关键词: 黄条金刚竹, 干旱胁迫, 叶片含水量, 叶片水势, 光合作用参数, 叶绿素荧光参数

Abstract: A pot experiment was conducted to study the variations of Pleioblastus kongosanensis f. aureostriaus plant morphology, leaf water content (LWC), leaf
water potential (LWP), photosynthetic parameters, chlorophyll fluorescence parameters, and soil water content (SWC) under natural drought stress, as well as the relationships between these variations and environmental factors. On the 17th day under the stress, the P. kongosanensis presented damaged symptom. Its leaves dehydrated, drooped, and wrap-formed. On the 43rd day, the aboveground part of the plant died from dehydration. When the plant was re-watered for 10 days, the chlorophyll fluorescence parameters had no significant differences with those on the 43rd day under the stress. The SWC decreased significantly in 0-21 d of the stress, and the LWP and LWC dropped rapidly and significantly after 17 d and 29 d, respectively. With the increase of drought stress, the leaf transpiration rate (T_r) and stomatal conductance (g_s) had a persistent decline, photosynthetic rate (P_n) had a greater fluctuation, and instantaneous water use efficiency (PWUE) decreased after an initial increase. After 17 d drought stress, the limiting factor of P_n was from stomatal to non-stomatal, and the actual photosynthetic efficiency (Φ_PSⅡ) declined significantly; after 25 d, the photosynthetic organ was damaged, and the maximum photochemical efficiency of PSⅡ (F_v/F_m) and non-photochemical quenching (q_N) changed significantly from 0.64 to -0.11 and from 0.79 to 0.33, respectively. The T_r,g_s, and PWUE had close correlations with LWP; the P_n, T_r, and g_s were sensitive to air relative humidity (RH); and the g_s was the main factor causing the diurnal variations of photosynthetic parameters. It was suggested that P. kongosanensis could grow well on the soil with relative moisture content ≥12% and drought duration less than 25 d. 

Key words: Pleioblastus kongosanensis f. aureostriaus, drought stress, leaf water content, leaf water potential, photosynthetic parameter, chlorophyll fluorescence parameter