest industry, mainly due to problems in the rooting and acclimation of propagules. This study aimed to explore the potential benefits of decreasing sucrose supplementation during chestnut micropropagation. Explants were cultured with high light intensity and CO -enriched air in temporary or continuous immersion bioreactors and with different sucrose supplementation to evaluate the impact of these treatments on growth, rooting and physiological status (monosaccharide content, soluble phenolics and antioxidant activity). The proliferation and rooting performance of shoots cultured by continuous immersion decreased sharply with sucrose concentrations lower than 1%, whereas shoots cultured by temporary immersion grew and rooted successfully with 0.5% sucrose. These results suggest this system is appropriate to culture chestnut with low sucrose concentration and to explore photoautotrophic propagation of this species.