定向种植对夏玉米群体内光环境及叶片光合性能的影响

为改善玉米群体内光环境,进一步提高玉米单株光合能力以获得高产,本研究以郑单958为试验材料,通过设置种子定向入土方式,研究了定向有序种植条件下群体内光分布特征,以及单株玉米穗位叶花后光合性能,并借助快速叶绿素荧光动力学曲线分析了与叶片光合性能有密切联系的光系统Ⅱ(PSⅡ)的性能特征.结果表明:叶片不同朝向显著改变夏玉米群体内穗位叶处光合有效辐射截获量,朝南处理(S)平均比朝北处理(N)高271.8%.不同朝向的叶片对高光与弱光的利用能力差异显著,朝南处理饱和光强下净光合速率(Pn)显著升高,表明其高光强利用能力显著提升;而朝北处理(N)表观量子效率(α)则随生育期推进显著增加,有利于叶片适应长期弱光环境.生育前期朝南处理PSⅡ电子供体侧和受体侧性能显著提高,进而改善了PSⅡ反应中心性能(PIABS)和荧光光化学淬灭系数(ψo),电子在电子传递链中转移效率(φEo)的提高增强了电子由PSⅡ向光系统Ⅰ(PSⅠ)的传递性能.生育前期叶片性能呈现出朝南>朝东>朝西>朝北的趋势.但成熟末期朝南处理对强光的利用效率显著降低,朝北处理在生育后期表现出较强的弱光利用能力,表观量子效率显著升高,花后40dPn与PSⅡ性能均表现为朝北>朝西>朝东>朝南的趋势.总体上,朝南与朝东处理群体内光环境改善显著,群体穗位层截获光合有效辐射较多,光合能力和干物质生产能力增强,有利于夏玉米产量提高.

Effects of directional planting on light environment and leaf photosynthesis of summer maize population

To improve light environment, photosynthetic capacity, and thus the yield of maize, the effects of directional planting on light distribution in canopy and photosynthetic characteristics of ear leaves, as well as the performance of PSII that closely related with photosynthetic characteristics and reflected by the rapid chlorophyll fluorescence kinetic curves were examined in Zhengdan 958 maize variety. The results showed that the orientation of leaves remarkably affected photosynthetically active radiation (PAR) interception of ear leaves, with PAR interception of ear leaves in southward treatment being 271.8% higher than that under northward treatment. The orientation of leaves affec-ted photosynthetic light use efficiency of ear leaves under high and low light conditions. The southward treatment increased net photosynthetic rate (P_n) under saturated light in ear leaves, indicating that the use efficiency to high light was enhanced in leaves of southward treatment. In contrast, the northward treatment increased the apparent quantum yield (α) of ear leaves, indicating leaves in southward treatment adapted the light-limited environment. During the early stage after anthesis, the performance of PSII electron donor side and electron acceptor side was significantly improved, and thus enhanced the performance of PSII reaction center (PI_ABS) and fluorescence photochemical quenching coefficient (Ψ_o) in ear leaves of southward treatment. The increase of quantum yield of electron transfer (φ_Eo) indicated the enhancement of transfer performance of electrons from photosystem Ⅱ (PSII) to photosystem Ⅰ (PSI) in leaves of southward treatment. The photosynthetic performance of ear leaves showed a trend of southward > eastward > westward > northward during the early stage after anthesis. Forty days after anthesis, the use efficiency to high light decreased in ear leaves of southward treatment, but the ear leaves of southward treatment showed high use efficiency to low light, which changed the trend of photosynthetic performance of ear leaves to northward > westward > eastward > southward. In summary, northward and eastward treatments improved the light distribution in canopy, the PAR interception of ear leaves, the capacity of photosynthesis and dry matter production, and consequently increased the yield of summer maize.