November 27, 2024
Naser Askari

Naser Askari

Academic rank: Associate professor
Address:
Education: PhD. in -
Phone: 09131979492
Faculty:

Research

Title
Far-red spectrum leads to enhanced in vitro microtuberzation in potato (Solanum tuberosum cv. Sante)
Type Article
Keywords
Solanum tuberosum · Tissue culture · Microtubers · Photoperiod · Sugar · Starch
Researchers Afarideh Reisi, Naser Askari, Mohammad Sadat-Hosseini, Bahareh Parsamotlagh, رReza Ghahramani

Abstract

Potato is an important crop in terms of its nutritional value, cost-effective production, versatile utilization, and starch pro- duction. To produce disease-free potato starting material, the production of microtubers in vitro is a viable solution. The process of tuberization is a multifaceted physiological phenomenon that is regulated by a multitude of factors, including environmental conditions, nitrogen availability, plant growth regulators (PGRs), genetic makeup, nutrient availability, photoperiodic, temperature, explant source, potato cultivar, and sucrose. In this study, we evaluated the impact of diverse light qualities and photoperiods on in vitro microtuberzation of potato single node explant. Based on our finding, in com- parison with white (W: control), the inclusion of the far-red wavelength in a red-blue light (RBF) in prolonged photoperiod significantly increased both tuberization percentage (18%) and tuberization degree (60%) in Sante® cultivar. Additionally, in comparison with W light at 16 h photoperiod, the application of RBF led to significant increment in various param- eters, such as explant fresh weight (23%), microtuber diameter (40%), microtuber number (47%), and microtuber fresh weight (121%), microtuber dry weight (166%), and microtuber yield (FW and DW; 227%). Similarly, the utilization of the far-red spectrum in combination with the red-blue spectrum resulted in a 27% increase in protein content compared to W (control).