减氮补水对小麦高产群体光合性能及产量的影响

doi:10.13287/j.1001-9332.201603.006

摘要/Abstract

摘要： 在大田条件下,设自然降水(W₁)、适量补水(W₂,拔节后土壤相对含水量维持在70%±5%)、充足补水(W₃,拔节后土壤相对含水量维持在85%±5%)3个水分处理和不施氮(N₁)、减氮(N₂,195 kg N·hm^-2)、高氮((N₃,270 kg N·hm^-2)3种氮肥水平,研究了减氮补水对小麦高产群体光照环境、光合性能和产量构成的影响.结果表明: 减氮补水(N₂W₂)处理在灌浆期明显改善了群体的光照环境,距冠层顶部20～30 cm处的光合有效辐射(PAR)较高氮补水(N₃W₂、N₃W₃)处理提高34.5%,透光率提高10.8%;N₂W₂处理孕穗期叶面积指数最高,灌浆期下降速率最慢,高值(大于7.6)持续期较高氮和无氮处理延长3～4 d,光合势平均提高9.7%;减氮补水(N₂W₂、N₂W₃)处理灌浆期旗叶的光合速率仍较高,但与N₃W₂处理差异不显著.N₂W₂处理旗叶的表观量子效率达0.101 μmol CO₂·m^-2·s^-1、P_n维持在27.692 μmol CO₂·m^-2·s^-1,光补偿点(LCP)较低,表现出较高的光合生产力;籽粒产量以N₂W₂处理最高.

Abstract: A field experiment was conducted to study the effects of reduced nitrogen application and supplemental irrigation on the light environment, photosynthetic characteristics and yield components in high-yield wheat population. The treatments included three irrigation schedules [no irrigation (W₁), medium irrigation (W₂, the soil relative water content of 70%±5% after jointing stage), well-irrigation (W₃, the soil relative water content of 85%±5% after jointing stage)] and three nitrogen application levels [no nitrogen (N₁), reduced nitrogen (N₂,195 kg N·hm^-2), high nitrogen (N₃, 270 kg N·hm^-2)]. The results indicated that the N₂W₂ treatment significantly improved the light environment of high-yield wheat populations, the photosynthetically active radiation (PAR) and the light transmission rate at the region of 20-30 cm canopy increased by 34.5% and 10.8%, respectively, when compared with the high nitrogen-supplementary water treatments (N₃W₂, N₃W₃). The leaf area index (LAI) of N₂W₂ was the highest among all treatments tested, which decreased slowly at grain filling stage, and the period with higher LAI value (>7.6) was 3-4 days longer than that of high-nitrogen and non-nitrogen treatments, as well as, the leaf photosynthetic potential was increased by 9.7% on average. Under the treatments of N₂W₂ and N₂W₃, the photosynthetic rate (P_n) was relatively higher at grain-filling stage, while the difference was not significant compared with the treatment of N₃W₂. The apparent quantum yield in flag leaves of N₂W₂ reached 0.1 μmol CO₂·m^-2·s^-1, P_n value kept on the level of 27.692 μmol CO₂·m^-2·s^-1 and the light compensation point (LCP) was relatively lower, which demonstrated a stronger photosynthetic productivity. The grain yield of N₂W₂ was the highest among all treatments.

张珂珂, 周苏玫, 张嫚, 石珊珊, 尹钧. 减氮补水对小麦高产群体光合性能及产量的影响[J]. 应用生态学报, 2016, 27(3): 863-872.

ZHANG Ke-ke, ZHOU Su-mei, ZHANG Man, SHI Shan-shan, YIN Jun. Effects of reduced nitrogen application and supplemental irrigation on photosynthetic characteristics and grain yield in high-yield populations of winter wheat[J]. Chinese Journal of Applied Ecology, 2016, 27(3): 863-872.

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