This study was aimed to examine the responses of two mulberry genotypes (Monis alba L), which include a drought tolerant (DT) Selection-13 (S13) and a drought susceptible (DS) Kanva-2 (1(2) grown under elevated atmospheric CO2 concentration ([CO2]) of 550 mu mol mol(-1). Although both genotypes exhibited positive responses to elevated CO2, S13 showed higher light saturated photosynthetic rates (A') and apparent quantum efficiency (AQE), suggesting better Rubisco carboxylation. Increased water use efficiency (WUEi) in elevated CO2 grown S13 (ES13) was due to reduced stomatal conductance (g(s)) and transpiration (E). Elevated CO2 significantly increased chlorophyll a fluorescence characteristics including maximum quantum yield of primary photochemistry (F-V/F-M) and performance index (PIABS) suggesting an improved photosystem-II efficiency in both genotypes compared to their respective controls. Even though ES13 showed superior photosynthetic performance, accumulation of soluble and insoluble sugars (starch) were significantly low compared to elevated CO2 grown 1(2 (EK2), demonstrating higher sink capacity in ES13, which in turn resulted in better biomass yields. We conclude that S13 could be a potential genotype for mulberry-based short rotation forestry (SRF) to mitigate increasing atmospheric [CO2] as well as for the production of carbon neutral renewable bio-energy.

• 出版日期2015-10